PMID: 10503549-1 Sentence 0 The results indicate an overlap between the GENEXXX regulon and the GENEXXX regulon , and the physiological implications of this overlap are discussed . Parse 0 +--------------------------SUBJ:V_PASS-N--------------------------+ +---------------------COMP_of:N-N--------------------+ | +------------COMP_between:V-N-----------+ | +---------SUBJ:V_PASS-N---------+ +SUBJ:V-+--OBJ:V-N--+ +MOD_ATT+ +MOD_ATT+ +MOD_ATT:N-AD+----COMP_of:N-N---+ | | | | | | | | | | | | The results indicate an overlap between the GENEXXX regulon and the GENEXXX regulon , and the physiological implications of this overlap are discussed . SUBJ:V_PASS-N (discussed,implications) SUBJ:V-N (indicate,results) COMP_of:N-N (implications,overlap) MOD_ATT:N-N (regulon,GENEXXX) MOD_ATT:N-N (regulon,GENEXXX) SUBJ:V_PASS-N (discussed,regulon) OBJ:V-N (indicate,overlap) MOD_ATT:N-ADJ (implications,physiological) COMP_between:V-N (indicate,regulon) COMP_of:N-N (regulon,overlap) Parse 1 +------------------------COMP_between:V-N-----------------------+ +------------COMP_between:V-N-----------+ | +SUBJ:V-+--OBJ:V-N--+ +MOD_ATT+ +MOD_ATT+ +MOD_ATT:N-AD+----COMP_of:N-N---+ | | | | | | | | | | The results indicate an overlap between the GENEXXX regulon and the GENEXXX regulon , and the physiological implications of this overlap are discussed . SUBJ:V-N (indicate,results) MOD_ATT:N-N (regulon,GENEXXX) MOD_ATT:N-N (regulon,GENEXXX) MOD_ATT:N-ADJ (implications,physiological) COMP_between:V-N (indicate,regulon) OBJ:V-N (indicate,overlap) COMP_between:V-N (indicate,regulon) COMP_of:N-N (implications,overlap) Parse 2 +--------------------------SUBJ:V_PASS-N--------------------------+ +------------COMP_between:V-N-----------+ | +---------SUBJ:V_PASS-N---------+ +SUBJ:V-+--OBJ:V-N--+ +MOD_ATT+ +MOD_ATT+ +MOD_ATT:N-AD+----COMP_of:N-N---+ | | | | | | | | | | | | The results indicate an overlap between the GENEXXX regulon and the GENEXXX regulon , and the physiological implications of this overlap are discussed . SUBJ:V_PASS-N (discussed,implications) SUBJ:V-N (indicate,results) MOD_ATT:N-N (regulon,GENEXXX) COMP_of:N-N (implications,overlap) MOD_ATT:N-N (regulon,GENEXXX) OBJ:V-N (indicate,overlap) COMP_between:V-N (indicate,regulon) SUBJ:V_PASS-N (discussed,regulon) MOD_ATT:N-ADJ (implications,physiological) Parse 3 +--------------------------SUBJ:V_PASS-N--------------------------+ +---------------------COMP_of:N-N--------------------+ | +------COMP_between:N-N-----+ | +---------SUBJ:V_PASS-N---------+ +SUBJ:V-+--OBJ:V-N--+ +MOD_ATT+ +MOD_ATT+ +MOD_ATT:N-AD+----COMP_of:N-N---+ | | | | | | | | | | | | The results indicate an overlap between the GENEXXX regulon and the GENEXXX regulon , and the physiological implications of this overlap are discussed . SUBJ:V_PASS-N (discussed,implications) SUBJ:V-N (indicate,results) COMP_of:N-N (implications,overlap) MOD_ATT:N-N (regulon,GENEXXX) MOD_ATT:N-N (regulon,GENEXXX) SUBJ:V_PASS-N (discussed,regulon) MOD_ATT:N-ADJ (implications,physiological) OBJ:V-N (indicate,overlap) COMP_between:N-N (overlap,regulon) COMP_of:N-N (regulon,overlap) Parse 4 +----------------------------------------------------SUBJ:V_PASS-N----------------------------------------------------+ | +--------------------------SUBJ:V_PASS-N--------------------------+ | +---------------------COMP_of:N-N--------------------+ | +------COMP_between:N-N-----+ | +---------SUBJ:V_PASS-N---------+ +SUBJ:V-+ | +MOD_ATT+ +MOD_ATT+ +MOD_ATT:N-AD+----COMP_of:N-N---+ | | | | | | | | | | | | The results indicate an overlap between the GENEXXX regulon and the GENEXXX regulon , and the physiological implications of this overlap are discussed . SUBJ:V_PASS-N (discussed,implications) SUBJ:V-N (indicate,results) MOD_ATT:N-N (regulon,GENEXXX) COMP_of:N-N (implications,overlap) MOD_ATT:N-N (regulon,GENEXXX) SUBJ:V_PASS-N (discussed,regulon) COMP_between:N-N (overlap,regulon) SUBJ:V_PASS-N (discussed,overlap) MOD_ATT:N-ADJ (implications,physiological) COMP_of:N-N (regulon,overlap) Parse 5 +----------------------------------------------------SUBJ:V_PASS-N----------------------------------------------------+ +------------------COMP_between:N-N-----------------+ | +------COMP_between:N-N-----+ | +---------SUBJ:V_PASS-N---------+ +SUBJ:V-+ | +MOD_ATT+ +MOD_ATT+ +MOD_ATT:N-AD+----COMP_of:N-N---+ | | | | | | | | | | | | The results indicate an overlap between the GENEXXX regulon and the GENEXXX regulon , and the physiological implications of this overlap are discussed . SUBJ:V_PASS-N (discussed,implications) SUBJ:V-N (indicate,results) MOD_ATT:N-N (regulon,GENEXXX) COMP_of:N-N (implications,overlap) MOD_ATT:N-N (regulon,GENEXXX) COMP_between:N-N (overlap,regulon) SUBJ:V_PASS-N (discussed,overlap) MOD_ATT:N-ADJ (implications,physiological) COMP_between:N-N (overlap,regulon) Parse 6 +------------------COMP_between:N-N-----------------+ +------COMP_between:N-N-----+ | +SUBJ:V-+--OBJ:V-N--+ +MOD_ATT+ +MOD_ATT+ +MOD_ATT:N-AD+----COMP_of:N-N---+ | | | | | | | | | | The results indicate an overlap between the GENEXXX regulon and the GENEXXX regulon , and the physiological implications of this overlap are discussed . SUBJ:V-N (indicate,results) MOD_ATT:N-N (regulon,GENEXXX) MOD_ATT:N-N (regulon,GENEXXX) MOD_ATT:N-ADJ (implications,physiological) OBJ:V-N (indicate,overlap) COMP_between:N-N (overlap,regulon) COMP_of:N-N (implications,overlap) COMP_between:N-N (overlap,regulon) Parse 7 +--------------------------SUBJ:V_PASS-N--------------------------+ +------COMP_between:N-N-----+ | +---------SUBJ:V_PASS-N---------+ +SUBJ:V-+--OBJ:V-N--+ +MOD_ATT+ +MOD_ATT+ +MOD_ATT:N-AD+----COMP_of:N-N---+ | | | | | | | | | | | | The results indicate an overlap between the GENEXXX regulon and the GENEXXX regulon , and the physiological implications of this overlap are discussed . SUBJ:V_PASS-N (discussed,implications) SUBJ:V-N (indicate,results) MOD_ATT:N-N (regulon,GENEXXX) COMP_of:N-N (implications,overlap) MOD_ATT:N-N (regulon,GENEXXX) OBJ:V-N (indicate,overlap) COMP_between:N-N (overlap,regulon) SUBJ:V_PASS-N (discussed,regulon) MOD_ATT:N-ADJ (implications,physiological) Parse 8 +----------------------------------------------------SUBJ:V_PASS-N----------------------------------------------------+ | +--------------------------SUBJ:V_PASS-N--------------------------+ +------COMP_between:N-N-----+ | +---------SUBJ:V_PASS-N---------+ +SUBJ:V-+ | +MOD_ATT+ +MOD_ATT+ +MOD_ATT:N-AD+----COMP_of:N-N---+ | | | | | | | | | | | | The results indicate an overlap between the GENEXXX regulon and the GENEXXX regulon , and the physiological implications of this overlap are discussed . SUBJ:V_PASS-N (discussed,implications) SUBJ:V-N (indicate,results) MOD_ATT:N-N (regulon,GENEXXX) COMP_of:N-N (implications,overlap) SUBJ:V_PASS-N (discussed,overlap) MOD_ATT:N-N (regulon,GENEXXX) COMP_between:N-N (overlap,regulon) SUBJ:V_PASS-N (discussed,regulon) MOD_ATT:N-ADJ (implications,physiological) Parse 9 +----------------------------OBJ:V-N----------------------------+ | +------COMP_between:N-N-----+ | +SUBJ:V-+--OBJ:V-N--+ +MOD_ATT+ +MOD_ATT+ +MOD_ATT:N-AD+----COMP_of:N-N---+ | | | | | | | | | | The results indicate an overlap between the GENEXXX regulon and the GENEXXX regulon , and the physiological implications of this overlap are discussed . OBJ:V-N (indicate,regulon) SUBJ:V-N (indicate,results) MOD_ATT:N-N (regulon,GENEXXX) MOD_ATT:N-N (regulon,GENEXXX) MOD_ATT:N-ADJ (implications,physiological) OBJ:V-N (indicate,overlap) COMP_between:N-N (overlap,regulon) COMP_of:N-N (implications,overlap) Parse 10 +----------------------------------------------------SUBJ:V_PASS-N----------------------------------------------------+ +----------------------------COMP_between:N-N----------------------------+ | +------------------COMP_between:N-N-----------------+ | | +------COMP_between:N-N-----+ | | | +SUBJ:V-+--OBJ:V-N--+ +MOD_ATT+ +MOD_ATT+ | +----COMP_of:N-N---+ | | | | | | | | | | | | The results indicate an overlap between the GENEXXX regulon and the GENEXXX regulon , and the physiological implications of this overlap are discussed . SUBJ:V-N (indicate,results) COMP_of:N-N (implications,overlap) MOD_ATT:N-N (regulon,GENEXXX) COMP_between:N-N (overlap,physiological) OBJ:V-N (indicate,overlap) MOD_ATT:N-N (regulon,GENEXXX) COMP_between:N-N (overlap,regulon) SUBJ:V_PASS-N (discussed,overlap) COMP_between:N-N (overlap,regulon) PMID: 10524235-2 Sentence 1 The promoter strength displayed was in the order of GENEXXX > GENEXXX > GENEXXX P2 > GENEXXX P1 . Parse 0 +------------------COMP_of:N-N------------------+ | +-----------MOD_ATT:N-N----------+ | | | +-------MOD_ATT:N-ADJ-------+ | | | | +------MOD_ATT:N-N-----+ | | | | | +MOD_ATT:N-AD+ | | +----SUBJ:V-N----+ | | | | | +MOD_ATT+ | | +MOD_ATT:+SUBJ:V_PA+ +COMP_in:V-N+ | | | | | +MO+MOD_+MOD_+ | | | | | | | | | | | | | | The promoter strength displayed was in the order of GENEXXX > GENEXXX > GENEXXX P2 > GENEXXX P1 . MOD_ATT:N-N (strength,promoter) MOD_ATT:N-N (>,P2) MOD_ATT:N-ADJ (>,>) MOD_ATT:N-N (>,GENEXXX) COMP_in:V-N (was,order) MOD_ATT:N-N (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,>) MOD_ATT:N-N (GENEXXX,>) COMP_of:N-N (order,P1) SUBJ:V_PASS-N (displayed,strength) MOD_ATT:N-N (GENEXXX,GENEXXX) MOD_ATT:N-N (P1,GENEXXX) SUBJ:V-N (was,strength) Parse 1 +------------------COMP_of:N-N------------------+ | +-----------MOD_ATT:N-N----------+ | | | +-------MOD_ATT:N-ADJ-------+ | | | | +------MOD_ATT:N-N-----+ | +---------SUBJ:V-N--------+ | | | | +MOD_ATT:N-AD+ | | +------OBJ:V-N-----+ | | | | | | +MOD_ATT+ | | | +-SUBJ:V-N+ +COMP_in:V-N+ | | | | | +MO+MOD_+MOD_+ | | | | | | | | | | | | | | The promoter strength displayed was in the order of GENEXXX > GENEXXX > GENEXXX P2 > GENEXXX P1 . MOD_ATT:N-N (>,P2) MOD_ATT:N-ADJ (>,>) MOD_ATT:N-N (>,GENEXXX) SUBJ:V-N (was,promoter) COMP_in:V-N (was,order) SUBJ:V-N (displayed,strength) MOD_ATT:N-N (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,>) MOD_ATT:N-N (GENEXXX,>) COMP_of:N-N (order,P1) MOD_ATT:N-N (GENEXXX,GENEXXX) OBJ:V-N (displayed,promoter) MOD_ATT:N-N (P1,GENEXXX) Parse 2 +------------------COMP_of:N-N------------------+ | +-----------MOD_ATT:N-N----------+ | | | +-------MOD_ATT:N-ADJ-------+ | | | | +---MOD_ATT:N-N---+ | | | | | | +MOD_ATT:N-AD+ | | +----SUBJ:V-N----+ | | | | | +MOD_ATT+ | | +MOD_ATT:+SUBJ:V_PA+ +COMP_in:V-N+ | | | | | +MO+MOD_+MOD_+ | | | | | | | | | | | | | | The promoter strength displayed was in the order of GENEXXX > GENEXXX > GENEXXX P2 > GENEXXX P1 . MOD_ATT:N-N (strength,promoter) MOD_ATT:N-N (>,GENEXXX) MOD_ATT:N-ADJ (>,>) COMP_in:V-N (was,order) MOD_ATT:N-ADJ (GENEXXX,>) MOD_ATT:N-N (GENEXXX,>) COMP_of:N-N (order,P1) SUBJ:V_PASS-N (displayed,strength) MOD_ATT:N-N (>,P2) MOD_ATT:N-N (>,GENEXXX) MOD_ATT:N-N (GENEXXX,GENEXXX) MOD_ATT:N-N (P1,GENEXXX) SUBJ:V-N (was,strength) Parse 3 +------------------COMP_of:N-N------------------+ | +-----------MOD_ATT:N-N----------+ | | | +-------MOD_ATT:N-ADJ-------+ | | | | +---MOD_ATT:N-N---+ | | +---------SUBJ:V-N--------+ | | | | +MOD_ATT:N-AD+ | | +------OBJ:V-N-----+ | | | | | | +MOD_ATT+ | | | +-SUBJ:V-N+ +COMP_in:V-N+ | | | | | +MO+MOD_+MOD_+ | | | | | | | | | | | | | | The promoter strength displayed was in the order of GENEXXX > GENEXXX > GENEXXX P2 > GENEXXX P1 . MOD_ATT:N-N (>,GENEXXX) MOD_ATT:N-ADJ (>,>) SUBJ:V-N (was,promoter) COMP_in:V-N (was,order) SUBJ:V-N (displayed,strength) MOD_ATT:N-ADJ (GENEXXX,>) MOD_ATT:N-N (GENEXXX,>) COMP_of:N-N (order,P1) MOD_ATT:N-N (>,P2) MOD_ATT:N-N (>,GENEXXX) MOD_ATT:N-N (GENEXXX,GENEXXX) OBJ:V-N (displayed,promoter) MOD_ATT:N-N (P1,GENEXXX) PMID: 10779705-1 Sentence 2 The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . Parse 0 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+----------------------COMP_of:N-N---------------------+ +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ | +--COMP_upon:V-N--+ | +----MOD_ATT:N-N---+ +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_ATT:N-N (form,house-keeping) MOD_ATT:N-N (factor,transcription) MOD_POST:N-ADJ (properties,distinct) APPOS (GENEXXX,GENEXXX) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) COMP_of:N-N (properties,form) MOD_ATT:N-N (form,major) Parse 1 +----------------SUBJ:V-N---------------+ +---------------COMP_of:N-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+ +----------COMP_of:N-N----------+ | +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ | +--COMP_upon:V-N--+ | | +---MOD_ATT:N-ADJ--+ | +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_ATT:N-N (form,house-keeping) MOD_ATT:N-ADJ (form,major) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (those,form) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,GENEXXX) Parse 2 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+ +----------COMP_of:N-N----------+ +-------APPOS-------+ | +--COMP_upon:V-N--+ | | +----MOD_ATT:N-N---+ +-------APPOS-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_ATT:N-N (form,house-keeping) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) COMP_of:N-N (those,form) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (form,major) Parse 3 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+ +----------COMP_of:N-N----------+ +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ | +--COMP_upon:V-N--+ | | +---MOD_ATT:N-ADJ--+---------SUBJ:V-N--------+ +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+COMP_of:N+ +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (form,major) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_ATT:N-N (form,house-keeping) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) COMP_of:N-N (those,form) APPOS (GENEXXX,GENEXXX) Parse 4 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+----------------------COMP_of:N-N---------------------+ +-------APPOS-------+ | +--COMP_upon:V-N--+ | +----MOD_ATT:N-N---+ +--------------------APPOS-------------------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) OBJ:V-N (confers,properties) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_ATT:N-N (form,house-keeping) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) MOD_ATT:N-N (form,major) COMP_of:N-N (properties,form) Parse 5 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+ +-------APPOS-------+ | +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ +---------SUBJ:V-N--------+ +-------APPOS-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 6 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+ +-------APPOS-------+ | +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+---------COMP_of:N-N--------+ +-------APPOS-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_of:N-N (major,GENEXXX) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 7 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----------COMP_of:N-N----------+ +----MOD_ATT:N-ADJ----+ +------------APPOS------------+ +--COMP_upon:V-N--+ | | +---MOD_ATT:N-ADJ--+ +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (form,major) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_ATT:N-N (form,house-keeping) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) COMP_of:N-N (those,form) SUBJ:V-N (contains,GENEXXX) Parse 8 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+ +----------COMP_of:N-N----------+ +-------APPOS-------+ | +--COMP_upon:V-N--+ | | +---MOD_ATT:N-ADJ--+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (form,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_ATT:N-N (form,house-keeping) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) COMP_of:N-N (those,form) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) Parse 9 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ | +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+---------COMP_of:N-N--------+ +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_of:N-N (major,GENEXXX) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 10 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+----------------------COMP_of:N-N---------------------+ +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ +--COMP_upon:V-N--+ | +---MOD_ATT:N-ADJ--+ +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+ +--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (form,major) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_ATT:N-N (form,house-keeping) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) COMP_of:N-N (properties,form) Parse 11 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+----------------------COMP_of:N-N---------------------+ +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ | +--COMP_upon:V-N--+ | +----MOD_ATT:N-N---+ | +MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_ATT:N-N (form,house-keeping) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) MOD_ATT:N-N (form,major) COMP_of:N-N (properties,form) Parse 12 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+----------------------COMP_of:N-N---------------------+ +----MOD_ATT:N-ADJ----+ +------------APPOS------------+ +--COMP_upon:V-N--+ | +---MOD_ATT:N-ADJ--+---------SUBJ:V-N--------+ +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+COMP_of:N+ +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (form,major) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_ATT:N-N (form,house-keeping) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) COMP_from:ADJ-N (distinct,those) COMP_of:N-N (properties,form) Parse 13 +---------------------------COMP_of:N-N--------------------------+ +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----------COMP_of:N-N----------+ | +------------APPOS------------+ +--COMP_upon:V-N--+ | | +---MOD_ATT:N-ADJ--+ | +-------APPOS-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (properties,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_ATT:N-N (form,house-keeping) MOD_ATT:N-ADJ (form,major) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) COMP_of:N-N (those,form) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 14 +----------------SUBJ:V-N---------------+ +---------------------------COMP_of:N-N--------------------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+ +----------COMP_of:N-N----------+ | +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ | +--COMP_upon:V-N--+ | | +---MOD_ATT:N-ADJ--+ | +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (properties,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (confers,properties) MOD_ATT:N-ADJ (form,house-keeping) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_ATT:N-ADJ (form,major) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) COMP_of:N-N (those,form) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 15 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+ +-------APPOS-------+ | +--COMP_upon:V-N--+ | +---------COMP_of:N-N--------+ +-------APPOS-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_of:N-N (major,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,major) Parse 16 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ | +--COMP_upon:V-N--+ | +---------SUBJ:V-N--------+ +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,major) Parse 17 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ | +--COMP_upon:V-N--+ | +------------------SUBJ:V-N------------------+ +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) SUBJ:V-N (contains,major) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,major) Parse 18 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+ +-------APPOS-------+ | +--COMP_upon:V-N--+ | +-------SUBJ:V-N-------+ +--------------------APPOS-------------------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,those) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,major) Parse 19 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+ +-------APPOS-------+ | +--COMP_upon:V-N--+ | +---------------COMP_of:N-N---------------+ +-------APPOS-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,GENEXXX) COMP_of:N-N (those,major) Parse 20 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+ +------------------SUBJ:V-N------------------+ +-------APPOS-------+ | +--COMP_upon:V-N--+ | +---------COMP_of:N-N--------+ | +-------APPOS-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+ | +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_of:N-N (major,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) SUBJ:V-N (contains,major) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,major) Parse 21 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ | +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ +--------------------APPOS-------------------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 22 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----------COMP_of:N-N----------+ +----MOD_ATT:N-ADJ----+ +------------APPOS------------+ +--COMP_upon:V-N--+ | | +---MOD_ATT:N-ADJ--+ +--------------------APPOS-------------------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) MOD_ATT:N-ADJ (form,major) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_ATT:N-N (form,house-keeping) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,form) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) Parse 23 +---------------COMP_of:N-N---------------+ +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----------COMP_of:N-N----------+ | | +-------APPOS-------+ +--COMP_upon:V-N--+ | | +---MOD_ATT:N-ADJ--+ | +-------APPOS-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_ATT:N-N (form,house-keeping) MOD_ATT:N-ADJ (form,major) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (those,form) SUBJ:V-N (contains,GENEXXX) COMP_of:N-N (those,GENEXXX) Parse 24 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----------COMP_of:N-N----------+-------------------------APPOS------------------------+ +----MOD_ATT:N-ADJ----+ | +-------APPOS-------+ +--COMP_upon:V-N--+ | | +----MOD_ATT:N-N---+---------SUBJ:V-N--------+ | | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+COMP_of:N+ +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (form,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_ATT:N-N (form,house-keeping) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,form) MOD_ATT:N-N (form,major) Parse 25 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+---------------------------COMP_of:N-N--------------------------+ +-------APPOS-------+ | +--COMP_upon:V-N--+ | +-------SUBJ:V-N-------+ +--------------------APPOS-------------------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (properties,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (house-keeping,those) OBJ:V-N (confers,properties) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) COMP_of:N-N (those,major) Parse 26 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+----------------------COMP_of:N-N---------------------+-------------------------APPOS------------------------+ | +-------APPOS-------+ +--COMP_upon:V-N--+ | +----MOD_ATT:N-N---+---------SUBJ:V-N--------+ | +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+COMP_of:N+ +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (form,GENEXXX) OBJ:V-N (confers,properties) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_ATT:N-N (form,house-keeping) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) MOD_ATT:N-N (form,major) COMP_of:N-N (properties,form) Parse 27 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+----------------------COMP_of:N-N---------------------+-------------------------APPOS------------------------+ +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ | +--COMP_upon:V-N--+ | +---MOD_ATT:N-ADJ--+---------SUBJ:V-N--------+ | | +MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+COMP_of:N+ +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (form,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (confers,properties) MOD_ATT:N-ADJ (form,house-keeping) MOD_ATT:N-ADJ (form,major) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) COMP_of:N-N (properties,form) Parse 28 +---------------------------COMP_of:N-N--------------------------+ +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+----------------------COMP_of:N-N---------------------+ | +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ +--COMP_upon:V-N--+ | +----MOD_ATT:N-N---+ | +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+ +--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . MOD_ATT:N-N (form,major) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) COMP_of:N-N (properties,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_ATT:N-N (form,house-keeping) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (properties,form) Parse 29 +---------------------------COMP_of:N-N--------------------------+ +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+----------------------COMP_of:N-N---------------------+ | +----MOD_ATT:N-ADJ----+ +------------APPOS------------+ +--COMP_upon:V-N--+ | +---MOD_ATT:N-ADJ--+ +--------------------APPOS-------------------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) COMP_of:N-N (properties,GENEXXX) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_ATT:N-N (form,house-keeping) MOD_ATT:N-ADJ (form,major) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (properties,form) Parse 30 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +------------APPOS------------+ +--COMP_upon:V-N--+ | +-------APPOS-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) SUBJ:V-N (contains,GENEXXX) COMP_of:N-N (those,major) Parse 31 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ | +--COMP_upon:V-N--+ | | +MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,major) Parse 32 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ +--COMP_upon:V-N--+ | +---------COMP_of:N-N--------+ +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+ +--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (major,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,major) Parse 33 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +------------APPOS------------+ +--COMP_upon:V-N--+ | +---------COMP_of:N-N--------+ +-------APPOS-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_of:N-N (major,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_of:N-N (those,major) Parse 34 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ | +--COMP_upon:V-N--+ | +---------COMP_of:N-N--------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_of:N-N (major,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,major) Parse 35 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+ +-------APPOS-------+ | +--COMP_upon:V-N--+ | +---------COMP_of:N-N--------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_of:N-N (major,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,major) Parse 36 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+ +-------APPOS-------+ | +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 37 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +------------APPOS------------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ +-------APPOS-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) SUBJ:V-N (contains,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 38 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ | +-------APPOS-------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ +-------APPOS-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) SUBJ:V-N (contains,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 39 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ +---------SUBJ:V-N--------+ +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+ +--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 40 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ | +--COMP_upon:V-N--+ | +-------SUBJ:V-N-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,those) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,major) Parse 41 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+ +-------APPOS-------+ | +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+---------COMP_of:N-N--------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_of:N-N (major,GENEXXX) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 42 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----------COMP_of:N-N----------+ | +-------APPOS-------+ +--COMP_upon:V-N--+ | | +----MOD_ATT:N-N---+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_ATT:N-N (form,house-keeping) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) COMP_of:N-N (those,form) SUBJ:V-N (contains,GENEXXX) MOD_ATT:N-N (form,major) Parse 43 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----------COMP_of:N-N----------+ +----MOD_ATT:N-ADJ----+ +------------APPOS------------+ +--COMP_upon:V-N--+ | | +---MOD_ATT:N-ADJ--+ +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) MOD_ATT:N-ADJ (form,house-keeping) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (form,major) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) COMP_of:N-N (those,form) SUBJ:V-N (contains,GENEXXX) Parse 44 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+ +-------APPOS-------+ | +--COMP_upon:V-N--+ | +---------------COMP_of:N-N---------------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,GENEXXX) COMP_of:N-N (those,major) Parse 45 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ | +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+---------COMP_of:N-N--------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_of:N-N (major,GENEXXX) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 46 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+----------------------COMP_of:N-N---------------------+ | +-------APPOS-------+ +--COMP_upon:V-N--+ | +---MOD_ATT:N-ADJ--+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (form,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_ATT:N-N (form,house-keeping) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_from:ADJ-N (distinct,those) COMP_of:N-N (properties,form) Parse 47 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----------COMP_of:N-N----------+ +----MOD_ATT:N-ADJ----+ | +-------APPOS-------+ +--COMP_upon:V-N--+ | | +----MOD_ATT:N-N---+---------SUBJ:V-N--------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+COMP_of:N+ +-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_ATT:N-N (form,house-keeping) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) COMP_of:N-N (those,form) MOD_ATT:N-N (form,major) Parse 48 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +------------------SUBJ:V-N------------------+ | +-------APPOS-------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+---------COMP_of:N-N--------+ | +-------APPOS-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+ | +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (major,GENEXXX) OBJ:V-N (confers,properties) SUBJ:V-N (contains,major) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 49 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ | +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+------------------SUBJ:V-N------------------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) OBJ:V-N (confers,properties) SUBJ:V-N (contains,major) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 50 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+ +---------------COMP_of:N-N---------------+ +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ | +--COMP_upon:V-N--+ | +-------SUBJ:V-N-------+ | | +MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) SUBJ:V-N (house-keeping,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,GENEXXX) COMP_of:N-N (those,major) Parse 51 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+-------------------SUBJ:V-N------------------+ +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ | +---------SUBJ:V-N--------+ +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+ +--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,properties) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 52 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+---------------------------COMP_of:N-N--------------------------+ +-------APPOS-------+ | +--COMP_upon:V-N--+ | +-------SUBJ:V-N-------+ | +-------APPOS-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (properties,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (house-keeping,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) COMP_of:N-N (those,major) Parse 53 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+---------------------------COMP_of:N-N--------------------------+ +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ | +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ | | +MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (properties,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) Parse 54 +----------------SUBJ:V-N---------------+ +---------------------------COMP_of:N-N--------------------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+ +----------COMP_of:N-N----------+ | +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ | +--COMP_upon:V-N--+ | | +---MOD_ATT:N-ADJ--+ | | +MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (properties,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (confers,properties) MOD_ATT:N-ADJ (form,house-keeping) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_ATT:N-ADJ (form,major) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) COMP_of:N-N (those,form) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 55 +---------------------------COMP_of:N-N--------------------------+ +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----------COMP_of:N-N----------+ | +----MOD_ATT:N-ADJ----+ +------------APPOS------------+ +--COMP_upon:V-N--+ | | +----MOD_ATT:N-N---+ | | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (properties,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (form,major) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_ATT:N-N (form,house-keeping) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) COMP_of:N-N (those,form) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 56 +---------------------------COMP_of:N-N--------------------------+ +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----------COMP_of:N-N----------+ | | +-------APPOS-------+ +--COMP_upon:V-N--+ | | +----MOD_ATT:N-N---+ | +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (properties,GENEXXX) MOD_ATT:N-N (form,major) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_ATT:N-N (form,house-keeping) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) COMP_of:N-N (those,form) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 57 +---------------------------COMP_of:N-N--------------------------+ +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+----------------------COMP_of:N-N---------------------+ | +----MOD_ATT:N-ADJ----+ | +-------APPOS-------+ +--COMP_upon:V-N--+ | +----MOD_ATT:N-N---+ | | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . MOD_ATT:N-N (form,major) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (properties,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_ATT:N-N (form,house-keeping) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_of:N-N (properties,form) Parse 58 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +-------APPOS-------+ +--COMP_upon:V-N--+ | +-------APPOS-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ +--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,major) Parse 59 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ | +-------APPOS-------+ +--COMP_upon:V-N--+ | +---------SUBJ:V-N--------+ +-------APPOS-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) COMP_of:N-N (those,major) Parse 60 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ | +-------APPOS-------+ +--COMP_upon:V-N--+ | +---------COMP_of:N-N--------+ +-------APPOS-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (major,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_of:N-N (those,major) Parse 61 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+ +-------APPOS-------+ | +--COMP_upon:V-N--+ | +-------------------------APPOS------------------------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (form,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,major) Parse 62 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+ +-------APPOS-------+ | +--COMP_upon:V-N--+ | +---------COMP_of:N-N--------+--------------------APPOS-------------------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_of:N-N (major,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,major) Parse 63 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ | +--COMP_upon:V-N--+ | +------------------SUBJ:V-N------------------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) SUBJ:V-N (contains,major) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,major) Parse 64 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +------------APPOS------------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+---------COMP_of:N-N--------+ +-------APPOS-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_of:N-N (major,GENEXXX) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 65 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+ +------------------SUBJ:V-N------------------+ +-------APPOS-------+ | +--COMP_upon:V-N--+ | +---------COMP_of:N-N--------+ | +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+ | +-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_of:N-N (major,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) SUBJ:V-N (contains,major) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,major) Parse 66 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+---------COMP_of:N-N--------+--------------------APPOS-------------------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+ +--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (major,GENEXXX) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 67 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+ +------------------SUBJ:V-N------------------+ +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ | +--COMP_upon:V-N--+ | +---------COMP_of:N-N--------+ | +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+ | +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_of:N-N (major,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) SUBJ:V-N (contains,major) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,major) Parse 68 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----------COMP_of:N-N----------+ +----MOD_ATT:N-ADJ----+ +------------APPOS------------+ +--COMP_upon:V-N--+ | | +---MOD_ATT:N-ADJ--+ +--------------------APPOS-------------------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) MOD_ATT:N-ADJ (form,house-keeping) MOD_ATT:N-ADJ (form,major) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,form) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) Parse 69 +-----------------OBJ:V-N----------------+ +----------COMP_of:N-N----------+ +----MOD_ATT:N-ADJ----+ +----------------SUBJ:V-N---------------+--COMP_upon:V-N--+ | | +----MOD_ATT:N-N---+---------SUBJ:V-N--------+ +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+COMP_of:N+ +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_ATT:N-N (form,house-keeping) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) COMP_of:N-N (those,form) MOD_ATT:N-N (form,major) Parse 70 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ | +-------APPOS-------+ +--COMP_upon:V-N--+ | +---------------COMP_of:N-N---------------+--------------------APPOS-------------------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (confers,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,GENEXXX) COMP_of:N-N (those,major) Parse 71 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +-------------------------APPOS------------------------+ +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ +---------SUBJ:V-N--------+ | | +MOD_ATT:N+MOD_ATT+--APPOS--+ +--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (form,GENEXXX) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 72 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+----------------------COMP_of:N-N---------------------+ +------------APPOS------------+ +--COMP_upon:V-N--+ | +---MOD_ATT:N-ADJ--+ +-------APPOS-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) OBJ:V-N (confers,properties) MOD_ATT:N-ADJ (form,house-keeping) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (form,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_from:ADJ-N (distinct,those) COMP_of:N-N (properties,form) Parse 73 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +-------------------------APPOS------------------------+ | +-------APPOS-------+ +--COMP_upon:V-N--+ | +-------SUBJ:V-N-------+ +---------SUBJ:V-N--------+ | +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (form,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,those) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,major) Parse 74 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+ +------------------SUBJ:V-N------------------+ +-------APPOS-------+ | +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+---------COMP_of:N-N--------+ | +-------APPOS-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+ | +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_of:N-N (major,GENEXXX) OBJ:V-N (confers,properties) SUBJ:V-N (contains,major) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 75 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+ +-------------------------APPOS------------------------+ +-------APPOS-------+ | +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ +---------SUBJ:V-N--------+ | +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (form,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 76 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+-------------------SUBJ:V-N------------------+ +-------APPOS-------+ | +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ | +-------APPOS-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,properties) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 77 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+ +------------------SUBJ:V-N------------------+ +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ | +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+---------COMP_of:N-N--------+ | | +MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+ | +-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_of:N-N (major,GENEXXX) OBJ:V-N (confers,properties) SUBJ:V-N (contains,major) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 78 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+----------------------COMP_of:N-N---------------------+ +------------APPOS------------+ +--COMP_upon:V-N--+ | +---MOD_ATT:N-ADJ--+---------SUBJ:V-N--------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+COMP_of:N+ +-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (form,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_ATT:N-N (form,house-keeping) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) COMP_from:ADJ-N (distinct,those) COMP_of:N-N (properties,form) Parse 79 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+---------------------------COMP_of:N-N--------------------------+ +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ +--COMP_upon:V-N--+ | +-------SUBJ:V-N-------+ | +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+ +--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (properties,GENEXXX) SUBJ:V-N (house-keeping,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) COMP_of:N-N (those,major) Parse 80 +---------------COMP_of:N-N---------------+ +-----------------OBJ:V-N----------------+ +----------COMP_of:N-N----------+ | +----MOD_ATT:N-ADJ----+ +----------------SUBJ:V-N---------------+--COMP_upon:V-N--+ | | +----MOD_ATT:N-N---+ | +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) MOD_ATT:N-N (form,major) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_ATT:N-N (form,house-keeping) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (those,form) SUBJ:V-N (contains,GENEXXX) COMP_of:N-N (those,GENEXXX) Parse 81 +-----------------OBJ:V-N----------------+----------------------COMP_of:N-N---------------------+ +----MOD_ATT:N-ADJ----+ +----------------SUBJ:V-N---------------+--COMP_upon:V-N--+ | +---MOD_ATT:N-ADJ--+ +--------------------APPOS-------------------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . OBJ:V-N (confers,properties) MOD_ATT:N-ADJ (form,major) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_ATT:N-N (form,house-keeping) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) COMP_of:N-N (properties,form) Parse 82 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+-------------------SUBJ:V-N------------------+ +------------APPOS------------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ | +---------SUBJ:V-N--------+ +-------APPOS-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,properties) COMP_from:ADJ-N (distinct,those) Parse 83 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ +------------APPOS------------+ +--COMP_upon:V-N--+ +---------------------------COMP_of:N-N--------------------------+--------------------APPOS-------------------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (properties,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (confers,properties) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) COMP_of:N-N (those,major) Parse 84 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ | +-------APPOS-------+ +--COMP_upon:V-N--+ +---------------------------COMP_of:N-N--------------------------+--------------------APPOS-------------------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (properties,GENEXXX) OBJ:V-N (confers,properties) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (confers,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) COMP_of:N-N (those,major) Parse 85 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+-------------------SUBJ:V-N------------------+ +----MOD_ATT:N-ADJ----+ +------------APPOS------------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ | +--------------------APPOS-------------------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (house-keeping,properties) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 86 +---------------------------COMP_of:N-N--------------------------+ +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----------COMP_of:N-N----------+ | +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ +--COMP_upon:V-N--+ | | +----MOD_ATT:N-N---+ | | +MOD_ATT:N+MOD_ATT+--APPOS--+ +--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (properties,GENEXXX) MOD_ATT:N-N (form,major) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_ATT:N-N (form,house-keeping) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) COMP_of:N-N (those,form) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 87 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+ +-------------------------APPOS------------------------+ +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ | +--COMP_upon:V-N--+ +-------------------SUBJ:V-N------------------+ +---------SUBJ:V-N--------+ | | +MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (form,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (house-keeping,properties) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,major) Parse 88 +---------------------------COMP_of:N-N--------------------------+ +-----------------OBJ:V-N----------------+ +----------COMP_of:N-N----------+ | +----MOD_ATT:N-ADJ----+ +----------------SUBJ:V-N---------------+--COMP_upon:V-N--+ | | +----MOD_ATT:N-N---+ | +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (properties,GENEXXX) MOD_ATT:N-N (form,major) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_ATT:N-N (form,house-keeping) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) COMP_of:N-N (those,form) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 89 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+---------------------------COMP_of:N-N--------------------------+ +----MOD_ATT:N-ADJ----+ | +-------APPOS-------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ +--------------------APPOS-------------------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) COMP_of:N-N (properties,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (confers,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) Parse 90 +-----------------OBJ:V-N----------------+----------------------COMP_of:N-N---------------------+-------------------------APPOS------------------------+ +----MOD_ATT:N-ADJ----+ +----------------SUBJ:V-N---------------+--COMP_upon:V-N--+ | +---MOD_ATT:N-ADJ--+---------SUBJ:V-N--------+ | | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+COMP_of:N+ +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (form,GENEXXX) OBJ:V-N (confers,properties) MOD_ATT:N-ADJ (form,major) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_ATT:N-N (form,house-keeping) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) COMP_of:N-N (properties,form) Parse 91 +---------------------------COMP_of:N-N--------------------------+ +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+----------------------COMP_of:N-N---------------------+ | +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ +--COMP_upon:V-N--+ | +----MOD_ATT:N-N---+ | | +MOD_ATT:N+MOD_ATT+--APPOS--+ +--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . MOD_ATT:N-N (form,major) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (properties,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_ATT:N-N (form,house-keeping) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (properties,form) Parse 92 +---------------------------COMP_of:N-N--------------------------+ +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----------COMP_of:N-N----------+ | +------------APPOS------------+ +--COMP_upon:V-N--+ | | +---MOD_ATT:N-ADJ--+ +--------------------APPOS-------------------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (properties,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (confers,properties) MOD_ATT:N-ADJ (form,house-keeping) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_ATT:N-ADJ (form,major) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) COMP_of:N-N (those,form) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 93 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+---------------------------COMP_of:N-N--------------------------+ +----MOD_ATT:N-ADJ----+ | +-------APPOS-------+ +--COMP_upon:V-N--+ +-------------------SUBJ:V-N------------------+ +--------------------APPOS-------------------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (properties,GENEXXX) SUBJ:V-N (house-keeping,properties) OBJ:V-N (confers,properties) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (confers,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) COMP_of:N-N (those,major) Parse 94 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+ +-------APPOS-------+ | +--COMP_upon:V-N--+ | +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,major) Parse 95 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +------------APPOS------------+ +--COMP_upon:V-N--+ | +---------SUBJ:V-N--------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) COMP_of:N-N (those,major) Parse 96 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ | +-------APPOS-------+ +--COMP_upon:V-N--+ | | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) SUBJ:V-N (contains,GENEXXX) COMP_of:N-N (those,major) Parse 97 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +-------APPOS-------+ +--COMP_upon:V-N--+ | +------------------SUBJ:V-N------------------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ +--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) SUBJ:V-N (contains,major) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,major) Parse 98 +-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ +----------------SUBJ:V-N---------------+--COMP_upon:V-N--+ | +---------COMP_of:N-N--------+ +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (major,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_of:N-N (those,major) Parse 99 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+ +-------APPOS-------+ | +--COMP_upon:V-N--+ | +---------SUBJ:V-N--------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,major) Parse 100 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ +------------APPOS------------+ +--COMP_upon:V-N--+ | +---------COMP_of:N-N--------+ +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_of:N-N (major,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_of:N-N (those,major) Parse 101 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+ +-------APPOS-------+ | +--COMP_upon:V-N--+ | +------------------SUBJ:V-N------------------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) SUBJ:V-N (contains,major) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,major) Parse 102 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ +------------APPOS------------+ +--COMP_upon:V-N--+ | +---------COMP_of:N-N--------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_of:N-N (major,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_of:N-N (those,major) Parse 103 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +-------APPOS-------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+---------COMP_of:N-N--------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ +--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (major,GENEXXX) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 104 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +------------------SUBJ:V-N------------------+ +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ +--COMP_upon:V-N--+ | +---------COMP_of:N-N--------+ | +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+ +--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+ | +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (major,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) SUBJ:V-N (contains,major) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,major) Parse 105 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+ +----------COMP_of:N-N----------+ +-------APPOS-------+ | +--COMP_upon:V-N--+ | | +----MOD_ATT:N-N---+ +-------APPOS-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) MOD_ATT:N-ADJ (form,house-keeping) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) COMP_of:N-N (those,form) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (form,major) Parse 106 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ | +-------APPOS-------+ +--COMP_upon:V-N--+ | +---------------COMP_of:N-N---------------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_of:N-N (those,GENEXXX) COMP_of:N-N (those,major) Parse 107 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +------------APPOS------------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+---------COMP_of:N-N--------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_of:N-N (major,GENEXXX) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 108 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----------COMP_of:N-N----------+ +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ +--COMP_upon:V-N--+ | | +---MOD_ATT:N-ADJ--+---------SUBJ:V-N--------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+ +--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+COMP_of:N+ +-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) MOD_ATT:N-ADJ (form,house-keeping) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (form,major) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) COMP_of:N-N (those,form) APPOS (GENEXXX,GENEXXX) Parse 109 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ | +-------APPOS-------+ +--COMP_upon:V-N--+ | +---------------COMP_of:N-N---------------+ +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_of:N-N (those,GENEXXX) COMP_of:N-N (those,major) Parse 110 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+------------------SUBJ:V-N------------------+ +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+ +--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . OBJ:V-N (confers,properties) SUBJ:V-N (contains,major) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 111 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ | +-------APPOS-------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+---------COMP_of:N-N--------+ +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (major,GENEXXX) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 112 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ | +-------APPOS-------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ +---------SUBJ:V-N--------+ +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) COMP_from:ADJ-N (distinct,those) Parse 113 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ | +-------APPOS-------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+---------COMP_of:N-N--------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (major,GENEXXX) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 114 +-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ +----------------SUBJ:V-N---------------+--COMP_upon:V-N--+ +------------COMP_of:N-N------------+---------COMP_of:N-N--------+ +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (major,GENEXXX) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 115 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ +------------APPOS------------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+---------COMP_of:N-N--------+ +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_of:N-N (major,GENEXXX) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 116 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ | +-------APPOS-------+ +--COMP_upon:V-N--+ +-------------------SUBJ:V-N------------------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,properties) SUBJ:V-N (contains,GENEXXX) COMP_of:N-N (those,major) Parse 117 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ +------------APPOS------------+ +--COMP_upon:V-N--+ | +-------SUBJ:V-N-------+ +---------SUBJ:V-N--------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,those) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) COMP_of:N-N (those,major) Parse 118 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+------------------SUBJ:V-N------------------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+ +--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . OBJ:V-N (confers,properties) SUBJ:V-N (contains,major) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 119 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +------------APPOS------------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+------------------SUBJ:V-N------------------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) OBJ:V-N (confers,properties) SUBJ:V-N (contains,major) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) COMP_from:ADJ-N (distinct,those) Parse 120 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ +------------APPOS------------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+---------COMP_of:N-N--------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_of:N-N (major,GENEXXX) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 121 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+ +-------APPOS-------+ | +--COMP_upon:V-N--+ +-------------------SUBJ:V-N------------------+ +---------SUBJ:V-N--------+ +-------APPOS-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,properties) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,major) Parse 122 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ | +-------APPOS-------+ +--COMP_upon:V-N--+ +---------------------------COMP_of:N-N--------------------------+ +-------APPOS-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (properties,GENEXXX) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_from:ADJ-N (distinct,those) COMP_of:N-N (those,major) Parse 123 +-----------------OBJ:V-N----------------+ +----------COMP_of:N-N----------+ +----MOD_ATT:N-ADJ----+ +----------------SUBJ:V-N---------------+--COMP_upon:V-N--+ | | +---MOD_ATT:N-ADJ--+---------SUBJ:V-N--------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+COMP_of:N+ +-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (form,major) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_ATT:N-N (form,house-keeping) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) COMP_of:N-N (those,form) Parse 124 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+----------------------COMP_of:N-N---------------------+ | +-------APPOS-------+ +--COMP_upon:V-N--+ | +---MOD_ATT:N-ADJ--+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . OBJ:V-N (confers,properties) MOD_ATT:N-ADJ (form,house-keeping) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (form,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_from:ADJ-N (distinct,those) COMP_of:N-N (properties,form) Parse 125 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ +------------APPOS------------+ +--COMP_upon:V-N--+ +-------------------SUBJ:V-N------------------+ +---------SUBJ:V-N--------+ +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,properties) COMP_of:N-N (those,major) Parse 126 +---------------COMP_of:N-N---------------+ +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----------COMP_of:N-N----------+ | +------------APPOS------------+ +--COMP_upon:V-N--+ | | +---MOD_ATT:N-ADJ--+ | +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) MOD_ATT:N-ADJ (form,house-keeping) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_ATT:N-ADJ (form,major) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (those,form) SUBJ:V-N (contains,GENEXXX) COMP_of:N-N (those,GENEXXX) Parse 127 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +------------------SUBJ:V-N------------------+ +----MOD_ATT:N-ADJ----+ +------------APPOS------------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+---------COMP_of:N-N--------+ | +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+ | +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_of:N-N (major,GENEXXX) OBJ:V-N (confers,properties) SUBJ:V-N (contains,major) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 128 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+-------------------SUBJ:V-N------------------+ +------------APPOS------------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ | +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,properties) SUBJ:V-N (contains,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 129 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+---------------------------COMP_of:N-N--------------------------+ +-------APPOS-------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ | +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ +--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (properties,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) Parse 130 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+----------------------COMP_of:N-N---------------------+ +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ | +--COMP_upon:V-N--+ | +----MOD_ATT:N-N---+---------SUBJ:V-N--------+ +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+COMP_of:N+ +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) OBJ:V-N (confers,properties) MOD_ATT:N-ADJ (form,house-keeping) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) MOD_ATT:N-N (form,major) COMP_of:N-N (properties,form) Parse 131 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+-------------------SUBJ:V-N------------------+ +----MOD_ATT:N-ADJ----+ | +-------APPOS-------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ | | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,properties) SUBJ:V-N (contains,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 132 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+-------------------SUBJ:V-N------------------+ | +-------APPOS-------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ | +---------SUBJ:V-N--------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,properties) COMP_from:ADJ-N (distinct,those) Parse 133 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+---------------------------COMP_of:N-N--------------------------+ +----MOD_ATT:N-ADJ----+ +------------APPOS------------+ +--COMP_upon:V-N--+ | +-------SUBJ:V-N-------+ | | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (properties,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (house-keeping,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_from:ADJ-N (distinct,those) COMP_of:N-N (those,major) Parse 134 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+---------------------------COMP_of:N-N--------------------------+ +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ | +--COMP_upon:V-N--+ | +-------SUBJ:V-N-------+ | +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (properties,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (house-keeping,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) COMP_of:N-N (those,major) Parse 135 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+---------------------------COMP_of:N-N--------------------------+ +----MOD_ATT:N-ADJ----+ +------------APPOS------------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ | +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) COMP_of:N-N (properties,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) Parse 136 +---------------------------COMP_of:N-N--------------------------+ +-----------------OBJ:V-N----------------+ +----------COMP_of:N-N----------+ | +----MOD_ATT:N-ADJ----+ +----------------SUBJ:V-N---------------+--COMP_upon:V-N--+ | | +---MOD_ATT:N-ADJ--+ | | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (properties,GENEXXX) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_ATT:N-N (form,house-keeping) MOD_ATT:N-ADJ (form,major) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) COMP_of:N-N (those,form) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 137 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+---------------------------COMP_of:N-N--------------------------+ +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ +--COMP_upon:V-N--+ +-------------------SUBJ:V-N------------------+ | | +MOD_ATT:N+MOD_ATT+--APPOS--+ +--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (properties,GENEXXX) SUBJ:V-N (house-keeping,properties) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) COMP_of:N-N (those,major) Parse 138 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+---------------------------COMP_of:N-N--------------------------+ +----MOD_ATT:N-ADJ----+ +------------APPOS------------+ +--COMP_upon:V-N--+ +-------------------SUBJ:V-N------------------+ | +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (properties,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (house-keeping,properties) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_from:ADJ-N (distinct,those) COMP_of:N-N (those,major) Parse 139 +---------------------------COMP_of:N-N--------------------------+ +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+-------------------SUBJ:V-N------------------+ | +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ | | | +MOD_ATT:N+MOD_ATT+--APPOS--+ +--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . SUBJ:V-N (house-keeping,properties) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (properties,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) Parse 140 +---------------------------COMP_of:N-N--------------------------+ +-----------------OBJ:V-N----------------+-------------------SUBJ:V-N------------------+ | +----------------SUBJ:V-N---------------+--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ | | +-------APPOS-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . SUBJ:V-N (house-keeping,properties) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) COMP_of:N-N (properties,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) Parse 141 +----------------SUBJ:V-N---------------+ +---------------------------COMP_of:N-N--------------------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+-------------------SUBJ:V-N------------------+ | +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ | +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ | | | +MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) SUBJ:V-N (house-keeping,properties) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (properties,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) Parse 142 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ | +-------APPOS-------+ +--COMP_upon:V-N--+ | +---------SUBJ:V-N--------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) COMP_of:N-N (those,major) Parse 143 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +------------APPOS------------+ +--COMP_upon:V-N--+ | +---------SUBJ:V-N--------+ +-------APPOS-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) COMP_of:N-N (those,major) Parse 144 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ +--COMP_upon:V-N--+ | +------------------SUBJ:V-N------------------+ +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+ +--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) SUBJ:V-N (contains,major) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,major) Parse 145 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ | +-------APPOS-------+ +--COMP_upon:V-N--+ | +---------SUBJ:V-N--------+ +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) COMP_of:N-N (those,major) Parse 146 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +-------APPOS-------+ +--COMP_upon:V-N--+ | +-------SUBJ:V-N-------+ +---------SUBJ:V-N--------+ +-------APPOS-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ +--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,those) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,major) Parse 147 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ | +-------APPOS-------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) SUBJ:V-N (contains,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 148 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ | +-------APPOS-------+ +--COMP_upon:V-N--+ | +------------------SUBJ:V-N------------------+ +-------APPOS-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) SUBJ:V-N (contains,major) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) COMP_of:N-N (those,major) Parse 149 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ | +-------APPOS-------+ +--COMP_upon:V-N--+ | +---------COMP_of:N-N--------+--------------------APPOS-------------------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (major,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,major) Parse 150 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ +------------APPOS------------+ +--COMP_upon:V-N--+ | +-------SUBJ:V-N-------+ +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,those) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_of:N-N (those,major) Parse 151 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ +------------APPOS------------+ +--COMP_upon:V-N--+ | +------------------SUBJ:V-N------------------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) SUBJ:V-N (contains,major) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) COMP_of:N-N (those,major) Parse 152 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ +------------APPOS------------+ +--COMP_upon:V-N--+ | +---------COMP_of:N-N--------+--------------------APPOS-------------------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_of:N-N (major,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,major) Parse 153 +-----------------OBJ:V-N----------------+ +----------------SUBJ:V-N---------------+--COMP_upon:V-N--+ | +-------SUBJ:V-N-------+ +---------SUBJ:V-N--------+ +-------APPOS-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,those) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) COMP_of:N-N (those,major) Parse 154 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +------------APPOS------------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ +---------SUBJ:V-N--------+ +-------APPOS-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) COMP_from:ADJ-N (distinct,those) Parse 155 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ | +-------APPOS-------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+---------COMP_of:N-N--------+ +-------APPOS-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (major,GENEXXX) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 156 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----------COMP_of:N-N----------+ +----MOD_ATT:N-ADJ----+ | +-------APPOS-------+ +--COMP_upon:V-N--+ | | +---MOD_ATT:N-ADJ--+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) MOD_ATT:N-ADJ (form,house-keeping) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (form,major) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) COMP_of:N-N (those,form) SUBJ:V-N (contains,GENEXXX) Parse 157 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+ +-------APPOS-------+ | +--COMP_upon:V-N--+ +-------------------SUBJ:V-N------------------+ +-------APPOS-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,properties) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,major) Parse 158 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +-------APPOS-------+ +--COMP_upon:V-N--+ +---------------------------COMP_of:N-N--------------------------+ +-------APPOS-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ +--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (properties,GENEXXX) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) COMP_of:N-N (those,major) Parse 159 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +-------------------------APPOS------------------------+ +----MOD_ATT:N-ADJ----+ +------------APPOS------------+ +--COMP_upon:V-N--+ | +---------SUBJ:V-N--------+ | | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (form,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,major) Parse 160 +-----------------OBJ:V-N----------------+ +----------------SUBJ:V-N---------------+--COMP_upon:V-N--+ +------------COMP_of:N-N------------+------------------SUBJ:V-N------------------+ +-------APPOS-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . OBJ:V-N (confers,properties) SUBJ:V-N (contains,major) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) COMP_from:ADJ-N (distinct,those) Parse 161 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +------------APPOS------------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+---------COMP_of:N-N--------+--------------------APPOS-------------------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_of:N-N (major,GENEXXX) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 162 +---------------COMP_of:N-N---------------+ +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----------COMP_of:N-N----------+ | +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ +--COMP_upon:V-N--+ | | +---MOD_ATT:N-ADJ--+ | | +MOD_ATT:N+MOD_ATT+--APPOS--+ +--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) MOD_ATT:N-ADJ (form,house-keeping) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_ATT:N-ADJ (form,major) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (those,form) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,GENEXXX) Parse 163 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +---------------COMP_of:N-N---------------+ +----MOD_ATT:N-ADJ----+ +------------APPOS------------+ +--COMP_upon:V-N--+ | +-------SUBJ:V-N-------+ | | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) SUBJ:V-N (house-keeping,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_of:N-N (those,GENEXXX) COMP_of:N-N (those,major) Parse 164 +-----------------OBJ:V-N----------------+ +---------------COMP_of:N-N---------------+ +----MOD_ATT:N-ADJ----+ +----------------SUBJ:V-N---------------+--COMP_upon:V-N--+ | +-------SUBJ:V-N-------+ | +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) SUBJ:V-N (house-keeping,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_of:N-N (those,GENEXXX) COMP_of:N-N (those,major) Parse 165 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ | +-------APPOS-------+ +--COMP_upon:V-N--+ +---------------------------COMP_of:N-N--------------------------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (properties,GENEXXX) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_from:ADJ-N (distinct,those) COMP_of:N-N (those,major) Parse 166 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+----------------------COMP_of:N-N---------------------+ | +-------APPOS-------+ +--COMP_upon:V-N--+ | +---MOD_ATT:N-ADJ--+---------SUBJ:V-N--------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+COMP_of:N+ +-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . OBJ:V-N (confers,properties) MOD_ATT:N-ADJ (form,house-keeping) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (form,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) COMP_from:ADJ-N (distinct,those) COMP_of:N-N (properties,form) Parse 167 +-----------------OBJ:V-N----------------+----------------------COMP_of:N-N---------------------+ +----MOD_ATT:N-ADJ----+ +----------------SUBJ:V-N---------------+--COMP_upon:V-N--+ | +----MOD_ATT:N-N---+---------SUBJ:V-N--------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+COMP_of:N+ +-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_ATT:N-N (form,house-keeping) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) COMP_from:ADJ-N (distinct,those) MOD_ATT:N-N (form,major) COMP_of:N-N (properties,form) Parse 168 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+-------------------SUBJ:V-N------------------+ | +-------APPOS-------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ | +---------SUBJ:V-N--------+ +-------APPOS-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,properties) COMP_from:ADJ-N (distinct,those) Parse 169 +-----------------OBJ:V-N----------------+ +----------COMP_of:N-N----------+-------------------------APPOS------------------------+ +----MOD_ATT:N-ADJ----+ +----------------SUBJ:V-N---------------+--COMP_upon:V-N--+ | | +---MOD_ATT:N-ADJ--+---------SUBJ:V-N--------+ | | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+COMP_of:N+ +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (form,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) MOD_ATT:N-ADJ (form,house-keeping) MOD_ATT:N-ADJ (form,major) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,form) Parse 170 +---------------COMP_of:N-N---------------+ +-----------------OBJ:V-N----------------+ +----------COMP_of:N-N----------+ | +----------------SUBJ:V-N---------------+--COMP_upon:V-N--+ | | +---MOD_ATT:N-ADJ--+ +--------------------APPOS-------------------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) MOD_ATT:N-ADJ (form,house-keeping) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_ATT:N-ADJ (form,major) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,form) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,GENEXXX) Parse 171 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+-------------------SUBJ:V-N------------------+ +-------------------------APPOS------------------------+ +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ | +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ | +---------SUBJ:V-N--------+ | | +MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (form,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (house-keeping,properties) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 172 +---------------------------COMP_of:N-N--------------------------+ +-----------------OBJ:V-N----------------+----------------------COMP_of:N-N---------------------+ | +----------------SUBJ:V-N---------------+--COMP_upon:V-N--+ | +----MOD_ATT:N-N---+ | +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . MOD_ATT:N-N (form,major) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (properties,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_ATT:N-N (form,house-keeping) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_of:N-N (properties,form) Parse 173 +---------------------------COMP_of:N-N--------------------------+ +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+-------------------SUBJ:V-N------------------+ | +------------APPOS------------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ | | +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) SUBJ:V-N (house-keeping,properties) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (properties,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) Parse 174 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ +--COMP_upon:V-N--+ | | +MOD_ATT:N+MOD_ATT+--APPOS--+ +--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,major) Parse 175 +-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ +----------------SUBJ:V-N---------------+--COMP_upon:V-N--+ | | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) SUBJ:V-N (contains,GENEXXX) COMP_of:N-N (those,major) Parse 176 +-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ +----------------SUBJ:V-N---------------+--COMP_upon:V-N--+ | +---------SUBJ:V-N--------+ +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) COMP_of:N-N (those,major) Parse 177 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----------COMP_of:N-N----------+ +-------APPOS-------+ +--COMP_upon:V-N--+ | | +----MOD_ATT:N-N---+ +-------APPOS-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ +--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) MOD_ATT:N-ADJ (form,house-keeping) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) COMP_of:N-N (those,form) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (form,major) Parse 178 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+ +-------APPOS-------+ | +--COMP_upon:V-N--+ | +-------SUBJ:V-N-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,those) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,major) Parse 179 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +------------APPOS------------+ +--COMP_upon:V-N--+ | +-------SUBJ:V-N-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,those) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_of:N-N (those,major) Parse 180 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ +--COMP_upon:V-N--+ | +---------------COMP_of:N-N---------------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+ +--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,GENEXXX) COMP_of:N-N (those,major) Parse 181 +-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ +----------------SUBJ:V-N---------------+--COMP_upon:V-N--+ | +------------------SUBJ:V-N------------------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) SUBJ:V-N (contains,major) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) COMP_of:N-N (those,major) Parse 182 +-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ +----------------SUBJ:V-N---------------+--COMP_upon:V-N--+ | +-------SUBJ:V-N-------+ +---------SUBJ:V-N--------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,those) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) COMP_of:N-N (those,major) Parse 183 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ +------------APPOS------------+ +--COMP_upon:V-N--+ | +---------------COMP_of:N-N---------------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_of:N-N (those,GENEXXX) COMP_of:N-N (those,major) Parse 184 +-----------------OBJ:V-N----------------+ +----------------SUBJ:V-N---------------+--COMP_upon:V-N--+ +------------COMP_of:N-N------------+---------COMP_of:N-N--------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (major,GENEXXX) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 185 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +------------------SUBJ:V-N------------------+ +----MOD_ATT:N-ADJ----+ | +-------APPOS-------+ +--COMP_upon:V-N--+ | +---------COMP_of:N-N--------+ | | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+ | +-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (major,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) SUBJ:V-N (contains,major) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (those,major) Parse 186 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +------------------SUBJ:V-N------------------+ +----MOD_ATT:N-ADJ----+ +------------APPOS------------+ +--COMP_upon:V-N--+ | +---------COMP_of:N-N--------+ | | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+ | +-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_of:N-N (major,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) SUBJ:V-N (contains,major) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (those,major) Parse 187 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----------COMP_of:N-N----------+ +------------APPOS------------+ +--COMP_upon:V-N--+ | | +----MOD_ATT:N-N---+---------SUBJ:V-N--------+ +-------APPOS-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+COMP_of:N+ +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) MOD_ATT:N-ADJ (form,house-keeping) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) COMP_of:N-N (those,form) MOD_ATT:N-N (form,major) Parse 188 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ | +-------APPOS-------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ +---------SUBJ:V-N--------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) COMP_from:ADJ-N (distinct,those) Parse 189 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ | +--COMP_upon:V-N--+ +-------------------SUBJ:V-N------------------+ +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,properties) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,major) Parse 190 +-----------------OBJ:V-N----------------+ +---------------COMP_of:N-N---------------+ +----------------SUBJ:V-N---------------+--COMP_upon:V-N--+ | +-------SUBJ:V-N-------+ | +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) SUBJ:V-N (house-keeping,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_of:N-N (those,GENEXXX) COMP_of:N-N (those,major) Parse 191 +---------------COMP_of:N-N---------------+ +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----------COMP_of:N-N----------+ | +-------APPOS-------+ +--COMP_upon:V-N--+ | | +----MOD_ATT:N-N---+ | +-------APPOS-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ +--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) MOD_ATT:N-N (form,major) OBJ:V-N (confers,properties) MOD_ATT:N-ADJ (form,house-keeping) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (those,form) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,GENEXXX) Parse 192 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+----------------------COMP_of:N-N---------------------+ +-------APPOS-------+ | +--COMP_upon:V-N--+ | +----MOD_ATT:N-N---+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) OBJ:V-N (confers,properties) MOD_ATT:N-ADJ (form,house-keeping) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) MOD_ATT:N-N (form,major) COMP_of:N-N (properties,form) Parse 193 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ | +-------APPOS-------+ +--COMP_upon:V-N--+ +-------------------SUBJ:V-N------------------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,properties) SUBJ:V-N (contains,GENEXXX) COMP_of:N-N (those,major) Parse 194 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ | +-------APPOS-------+ +--COMP_upon:V-N--+ +---------------------------COMP_of:N-N--------------------------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (properties,GENEXXX) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_from:ADJ-N (distinct,those) COMP_of:N-N (those,major) Parse 195 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+----------------------COMP_of:N-N---------------------+ +----MOD_ATT:N-ADJ----+ +------------APPOS------------+ +--COMP_upon:V-N--+ | +----MOD_ATT:N-N---+ +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) OBJ:V-N (confers,properties) MOD_ATT:N-ADJ (form,house-keeping) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_from:ADJ-N (distinct,those) MOD_ATT:N-N (form,major) COMP_of:N-N (properties,form) Parse 196 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +------------APPOS------------+ +--COMP_upon:V-N--+ +---------------------------COMP_of:N-N--------------------------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (properties,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_from:ADJ-N (distinct,those) COMP_of:N-N (those,major) Parse 197 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+-------------------SUBJ:V-N------------------+ | +-------APPOS-------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ | +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,properties) SUBJ:V-N (contains,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 198 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+-------------------SUBJ:V-N------------------+ +-------APPOS-------+ | +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ | +---------SUBJ:V-N--------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,properties) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 199 +-----------------OBJ:V-N----------------+-------------------SUBJ:V-N------------------+ +----------------SUBJ:V-N---------------+--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ | +---------SUBJ:V-N--------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,properties) COMP_from:ADJ-N (distinct,those) Parse 200 +-----------------OBJ:V-N----------------+---------------------------COMP_of:N-N--------------------------+ +----MOD_ATT:N-ADJ----+ +----------------SUBJ:V-N---------------+--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ | | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (properties,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) Parse 201 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+---------------------------COMP_of:N-N--------------------------+ +-------APPOS-------+ +--COMP_upon:V-N--+ +-------------------SUBJ:V-N------------------+ | +-------APPOS-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ +--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (properties,GENEXXX) SUBJ:V-N (house-keeping,properties) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) COMP_of:N-N (those,major) Parse 202 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+---------------------------COMP_of:N-N--------------------------+ | +-------APPOS-------+ +--COMP_upon:V-N--+ | +-------SUBJ:V-N-------+ | +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (properties,GENEXXX) SUBJ:V-N (house-keeping,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_from:ADJ-N (distinct,those) COMP_of:N-N (those,major) Parse 203 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+---------------------------COMP_of:N-N--------------------------+ +------------APPOS------------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ | +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (properties,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) Parse 204 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+---------------------------COMP_of:N-N--------------------------+ | +-------APPOS-------+ +--COMP_upon:V-N--+ +-------------------SUBJ:V-N------------------+ | +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (properties,GENEXXX) SUBJ:V-N (house-keeping,properties) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_from:ADJ-N (distinct,those) COMP_of:N-N (those,major) Parse 205 +---------------------------COMP_of:N-N--------------------------+ +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+----------------------COMP_of:N-N---------------------+ | +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ +--COMP_upon:V-N--+ | +----MOD_ATT:N-N---+ | +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+ +--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . MOD_ATT:N-N (form,major) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) MOD_ATT:N-ADJ (form,house-keeping) COMP_of:N-N (properties,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (properties,form) Parse 206 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ | +-------APPOS-------+ +--COMP_upon:V-N--+ | +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) SUBJ:V-N (contains,GENEXXX) COMP_of:N-N (those,major) Parse 207 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ +--COMP_upon:V-N--+ | +---------COMP_of:N-N--------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+ +--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (major,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,major) Parse 208 +-----------------OBJ:V-N----------------+ +----------------SUBJ:V-N---------------+--COMP_upon:V-N--+ | +--------------------APPOS-------------------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,major) Parse 209 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+ +--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 210 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +-------APPOS-------+ +--COMP_upon:V-N--+ | +---------------COMP_of:N-N---------------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ +--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,GENEXXX) COMP_of:N-N (those,major) Parse 211 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +-------APPOS-------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ +---------SUBJ:V-N--------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ +--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 212 +-----------------OBJ:V-N----------------+ +----------------SUBJ:V-N---------------+--COMP_upon:V-N--+ | +-------------------------APPOS------------------------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (form,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_of:N-N (those,major) Parse 213 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ | +-------APPOS-------+ +--COMP_upon:V-N--+ | +-------SUBJ:V-N-------+ +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,those) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_of:N-N (those,major) Parse 214 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ +-------------------------APPOS------------------------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+ +--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (form,GENEXXX) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 215 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +-------APPOS-------+ +--COMP_upon:V-N--+ +-------------------SUBJ:V-N------------------+ +--------------------APPOS-------------------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ +--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (house-keeping,properties) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,major) Parse 216 +-----------------OBJ:V-N----------------+ +-------------------------APPOS------------------------+ +----MOD_ATT:N-ADJ----+ +----------------SUBJ:V-N---------------+--COMP_upon:V-N--+ | +---------SUBJ:V-N--------+ | | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (form,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,major) Parse 217 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ | +-------APPOS-------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+------------------SUBJ:V-N------------------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . OBJ:V-N (confers,properties) SUBJ:V-N (contains,major) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) COMP_from:ADJ-N (distinct,those) Parse 218 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +------------APPOS------------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ +-------------------------APPOS------------------------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (form,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 219 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +------------APPOS------------+ +--COMP_upon:V-N--+ +-------------------SUBJ:V-N------------------+ +---------SUBJ:V-N--------+ +-------APPOS-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,properties) COMP_of:N-N (those,major) Parse 220 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ | +-------APPOS-------+ +--COMP_upon:V-N--+ +-------------------SUBJ:V-N------------------+ +---------SUBJ:V-N--------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,properties) COMP_of:N-N (those,major) Parse 221 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+---------------------------COMP_of:N-N--------------------------+ +-------APPOS-------+ +--COMP_upon:V-N--+ | +-------SUBJ:V-N-------+ | +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ +--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (properties,GENEXXX) SUBJ:V-N (house-keeping,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) COMP_of:N-N (those,major) Parse 222 +-----------------OBJ:V-N----------------+ +----------COMP_of:N-N----------+ +----MOD_ATT:N-ADJ----+ +----------------SUBJ:V-N---------------+--COMP_upon:V-N--+ | | +---MOD_ATT:N-ADJ--+-------------------------APPOS------------------------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (form,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) MOD_ATT:N-ADJ (form,house-keeping) MOD_ATT:N-ADJ (form,major) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,form) SUBJ:V-N (contains,GENEXXX) Parse 223 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +-------------------------APPOS------------------------+ +----MOD_ATT:N-ADJ----+ +------------APPOS------------+ +--COMP_upon:V-N--+ | +-------SUBJ:V-N-------+ +---------SUBJ:V-N--------+ | | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (form,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,those) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,major) Parse 224 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+ +-------------------------APPOS------------------------+ +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ | +--COMP_upon:V-N--+ | +-------SUBJ:V-N-------+ +---------SUBJ:V-N--------+ | | +MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (form,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,those) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,major) Parse 225 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +---------------COMP_of:N-N---------------+ +------------APPOS------------+ +--COMP_upon:V-N--+ | +-------SUBJ:V-N-------+ +--------------------APPOS-------------------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) SUBJ:V-N (house-keeping,those) OBJ:V-N (confers,properties) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,GENEXXX) COMP_of:N-N (those,major) Parse 226 +-----------------OBJ:V-N----------------+ +------------------SUBJ:V-N------------------+ +----MOD_ATT:N-ADJ----+ +----------------SUBJ:V-N---------------+--COMP_upon:V-N--+ +------------COMP_of:N-N------------+---------COMP_of:N-N--------+ | | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+ | +-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (major,GENEXXX) OBJ:V-N (confers,properties) SUBJ:V-N (contains,major) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 227 +-----------------OBJ:V-N----------------+ +------------------SUBJ:V-N------------------+ +----MOD_ATT:N-ADJ----+ +----------------SUBJ:V-N---------------+--COMP_upon:V-N--+ +------------COMP_of:N-N------------+---------COMP_of:N-N--------+ | +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+ | +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (major,GENEXXX) OBJ:V-N (confers,properties) SUBJ:V-N (contains,major) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 228 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+----------------------COMP_of:N-N---------------------+ +------------APPOS------------+ +--COMP_upon:V-N--+ | +----MOD_ATT:N-N---+---------SUBJ:V-N--------+ +-------APPOS-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+COMP_of:N+ +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) OBJ:V-N (confers,properties) MOD_ATT:N-ADJ (form,house-keeping) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) COMP_from:ADJ-N (distinct,those) MOD_ATT:N-N (form,major) COMP_of:N-N (properties,form) Parse 229 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+---------------------------COMP_of:N-N--------------------------+ +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ | | +MOD_ATT:N+MOD_ATT+--APPOS--+ +--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (properties,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) Parse 230 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----------COMP_of:N-N----------+-------------------------APPOS------------------------+ +----MOD_ATT:N-ADJ----+ +------------APPOS------------+ +--COMP_upon:V-N--+ | | +----MOD_ATT:N-N---+---------SUBJ:V-N--------+ | | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+COMP_of:N+ +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (form,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) MOD_ATT:N-ADJ (form,house-keeping) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,form) MOD_ATT:N-N (form,major) Parse 231 +---------------COMP_of:N-N---------------+ +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----------COMP_of:N-N----------+ | +----MOD_ATT:N-ADJ----+ +------------APPOS------------+ +--COMP_upon:V-N--+ | | +----MOD_ATT:N-N---+ +--------------------APPOS-------------------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) MOD_ATT:N-N (form,major) OBJ:V-N (confers,properties) MOD_ATT:N-ADJ (form,house-keeping) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,form) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,GENEXXX) Parse 232 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +-------------------------APPOS------------------------+ +----MOD_ATT:N-ADJ----+ | +-------APPOS-------+ +--COMP_upon:V-N--+ +-------------------SUBJ:V-N------------------+ +---------SUBJ:V-N--------+ | | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (form,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (house-keeping,properties) COMP_of:N-N (those,major) Parse 233 +-----------------OBJ:V-N----------------+ +-------------------------APPOS------------------------+ +----MOD_ATT:N-ADJ----+ +----------------SUBJ:V-N---------------+--COMP_upon:V-N--+ +-------------------SUBJ:V-N------------------+ +---------SUBJ:V-N--------+ | | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (form,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (house-keeping,properties) COMP_of:N-N (those,major) Parse 234 +---------------------------COMP_of:N-N--------------------------+ +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+----------------------COMP_of:N-N---------------------+ | +----MOD_ATT:N-ADJ----+ | +-------APPOS-------+ +--COMP_upon:V-N--+ | +----MOD_ATT:N-N---+ | +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . MOD_ATT:N-N (form,major) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) MOD_ATT:N-ADJ (form,house-keeping) COMP_of:N-N (properties,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_of:N-N (properties,form) Parse 235 +---------------------------COMP_of:N-N--------------------------+ +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+----------------------COMP_of:N-N---------------------+ | +----MOD_ATT:N-ADJ----+ | +-------APPOS-------+ +--COMP_upon:V-N--+ | +----MOD_ATT:N-N---+ +--------------------APPOS-------------------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . MOD_ATT:N-N (form,major) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) MOD_ATT:N-ADJ (form,house-keeping) COMP_of:N-N (properties,GENEXXX) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (confers,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (properties,form) Parse 236 +----------------SUBJ:V-N---------------+ +---------------------------COMP_of:N-N--------------------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+-------------------SUBJ:V-N------------------+ | +-------APPOS-------+ | +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ | +--------------------APPOS-------------------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) SUBJ:V-N (house-keeping,properties) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) COMP_of:N-N (properties,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) Parse 237 +-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ +----------------SUBJ:V-N---------------+--COMP_upon:V-N--+ | +---------SUBJ:V-N--------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) COMP_of:N-N (those,major) Parse 238 +-----------------OBJ:V-N----------------+ +----------------SUBJ:V-N---------------+--COMP_upon:V-N--+ | +-------SUBJ:V-N-------+ +-------APPOS-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,those) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_of:N-N (those,major) Parse 239 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ | +-------APPOS-------+ +--COMP_upon:V-N--+ | +-------SUBJ:V-N-------+ +-------APPOS-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,those) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_of:N-N (those,major) Parse 240 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ | +-------APPOS-------+ +--COMP_upon:V-N--+ | +-------SUBJ:V-N-------+ +---------SUBJ:V-N--------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,those) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) COMP_of:N-N (those,major) Parse 241 +-----------------OBJ:V-N----------------+ +----------------SUBJ:V-N---------------+--COMP_upon:V-N--+ | +---------------COMP_of:N-N---------------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+-SUBJ:V-N+-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,major) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_of:N-N (those,GENEXXX) COMP_of:N-N (those,major) Parse 242 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +-------APPOS-------+ +--COMP_upon:V-N--+ +-------------------SUBJ:V-N------------------+ +---------SUBJ:V-N--------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ +--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,properties) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,major) Parse 243 +-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ +----------------SUBJ:V-N---------------+--COMP_upon:V-N--+ +------------COMP_of:N-N------------+------------------SUBJ:V-N------------------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ +-SUBJ:V-N+-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . OBJ:V-N (confers,properties) SUBJ:V-N (contains,major) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,major) COMP_from:ADJ-N (distinct,those) Parse 244 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ +------------APPOS------------+ +--COMP_upon:V-N--+ +-------------------SUBJ:V-N------------------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,properties) SUBJ:V-N (contains,GENEXXX) COMP_of:N-N (those,major) Parse 245 +-----------------OBJ:V-N----------------+ +---------------COMP_of:N-N---------------+ +----MOD_ATT:N-ADJ----+ +----------------SUBJ:V-N---------------+--COMP_upon:V-N--+ | +-------SUBJ:V-N-------+ | | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) SUBJ:V-N (house-keeping,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_of:N-N (those,GENEXXX) COMP_of:N-N (those,major) Parse 246 +-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ +----------------SUBJ:V-N---------------+--COMP_upon:V-N--+ +-------------------SUBJ:V-N------------------+ +---------SUBJ:V-N--------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,properties) COMP_of:N-N (those,major) Parse 247 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +---------------COMP_of:N-N---------------+ +----MOD_ATT:N-ADJ----+ | +-------APPOS-------+ +--COMP_upon:V-N--+ | +-------SUBJ:V-N-------+ | | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) SUBJ:V-N (house-keeping,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_of:N-N (those,GENEXXX) COMP_of:N-N (those,major) Parse 248 +---------------COMP_of:N-N---------------+ +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----------COMP_of:N-N----------+ | +------------APPOS------------+ +--COMP_upon:V-N--+ | | +----MOD_ATT:N-N---+ | +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) MOD_ATT:N-N (form,major) OBJ:V-N (confers,properties) MOD_ATT:N-ADJ (form,house-keeping) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (those,form) SUBJ:V-N (contains,GENEXXX) COMP_of:N-N (those,GENEXXX) Parse 249 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+---------------------------COMP_of:N-N--------------------------+ +------------APPOS------------+ +--COMP_upon:V-N--+ | +-------SUBJ:V-N-------+ | +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (properties,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (house-keeping,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_from:ADJ-N (distinct,those) COMP_of:N-N (those,major) Parse 250 +---------------------------COMP_of:N-N--------------------------+ +-----------------OBJ:V-N----------------+-------------------SUBJ:V-N------------------+ | +----MOD_ATT:N-ADJ----+ +----------------SUBJ:V-N---------------+--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ | | +-------APPOS-------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . SUBJ:V-N (house-keeping,properties) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) COMP_of:N-N (properties,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) Parse 251 +---------------------------COMP_of:N-N--------------------------+ +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+----------------------COMP_of:N-N---------------------+ | +----MOD_ATT:N-ADJ----+ +------------APPOS------------+ +--COMP_upon:V-N--+ | +----MOD_ATT:N-N---+ | | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) MOD_ATT:N-N (form,major) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) MOD_ATT:N-ADJ (form,house-keeping) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (properties,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_of:N-N (properties,form) Parse 252 +---------------------------COMP_of:N-N--------------------------+ +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+-------------------SUBJ:V-N------------------+ | | +-------APPOS-------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ | | +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . SUBJ:V-N (house-keeping,properties) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (properties,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) Parse 253 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ +--COMP_upon:V-N--+ | +-------SUBJ:V-N-------+ +---------SUBJ:V-N--------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+ +--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) SUBJ:V-N (house-keeping,those) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,major) Parse 254 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+ +-------APPOS-------+ | +--COMP_upon:V-N--+ +-------------------SUBJ:V-N------------------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,properties) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,major) Parse 255 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +------------APPOS------------+ +--COMP_upon:V-N--+ +-------------------SUBJ:V-N------------------+ +--------------------APPOS-------------------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (house-keeping,properties) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,major) Parse 256 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +----MOD_ATT:N-ADJ----+ | +-------APPOS-------+ +--COMP_upon:V-N--+ +-------------------SUBJ:V-N------------------+ +---------SUBJ:V-N--------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+COMP_of:N+ +-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (contains,form) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,properties) COMP_of:N-N (those,major) Parse 257 +-----------------OBJ:V-N----------------+----------------------COMP_of:N-N---------------------+ +----------------SUBJ:V-N---------------+--COMP_upon:V-N--+ | +----MOD_ATT:N-N---+ +--------------------APPOS-------------------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . OBJ:V-N (confers,properties) MOD_ATT:N-ADJ (form,house-keeping) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) MOD_ATT:N-N (form,major) COMP_of:N-N (properties,form) Parse 258 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ | +-------APPOS-------+ +--COMP_upon:V-N--+ +-------------------SUBJ:V-N------------------+ +-------------------------APPOS------------------------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (form,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (house-keeping,properties) SUBJ:V-N (contains,GENEXXX) COMP_of:N-N (those,major) Parse 259 +-----------------OBJ:V-N----------------+-------------------SUBJ:V-N------------------+ +----MOD_ATT:N-ADJ----+ +----------------SUBJ:V-N---------------+--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ | +--------------------APPOS-------------------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (house-keeping,properties) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 260 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+-------------------SUBJ:V-N------------------+ +----MOD_ATT:N-ADJ----+ +-------APPOS-------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ | +-------------------------APPOS------------------------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+ +--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (form,GENEXXX) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (house-keeping,properties) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 261 +----------------SUBJ:V-N---------------+ +------------APPOS------------+ +-----------------OBJ:V-N----------------+-------------------SUBJ:V-N------------------+ +-------APPOS-------+ | +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ | +-------------------------APPOS------------------------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ | | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (form,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (house-keeping,properties) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 262 +-----------------OBJ:V-N----------------+---------------------------COMP_of:N-N--------------------------+ +----------------SUBJ:V-N---------------+--COMP_upon:V-N--+ | +-------SUBJ:V-N-------+ +--------------------APPOS-------------------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (properties,GENEXXX) SUBJ:V-N (house-keeping,those) OBJ:V-N (confers,properties) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_from:ADJ-N (distinct,those) COMP_of:N-N (those,major) Parse 263 +---------------------------COMP_of:N-N--------------------------+ +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+-------------------SUBJ:V-N------------------+ | +-------APPOS-------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ | | +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ +--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . SUBJ:V-N (house-keeping,properties) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (properties,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) Parse 264 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+---------------------------COMP_of:N-N--------------------------+ +------------APPOS------------+ +--COMP_upon:V-N--+ +-------------------SUBJ:V-N------------------+ | +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (properties,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (house-keeping,properties) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_from:ADJ-N (distinct,those) COMP_of:N-N (those,major) Parse 265 +---------------------------COMP_of:N-N--------------------------+ +-----------------OBJ:V-N----------------+-------------------SUBJ:V-N------------------+ | +----MOD_ATT:N-ADJ----+ +----------------SUBJ:V-N---------------+--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ | | | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . SUBJ:V-N (house-keeping,properties) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (properties,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) Parse 266 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+ +-------APPOS-------+ +--COMP_upon:V-N--+ +-------------------SUBJ:V-N------------------+ +-------------------------APPOS------------------------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+ +--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (form,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (house-keeping,properties) SUBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,major) Parse 267 +-----------------OBJ:V-N----------------+ +----------COMP_of:N-N----------+ +----------------SUBJ:V-N---------------+--COMP_upon:V-N--+ | | +----MOD_ATT:N-N---+-------------------------APPOS------------------------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +MOD_ATT:+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (form,GENEXXX) COMP_from:ADJ-N (distinct,those) OBJ:V-N (confers,properties) MOD_ATT:N-ADJ (form,house-keeping) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (those,form) SUBJ:V-N (contains,GENEXXX) MOD_ATT:N-N (form,major) Parse 268 +-----------------OBJ:V-N----------------+-------------------SUBJ:V-N------------------+ +----------------SUBJ:V-N---------------+--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ | +-------APPOS-------+ +MOD_ATT:N-A+MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+--APPOS--+ | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) MOD_ATT:N-ADJ (transcription,bacterial) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) SUBJ:V-N (house-keeping,properties) SUBJ:V-N (contains,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 269 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+-------------------SUBJ:V-N------------------+ +----MOD_ATT:N-ADJ----+ | +-------APPOS-------+ +--COMP_upon:V-N--+ +------------COMP_of:N-N------------+ | +-------------------------APPOS------------------------+ | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+ | +-OBJ:V-N+COMP_of:N+----SUBJ:V-N---+-OBJ:V-N+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . APPOS (form,GENEXXX) OBJ:V-N (confers,properties) COMP_of:N-N (properties,major) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (confers,GENEXXX) COMP_of:N-N (form,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (house-keeping,properties) SUBJ:V-N (contains,GENEXXX) COMP_from:ADJ-N (distinct,those) Parse 270 +----------------SUBJ:V-N---------------+-----------------OBJ:V-N----------------+---------------------------COMP_of:N-N--------------------------+ +----MOD_ATT:N-ADJ----+ +------------APPOS------------+ +--COMP_upon:V-N--+ +-------------------SUBJ:V-N------------------+ | | +MOD_ATT:N+MOD_ATT+--APPOS--+--APPOS--+ | | +MOD_AT+---APPOS---+ +MOD_POST:+COMP_from:AD+-COMP_of:N-N+ +-OBJ:V-N+ +----SUBJ:V-N---+-OBJ:V-N+--APPOS--+--APPOS--+ | | | | | | | | | | | | | | | | | | | | | | The bacterial transcription factor GENEXXX ( GENEXXX , GENEXXX , GENEXXX ) confers upon RNA polymerase ( GENEXXX ) properties distinct from those of the major house-keeping form of GENEXXX , which contains GENEXXX ( GENEXXX , GENEXXX ) . COMP_of:N-N (properties,GENEXXX) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (house-keeping,properties) OBJ:V-N (confers,properties) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (house-keeping,form) MOD_ATT:N-ADJ (factor,bacterial) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (GENEXXX,factor) COMP_upon:V-N (confers,polymerase) MOD_POST:N-ADJ (properties,distinct) MOD_ATT:N-N (factor,transcription) APPOS (polymerase,GENEXXX) APPOS (GENEXXX,GENEXXX) APPOS (GENEXXX,GENEXXX) OBJ:V-N (contains,GENEXXX) SUBJ:V-N (confers,GENEXXX) SUBJ:V-N (contains,GENEXXX) COMP_from:ADJ-N (distinct,those) COMP_of:N-N (those,major) PMID: 1569009-1 Sentence 3 We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . Parse 0 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+-------OBJ:V-N-------+ | +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+ | +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) OBJ:V-N (performing,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 1 +-------------------------------------------COMP_with:V-N------------------------------------------+ | +----------SUBJ:V-N---------+------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+----COMP_of:N-N----+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+------------OBJ:V-N------------+ | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) OBJ:V-N (containing,regions) SUBJ:V-N (containing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) OBJ:V-N (performing,assays) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 2 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+----------SUBJ:V-N---------+ +---------------MOD_ATT:N-N--------------+ | +------------OBJ:V-N------------+ +----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+--------COMP_by:V-V--------+ +---COMP_in:ADJ-N---+ | +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) OBJ:V-N (containing,regions) SUBJ:V-N (containing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (assays,vitro) COMP_with:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 3 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+----------SUBJ:V-N---------+ +---------------MOD_ATT:N-N--------------+ +------------------------COMP_by:V-N------------------------+ +----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +---------MOD_ATT:N-ADJ---------+ | +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) SUBJ:V-N (containing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-ADJ (assays,performing) Parse 4 +------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+--------COMP_by:V-V--------+ +---COMP_in:ADJ-N---+ +----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) OBJ:V-N (containing,regions) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (assays,vitro) COMP_of:N-N (set,SPXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) Parse 5 +----------SUBJ:V-N---------+------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+ +----COMP_of:N-N----+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+--------COMP_by:V-V--------+ +---COMP_in:ADJ-N---+ | +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (assays,transcription) OBJ:V-N (performing,assays) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_ATT:N-N (promoter,GENEXXX) Parse 6 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +------------------------COMP_by:V-N------------------------+ | | +------------------------OBJ:V-N-----------------------+ | +---------MOD_ATT:N-ADJ---------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+ +----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (assays,vitro) COMP_with:V-N (tested,set) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (assays,performing) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 7 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+----------SUBJ:V-N---------+------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ +----COMP_of:N-N----+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+--------COMP_by:V-V--------+ +---COMP_in:ADJ-N---+ | +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) OBJ:V-N (containing,regions) SUBJ:V-N (containing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) OBJ:V-N (performing,assays) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 8 +------------------------OBJ:V-N-----------------------+ | +---------------MOD_ATT:N-N--------------+ +------------OBJ:V-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+--------COMP_by:V-V--------+ +---COMP_in:ADJ-N---+ | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) MOD_ATT:N-N (regions,promoter) OBJ:V-N (containing,regions) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) Parse 9 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+ +---COMP_in:ADJ-N---+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) OBJ:V-N (performing,assays) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 10 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ | +------------OBJ:V-N------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+--------COMP_by:V-V--------+ +---COMP_in:ADJ-N---+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) COMP_with:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 11 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+------------OBJ:V-N------------+ | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) SUBJ:V-N (containing,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) OBJ:V-N (performing,assays) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 12 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+ +---COMP_in:ADJ-N---+ | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) SUBJ:V-N (containing,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) OBJ:V-N (performing,assays) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 13 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ +------------------------COMP_by:V-N------------------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +----MOD_ATT:N-ADJ----+ | | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-ADJ (transcription,performing) COMP_of:N-N (set,SPXXX) Parse 14 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ | +------------OBJ:V-N------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+--------COMP_by:V-V--------+-------OBJ:V-N-------+ | | +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+ | +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) SUBJ:V-N (containing,set) OBJ:V-N (performing,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,transcription) COMP_of:N-N (set,SPXXX) Parse 15 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ +------------------------COMP_by:V-N------------------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +----MOD_ATT:N-ADJ----+ | | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:V-N (tested,set) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-ADJ (transcription,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 16 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ +------------------------COMP_by:V-N------------------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +----MOD_ATT:N-ADJ----+ | | +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:V-N (tested,set) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-ADJ (transcription,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 17 +------------------------OBJ:V-N-----------------------+ +-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+------------OBJ:V-N------------+-------COMP_with:N-N------+----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 18 +------------------------OBJ:V-N-----------------------+ +------------------------COMP_by:V-N------------------------+-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +----MOD_ATT:N-ADJ----+ +-------COMP_with:N-N------+----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (transcription,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 19 +------------------------COMP_by:V-N------------------------+ +------------------------OBJ:V-N-----------------------+ | +---------MOD_ATT:N-ADJ---------+-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-ADJ (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (assays,vitro) COMP_of:N-N (set,SPXXX) Parse 20 +------------------------OBJ:V-N-----------------------+ +------------------COMP_of:N-N-----------------+ | +---------------MOD_ATT:N-N--------------+ +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+--------COMP_by:V-V--------+ +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (assays,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (assays,vitro) Parse 21 +-------------COMP_with:N-N------------+ +------------------------OBJ:V-N-----------------------+ | +----------SUBJ:V-N---------+ +---------------MOD_ATT:N-N--------------+ +------------OBJ:V-N------------+ +----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+--------COMP_by:V-V--------+ +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) SUBJ:V-N (containing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 22 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +------------OBJ:V-N------------+ +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) OBJ:V-N (performing,assays) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 23 +-----------------------SUBJ:V-N-----------------------+------------------------OBJ:V-N-----------------------+ +-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+------------OBJ:V-N------------+-------COMP_with:N-N------+----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,assays) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 24 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+------------OBJ:V-N------------+ +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) OBJ:V-N (performing,assays) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 25 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ | +-----------------COMP_by:N-N-----------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +----MOD_ATT:N-ADJ----+ | +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-ADJ (transcription,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 26 +-------------------------------------------COMP_with:V-N------------------------------------------+ | +----------SUBJ:V-N---------+------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+----COMP_of:N-N----+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +------------OBJ:V-N------------+ | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) SUBJ:V-N (containing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) OBJ:V-N (performing,assays) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 27 +------------------------OBJ:V-N-----------------------+ +-------------------OBJ:V-N-------------------+ | +------------OBJ:V-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+ +---COMP_in:ADJ-N---+ +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) COMP_in:ADJ-N (assays,vitro) COMP_of:N-N (set,SPXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) Parse 28 +------------------------OBJ:V-N-----------------------+ | +---------------MOD_ATT:N-N--------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+--------COMP_by:V-V--------+------------OBJ:V-N------------+ +----COMP_of:N-N----+ | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) MOD_ATT:N-N (regions,promoter) OBJ:V-N (containing,regions) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) Parse 29 +------------------------OBJ:V-N-----------------------+ +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------OBJ:V-N-------------------+ | +-------------------------------------COMP_with:V-N------------------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+------------OBJ:V-N------------+ +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) OBJ:V-N (performing,assays) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) OBJ:V-N (containing,promoter) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 30 +-----------------------SUBJ:V-N-----------------------+ +------------------COMP_of:N-N-----------------+ +------------------------OBJ:V-N-----------------------+ +------------------------COMP_by:V-N------------------------+-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +---------MOD_ATT:N-ADJ---------+-------COMP_with:N-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,assays) COMP_of:N-N (assays,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (assays,performing) OBJ:V-N (tested,hypothesis) Parse 31 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ | +-----------------COMP_by:N-N-----------------+ +----------SUBJ:V-N---------+ +---------------MOD_ATT:N-N--------------+ | | +---------MOD_ATT:N-ADJ---------+ +----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+ | +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) SUBJ:V-N (containing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (assays,vitro) COMP_with:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-ADJ (assays,performing) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 32 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+----------SUBJ:V-N---------+ +---------------MOD_ATT:N-N--------------+ +------------------------COMP_by:V-N------------------------+ +----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +----MOD_ATT:N-ADJ----+ | | +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) SUBJ:V-N (containing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-ADJ (transcription,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 33 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ | +------------OBJ:V-N------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+--------COMP_by:V-V--------+ +---COMP_in:ADJ-N---+ +----COMP_of:N-N----+ | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) COMP_with:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 34 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +----------SUBJ:V-N---------+-------------------OBJ:V-N-------------------+ | +-------------------------------------COMP_with:V-N------------------------------------+----COMP_of:N-N----+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+------------OBJ:V-N------------+ | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,promoter) COMP_with:V-N (tested,set) OBJ:V-N (performing,assays) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 35 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ +------------------------COMP_by:V-N------------------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +----MOD_ATT:N-ADJ----+ | +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-N (tested,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-ADJ (transcription,performing) COMP_of:N-N (set,SPXXX) Parse 36 +-------------------------------------------------------------------OBJ:V-N-------------------------------------------------------------------+ | +-------------------OBJ:V-N-------------------+ | +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+-------OBJ:V-N-------+ +-------COMP_with:N-N------+----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+ | +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,promoter) SUBJ:V-N (containing,SPXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,transcription) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) OBJ:V-N (performing,regions) Parse 37 +-------------COMP_with:N-N------------+ | +----------SUBJ:V-N---------+------------------------OBJ:V-N-----------------------+ | +----COMP_of:N-N----+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+--------COMP_by:V-V--------+------------OBJ:V-N------------+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) SUBJ:V-N (containing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 38 +------------------COMP_of:N-N-----------------+ +------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+--------COMP_by:V-V--------+-------OBJ:V-N-------+ +-------COMP_with:N-N------+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+ | +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) OBJ:V-N (performing,assays) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (assays,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (performing,transcription) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 39 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+ +----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (assays,vitro) COMP_with:V-N (tested,set) OBJ:V-N (performing,assays) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 40 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+--------COMP_by:V-V--------+------------OBJ:V-N------------+ +----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (tested,set) OBJ:V-N (performing,assays) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 41 +-------------COMP_with:N-N------------+ +------------------------COMP_by:V-N------------------------+ +----------SUBJ:V-N---------+------------------------OBJ:V-N-----------------------+ | +---------MOD_ATT:N-ADJ---------+ +----COMP_of:N-N----+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) SUBJ:V-N (containing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-ADJ (assays,performing) OBJ:V-N (tested,hypothesis) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 42 +-----------------------SUBJ:V-N-----------------------+------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+--------COMP_by:V-V--------+ +---COMP_in:ADJ-N---+-------COMP_with:N-N------+----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) SUBJ:V-N (containing,assays) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 43 +-------------------------------------------COMP_with:V-N------------------------------------------+ | +----------SUBJ:V-N---------+------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+----COMP_of:N-N----+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +------------OBJ:V-N------------+ | +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) SUBJ:V-N (containing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) OBJ:V-N (performing,assays) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 44 +------------------------OBJ:V-N-----------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (regions,promoter) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (hypothesis,SPXXX) Parse 45 +-----------------------SUBJ:V-N-----------------------+ +------------------COMP_of:N-N-----------------+ +------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+--------COMP_by:V-V--------+ +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) OBJ:V-N (performing,assays) SUBJ:V-N (containing,assays) COMP_of:N-N (assays,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 46 +-----------------------SUBJ:V-N-----------------------+------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+-------OBJ:V-N-------+ +-------COMP_with:N-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+ | +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,assays) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,transcription) OBJ:V-N (tested,hypothesis) COMP_of:N-N (set,SPXXX) Parse 47 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+ +---COMP_in:ADJ-N---+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) OBJ:V-N (performing,assays) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 48 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (regions,promoter) OBJ:V-N (containing,regions) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (assays,vitro) COMP_of:N-N (set,SPXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_ATT:N-N (promoter,GENEXXX) Parse 49 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ | +------------OBJ:V-N------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+--------COMP_by:V-V--------+ +---COMP_in:ADJ-N---+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (tested,set) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 50 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ | +---------------MOD_ATT:N-N--------------+ | +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+ | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 51 +-----------------------SUBJ:V-N-----------------------+------------------------OBJ:V-N-----------------------+ +-------------COMP_with:N-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+--------COMP_by:V-V--------+------------OBJ:V-N------------+-------COMP_with:N-N------+ | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) OBJ:V-N (performing,assays) SUBJ:V-N (containing,assays) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 52 +------------------------COMP_by:V-N------------------------+-----------------------SUBJ:V-N-----------------------+------------------------OBJ:V-N-----------------------+ | +---------MOD_ATT:N-ADJ---------+-------------COMP_with:N-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) SUBJ:V-N (containing,assays) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-ADJ (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 53 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (regions,promoter) OBJ:V-N (containing,regions) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) COMP_in:ADJ-N (assays,vitro) COMP_of:N-N (set,SPXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) Parse 54 +------------------------OBJ:V-N-----------------------+ +--------------------------------------------COMP_by:V-N-------------------------------------------+ | +---------------MOD_ATT:N-N--------------+ +------------------------COMP_by:V-N------------------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +----MOD_ATT:N-ADJ----+ +-------COMP_with:N-N------+ | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-ADJ (transcription,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_by:V-N (tested,set) COMP_of:N-N (set,SPXXX) Parse 55 +--------------------------------------------COMP_by:V-N-------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------------------COMP_by:V-N------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +---------MOD_ATT:N-ADJ---------+-------COMP_with:N-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-ADJ (assays,performing) MOD_ATT:N-N (assays,transcription) COMP_by:V-N (tested,set) COMP_of:N-N (set,SPXXX) Parse 56 +-------------------------------------------------------------------OBJ:V-N-------------------------------------------------------------------+ | +-------------------OBJ:V-N-------------------+ | +--------------------------------OBJ:V-N-------------------------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+------------OBJ:V-N------------+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) SUBJ:V-N (containing,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,set) COMP_in:ADJ-N (transcription,vitro) OBJ:V-N (containing,promoter) MOD:V-ADV (tested,directly) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) OBJ:V-N (performing,regions) Parse 57 +------------------------OBJ:V-N-----------------------+ +--------------------------------OBJ:V-N-------------------------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+------------OBJ:V-N------------+-------COMP_with:N-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,set) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 58 +------------------------OBJ:V-N-----------------------+ +--------------------------------OBJ:V-N-------------------------------+ | +---------------MOD_ATT:N-N--------------+ +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+--------COMP_by:V-V--------+ +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) OBJ:V-N (performing,assays) OBJ:V-N (performing,set) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 59 +--------------------------------------------COMP_by:V-N-------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------------------COMP_by:V-N------------------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +----MOD_ATT:N-ADJ----+ +-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (transcription,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_by:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 60 +--------------------------------OBJ:V-N-------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+--------COMP_by:V-V--------+ +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) SUBJ:V-N (containing,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) OBJ:V-N (performing,assays) OBJ:V-N (performing,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 61 +--------------------------------OBJ:V-N-------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+--------COMP_by:V-V--------+-------OBJ:V-N-------+ +-------COMP_with:N-N------+ | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+ | +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) OBJ:V-N (performing,assays) COMP_in:ADJ-N (transcription,vitro) OBJ:V-N (performing,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (performing,transcription) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 62 +-------------------------------------------------------------------OBJ:V-N-------------------------------------------------------------------+ | +-------------------OBJ:V-N-------------------+ | | +-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+------------OBJ:V-N------------+-------COMP_with:N-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) OBJ:V-N (containing,promoter) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) OBJ:V-N (performing,regions) Parse 63 +------------------------OBJ:V-N-----------------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +------------OBJ:V-N------------+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (regions,promoter) OBJ:V-N (containing,regions) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_ATT:N-N (promoter,GENEXXX) Parse 64 +------------------------OBJ:V-N-----------------------+ | +---------------MOD_ATT:N-N--------------+ +-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+--------COMP_by:V-V--------+------------OBJ:V-N------------+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) SUBJ:V-N (containing,set) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 65 +------------------------OBJ:V-N-----------------------+ | +---------------MOD_ATT:N-N--------------+ +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+--------COMP_by:V-V--------+ +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) SUBJ:V-N (containing,set) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (assays,vitro) COMP_of:N-N (set,SPXXX) Parse 66 +------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+ +---COMP_in:ADJ-N---+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) MOD_ATT:N-N (regions,promoter) OBJ:V-N (containing,regions) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) OBJ:V-N (performing,assays) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (assays,vitro) COMP_of:N-N (set,SPXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_ATT:N-N (promoter,GENEXXX) Parse 67 +------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+ +---COMP_in:ADJ-N---+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) SUBJ:V-N (containing,set) MOD_ATT:N-N (regions,promoter) OBJ:V-N (containing,regions) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) OBJ:V-N (performing,assays) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (assays,vitro) COMP_of:N-N (set,SPXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_ATT:N-N (promoter,GENEXXX) Parse 68 +------------------------OBJ:V-N-----------------------+ +-------------------------------------------COMP_with:V-N------------------------------------------+ | +---------------MOD_ATT:N-N--------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +------------OBJ:V-N------------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 69 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+ | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) OBJ:V-N (performing,assays) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 70 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ | +-----------------COMP_by:N-N-----------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +----MOD_ATT:N-ADJ----+ | | +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-ADJ (transcription,performing) COMP_of:N-N (set,SPXXX) Parse 71 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ +------------------------COMP_by:V-N------------------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +---------MOD_ATT:N-ADJ---------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-N (tested,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) MOD_ATT:N-ADJ (assays,performing) Parse 72 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +------------------------COMP_by:V-N------------------------+ | | +------------------------OBJ:V-N-----------------------+ | +---------MOD_ATT:N-ADJ---------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+ | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_by:V-N (tested,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-ADJ (assays,performing) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 73 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +-------------------OBJ:V-N-------------------+ | | +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+ +---COMP_in:ADJ-N---+ | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) SUBJ:V-N (containing,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) OBJ:V-N (performing,assays) MOD:V-ADV (tested,directly) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 74 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +------------OBJ:V-N------------+ | +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:V-N (tested,set) OBJ:V-N (performing,assays) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 75 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+--------COMP_by:V-V--------+ +---COMP_in:ADJ-N---+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) COMP_with:V-N (tested,set) OBJ:V-N (performing,assays) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 76 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ +------------------------COMP_by:V-N------------------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +---------MOD_ATT:N-ADJ---------+ | +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:V-N (tested,set) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (assays,performing) Parse 77 +------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+ +---COMP_in:ADJ-N---+-------COMP_with:N-N------+----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (assays,vitro) COMP_of:N-N (set,SPXXX) Parse 78 +------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+-------OBJ:V-N-------+ +-------COMP_with:N-N------+----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+ | +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (performing,transcription) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 79 +------------------------OBJ:V-N-----------------------+ | +---------------MOD_ATT:N-N--------------+ +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+--------COMP_by:V-V--------+ +---COMP_in:ADJ-N---+-------COMP_with:N-N------+----COMP_of:N-N----+ | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 80 +------------------------OBJ:V-N-----------------------+ | +---------------MOD_ATT:N-N--------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +------------OBJ:V-N------------+ +----COMP_of:N-N----+ | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) COMP_of:N-N (set,SPXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) Parse 81 +------------------------OBJ:V-N-----------------------+ +------------------COMP_of:N-N-----------------+ | +---------------MOD_ATT:N-N--------------+ +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (assays,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (assays,vitro) Parse 82 +------------------COMP_of:N-N-----------------+ +------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------OBJ:V-N-------+ +-------COMP_with:N-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+ | +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (assays,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,transcription) OBJ:V-N (tested,hypothesis) Parse 83 +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,assays) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 84 +-------------COMP_with:N-N------------+ | +----------SUBJ:V-N---------+------------------------OBJ:V-N-----------------------+ | +----COMP_of:N-N----+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+------------OBJ:V-N------------+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) SUBJ:V-N (containing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (assays,transcription) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 85 +------------------------OBJ:V-N-----------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ | +---------------MOD_ATT:N-N--------------+ +------------------------------COMP_with:N-N-----------------------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ +----COMP_of:N-N----+ | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 86 +-----------------------SUBJ:V-N-----------------------+------------------------OBJ:V-N-----------------------+ +-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +------------OBJ:V-N------------+-------COMP_with:N-N------+----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,assays) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 87 +------------------------OBJ:V-N-----------------------+ +------------------------COMP_by:V-N------------------------+ | +---------------MOD_ATT:N-N--------------+ | +---------MOD_ATT:N-ADJ---------+-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+----COMP_of:N-N----+ | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-ADJ (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 88 +-------------COMP_with:N-N------------+ +------------------------OBJ:V-N-----------------------+ | +----------SUBJ:V-N---------+ +---------------MOD_ATT:N-N--------------+ +-----------------COMP_by:N-N-----------------+ +----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +---------MOD_ATT:N-ADJ---------+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) SUBJ:V-N (containing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-ADJ (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 89 +-----------------COMP_by:N-N-----------------+------------------COMP_of:N-N-----------------+ +------------------------OBJ:V-N-----------------------+ | +---------MOD_ATT:N-ADJ---------+-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (assays,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (assays,performing) OBJ:V-N (tested,hypothesis) COMP_in:ADJ-N (assays,vitro) Parse 90 +------------------------OBJ:V-N-----------------------+ +-----------------------SUBJ:V-N-----------------------+ +---------------MOD_ATT:N-N--------------+ +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+----COMP_of:N-N----+ | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,assays) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 91 +------------------------OBJ:V-N-----------------------+ +-------------------OBJ:V-N-------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +------------OBJ:V-N------------+ +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) COMP_of:N-N (set,SPXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) Parse 92 +-------------COMP_with:N-N------------+ +------------------------OBJ:V-N-----------------------+ | +----------SUBJ:V-N---------+ +---------------MOD_ATT:N-N--------------+ +------------------------COMP_by:V-N------------------------+ +----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +----MOD_ATT:N-ADJ----+ +-------COMP_with:N-N------+ +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) SUBJ:V-N (containing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (transcription,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 93 +-------------COMP_with:V-N------------+ | +----------SUBJ:V-N---------+------------------------OBJ:V-N-----------------------+ | +----COMP_of:N-N----+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) SUBJ:V-N (containing,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_with:V-N (assays,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) COMP_with:V-N (assays,GENEXXX) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 94 +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------------COMP_with:N-N-----------------------------+----------SUBJ:V-N---------+------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ +----COMP_of:N-N----+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+ | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) SUBJ:V-N (containing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) COMP_by:N-V (hypothesis,performing) COMP_in:ADJ-N (assays,vitro) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,assays) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 95 +------------------------OBJ:V-N-----------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ | +---------------MOD_ATT:N-N--------------+ | +-------------COMP_with:N-N------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+-------COMP_with:N-N------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (hypothesis,SPXXX) Parse 96 +------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+ +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (regions,promoter) OBJ:V-N (containing,regions) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (assays,vitro) COMP_of:N-N (set,SPXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_ATT:N-N (promoter,GENEXXX) Parse 97 +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+----------SUBJ:V-N---------+ +---------------MOD_ATT:N-N--------------+ | +------------OBJ:V-N------------+ +----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+ | +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) SUBJ:V-N (containing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (assays,vitro) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 98 +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +-------OBJ:V-N-------+ +-------COMP_with:N-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+ | +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,assays) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,transcription) OBJ:V-N (tested,hypothesis) COMP_of:N-N (hypothesis,SPXXX) Parse 99 +------------------------OBJ:V-N-----------------------+ +------------------COMP_of:N-N-----------------+ +-------------------OBJ:V-N-------------------+ | +-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+------------OBJ:V-N------------+-------COMP_with:N-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (assays,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) Parse 100 +-----------------------SUBJ:V-N-----------------------+------------------------OBJ:V-N-----------------------+ +------------------COMP_of:N-N-----------------+ | +---------------MOD_ATT:N-N--------------+ +-------------COMP_with:N-N------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +------------OBJ:V-N------------+-------COMP_with:N-N------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ | | | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,assays) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (assays,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) Parse 101 +-----------------------SUBJ:V-N-----------------------+------------------------OBJ:V-N-----------------------+ +------------------------COMP_by:V-N------------------------+-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +----MOD_ATT:N-ADJ----+ +-------COMP_with:N-N------+----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,assays) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (transcription,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 102 +------------------------OBJ:V-N-----------------------+ +------------------COMP_of:N-N-----------------+ +-------------------OBJ:V-N-------------------+ | +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+ +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (assays,SPXXX) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (assays,vitro) Parse 103 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+----------SUBJ:V-N---------+------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ +----COMP_of:N-N----+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------OBJ:V-N-------+ | | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+ | +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) SUBJ:V-N (containing,set) OBJ:V-N (performing,assays) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) OBJ:V-N (performing,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 104 +------------------------OBJ:V-N-----------------------+ +----------SUBJ:V-N---------+-------------------OBJ:V-N-------------------+ | +------------OBJ:V-N------------+ +----COMP_of:N-N----+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+ | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (assays,vitro) COMP_of:N-N (set,SPXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) Parse 105 +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+----------SUBJ:V-N---------+ +---------------MOD_ATT:N-N--------------+ +-----------------COMP_by:N-N-----------------+ +----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +---------MOD_ATT:N-ADJ---------+ | +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) SUBJ:V-N (containing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-ADJ (assays,performing) Parse 106 +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------------COMP_with:N-N-----------------------------+ | +-----------------COMP_by:N-N-----------------+ +----------SUBJ:V-N---------+------------------------OBJ:V-N-----------------------+ | +---------MOD_ATT:N-ADJ---------+ +----COMP_of:N-N----+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+ | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) SUBJ:V-N (containing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) COMP_in:ADJ-N (assays,vitro) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-ADJ (assays,performing) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 107 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------SUBJ:V-N----------------------------------------------+ +---------------MOD_ATT:N-N--------------+ | +-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+-------COMP_with:N-N------+----COMP_of:N-N----+ | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 108 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (assays,vitro) COMP_of:N-N (set,SPXXX) Parse 109 +-----------------------SUBJ:V-N-----------------------+------------------------OBJ:V-N-----------------------+ +------------------COMP_of:N-N-----------------+ | +---------------MOD_ATT:N-N--------------+ +-------------COMP_with:N-N------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+--------COMP_by:V-V--------+------------OBJ:V-N------------+-------COMP_with:N-N------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ | | | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,assays) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (assays,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) Parse 110 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +-------------------OBJ:V-N-------------------+ | | +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+ +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) OBJ:V-N (performing,assays) COMP_of:N-N (GENEXXX,SPXXX) OBJ:V-N (containing,promoter) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 111 +------------------------OBJ:V-N-----------------------+ +-------------------------------------------COMP_with:V-N------------------------------------------+ | +---------------MOD_ATT:N-N--------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ +----COMP_of:N-N----+ | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 112 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 113 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+----------SUBJ:V-N---------+------------------------OBJ:V-N-----------------------+ | +-----------------COMP_by:N-N-----------------+ +----COMP_of:N-N----+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +----MOD_ATT:N-ADJ----+ | | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) SUBJ:V-N (containing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-ADJ (transcription,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 114 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ +------------------------COMP_by:V-N------------------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +----------MOD_ATT:N-N----------+ +----COMP_of:N-N----+ | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:V-N (tested,GENEXXX) MOD_ATT:N-N (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 115 +------------------------OBJ:V-N-----------------------+ +------------------COMP_of:N-N-----------------+ +-------------------OBJ:V-N-------------------+ | +------------------------COMP_by:V-N------------------------+-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +---------MOD_ATT:N-ADJ---------+-------COMP_with:N-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (assays,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) OBJ:V-N (containing,promoter) MOD_ATT:N-ADJ (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) Parse 116 +-----------------------SUBJ:V-N-----------------------+ +------------------COMP_of:N-N-----------------+ +------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+-------OBJ:V-N-------+ +-------COMP_with:N-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+ | +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,assays) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (assays,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,transcription) OBJ:V-N (tested,hypothesis) Parse 117 +-----------------------SUBJ:V-N-----------------------+------------------------OBJ:V-N-----------------------+ +------------------COMP_of:N-N-----------------+ | +---------------MOD_ATT:N-N--------------+ +-----------------COMP_by:N-N-----------------+-------------COMP_with:N-N------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +---------MOD_ATT:N-ADJ---------+-------COMP_with:N-N------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ | | | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,assays) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (assays,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-ADJ (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) Parse 118 +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+ | | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_of:N-N (hypothesis,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_in:ADJ-N (assays,vitro) Parse 119 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------OBJ:V-N-------+ | +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+ | +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) OBJ:V-N (performing,transcription) COMP_of:N-N (set,SPXXX) Parse 120 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +-------------------OBJ:V-N-------------------+ | | +-----------------COMP_by:N-N-----------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +---------MOD_ATT:N-ADJ---------+ +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (GENEXXX,SPXXX) OBJ:V-N (containing,promoter) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-ADJ (assays,performing) Parse 121 +----------------------------------------------SUBJ:V-N----------------------------------------------+ | +------------------COMP_of:N-N-----------------+ +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (assays,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) COMP_in:ADJ-N (assays,vitro) Parse 122 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +----------SUBJ:V-N---------+ +---------------MOD_ATT:N-N--------------+ +-------------------------------------COMP_with:V-N------------------------------------+----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ | +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (containing,regions) SUBJ:V-N (containing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 123 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ | +------------------COMP_of:N-N-----------------+ | +---------------MOD_ATT:N-N--------------+ | +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ | | | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (assays,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,hypothesis) COMP_in:ADJ-N (assays,vitro) Parse 124 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,assays) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 125 +-----------------------SUBJ:V-N-----------------------+------------------------OBJ:V-N-----------------------+ +------------------------COMP_by:V-N------------------------+------------------COMP_of:N-N-----------------+ | +---------------MOD_ATT:N-N--------------+ | +---------MOD_ATT:N-ADJ---------+-------------COMP_with:N-N------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ | | | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,assays) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (assays,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-ADJ (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (assays,vitro) Parse 126 +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | | +-----------------COMP_by:N-N-----------------+ | | | +------------------------OBJ:V-N-----------------------+ | +---------MOD_ATT:N-ADJ---------+ | | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+ | | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_of:N-N (hypothesis,SPXXX) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-ADJ (assays,performing) Parse 127 +----------------------------------------------SUBJ:V-N----------------------------------------------+ | +------------------COMP_of:N-N-----------------+ +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +----MOD_ATT:N-ADJ----+ +-------COMP_with:N-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (assays,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (transcription,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) Parse 128 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ | +------------------COMP_of:N-N-----------------+ | +---------------MOD_ATT:N-N--------------+ +-----------------COMP_by:N-N-----------------+-------------COMP_with:N-N------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +---------MOD_ATT:N-ADJ---------+-------COMP_with:N-N------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ | | | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (assays,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-ADJ (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,hypothesis) Parse 129 +------------------------OBJ:V-N-----------------------+ +-------------------OBJ:V-N-------------------+ | +----------------------------------------------SUBJ:V-N----------------------------------------------+ +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) COMP_of:N-N (set,SPXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) Parse 130 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+ | | +---------------MOD_ATT:N-N--------------+ +-----------------COMP_by:N-N-----------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +----MOD_ATT:N-ADJ----+ | +----COMP_of:N-N----+ | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-ADJ (transcription,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 131 +-------------------------------------------------------------------OBJ:V-N-------------------------------------------------------------------+ | +------------------COMP_of:N-N-----------------+ +-------------------OBJ:V-N-------------------+ | +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------OBJ:V-N-------+ +-------COMP_with:N-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+ | +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (assays,SPXXX) COMP_in:ADJ-N (transcription,vitro) OBJ:V-N (containing,promoter) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) OBJ:V-N (performing,transcription) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,regions) Parse 132 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (hypothesis,SPXXX) Parse 133 +-------------------------------------------------------------------OBJ:V-N-------------------------------------------------------------------+ | +-------------COMP_with:N-N------------+ | | | +----------SUBJ:V-N---------+-------------------OBJ:V-N-------------------+ | +------------OBJ:V-N------------+ +----COMP_of:N-N----+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+ +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,set) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) OBJ:V-N (performing,regions) Parse 134 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ | +---------------MOD_ATT:N-N--------------+ | +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +-------OBJ:V-N-------+ +-------COMP_with:N-N------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+ | +MOD_ATT:N-+ | | | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (performing,transcription) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,hypothesis) COMP_of:N-N (hypothesis,SPXXX) Parse 135 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +----MOD_ATT:N-ADJ----+ +-------COMP_with:N-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (transcription,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (hypothesis,SPXXX) Parse 136 +-------------------------------------------------------------------OBJ:V-N-------------------------------------------------------------------+ | +------------------COMP_of:N-N-----------------+ +-------------------OBJ:V-N-------------------+ | +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+-------OBJ:V-N-------+ +-------COMP_with:N-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+ | +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (assays,SPXXX) COMP_in:ADJ-N (transcription,vitro) OBJ:V-N (containing,promoter) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) OBJ:V-N (performing,transcription) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,regions) Parse 137 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------COMP_with:V-N------------------------------------------+ | +-------------------------------------COMP_with:V-N------------------------------------+ | +-------------------OBJ:V-N-------------------+ | +------------------------COMP_by:V-N------------------------+ | | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +----MOD_ATT:N-ADJ----+ | | +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ | +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-N (tested,assays) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,promoter) COMP_with:V-N (tested,set) SUBJ:V-N (containing,SPXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (with,regions) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-ADJ (transcription,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 138 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------COMP_with:V-N------------------------------------------+ | | | +----------SUBJ:V-N---------+-------------------OBJ:V-N-------------------+ | +-------------------------------------COMP_with:V-N------------------------------------+----COMP_of:N-N----+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+------------OBJ:V-N------------+ | | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ | +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) OBJ:V-N (performing,assays) SUBJ:V-N (containing,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,set) OBJ:V-N (with,regions) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 139 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (regions,promoter) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (hypothesis,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 140 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------COMP_with:V-N------------------------------------------+ | +-------------------------------------COMP_with:V-N------------------------------------+----------SUBJ:V-N---------+-------------------OBJ:V-N-------------------+ | | +------------OBJ:V-N------------+ | +----COMP_of:N-N----+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+ +---COMP_in:ADJ-N---+ | | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ | +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) OBJ:V-N (performing,assays) SUBJ:V-N (containing,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,set) OBJ:V-N (with,regions) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 141 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ | +---------------MOD_ATT:N-N--------------+ | +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+ | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ | | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (regions,promoter) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) MOD:V-ADV (tested,directly) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (hypothesis,SPXXX) MOD_ATT:N-N (regions,GENEXXX) Parse 142 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ | +------------------------------------COMP_with:N-N-----------------------------------+ | +------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+ | | | +---------------MOD_ATT:N-N--------------+ | +------------OBJ:V-N------------+ | | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+ | | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ | | | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_of:N-N (hypothesis,SPXXX) OBJ:V-N (performing,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_in:ADJ-N (assays,vitro) Parse 143 +-------------------------------------------------------------------OBJ:V-N-------------------------------------------------------------------+ | +-----------------------SUBJ:V-N-----------------------+ | | +------------------COMP_of:N-N-----------------+ +-------------------OBJ:V-N-------------------+ | +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+-------OBJ:V-N-------+ +-------COMP_with:N-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+ | +MOD_ATT:N-+ | | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,assays) COMP_of:N-N (assays,SPXXX) COMP_in:ADJ-N (transcription,vitro) OBJ:V-N (containing,promoter) MOD:V-ADV (tested,directly) OBJ:V-N (performing,transcription) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,regions) Parse 144 +------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 145 +------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-------OBJ:V-N-------+ +-------COMP_with:N-N------+----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+ | +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (performing,transcription) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 146 +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+-------------COMP_with:N-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +---------MOD_ATT:N-ADJ---------+-------COMP_with:N-N------+----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-ADJ (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 147 +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ +----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) OBJ:V-N (performing,assays) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 148 +-----------------------SUBJ:V-N-----------------------+------------------------OBJ:V-N-----------------------+ +-------------COMP_with:N-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +------------OBJ:V-N------------+-------COMP_with:N-N------+----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) SUBJ:V-N (containing,assays) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 149 +-------------COMP_with:N-N------------+ | +----------SUBJ:V-N---------+------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+ +----COMP_of:N-N----+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+--------COMP_by:V-V--------+-------OBJ:V-N-------+ +-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+ | +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) SUBJ:V-N (containing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (performing,transcription) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 150 +-----------------------SUBJ:V-N-----------------------+------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) SUBJ:V-N (containing,assays) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 151 +-----------------------SUBJ:V-N-----------------------+------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-------OBJ:V-N-------+ +-------COMP_with:N-N------+----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+ | +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) SUBJ:V-N (containing,assays) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (performing,transcription) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 152 +------------------COMP_of:N-N-----------------+ +------------------------OBJ:V-N-----------------------+ +------------------------COMP_by:V-N------------------------+-------------COMP_with:N-N------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +---------MOD_ATT:N-ADJ---------+-------COMP_with:N-N------+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (assays,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-ADJ (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 153 +----------SUBJ:V-N---------+------------------------OBJ:V-N-----------------------+ +----COMP_of:N-N----+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+--------COMP_by:V-V--------+------------OBJ:V-N------------+ | +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) COMP_of:N-N (GENEXXX,SPXXX) Parse 154 +------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+ +----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (regions,promoter) OBJ:V-N (containing,regions) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) OBJ:V-N (tested,hypothesis) COMP_in:ADJ-N (assays,vitro) COMP_of:N-N (set,SPXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) Parse 155 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ | +-----------------COMP_by:N-N-----------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +---------MOD_ATT:N-ADJ---------+ +----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (tested,set) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-ADJ (assays,performing) Parse 156 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+----------SUBJ:V-N---------+------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ +----COMP_of:N-N----+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+ | +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) SUBJ:V-N (containing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) OBJ:V-N (performing,assays) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 157 +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+-------------COMP_with:N-N------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +---------MOD_ATT:N-ADJ---------+-------COMP_with:N-N------+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-ADJ (assays,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (hypothesis,SPXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 158 +-----------------------SUBJ:V-N-----------------------+ +------------------COMP_of:N-N-----------------+ +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+-------------COMP_with:N-N------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +----MOD_ATT:N-ADJ----+ +-------COMP_with:N-N------+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) SUBJ:V-N (containing,assays) COMP_of:N-N (assays,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (transcription,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 159 +------------------------COMP_by:V-N------------------------+-----------------------SUBJ:V-N-----------------------+------------------------OBJ:V-N-----------------------+ | +---------MOD_ATT:N-ADJ---------+-------------COMP_with:N-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,assays) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-ADJ (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 160 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+ +----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_in:ADJ-N (assays,vitro) COMP_with:V-N (tested,set) OBJ:V-N (performing,assays) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 161 +-----------------------SUBJ:V-N-----------------------+ +------------------COMP_of:N-N-----------------+ +------------------------OBJ:V-N-----------------------+ +------------------------COMP_by:V-N------------------------+-------------COMP_with:N-N------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +----MOD_ATT:N-ADJ----+ +-------COMP_with:N-N------+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) SUBJ:V-N (containing,assays) COMP_of:N-N (assays,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (transcription,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 162 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ | +-----------------COMP_by:N-N-----------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +----MOD_ATT:N-ADJ----+ | +----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:V-N (tested,set) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-ADJ (transcription,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 163 +----------------------------------------------SUBJ:V-N----------------------------------------------+ | +------------------COMP_of:N-N-----------------+ +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +-------OBJ:V-N-------+ +-------COMP_with:N-N------+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+ | +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (assays,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (performing,transcription) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 164 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+ +----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (assays,vitro) COMP_with:N-N (hypothesis,GENEXXX) OBJ:V-N (performing,assays) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 165 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | +-------------------OBJ:V-N-------------------+ +----------SUBJ:V-N---------+------------------------OBJ:V-N-----------------------+ | +------MOD_POST:N-ADJ-----+ | +----COMP_of:N-N----+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ | | +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) SUBJ:V-N (containing,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,set) MOD_POST:N-ADJ (hypothesis,vitro) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) COMP_in:N-N (hypothesis,vitro) Parse 166 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (hypothesis,SPXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 167 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ | +------------------------------------COMP_with:N-N-----------------------------------+ | | +------------------------------COMP_with:N-N-----------------------------+ | | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +-------OBJ:V-N-------+ | | | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+ | +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_of:N-N (hypothesis,SPXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) OBJ:V-N (performing,transcription) COMP_with:N-N (hypothesis,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 168 +-----------------------SUBJ:V-N-----------------------+------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +----MOD_ATT:N-ADJ----+ +-------COMP_with:N-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,assays) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (transcription,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) COMP_of:N-N (set,SPXXX) Parse 169 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------OBJ:V-N-------+ | | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+ | +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (performing,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,transcription) COMP_of:N-N (set,SPXXX) Parse 170 +------------------------OBJ:V-N-----------------------+ | +---------------MOD_ATT:N-N--------------+ +----------------------------------------------SUBJ:V-N----------------------------------------------+ | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (regions,promoter) OBJ:V-N (containing,regions) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) Parse 171 +------------------------OBJ:V-N-----------------------+ | +---------------MOD_ATT:N-N--------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +------------OBJ:V-N------------+-------COMP_with:N-N------+ | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 172 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 173 +------------------------OBJ:V-N-----------------------+ +-----------------------SUBJ:V-N-----------------------+-------------------OBJ:V-N-------------------+ | +------------------------COMP_by:V-N------------------------+-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +---------MOD_ATT:N-ADJ---------+-------COMP_with:N-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,assays) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) OBJ:V-N (containing,promoter) MOD_ATT:N-ADJ (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 174 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | +-----------------COMP_by:N-N-----------------+ | | +------------------------OBJ:V-N-----------------------+ | | +---------MOD_ATT:N-ADJ---------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (assays,performing) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 175 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ | +---------------MOD_ATT:N-N--------------+ +------------------------------COMP_with:N-N-----------------------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 176 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ | +---------------MOD_ATT:N-N--------------+ | +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-------OBJ:V-N-------+ +-------COMP_with:N-N------+ | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+ | +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (performing,transcription) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 177 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +-------OBJ:V-N-------+ | | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+ | +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) OBJ:V-N (performing,transcription) COMP_of:N-N (set,SPXXX) Parse 178 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------OBJ:V-N-------+ +-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+ | +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,assays) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,transcription) OBJ:V-N (tested,hypothesis) COMP_of:N-N (set,SPXXX) Parse 179 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ | +---------------MOD_ATT:N-N--------------+ | +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-------OBJ:V-N-------+ +-------COMP_with:N-N------+ +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+ | +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (performing,transcription) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 180 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +---------MOD_ATT:N-ADJ---------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) MOD_ATT:N-ADJ (assays,performing) Parse 181 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ | +---------------MOD_ATT:N-N--------------+ | +-----------------COMP_by:N-N-----------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +----MOD_ATT:N-ADJ----+ +-------COMP_with:N-N------+ +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-ADJ (transcription,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 182 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,assays) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 183 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------SUBJ:V-N----------------------------------------------+-------------------OBJ:V-N-------------------+ | | +------------OBJ:V-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) COMP_in:ADJ-N (assays,vitro) COMP_of:N-N (set,SPXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) Parse 184 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ | +---------------MOD_ATT:N-N--------------+ | +------------------------------COMP_with:N-N-----------------------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 185 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (tested,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_with:V-N (assays,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 186 +------------------------OBJ:V-N-----------------------+ | +---------------MOD_ATT:N-N--------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +------------OBJ:V-N------------+ +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 187 +------------------------OBJ:V-N-----------------------+ | +---------------MOD_ATT:N-N--------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+ | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (tested,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) COMP_with:V-N (assays,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) COMP_of:N-N (set,SPXXX) Parse 188 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 189 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | | +---------------MOD_ATT:N-N--------------+ | | +------------OBJ:V-N------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +-------OBJ:V-N-------+ | | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+ | +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) OBJ:V-N (performing,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,transcription) COMP_of:N-N (set,SPXXX) Parse 190 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ | +---------------MOD_ATT:N-N--------------+ | +------------------------------COMP_with:N-N-----------------------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ | +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 191 +----------------------------------------------OBJ:V-N---------------------------------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | +------------------------OBJ:V-N-----------------------+ | | +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+ | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_in:ADJ-N (assays,vitro) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,assays) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 192 +------------------------OBJ:V-N-----------------------+ +-------------------OBJ:V-N-------------------+ | +----------------------------------------------OBJ:V-N---------------------------------------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +------------OBJ:V-N------------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 193 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | | +---------------MOD_ATT:N-N--------------+ | +-----------------COMP_by:N-N-----------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +----MOD_ATT:N-ADJ----+ | | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-ADJ (transcription,performing) COMP_of:N-N (set,SPXXX) Parse 194 +----------------------------------------------OBJ:V-N---------------------------------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | +------------------------OBJ:V-N-----------------------+ | +-----------------COMP_by:N-N-----------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +----MOD_ATT:N-ADJ----+ | | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-ADJ (transcription,performing) COMP_of:N-N (set,SPXXX) Parse 195 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ +-------------------OBJ:V-N-------------------+ | | +------------OBJ:V-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 196 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | | +---------------MOD_ATT:N-N--------------+ | +-----------------COMP_by:N-N-----------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +---------MOD_ATT:N-ADJ---------+ | +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) MOD_ATT:N-ADJ (assays,performing) Parse 197 +----------------------------------------------OBJ:V-N---------------------------------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | +------------------------OBJ:V-N-----------------------+ | +-----------------COMP_by:N-N-----------------+ | | | +---------------MOD_ATT:N-N--------------+ | | +---------MOD_ATT:N-ADJ---------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+ | +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-ADJ (assays,performing) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 198 +-----------------------SUBJ:V-N-----------------------+------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+-------------COMP_with:N-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +---------MOD_ATT:N-ADJ---------+-------COMP_with:N-N------+ | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) SUBJ:V-N (containing,assays) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-ADJ (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 199 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-------OBJ:V-N-------+ | | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+ | +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (performing,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,transcription) COMP_of:N-N (set,SPXXX) Parse 200 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------SUBJ:V-N----------------------------------------------+ +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (regions,promoter) OBJ:V-N (containing,regions) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) COMP_of:N-N (set,SPXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) Parse 201 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------COMP_by:N-N-----------------+ +------------------------OBJ:V-N-----------------------+ | +---------MOD_ATT:N-ADJ---------+-------------COMP_with:N-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-ADJ (assays,performing) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 202 +-----------------------------------------COMP_of:N-N----------------------------------------+ | +--------------------------------OBJ:V-N-------------------------------+ | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +-------OBJ:V-N-------+ +-------COMP_with:N-N------+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+ | +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) OBJ:V-N (performing,set) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (performing,transcription) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (hypothesis,SPXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 203 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ | +--------------------------------OBJ:V-N-------------------------------+ | +---------------MOD_ATT:N-N--------------+ | +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) OBJ:V-N (performing,set) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 204 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-------OBJ:V-N-------+ +-------COMP_with:N-N------+ | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+ | +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (performing,transcription) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 205 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 206 +----------------------------------------------OBJ:V-N---------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ | +------------------------OBJ:V-N-----------------------+ | | +---------MOD_ATT:N-ADJ---------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-ADJ (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 207 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:N-N (hypothesis,GENEXXX) OBJ:V-N (performing,assays) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 208 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +-----------------COMP_by:N-N-----------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +---------MOD_ATT:N-ADJ---------+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-ADJ (assays,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 209 +----------------------------------------------OBJ:V-N---------------------------------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | +------------------------OBJ:V-N-----------------------+ | | +------------OBJ:V-N------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_in:ADJ-N (assays,vitro) COMP_with:N-N (hypothesis,GENEXXX) OBJ:V-N (performing,assays) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 210 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+ | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (tested,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) COMP_with:V-N (assays,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 211 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+ +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 212 +----------------------------------------------OBJ:V-N---------------------------------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | +------------------------OBJ:V-N-----------------------+ | +-----------------COMP_by:N-N-----------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +----MOD_ATT:N-ADJ----+ | | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-ADJ (transcription,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 213 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+ +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (tested,set) SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) COMP_with:V-N (assays,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 214 +----------------------------------------------OBJ:V-N---------------------------------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | +------------------------OBJ:V-N-----------------------+ | | +------------OBJ:V-N------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+ | +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_in:ADJ-N (assays,vitro) COMP_with:N-N (hypothesis,GENEXXX) OBJ:V-N (performing,assays) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 215 +----------------------------------------------OBJ:V-N---------------------------------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | +------------------------OBJ:V-N-----------------------+ | +-----------------COMP_by:N-N-----------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +---------MOD_ATT:N-ADJ---------+ | +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (assays,performing) Parse 216 +----------------------------------------------SUBJ:V-N----------------------------------------------+ | +--------------------------------OBJ:V-N-------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) OBJ:V-N (performing,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 217 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_by:N-N------------------------------------+ | +---------------MOD_ATT:N-N--------------+ +-----------------COMP_by:N-N-----------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +----MOD_ATT:N-ADJ----+ +-------COMP_with:N-N------+ | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-ADJ (transcription,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 218 +--------------------------------------------COMP_by:V-N-------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------------------COMP_by:V-N------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +----MOD_ATT:N-ADJ----+ +-------COMP_with:N-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (transcription,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_by:V-N (tested,set) COMP_of:N-N (set,SPXXX) Parse 219 +-------------------------------------COMP_by:N-N------------------------------------+ +-----------------COMP_by:N-N-----------------+ | +------------------------OBJ:V-N-----------------------+ | +---------MOD_ATT:N-ADJ---------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (promoter,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_by:N-N (hypothesis,set) MOD_ATT:N-ADJ (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 220 +-------------------------------------COMP_by:N-N------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+ | | +---------------MOD_ATT:N-N--------------+ | +---------MOD_ATT:N-ADJ---------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_by:N-N (hypothesis,set) MOD_ATT:N-ADJ (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 221 +------------------------OBJ:V-N-----------------------+ +--------------------------------------------COMP_by:V-N-------------------------------------------+ | +---------------MOD_ATT:N-N--------------+ +------------------------COMP_by:V-N------------------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +---------MOD_ATT:N-ADJ---------+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-ADJ (assays,performing) MOD_ATT:N-N (assays,transcription) COMP_by:V-N (tested,set) COMP_of:N-N (set,SPXXX) Parse 222 +--------------------------------------------COMP_by:V-N-------------------------------------------+ +------------------------COMP_by:V-N------------------------+ | +------------------------OBJ:V-N-----------------------+ | +---------MOD_ATT:N-ADJ---------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (promoter,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_by:V-N (tested,set) COMP_of:N-N (set,SPXXX) Parse 223 +------------------------OBJ:V-N-----------------------+ +--------------------------------------------COMP_by:V-N-------------------------------------------+ +-------------------OBJ:V-N-------------------+ | +------------------------COMP_by:V-N------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +---------MOD_ATT:N-ADJ---------+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-ADJ (assays,performing) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_by:V-N (tested,set) COMP_of:N-N (set,SPXXX) Parse 224 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ | | +--------------------------------OBJ:V-N-------------------------------+ | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_in:ADJ-N (assays,vitro) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (hypothesis,SPXXX) Parse 225 +------------------------OBJ:V-N-----------------------+ +--------------------------------OBJ:V-N-------------------------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +------------OBJ:V-N------------+-------COMP_with:N-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,set) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 226 +------------------------OBJ:V-N-----------------------+ | +---------------MOD_ATT:N-N--------------+ +--------------------------------OBJ:V-N-------------------------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+--------COMP_by:V-V--------+------------OBJ:V-N------------+-------COMP_with:N-N------+ | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) OBJ:V-N (performing,assays) OBJ:V-N (performing,set) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 227 +-------------------------------------COMP_by:N-N------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +----MOD_ATT:N-ADJ----+ +-------COMP_with:N-N------+ | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (transcription,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 228 +------------------------OBJ:V-N-----------------------+ +--------------------------------OBJ:V-N-------------------------------+ | +---------------MOD_ATT:N-N--------------+ +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+--------COMP_by:V-V--------+ +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) SUBJ:V-N (containing,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) OBJ:V-N (performing,assays) OBJ:V-N (performing,set) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 229 +-------------------------------------COMP_by:N-N------------------------------------+ +-----------------COMP_by:N-N-----------------+ | +------------------------OBJ:V-N-----------------------+ | +---------MOD_ATT:N-ADJ---------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_by:N-N (hypothesis,set) MOD_ATT:N-ADJ (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 230 +--------------------------------------------COMP_by:V-N-------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------------------COMP_by:V-N------------------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +----MOD_ATT:N-ADJ----+ +-------COMP_with:N-N------+ | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (transcription,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_by:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 231 +--------------------------------------------COMP_by:V-N-------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------------------COMP_by:V-N------------------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +---------MOD_ATT:N-ADJ---------+-------COMP_with:N-N------+ | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-ADJ (assays,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_by:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 232 +------------------------OBJ:V-N-----------------------+ +--------------------------------OBJ:V-N-------------------------------+ +-------------------OBJ:V-N-------------------+ | +------------OBJ:V-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+ +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,set) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 233 +-----------------------------------------COMP_of:N-N----------------------------------------+ +-------------------------------------COMP_by:N-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +----MOD_ATT:N-ADJ----+ +-------COMP_with:N-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-ADJ (transcription,performing) COMP_of:N-N (hypothesis,SPXXX) Parse 234 +-----------------------------------------COMP_of:N-N----------------------------------------+ +-------------------------------------COMP_by:N-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+ | | | +---------------MOD_ATT:N-N--------------+ | +---------MOD_ATT:N-ADJ---------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-ADJ (assays,performing) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (hypothesis,SPXXX) Parse 235 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_by:N-N------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ +-----------------COMP_by:N-N-----------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +---------MOD_ATT:N-ADJ---------+-------COMP_with:N-N------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ | | | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (hypothesis,SPXXX) MOD_ATT:N-ADJ (assays,performing) Parse 236 +--------------------------------OBJ:V-N-------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) OBJ:V-N (performing,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 237 +--------------------------------OBJ:V-N-------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------OBJ:V-N-------+ +-------COMP_with:N-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+ | +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) OBJ:V-N (performing,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,transcription) OBJ:V-N (tested,hypothesis) COMP_of:N-N (set,SPXXX) Parse 238 +--------------------------------OBJ:V-N-------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+-------OBJ:V-N-------+ +-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+ | +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) SUBJ:V-N (containing,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) OBJ:V-N (performing,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,transcription) OBJ:V-N (tested,hypothesis) COMP_of:N-N (set,SPXXX) Parse 239 +-------------------------------------------------------------------OBJ:V-N-------------------------------------------------------------------+ | +-------------------OBJ:V-N-------------------+ | | +-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +------------OBJ:V-N------------+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) OBJ:V-N (containing,promoter) MOD:V-ADV (tested,directly) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) OBJ:V-N (performing,regions) Parse 240 +------------------------------------------------OBJ:V-N------------------------------------------------+ | +-------------------OBJ:V-N-------------------+ | +------------OBJ:V-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+ +---COMP_in:ADJ-N---+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ | +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (with,regions) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) COMP_in:ADJ-N (assays,vitro) COMP_of:N-N (set,SPXXX) Parse 241 +-------------------------------------------------------------------OBJ:V-N-------------------------------------------------------------------+ | +-------------------OBJ:V-N-------------------+ | +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,promoter) MOD:V-ADV (tested,directly) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) OBJ:V-N (performing,regions) Parse 242 +-------------------------------------------------------------------OBJ:V-N-------------------------------------------------------------------+ | +-------------------OBJ:V-N-------------------+ | +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------OBJ:V-N-------+ +-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+ | +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) OBJ:V-N (containing,promoter) MOD:V-ADV (tested,directly) OBJ:V-N (performing,transcription) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) OBJ:V-N (performing,regions) Parse 243 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------COMP_with:V-N------------------------------------------+ | +-------------------------------------COMP_with:V-N------------------------------------+ | +-------------------OBJ:V-N-------------------+ | | +------------OBJ:V-N------------+ | | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+ +---COMP_in:ADJ-N---+ | | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ | +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) OBJ:V-N (performing,assays) OBJ:V-N (containing,promoter) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) OBJ:V-N (with,regions) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 244 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------COMP_with:V-N------------------------------------------+ | +-------------------------------------COMP_with:V-N------------------------------------+ | +-------------------OBJ:V-N-------------------+ | +------------------------COMP_by:V-N------------------------+ | | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +---------MOD_ATT:N-ADJ---------+ | | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ | +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-N (tested,assays) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) COMP_in:ADJ-N (transcription,vitro) OBJ:V-N (containing,promoter) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) OBJ:V-N (with,regions) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-ADJ (assays,performing) Parse 245 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------COMP_with:V-N------------------------------------------+ | +-------------------------------------COMP_with:V-N------------------------------------+ | | +------------------------COMP_by:V-N------------------------+ | | | +-------------------OBJ:V-N-------------------+ | | +---------MOD_ATT:N-ADJ---------+ | | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+ | | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ | +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_by:V-N (tested,assays) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) OBJ:V-N (containing,promoter) MOD:V-ADV (tested,directly) OBJ:V-N (with,regions) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-ADJ (assays,performing) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 246 +------------------------OBJ:V-N-----------------------+ | +---------------MOD_ATT:N-N--------------+ +-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +------------OBJ:V-N------------+-------COMP_with:N-N------+ | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 247 +------------------------OBJ:V-N-----------------------+ | +---------------MOD_ATT:N-N--------------+ +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (assays,vitro) COMP_of:N-N (set,SPXXX) Parse 248 +------------------------OBJ:V-N-----------------------+ +-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +------------OBJ:V-N------------+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) COMP_of:N-N (set,SPXXX) Parse 249 +------------------------OBJ:V-N-----------------------+ +-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+------------OBJ:V-N------------+-------COMP_with:N-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) COMP_of:N-N (set,SPXXX) Parse 250 +------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+ +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) COMP_in:ADJ-N (assays,vitro) COMP_of:N-N (set,SPXXX) Parse 251 +------------------------OBJ:V-N-----------------------+ +-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+------------OBJ:V-N------------+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) SUBJ:V-N (containing,set) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) COMP_of:N-N (set,SPXXX) Parse 252 +------------------------OBJ:V-N-----------------------+ +-------------COMP_with:V-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_with:V-N (assays,set) COMP_in:ADJ-N (transcription,vitro) COMP_with:V-N (assays,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) COMP_of:N-N (set,SPXXX) Parse 253 +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,assays) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 254 +------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+-------OBJ:V-N-------+ +-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+ | +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) SUBJ:V-N (containing,set) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,transcription) OBJ:V-N (tested,hypothesis) COMP_of:N-N (set,SPXXX) Parse 255 +------------------------OBJ:V-N-----------------------+ | +---------------MOD_ATT:N-N--------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +------------OBJ:V-N------------+ +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) MOD_ATT:N-N (regions,promoter) OBJ:V-N (containing,regions) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) Parse 256 +------------------------OBJ:V-N-----------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ | +---------------MOD_ATT:N-N--------------+ +------------------------------COMP_with:N-N-----------------------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 257 +------------------------OBJ:V-N-----------------------+ +------------------------COMP_by:V-N------------------------+-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +----MOD_ATT:N-ADJ----+ +-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (transcription,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) COMP_of:N-N (set,SPXXX) Parse 258 +------------------------OBJ:V-N-----------------------+ +------------------------COMP_by:V-N------------------------+ | +---------------MOD_ATT:N-N--------------+ | +---------MOD_ATT:N-ADJ---------+-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-ADJ (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (assays,vitro) COMP_of:N-N (set,SPXXX) Parse 259 +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------------COMP_with:N-N-----------------------------+ | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+ | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_in:ADJ-N (assays,vitro) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,assays) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 260 +------------------------OBJ:V-N-----------------------+ +-------------------OBJ:V-N-------------------+ | +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+ +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (assays,vitro) COMP_of:N-N (set,SPXXX) Parse 261 +------------------------OBJ:V-N-----------------------+ | +---------------MOD_ATT:N-N--------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+--------COMP_by:V-V--------+------------OBJ:V-N------------+ +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) SUBJ:V-N (containing,set) MOD_ATT:N-N (regions,promoter) OBJ:V-N (containing,regions) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD:V-ADV (tested,directly) OBJ:V-N (tested,hypothesis) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) Parse 262 +------------------------OBJ:V-N-----------------------+ +-------------------OBJ:V-N-------------------+ | +------------------------COMP_by:V-N------------------------+-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +---------MOD_ATT:N-ADJ---------+-------COMP_with:N-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) OBJ:V-N (containing,promoter) MOD_ATT:N-ADJ (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 263 +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+ | | +---------------MOD_ATT:N-N--------------+ +-----------------COMP_by:N-N-----------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +---------MOD_ATT:N-ADJ---------+ | +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) MOD_ATT:N-ADJ (assays,performing) Parse 264 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ | +-----------------COMP_by:N-N-----------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +---------MOD_ATT:N-ADJ---------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) MOD_ATT:N-ADJ (assays,performing) Parse 265 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | +-----------------COMP_by:N-N-----------------+ | | +------------------------OBJ:V-N-----------------------+ | | +---------MOD_ATT:N-ADJ---------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-ADJ (assays,performing) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 266 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 267 +------------------------OBJ:V-N-----------------------+ +-------------------------------------------COMP_with:V-N------------------------------------------+ | +---------------MOD_ATT:N-N--------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 268 +------------------------OBJ:V-N-----------------------+ +-------------------------------------------COMP_with:V-N------------------------------------------+ | +---------------MOD_ATT:N-N--------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ | +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 269 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +-------------------OBJ:V-N-------------------+ | | +-----------------COMP_by:N-N-----------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +---------MOD_ATT:N-ADJ---------+ | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-ADJ (assays,performing) Parse 270 +------------------------OBJ:V-N-----------------------+ +-------------COMP_with:N-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +------------OBJ:V-N------------+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 271 +------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+--------COMP_by:V-V--------+ +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) OBJ:V-N (performing,assays) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 272 +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+-------------COMP_with:N-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +---------MOD_ATT:N-ADJ---------+-------COMP_with:N-N------+ | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-ADJ (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 273 +------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+--------COMP_by:V-V--------+-------OBJ:V-N-------+ +-------COMP_with:N-N------+ | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+ | +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) OBJ:V-N (performing,assays) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (performing,transcription) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 274 +------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (regions,promoter) OBJ:V-N (containing,regions) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) COMP_in:ADJ-N (assays,vitro) COMP_of:N-N (set,SPXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) Parse 275 +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------------COMP_with:N-N-----------------------------+ | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_in:ADJ-N (assays,vitro) COMP_with:N-N (hypothesis,GENEXXX) OBJ:V-N (performing,assays) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 276 +------------------------OBJ:V-N-----------------------+ +-------------COMP_with:V-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+ +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 277 +------------------------COMP_by:V-N------------------------+ +------------------------OBJ:V-N-----------------------+ | +---------MOD_ATT:N-ADJ---------+-------------COMP_with:N-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-ADJ (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 278 +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------------COMP_with:N-N-----------------------------+ | +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +---------MOD_ATT:N-ADJ---------+ | +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (assays,performing) Parse 279 +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------------COMP_with:N-N-----------------------------+ | +-----------------COMP_by:N-N-----------------+ | | +------------------------OBJ:V-N-----------------------+ | +---------MOD_ATT:N-ADJ---------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+ | +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) COMP_with:N-N (hypothesis,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-ADJ (assays,performing) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 280 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ +------------------------COMP_by:V-N------------------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +----------MOD_ATT:N-N----------+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:V-N (tested,set) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:V-N (tested,GENEXXX) MOD_ATT:N-N (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 281 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 282 +------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (assays,vitro) COMP_of:N-N (set,SPXXX) Parse 283 +------------------------OBJ:V-N-----------------------+ | +---------------MOD_ATT:N-N--------------+ +-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +------------OBJ:V-N------------+-------COMP_with:N-N------+----COMP_of:N-N----+ | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 284 +------------------------OBJ:V-N-----------------------+ | +---------------MOD_ATT:N-N--------------+ +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+----COMP_of:N-N----+ | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 285 +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +---------MOD_ATT:N-ADJ---------+-------COMP_with:N-N------+----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-ADJ (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 286 +------------------------OBJ:V-N-----------------------+ | +---------------MOD_ATT:N-N--------------+ +-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+--------COMP_by:V-V--------+------------OBJ:V-N------------+-------COMP_with:N-N------+----COMP_of:N-N----+ | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) COMP_with:N-N (assays,set) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 287 +------------------------OBJ:V-N-----------------------+ +-------------COMP_with:V-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (GENEXXX,SPXXX) COMP_with:V-N (assays,set) COMP_in:ADJ-N (transcription,vitro) COMP_with:V-N (assays,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 288 +------------------------OBJ:V-N-----------------------+ +-------------------OBJ:V-N-------------------+ | +-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +------------OBJ:V-N------------+-------COMP_with:N-N------+----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) OBJ:V-N (containing,promoter) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 289 +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------------COMP_with:N-N-----------------------------+ | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+ +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_in:ADJ-N (assays,vitro) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,assays) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 290 +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------------COMP_with:N-N-----------------------------+ | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +-------OBJ:V-N-------+ | +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+ | +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) OBJ:V-N (performing,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 291 +------------------------OBJ:V-N-----------------------+ +-----------------------SUBJ:V-N-----------------------+ +---------------MOD_ATT:N-N--------------+ +-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +------------OBJ:V-N------------+-------COMP_with:N-N------+----COMP_of:N-N----+ | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,assays) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 292 +----------SUBJ:V-N---------+------------------------OBJ:V-N-----------------------+ +----COMP_of:N-N----+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +------------OBJ:V-N------------+ | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) COMP_of:N-N (GENEXXX,SPXXX) Parse 293 +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (hypothesis,SPXXX) Parse 294 +-------------COMP_with:N-N------------+ +------------------------OBJ:V-N-----------------------+ | +----------SUBJ:V-N---------+ +---------------MOD_ATT:N-N--------------+ +------------------------COMP_by:V-N------------------------+ +----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +----------MOD_ATT:N-N----------+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) SUBJ:V-N (containing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 295 +-----------------------SUBJ:V-N-----------------------+ +------------------COMP_of:N-N-----------------+ +------------------------OBJ:V-N-----------------------+ +-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +------------OBJ:V-N------------+-------COMP_with:N-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,assays) COMP_of:N-N (assays,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) Parse 296 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ | +-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +------------OBJ:V-N------------+-------COMP_with:N-N------+----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 297 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 298 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +----------SUBJ:V-N---------+ +---------------MOD_ATT:N-N--------------+ +-------------------------------------COMP_with:V-N------------------------------------+----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +------------OBJ:V-N------------+ | +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) COMP_by:N-V (hypothesis,performing) COMP_with:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 299 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ +------------------------COMP_by:V-N------------------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +----------MOD_ATT:N-N----------+ +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-N (tested,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:V-N (tested,GENEXXX) MOD_ATT:N-N (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 300 +------------------------OBJ:V-N-----------------------+ | +---------------MOD_ATT:N-N--------------+ +-------------COMP_with:V-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+----COMP_of:N-N----+ | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_with:V-N (assays,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) COMP_with:V-N (assays,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 301 +-----------------------SUBJ:V-N-----------------------+------------------------OBJ:V-N-----------------------+ +------------------COMP_of:N-N-----------------+ | +---------------MOD_ATT:N-N--------------+ +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-------OBJ:V-N-------+ +-------COMP_with:N-N------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+ | +MOD_ATT:N-+ | | | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,assays) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (assays,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (performing,transcription) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) Parse 302 +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+ | +-------------------OBJ:V-N-------------------+ | +-----------------COMP_by:N-N-----------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +----MOD_ATT:N-ADJ----+ | +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) OBJ:V-N (containing,promoter) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-ADJ (transcription,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 303 +------------------------OBJ:V-N-----------------------+ +-----------------------SUBJ:V-N-----------------------+ +---------------MOD_ATT:N-N--------------+ +------------------------COMP_by:V-N------------------------+-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +----------MOD_ATT:N-N----------+-------COMP_with:N-N------+----COMP_of:N-N----+ | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,assays) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 304 +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------OBJ:V-N-----------------------+ | +----------SUBJ:V-N---------+-------------------OBJ:V-N-------------------+ | +------------------------------COMP_with:N-N-----------------------------+----COMP_of:N-N----+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) OBJ:V-N (containing,promoter) OBJ:V-N (performing,assays) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 305 +-------------COMP_with:V-N------------+ +------------------------OBJ:V-N-----------------------+ | +----------SUBJ:V-N---------+-------------------OBJ:V-N-------------------+ | | +----COMP_of:N-N----+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) OBJ:V-N (containing,promoter) COMP_with:V-N (assays,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) COMP_with:V-N (assays,GENEXXX) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 306 +------------------------OBJ:V-N-----------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ +-------------------OBJ:V-N-------------------+ | | +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (hypothesis,SPXXX) Parse 307 +-----------------------SUBJ:V-N-----------------------+------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+------------------COMP_of:N-N-----------------+ | +---------------MOD_ATT:N-N--------------+ | +---------MOD_ATT:N-ADJ---------+-------------COMP_with:N-N------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ | | | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,assays) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (assays,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-ADJ (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (assays,vitro) Parse 308 +-----------------------SUBJ:V-N-----------------------+------------------------OBJ:V-N-----------------------+ +------------------COMP_of:N-N-----------------+ +-------------------OBJ:V-N-------------------+ | +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,assays) COMP_of:N-N (assays,SPXXX) MOD:V-ADV (tested,directly) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (assays,vitro) Parse 309 +------------------------------------------------OBJ:V-N------------------------------------------------+ | +-------------------OBJ:V-N-------------------+ | +------------OBJ:V-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+ | +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ | +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) OBJ:V-N (with,regions) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) COMP_in:ADJ-N (assays,vitro) COMP_of:N-N (set,SPXXX) Parse 310 +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ | +------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+ | | | +---------------MOD_ATT:N-N--------------+ | +------------OBJ:V-N------------+ | | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +-------OBJ:V-N-------+ | | | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+ | +MOD_ATT:N-+ | +SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_of:N-N (hypothesis,SPXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) OBJ:V-N (performing,transcription) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) Parse 311 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ | +------------------COMP_of:N-N-----------------+ | +---------------MOD_ATT:N-N--------------+ | +-------------COMP_with:N-N------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+-------COMP_with:N-N------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ | | | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (assays,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,hypothesis) Parse 312 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------SUBJ:V-N----------------------------------------------+ +---------------MOD_ATT:N-N--------------+ +-----------------COMP_by:N-N-----------------+-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +---------MOD_ATT:N-ADJ---------+-------COMP_with:N-N------+----COMP_of:N-N----+ | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-ADJ (assays,performing) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 313 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------COMP_by:N-N-----------------+ +------------------------OBJ:V-N-----------------------+ | +---------MOD_ATT:N-ADJ---------+-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-ADJ (assays,performing) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (assays,vitro) COMP_of:N-N (set,SPXXX) Parse 314 +-------------------------------------------COMP_with:V-N------------------------------------------+ | +----------SUBJ:V-N---------+------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+----COMP_of:N-N----+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 315 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +----------SUBJ:V-N---------+ +---------------MOD_ATT:N-N--------------+ +-------------------------------------COMP_with:V-N------------------------------------+----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ | +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) COMP_by:N-V (hypothesis,performing) COMP_with:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 316 +-----------------------SUBJ:V-N-----------------------+------------------------OBJ:V-N-----------------------+ +------------------COMP_of:N-N-----------------+ +-------------------OBJ:V-N-------------------+ | +-----------------COMP_by:N-N-----------------+-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +----MOD_ATT:N-ADJ----+ +-------COMP_with:N-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,assays) COMP_of:N-N (assays,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (transcription,performing) MOD:V-ADV (tested,directly) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) Parse 317 +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+ | +-------------------OBJ:V-N-------------------+ | | +---------MOD_ATT:N-ADJ---------+-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (promoter,GENEXXX) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) OBJ:V-N (containing,promoter) MOD_ATT:N-ADJ (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (hypothesis,SPXXX) Parse 318 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------SUBJ:V-N----------------------------------------------+-------------------OBJ:V-N-------------------+ | | +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) OBJ:V-N (containing,promoter) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (assays,vitro) COMP_of:N-N (set,SPXXX) Parse 319 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +----------SUBJ:V-N---------+-------------------OBJ:V-N-------------------+ | +-------------------------------------COMP_with:V-N------------------------------------+----COMP_of:N-N----+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+------------OBJ:V-N------------+ | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) OBJ:V-N (performing,assays) COMP_of:N-N (GENEXXX,SPXXX) OBJ:V-N (containing,promoter) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 320 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------OBJ:V-N-------------------+ | +-------------------------------------COMP_with:V-N------------------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +------------OBJ:V-N------------+ | +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ | +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,promoter) COMP_with:V-N (tested,set) OBJ:V-N (performing,assays) SUBJ:V-N (containing,SPXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (with,regions) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 321 +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ | +------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+ | | +-------------------OBJ:V-N-------------------+ | | +------------OBJ:V-N------------+ | | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +-------OBJ:V-N-------+ | | | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+ | +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_of:N-N (hypothesis,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,transcription) COMP_with:N-N (hypothesis,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) Parse 322 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------OBJ:V-N-------------------+ | +-------------------------------------COMP_with:V-N------------------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+------------OBJ:V-N------------+ | +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ | +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,promoter) COMP_with:V-N (tested,set) OBJ:V-N (performing,assays) SUBJ:V-N (containing,SPXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (with,regions) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 323 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ | +---------------MOD_ATT:N-N--------------+ | +-------------COMP_with:N-N------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+-------COMP_with:N-N------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ | | | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (hypothesis,SPXXX) Parse 324 +------------------------------------------------OBJ:V-N------------------------------------------------+ | +----------SUBJ:V-N---------+-------------------OBJ:V-N-------------------+ | +------------OBJ:V-N------------+ | +----COMP_of:N-N----+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+ +---COMP_in:ADJ-N---+ | | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ | +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) SUBJ:V-N (containing,set) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (assays,transcription) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) OBJ:V-N (containing,promoter) OBJ:V-N (with,regions) MOD:V-ADV (tested,directly) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (assays,vitro) COMP_of:N-N (set,SPXXX) Parse 325 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +----------SUBJ:V-N---------+-------------------OBJ:V-N-------------------+ | +-------------------------------------COMP_with:V-N------------------------------------+----COMP_of:N-N----+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) COMP_of:N-N (GENEXXX,SPXXX) OBJ:V-N (containing,promoter) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 326 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------COMP_with:V-N------------------------------------------+ | +-------------------------------------COMP_with:V-N------------------------------------+----------SUBJ:V-N---------+-------------------OBJ:V-N-------------------+ | | +------------OBJ:V-N------------+ | +----COMP_of:N-N----+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+ | | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ | +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) OBJ:V-N (performing,assays) SUBJ:V-N (containing,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,set) OBJ:V-N (with,regions) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 327 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------COMP_with:V-N------------------------------------------+ | +-------------------------------------COMP_with:V-N------------------------------------+ | | +------------------------COMP_by:V-N------------------------+ | | | +-------------------OBJ:V-N-------------------+ | | +---------MOD_ATT:N-ADJ---------+ | | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+ | +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ | +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-N (tested,assays) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,promoter) COMP_with:V-N (tested,set) SUBJ:V-N (containing,SPXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (with,regions) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-ADJ (assays,performing) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 328 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ | +------------------------------------COMP_with:N-N-----------------------------------+ | +------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ | | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_of:N-N (hypothesis,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,transcription) Parse 329 +-------------------------------------------------------------------OBJ:V-N-------------------------------------------------------------------+ | +-----------------------SUBJ:V-N-----------------------+ | | +------------------COMP_of:N-N-----------------+ +-------------------OBJ:V-N-------------------+ | | +-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +------------OBJ:V-N------------+-------COMP_with:N-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,assays) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (assays,SPXXX) OBJ:V-N (containing,promoter) MOD:V-ADV (tested,directly) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (assays,transcription) OBJ:V-N (performing,regions) Parse 330 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+ | | +-------------------OBJ:V-N-------------------+ | | +---------MOD_ATT:N-ADJ---------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+ +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) OBJ:V-N (containing,promoter) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-ADJ (assays,performing) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 331 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ +-------------------OBJ:V-N-------------------+ | | +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) MOD:V-ADV (tested,directly) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (hypothesis,SPXXX) Parse 332 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------COMP_with:V-N------------------------------------------+ | +-------------------------------------COMP_with:V-N------------------------------------+----------SUBJ:V-N---------+-------------------OBJ:V-N-------------------+ | +------------------------COMP_by:V-N------------------------+ | +----COMP_of:N-N----+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +----MOD_ATT:N-ADJ----+ | | | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ | +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-N (tested,assays) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) SUBJ:V-N (containing,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,set) OBJ:V-N (with,regions) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-ADJ (transcription,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 333 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ | +-------------------OBJ:V-N-------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ | | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_of:N-N (hypothesis,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) COMP_with:N-N (hypothesis,set) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) Parse 334 +-------------COMP_with:N-N------------+ | +----------SUBJ:V-N---------+------------------------OBJ:V-N-----------------------+ | +----COMP_of:N-N----+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +------------OBJ:V-N------------+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) SUBJ:V-N (containing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 335 +------------------COMP_of:N-N-----------------+ +------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) COMP_of:N-N (assays,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 336 +------------------------OBJ:V-N-----------------------+ +------------------------COMP_by:V-N------------------------+-------------COMP_with:N-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +----------MOD_ATT:N-N----------+-------COMP_with:N-N------+----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 337 +------------------------OBJ:V-N-----------------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+--------COMP_by:V-V--------+------------OBJ:V-N------------+ +----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) MOD_ATT:N-N (regions,promoter) OBJ:V-N (containing,regions) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) COMP_of:N-N (GENEXXX,SPXXX) Parse 338 +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------------COMP_with:N-N-----------------------------+ | +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +---------MOD_ATT:N-ADJ---------+ +----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-ADJ (assays,performing) Parse 339 +------------------COMP_of:N-N-----------------+ +------------------------OBJ:V-N-----------------------+ +------------------------COMP_by:V-N------------------------+-------------COMP_with:N-N------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +----------MOD_ATT:N-N----------+-------COMP_with:N-N------+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (assays,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 340 +-------------COMP_with:V-N------------+ | +----------SUBJ:V-N---------+------------------------OBJ:V-N-----------------------+ | +----COMP_of:N-N----+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+ +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_with:V-N (assays,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 341 +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------------COMP_with:N-N-----------------------------+----------SUBJ:V-N---------+------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ +----COMP_of:N-N----+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+ | +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) SUBJ:V-N (containing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (assays,vitro) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,assays) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 342 +-----------------COMP_by:N-N-----------------+-----------------------SUBJ:V-N-----------------------+------------------------OBJ:V-N-----------------------+ | +---------MOD_ATT:N-ADJ---------+-------------COMP_with:N-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,assays) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-ADJ (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 343 +------------------------OBJ:V-N-----------------------+ +-------------COMP_with:V-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_with:V-N (assays,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 344 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,hypothesis) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 345 +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+ | | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_of:N-N (hypothesis,SPXXX) OBJ:V-N (performing,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:N-N (hypothesis,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 346 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+-------------COMP_with:N-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +----MOD_ATT:N-ADJ----+ +-------COMP_with:N-N------+----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (transcription,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 347 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------COMP_by:N-N-----------------+ +------------------------OBJ:V-N-----------------------+ | +---------MOD_ATT:N-ADJ---------+-------------COMP_with:N-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-ADJ (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,hypothesis) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 348 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ +----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) OBJ:V-N (performing,assays) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 349 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ +----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:V-N (tested,set) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 350 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ | +------------------------------------COMP_with:N-N-----------------------------------+ | | +------------------------------COMP_with:N-N-----------------------------+ | | +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+ | | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +---------MOD_ATT:N-ADJ---------+ | | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_of:N-N (hypothesis,SPXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:N-N (hypothesis,set) MOD_ATT:N-ADJ (assays,performing) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 351 +-----------------------SUBJ:V-N-----------------------+------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,assays) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) COMP_in:ADJ-N (assays,vitro) COMP_of:N-N (set,SPXXX) Parse 352 +------------------------OBJ:V-N-----------------------+ +-----------------------SUBJ:V-N-----------------------+ +---------------MOD_ATT:N-N--------------+ +-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +------------OBJ:V-N------------+-------COMP_with:N-N------+ | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,assays) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 353 +------------------------OBJ:V-N-----------------------+ +-----------------------SUBJ:V-N-----------------------+ +---------------MOD_ATT:N-N--------------+ +-----------------COMP_by:N-N-----------------+-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +----MOD_ATT:N-ADJ----+ +-------COMP_with:N-N------+ | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,assays) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (transcription,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 354 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ | +-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +------------OBJ:V-N------------+-------COMP_with:N-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) COMP_of:N-N (set,SPXXX) Parse 355 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------SUBJ:V-N----------------------------------------------+ +---------------MOD_ATT:N-N--------------+ | +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +-------OBJ:V-N-------+ +-------COMP_with:N-N------+ | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+ | +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (performing,transcription) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,hypothesis) COMP_of:N-N (set,SPXXX) Parse 356 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+ | +---------------MOD_ATT:N-N--------------+ | +---------MOD_ATT:N-ADJ---------+-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-ADJ (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,hypothesis) COMP_in:ADJ-N (assays,vitro) COMP_of:N-N (set,SPXXX) Parse 357 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 358 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ +------------------------COMP_by:V-N------------------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +----------MOD_ATT:N-N----------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,GENEXXX) MOD_ATT:N-N (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 359 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ | +---------------MOD_ATT:N-N--------------+ | +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 360 +------------------------OBJ:V-N-----------------------+ +-------------------------------------------COMP_with:V-N------------------------------------------+ | +---------------MOD_ATT:N-N--------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (tested,set) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 361 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (regions,promoter) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:V-N (tested,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,hypothesis) Parse 362 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ | +---------------MOD_ATT:N-N--------------+ | +-----------------COMP_by:N-N-----------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +---------MOD_ATT:N-ADJ---------+-------COMP_with:N-N------+ | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-ADJ (assays,performing) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 363 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +-----------------COMP_by:N-N-----------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +---------MOD_ATT:N-ADJ---------+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-ADJ (assays,performing) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 364 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+ +-------------------OBJ:V-N-------------------+ | | +---------MOD_ATT:N-ADJ---------+-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) MOD:V-ADV (tested,directly) OBJ:V-N (containing,promoter) MOD_ATT:N-ADJ (assays,performing) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (assays,vitro) COMP_of:N-N (set,SPXXX) Parse 365 +----------------------------------------------OBJ:V-N---------------------------------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | +------------------------OBJ:V-N-----------------------+ | | +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_in:ADJ-N (assays,vitro) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,assays) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 366 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ | +-------------------OBJ:V-N-------------------+ | | | +---------------MOD_ATT:N-N--------------+ | +------MOD_POST:N-ADJ-----+ | | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ | | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_POST:N-ADJ (hypothesis,vitro) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) COMP_in:N-N (hypothesis,vitro) Parse 367 +----------------------------------------------OBJ:V-N---------------------------------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | +------------------------OBJ:V-N-----------------------+ | | +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +-------OBJ:V-N-------+ | | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+ | +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) OBJ:V-N (performing,transcription) COMP_of:N-N (set,SPXXX) Parse 368 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,assays) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 369 +------------------------OBJ:V-N-----------------------+ +-------------------OBJ:V-N-------------------+ | +----------------------------------------------OBJ:V-N---------------------------------------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +------------OBJ:V-N------------+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 370 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (tested,set) SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_with:V-N (assays,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 371 +------------------------OBJ:V-N-----------------------+ | +---------------MOD_ATT:N-N--------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+ +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (tested,set) SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) COMP_with:V-N (assays,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) COMP_of:N-N (set,SPXXX) Parse 372 +----------------------------------------------OBJ:V-N---------------------------------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | | +-----------------COMP_by:N-N-----------------+ | | +------------------------OBJ:V-N-----------------------+ | | +---------MOD_ATT:N-ADJ---------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-ADJ (assays,performing) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 373 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | | +---------------MOD_ATT:N-N--------------+ | | +------------OBJ:V-N------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +-------OBJ:V-N-------+ | | +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+ | +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) OBJ:V-N (performing,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,transcription) COMP_of:N-N (set,SPXXX) Parse 374 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ +-------------------OBJ:V-N-------------------+ | | +------------------------------COMP_with:N-N-----------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) OBJ:V-N (performing,assays) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 375 +----------------------------------------------OBJ:V-N---------------------------------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | +------------------------OBJ:V-N-----------------------+ | +-----------------COMP_by:N-N-----------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +---------MOD_ATT:N-ADJ---------+ | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) MOD_ATT:N-ADJ (assays,performing) Parse 376 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | | +---------------MOD_ATT:N-N--------------+ | +-----------------COMP_by:N-N-----------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +----MOD_ATT:N-ADJ----+ | | +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-ADJ (transcription,performing) COMP_of:N-N (set,SPXXX) Parse 377 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | +-------------------OBJ:V-N-------------------+ | | | +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +-------OBJ:V-N-------+ | | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+ | +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) OBJ:V-N (performing,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 378 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | +-------------------OBJ:V-N-------------------+ | | | +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+ | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) OBJ:V-N (performing,assays) MOD:V-ADV (tested,directly) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 379 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +-------------------OBJ:V-N-------------------+ | +-------------------OBJ:V-N-------------------+ | | +------MOD_POST:N-ADJ-----+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ +-------COMP_with:V-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) MOD_POST:N-ADJ (hypothesis,vitro) OBJ:V-N (tested,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (hypothesis,vitro) OBJ:V-N (containing,promoter) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 380 +----------------------------------------------OBJ:V-N---------------------------------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | +------------------------OBJ:V-N-----------------------+ | +-----------------COMP_by:N-N-----------------+ | | +-------------------OBJ:V-N-------------------+ | | | +---------MOD_ATT:N-ADJ---------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-ADJ (assays,performing) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 381 +----------------------------------------------OBJ:V-N---------------------------------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | +------------------------OBJ:V-N-----------------------+ | +-----------------COMP_by:N-N-----------------+ | | +-------------------OBJ:V-N-------------------+ | | | +---------MOD_ATT:N-ADJ---------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+ | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) MOD:V-ADV (tested,directly) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-ADJ (assays,performing) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 382 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 383 +-------------------OBJ:V-N-------------------+ +------------------------OBJ:V-N-----------------------+ +------MOD_POST:N-ADJ-----+ +-------------COMP_with:V-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ +-------COMP_with:V-N------+ | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (hypothesis,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:V-N (assays,GENEXXX) COMP_with:V-N (assays,set) COMP_in:N-N (hypothesis,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,hypothesis) Parse 384 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 385 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_in:ADJ-N (assays,vitro) COMP_with:N-N (hypothesis,GENEXXX) OBJ:V-N (performing,assays) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 386 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +------------OBJ:V-N------------+ +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) MOD_ATT:N-N (regions,promoter) OBJ:V-N (containing,regions) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) OBJ:V-N (tested,hypothesis) COMP_of:N-N (set,SPXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) Parse 387 +----------------------------------------------OBJ:V-N---------------------------------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | +------------------------OBJ:V-N-----------------------+ | | +------------OBJ:V-N------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +-------OBJ:V-N-------+ | | +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+ | +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) OBJ:V-N (performing,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:N-N (hypothesis,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) OBJ:V-N (performing,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 388 +----------------------------------------------OBJ:V-N---------------------------------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | | +-----------------COMP_by:N-N-----------------+ | | +------------------------OBJ:V-N-----------------------+ | | +---------MOD_ATT:N-ADJ---------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) COMP_with:N-N (hypothesis,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-ADJ (assays,performing) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 389 +----------------------------------------------OBJ:V-N---------------------------------------------+ | +-------------------OBJ:V-N-------------------+ | +------------------------OBJ:V-N-----------------------+ | +------MOD_POST:N-ADJ-----+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ +-------COMP_with:V-N------+ +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) MOD_POST:N-ADJ (hypothesis,vitro) OBJ:V-N (tested,set) SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (hypothesis,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 390 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-------------------------------------COMP_by:N-N------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +----MOD_ATT:N-ADJ----+ +-------COMP_with:N-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (transcription,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 391 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-------------------------------------COMP_by:N-N------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +---------MOD_ATT:N-ADJ---------+-------COMP_with:N-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-ADJ (assays,performing) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 392 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_by:N-N------------------------------------+ | +---------------MOD_ATT:N-N--------------+ +-----------------COMP_by:N-N-----------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +---------MOD_ATT:N-ADJ---------+-------COMP_with:N-N------+ | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-ADJ (assays,performing) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 393 +-------------------------------------COMP_by:N-N------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +----MOD_ATT:N-ADJ----+ +-------COMP_with:N-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (transcription,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 394 +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_by:N-N------------------------------------+ | +---------------MOD_ATT:N-N--------------+ +-----------------COMP_by:N-N-----------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +----MOD_ATT:N-ADJ----+ +-------COMP_with:N-N------+ | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-ADJ (transcription,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 395 +-------------------------------------COMP_by:N-N------------------------------------+ +-----------------COMP_by:N-N-----------------+ | +------------------------OBJ:V-N-----------------------+ | +---------MOD_ATT:N-ADJ---------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (promoter,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_by:N-N (hypothesis,set) MOD_ATT:N-ADJ (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 396 +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_by:N-N------------------------------------+ | +---------------MOD_ATT:N-N--------------+ +-----------------COMP_by:N-N-----------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +----MOD_ATT:N-ADJ----+ +-------COMP_with:N-N------+ +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-ADJ (transcription,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 397 +-------------------------------------COMP_by:N-N------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +---------MOD_ATT:N-ADJ---------+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-ADJ (assays,performing) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 398 +------------------------OBJ:V-N-----------------------+ +--------------------------------------------COMP_by:V-N-------------------------------------------+ | +---------------MOD_ATT:N-N--------------+ +------------------------COMP_by:V-N------------------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +----------MOD_ATT:N-N----------+-------COMP_with:N-N------+ | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (assays,transcription) COMP_by:V-N (tested,set) COMP_of:N-N (set,SPXXX) Parse 399 +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_by:N-N------------------------------------+ +-------------------OBJ:V-N-------------------+ | +-----------------COMP_by:N-N-----------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +----MOD_ATT:N-ADJ----+ +-------COMP_with:N-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (transcription,performing) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) COMP_by:N-N (hypothesis,set) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 400 +------------------------OBJ:V-N-----------------------+ +--------------------------------------------COMP_by:V-N-------------------------------------------+ | +---------------MOD_ATT:N-N--------------+ +------------------------COMP_by:V-N------------------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +----------MOD_ATT:N-N----------+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (assays,transcription) COMP_by:V-N (tested,set) COMP_of:N-N (set,SPXXX) Parse 401 +-------------------------------------COMP_by:N-N------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+ | +-------------------OBJ:V-N-------------------+ | | +---------MOD_ATT:N-ADJ---------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (promoter,GENEXXX) MOD:V-ADV (tested,directly) COMP_by:N-N (hypothesis,set) OBJ:V-N (containing,promoter) MOD_ATT:N-ADJ (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 402 +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +--------------------------------OBJ:V-N-------------------------------+ | | +---------------MOD_ATT:N-N--------------+ | +------------OBJ:V-N------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_in:ADJ-N (assays,vitro) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (hypothesis,SPXXX) Parse 403 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-------------------------------------COMP_by:N-N------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +----MOD_ATT:N-ADJ----+ +-------COMP_with:N-N------+ | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-ADJ (transcription,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 404 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +--------------------------------OBJ:V-N-------------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +------------OBJ:V-N------------+-------COMP_with:N-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) OBJ:V-N (performing,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (hypothesis,SPXXX) Parse 405 +------------------------OBJ:V-N-----------------------+ | +---------------MOD_ATT:N-N--------------+ +--------------------------------OBJ:V-N-------------------------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +------------OBJ:V-N------------+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) OBJ:V-N (performing,set) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 406 +------------------------OBJ:V-N-----------------------+ +-------------------OBJ:V-N-------------------+ | +--------------------------------OBJ:V-N-------------------------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +------------OBJ:V-N------------+-------COMP_with:N-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,set) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 407 +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +--------------------------------OBJ:V-N-------------------------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+-------COMP_with:N-N------+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) COMP_in:ADJ-N (transcription,vitro) OBJ:V-N (performing,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (hypothesis,SPXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 408 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ | | +--------------------------------OBJ:V-N-------------------------------+ | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_in:ADJ-N (assays,vitro) OBJ:V-N (performing,assays) OBJ:V-N (performing,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (hypothesis,SPXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 409 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ | +-------------------------------------COMP_by:N-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +----MOD_ATT:N-ADJ----+ +-------COMP_with:N-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-ADJ (transcription,performing) COMP_of:N-N (hypothesis,SPXXX) Parse 410 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_by:N-N------------------------------------+ | +-------------------OBJ:V-N-------------------+ | +-----------------COMP_by:N-N-----------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +----MOD_ATT:N-ADJ----+ +-------COMP_with:N-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) COMP_by:N-N (hypothesis,set) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-ADJ (transcription,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (hypothesis,SPXXX) Parse 411 +-------------------------------------------------------------------OBJ:V-N-------------------------------------------------------------------+ +--------------------------------OBJ:V-N-------------------------------+ +-------------------OBJ:V-N-------------------+ | +------------OBJ:V-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------OBJ:V-N-------+ +-------COMP_with:N-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+ | +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,promoter) COMP_in:ADJ-N (transcription,vitro) OBJ:V-N (performing,set) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) OBJ:V-N (performing,transcription) OBJ:V-N (tested,hypothesis) OBJ:V-N (performing,regions) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 412 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------OBJ:V-N-------------------+ | +-------------------------------------COMP_with:V-N------------------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +------------OBJ:V-N------------+ | | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ | +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) OBJ:V-N (performing,assays) COMP_in:ADJ-N (transcription,vitro) OBJ:V-N (containing,promoter) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) OBJ:V-N (with,regions) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 413 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------OBJ:V-N-------------------+ | +-------------------------------------COMP_with:V-N------------------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +------------OBJ:V-N------------+ | | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ | +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) OBJ:V-N (performing,assays) COMP_in:ADJ-N (transcription,vitro) OBJ:V-N (containing,promoter) MOD:V-ADV (tested,directly) OBJ:V-N (with,regions) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 414 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------COMP_with:V-N------------------------------------------+ | +-------------------------------------COMP_with:V-N------------------------------------+ | +-------------------OBJ:V-N-------------------+ | | +------------OBJ:V-N------------+ | | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+ +---COMP_in:ADJ-N---+ | | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ | +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) SUBJ:V-N (containing,set) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) OBJ:V-N (performing,assays) OBJ:V-N (containing,promoter) MOD:V-ADV (tested,directly) OBJ:V-N (with,regions) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 415 +------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) COMP_in:ADJ-N (assays,vitro) COMP_of:N-N (set,SPXXX) Parse 416 +------------------------OBJ:V-N-----------------------+ | +---------------MOD_ATT:N-N--------------+ +-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +------------OBJ:V-N------------+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 417 +------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------OBJ:V-N-------+ +-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+ | +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,transcription) OBJ:V-N (tested,hypothesis) COMP_of:N-N (set,SPXXX) Parse 418 +------------------------OBJ:V-N-----------------------+ | +---------------MOD_ATT:N-N--------------+ +-----------------COMP_by:N-N-----------------+-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +---------MOD_ATT:N-ADJ---------+-------COMP_with:N-N------+ | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-ADJ (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 419 +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+ | +---------------MOD_ATT:N-N--------------+ | +---------MOD_ATT:N-ADJ---------+-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-ADJ (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (assays,vitro) COMP_of:N-N (set,SPXXX) Parse 420 +------------------------OBJ:V-N-----------------------+ +-------------------OBJ:V-N-------------------+ | +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) MOD:V-ADV (tested,directly) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (assays,vitro) COMP_of:N-N (set,SPXXX) Parse 421 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +------------OBJ:V-N------------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) OBJ:V-N (performing,assays) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 422 +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+ | | +---------------MOD_ATT:N-N--------------+ +-----------------COMP_by:N-N-----------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +---------MOD_ATT:N-ADJ---------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) MOD_ATT:N-ADJ (assays,performing) Parse 423 +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------------COMP_with:N-N-----------------------------+ | +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +----MOD_ATT:N-ADJ----+ | | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-ADJ (transcription,performing) COMP_of:N-N (set,SPXXX) Parse 424 +------------------------OBJ:V-N-----------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ +-------------------OBJ:V-N-------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) OBJ:V-N (performing,assays) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 425 +------------------------OBJ:V-N-----------------------+ +-------------------------------------------COMP_with:V-N------------------------------------------+ | +---------------MOD_ATT:N-N--------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+--------COMP_by:V-V--------+------------OBJ:V-N------------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (tested,set) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 426 +------------------------OBJ:V-N-----------------------+ +-------------------OBJ:V-N-------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+------------OBJ:V-N------------+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) OBJ:V-N (containing,regions) SUBJ:V-N (tested,We) OBJ:V-N (performing,assays) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 427 +------------------------OBJ:V-N-----------------------+ +-------------------OBJ:V-N-------------------+ +-------------------OBJ:V-N-------------------+ | +------MOD_POST:N-ADJ-----+ +-------------COMP_with:V-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ +-------COMP_with:V-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (hypothesis,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) OBJ:V-N (containing,promoter) COMP_with:V-N (assays,set) COMP_in:N-N (hypothesis,vitro) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 428 +------------------------OBJ:V-N-----------------------+ +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------OBJ:V-N-------------------+ | +-------------------------------------COMP_with:V-N------------------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+------------OBJ:V-N------------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) OBJ:V-N (performing,assays) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 429 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ +------------------------COMP_by:V-N------------------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +----------MOD_ATT:N-N----------+ | +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:V-N (tested,GENEXXX) MOD_ATT:N-N (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 430 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +-------------------OBJ:V-N-------------------+ | +------------------------COMP_by:V-N------------------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +----------MOD_ATT:N-N----------+ | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_by:V-N (tested,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (containing,promoter) MOD_ATT:N-N (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 431 +------------------------OBJ:V-N-----------------------+ +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------OBJ:V-N-------------------+ | +-------------------------------------COMP_with:V-N------------------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 432 +------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+-------------COMP_with:N-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-------OBJ:V-N-------+ +-------COMP_with:N-N------+ | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+ | +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (performing,transcription) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 433 +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ | +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:N-N (hypothesis,GENEXXX) OBJ:V-N (performing,assays) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 434 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+--------COMP_by:V-V--------+------------OBJ:V-N------------+ | +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 435 +------------------------OBJ:V-N-----------------------+ +-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+------------OBJ:V-N------------+-------COMP_with:N-N------+----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (assays,set) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 436 +------------------------OBJ:V-N-----------------------+ | +---------------MOD_ATT:N-N--------------+ +-----------------COMP_by:N-N-----------------+-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +----------MOD_ATT:N-N----------+-------COMP_with:N-N------+----COMP_of:N-N----+ | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 437 +------------------COMP_of:N-N-----------------+ +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +----------MOD_ATT:N-N----------+-------COMP_with:N-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (assays,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,performing) Parse 438 +------------------------OBJ:V-N-----------------------+ +-----------------------SUBJ:V-N-----------------------+ +---------------MOD_ATT:N-N--------------+ +-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +------------OBJ:V-N------------+-------COMP_with:N-N------+----COMP_of:N-N----+ | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (assays,GENEXXX) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,assays) COMP_with:N-N (assays,set) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 439 +------------------------OBJ:V-N-----------------------+ +-------------------------------------------COMP_with:V-N------------------------------------------+ | +---------------MOD_ATT:N-N--------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +------------OBJ:V-N------------+ +----COMP_of:N-N----+ | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 440 +------------------------OBJ:V-N-----------------------+ +-----------------------SUBJ:V-N-----------------------+ +---------------MOD_ATT:N-N--------------+ +-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+--------COMP_by:V-V--------+------------OBJ:V-N------------+-------COMP_with:N-N------+----COMP_of:N-N----+ | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,assays) COMP_with:N-N (assays,set) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 441 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ | +-----------------COMP_by:N-N-----------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +----------MOD_ATT:N-N----------+ +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:V-N (tested,GENEXXX) MOD_ATT:N-N (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 442 +------------------------OBJ:V-N-----------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ | +---------------MOD_ATT:N-N--------------+ +-----------------COMP_by:N-N-----------------+-------------COMP_with:N-N------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +----------MOD_ATT:N-N----------+-------COMP_with:N-N------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (hypothesis,SPXXX) Parse 443 +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +-------------COMP_with:V-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_with:V-N (assays,set) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_of:N-N (hypothesis,SPXXX) OBJ:V-N (assays,hypothesis) Parse 444 +------------------------OBJ:V-N-----------------------+ | +---------------MOD_ATT:N-N--------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +MOD_ATT:N+ +MOD_ATT:N-+ +SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (regions,promoter) OBJ:V-N (containing,regions) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) COMP_of:N-N (hypothesis,SPXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) Parse 445 +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +-------------COMP_with:V-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +-SUBJ:V-N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_with:V-N (assays,set) COMP_with:V-N (assays,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (hypothesis,SPXXX) Parse 446 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+----------SUBJ:V-N---------+------------------------OBJ:V-N-----------------------+ +------------------------COMP_by:V-N------------------------+ +----COMP_of:N-N----+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-----MOD_ATT:N-N-----+ | | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) SUBJ:V-N (containing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (transcription,performing) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 447 +------------------------------------------------OBJ:V-N------------------------------------------------+ | +-------------------OBJ:V-N-------------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +------------OBJ:V-N------------+ | +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+MOD_ATT:N+ | +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) OBJ:V-N (with,regions) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) COMP_of:N-N (set,SPXXX) Parse 448 +------------------------------------------------OBJ:V-N------------------------------------------------+ | +-------------------OBJ:V-N-------------------+ | +-------------COMP_with:V-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+-SUBJ:V-N+ | +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,promoter) SUBJ:V-N (containing,SPXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (GENEXXX,SPXXX) COMP_with:V-N (assays,set) COMP_in:ADJ-N (transcription,vitro) COMP_with:V-N (assays,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (with,regions) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 449 +------------------------OBJ:V-N-----------------------+ +-------------------OBJ:V-N-------------------+ | +-----------------------------------------COMP_of:N-N----------------------------------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +MOD_ATT:N+ +MOD_ATT:N-+ +SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (hypothesis,SPXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_ATT:N-N (promoter,GENEXXX) Parse 450 +-----------------------SUBJ:V-N-----------------------+------------------------OBJ:V-N-----------------------+ +------------------COMP_of:N-N-----------------+ +-------------------OBJ:V-N-------------------+ | +-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+------------OBJ:V-N------------+-------COMP_with:N-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +MOD_ATT:N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,assays) COMP_with:N-N (assays,set) COMP_of:N-N (assays,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) Parse 451 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+----------SUBJ:V-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-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:N-N (hypothesis,assays) SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,promoter) COMP_with:V-N (tested,set) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,GENEXXX) MOD_ATT:N-N (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 452 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------OBJ:V-N-------------------+ | +-------------------OBJ:V-N-------------------+ | +------MOD_POST:N-ADJ-----+ +-------------COMP_with:V-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ +-------COMP_with:V-N------+----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +-SUBJ:V-N+ | +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (hypothesis,vitro) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_with:V-N (assays,set) COMP_in:N-N (hypothesis,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (with,regions) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) SUBJ:V-N (containing,SPXXX) OBJ:V-N (assays,hypothesis) Parse 453 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------COMP_with:V-N------------------------------------------+ | +-------------------------------------COMP_with:V-N------------------------------------+ | +-------------------OBJ:V-N-------------------+ | | +------------OBJ:V-N------------+ | | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+ | +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ | +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,promoter) COMP_with:V-N (tested,set) OBJ:V-N (performing,assays) SUBJ:V-N (containing,SPXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (with,regions) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 454 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------OBJ:V-N-------------------+ | | +---------------MOD_ATT:N-N--------------+ +------MOD_POST:N-ADJ-----+ +-------------COMP_with:V-N------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ +-------COMP_with:V-N------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ | | | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) MOD_POST:N-ADJ (hypothesis,vitro) COMP_of:N-N (hypothesis,SPXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_with:V-N (assays,set) COMP_in:N-N (hypothesis,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) Parse 455 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------SUBJ:V-N----------------------------------------------+-------------------OBJ:V-N-------------------+ | +-----------------------------------------COMP_of:N-N----------------------------------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +MOD_ATT:N+ +MOD_ATT:N-+ | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (hypothesis,SPXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_ATT:N-N (promoter,GENEXXX) Parse 456 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------COMP_with:V-N------------------------------------------+ | +-------------------------------------COMP_with:V-N------------------------------------+ | | | +-------------------OBJ:V-N-------------------+ | +----------SUBJ:V-N---------+-------------------OBJ:V-N-------------------+ | | +------MOD_POST:N-ADJ-----+ | | +----COMP_of:N-N----+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ | | | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +-SUBJ:V-N+ | +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) SUBJ:V-N (containing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) SUBJ:V-N (containing,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (with,regions) MOD_POST:N-ADJ (hypothesis,vitro) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:N-N (hypothesis,vitro) Parse 457 +------------------------OBJ:V-N-----------------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +------------OBJ:V-N------------+ +----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (regions,promoter) OBJ:V-N (containing,regions) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) COMP_of:N-N (GENEXXX,SPXXX) Parse 458 +----------SUBJ:V-N---------+------------------------OBJ:V-N-----------------------+ +----COMP_of:N-N----+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +------------OBJ:V-N------------+ | +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) COMP_of:N-N (GENEXXX,SPXXX) Parse 459 +------------------------------------COMP_with:N-N-----------------------------------+ | +----------SUBJ:V-N---------+------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+----COMP_of:N-N----+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ | +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) OBJ:V-N (performing,assays) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 460 +------------------------OBJ:V-N-----------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +MOD_ATT:N+ +MOD_ATT:N-+ +SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (regions,promoter) OBJ:V-N (containing,regions) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) COMP_of:N-N (hypothesis,SPXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) Parse 461 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ | +-------------COMP_with:N-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+-------COMP_with:N-N------+----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (assays,GENEXXX) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) COMP_with:N-N (assays,set) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 462 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ | +-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +------------OBJ:V-N------------+-------COMP_with:N-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (assays,GENEXXX) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (assays,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 463 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ | +-------------COMP_with:V-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_with:V-N (assays,set) COMP_in:ADJ-N (transcription,vitro) COMP_with:V-N (assays,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) COMP_of:N-N (set,SPXXX) Parse 464 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ | +-------------COMP_with:V-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,hypothesis) COMP_with:V-N (assays,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 465 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +------------OBJ:V-N------------+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 466 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+ | | +---------------MOD_ATT:N-N--------------+ +-----------------COMP_by:N-N-----------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +----------MOD_ATT:N-N----------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:N-N (hypothesis,set) MOD_ATT:N-N (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 467 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,assays) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 468 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ | +---------------MOD_ATT:N-N--------------+ | +-----------------COMP_by:N-N-----------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +----------MOD_ATT:N-N----------+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 469 +----------------------------------------------OBJ:V-N---------------------------------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | +------------------------OBJ:V-N-----------------------+ | +-----------------COMP_by:N-N-----------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +----------MOD_ATT:N-N----------+ | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 470 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | | +---------------MOD_ATT:N-N--------------+ | +-----------------COMP_by:N-N-----------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +----------MOD_ATT:N-N----------+ | +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 471 +------------------------OBJ:V-N-----------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ | +---------------MOD_ATT:N-N--------------+ | +--------------------------------OBJ:V-N-------------------------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+-------COMP_with:N-N------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +MOD_ATT:N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (hypothesis,SPXXX) Parse 472 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+-------------COMP_with:N-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +----------MOD_ATT:N-N----------+-------COMP_with:N-N------+ | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 473 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ | +-----------------COMP_by:N-N-----------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +----------MOD_ATT:N-N----------+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:V-N (tested,GENEXXX) MOD_ATT:N-N (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 474 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +-----------------COMP_by:N-N-----------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +----------MOD_ATT:N-N----------+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 475 +------------------------OBJ:V-N-----------------------+ +--------------------------------------------COMP_by:V-N-------------------------------------------+ +-------------------OBJ:V-N-------------------+ | +------------------------COMP_by:V-N------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +----------MOD_ATT:N-N----------+-------COMP_with:N-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_by:V-N (tested,set) COMP_of:N-N (set,SPXXX) Parse 476 +-------------------------------------COMP_by:N-N------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +----------MOD_ATT:N-N----------+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 477 +------------------------OBJ:V-N-----------------------+ +--------------------------------OBJ:V-N-------------------------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+--------COMP_by:V-V--------+------------OBJ:V-N------------+-------COMP_with:N-N------+ | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,set) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 478 +------------------------OBJ:V-N-----------------------+ +--------------------------------OBJ:V-N-------------------------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+--------COMP_by:V-V--------+------------OBJ:V-N------------+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) SUBJ:V-N (containing,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,set) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 479 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +-----------------------------------------COMP_of:N-N----------------------------------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_of:N-N (hypothesis,SPXXX) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 480 +------------------------------------------------OBJ:V-N------------------------------------------------+ | +-------------------OBJ:V-N-------------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+------------OBJ:V-N------------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +MOD_ATT:N+ | +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) OBJ:V-N (with,regions) SUBJ:V-N (tested,We) OBJ:V-N (performing,assays) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_ATT:N-N (promoter,GENEXXX) Parse 481 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------OBJ:V-N-------------------+ | +-------------------OBJ:V-N-------------------+ | +------MOD_POST:N-ADJ-----+ +-------------COMP_with:V-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ +-------COMP_with:V-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +-SUBJ:V-N+ | +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (hypothesis,vitro) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,promoter) COMP_with:V-N (assays,GENEXXX) SUBJ:V-N (containing,SPXXX) COMP_with:V-N (assays,set) COMP_in:N-N (hypothesis,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (with,regions) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 482 +------------------------------------------------OBJ:V-N------------------------------------------------+ | +-------------------OBJ:V-N-------------------+ | +-------------COMP_with:V-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +-SUBJ:V-N+ | +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) SUBJ:V-N (containing,set) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (with,regions) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) COMP_with:V-N (assays,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 483 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------COMP_with:V-N------------------------------------------+ | +-------------------------------------COMP_with:V-N------------------------------------+ | +-------------------OBJ:V-N-------------------+ | | +------------OBJ:V-N------------+ | | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+ | | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +MOD_ATT:N+ | +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) OBJ:V-N (performing,assays) OBJ:V-N (containing,promoter) MOD:V-ADV (tested,directly) OBJ:V-N (with,regions) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 484 +----------------------------------------------OBJ:V-N---------------------------------------------+ | +-----------------------------------------COMP_of:N-N----------------------------------------+ | +-------------------OBJ:V-N-------------------+ | | +------------------------OBJ:V-N-----------------------+ | +------MOD_POST:N-ADJ-----+ | | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ +-------COMP_with:V-N------+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) MOD_POST:N-ADJ (hypothesis,vitro) OBJ:V-N (tested,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) SUBJ:V-N (containing,SPXXX) COMP_in:N-N (hypothesis,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_of:N-N (hypothesis,SPXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 485 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ | | +-----------------------------------------COMP_of:N-N----------------------------------------+ | | +-------------------OBJ:V-N-------------------+ | | +------------------------OBJ:V-N-----------------------+ | +------MOD_POST:N-ADJ-----+ | | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ +-------COMP_with:V-N------+ +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) MOD_POST:N-ADJ (hypothesis,vitro) OBJ:V-N (tested,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (hypothesis,vitro) SUBJ:V-N (containing,hypothesis) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,set) COMP_of:N-N (hypothesis,SPXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 486 +------------------------OBJ:V-N-----------------------+ | +---------------MOD_ATT:N-N--------------+ +-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+--------COMP_by:V-V--------+------------OBJ:V-N------------+-------COMP_with:N-N------+ | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) COMP_with:N-N (assays,set) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 487 +------------------------OBJ:V-N-----------------------+ +-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+------------OBJ:V-N------------+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (assays,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 488 +------------------------OBJ:V-N-----------------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +------------OBJ:V-N------------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) MOD_ATT:N-N (regions,promoter) OBJ:V-N (containing,regions) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) Parse 489 +------------------------OBJ:V-N-----------------------+ | +---------------MOD_ATT:N-N--------------+ +------------------------COMP_by:V-N------------------------+-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +----------MOD_ATT:N-N----------+-------COMP_with:N-N------+ | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,performing) COMP_of:N-N (set,SPXXX) Parse 490 +------------------------OBJ:V-N-----------------------+ +-------------------OBJ:V-N-------------------+ | +------------------------COMP_by:V-N------------------------+-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +----------MOD_ATT:N-N----------+-------COMP_with:N-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 491 +------------------------OBJ:V-N-----------------------+ +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------OBJ:V-N-------------------+ | +-------------------------------------COMP_with:V-N------------------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +------------OBJ:V-N------------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) OBJ:V-N (performing,assays) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 492 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ | +-----------------COMP_by:N-N-----------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +----------MOD_ATT:N-N----------+ | +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:V-N (tested,GENEXXX) MOD_ATT:N-N (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 493 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ +------------------------COMP_by:V-N------------------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-----MOD_ATT:N-N-----+ | | +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (transcription,performing) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 494 +------------------------OBJ:V-N-----------------------+ +-------------COMP_with:N-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +------------OBJ:V-N------------+-------COMP_with:N-N------+ | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (assays,GENEXXX) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (assays,set) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 495 +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ | +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 496 +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +----------MOD_ATT:N-N----------+-------COMP_with:N-N------+----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 497 +------------------------OBJ:V-N-----------------------+ +-------------COMP_with:V-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-N--------+------------OBJ:V-N------------+-------COMP_with:V-N------+----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) SUBJ:V-N (assays,transcription) COMP_of:N-N (GENEXXX,SPXXX) COMP_with:V-N (assays,set) COMP_in:ADJ-N (transcription,vitro) COMP_by:V-N (tested,performing) COMP_with:V-N (assays,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 498 +-------------COMP_with:N-N------------+ | +----------SUBJ:V-N---------+------------------------OBJ:V-N-----------------------+ | +----COMP_of:N-N----+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +------------OBJ:V-N------------+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (assays,GENEXXX) SUBJ:V-N (containing,GENEXXX) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (assays,set) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 499 +------------------COMP_of:N-N-----------------+ +------------------------OBJ:V-N-----------------------+ +-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +------------OBJ:V-N------------+-------COMP_with:N-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +MOD_ATT:N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (assays,GENEXXX) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (assays,set) COMP_of:N-N (assays,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (assays,transcription) Parse 500 +-------------COMP_with:V-N------------+ | +----------SUBJ:V-N---------+------------------------OBJ:V-N-----------------------+ | +----COMP_of:N-N----+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-N--------+------------OBJ:V-N------------+-------COMP_with:V-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) SUBJ:V-N (containing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) SUBJ:V-N (assays,transcription) COMP_of:N-N (GENEXXX,SPXXX) COMP_with:V-N (assays,set) COMP_in:ADJ-N (transcription,vitro) COMP_by:V-N (tested,performing) COMP_with:V-N (assays,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 501 +------------------COMP_of:N-N-----------------+ +------------------------OBJ:V-N-----------------------+ +------------------------COMP_by:V-N------------------------+-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-----MOD_ATT:N-N-----+ +-------COMP_with:N-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (assays,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (transcription,performing) OBJ:V-N (tested,hypothesis) Parse 502 +------------------------OBJ:V-N-----------------------+ +-------------------OBJ:V-N-------------------+ | +-----------------COMP_by:N-N-----------------+-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +----------MOD_ATT:N-N----------+-------COMP_with:N-N------+----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) OBJ:V-N (containing,promoter) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 503 +-------------COMP_with:N-N------------+ +------------------------COMP_by:V-N------------------------+ +----------SUBJ:V-N---------+------------------------OBJ:V-N-----------------------+ | +----------MOD_ATT:N-N----------+ +----COMP_of:N-N----+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) SUBJ:V-N (containing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (assays,vitro) COMP_of:N-N (set,SPXXX) Parse 504 +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 505 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-N--------+MOD_POST:N-+ | +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ +COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_POST:N-ADJ (performing,vitro) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) COMP_with:V-N (tested,set) SUBJ:V-N (containing,SPXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_by:V-N (tested,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:N-N (performing,vitro) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 506 +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+----------SUBJ:V-N---------+ +---------------MOD_ATT:N-N--------------+ +-----------------COMP_by:N-N-----------------+ +----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +----------MOD_ATT:N-N----------+ | +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) SUBJ:V-N (containing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:N-N (hypothesis,set) MOD_ATT:N-N (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 507 +------------------------COMP_by:V-N------------------------+-----------------------SUBJ:V-N-----------------------+------------------------OBJ:V-N-----------------------+ | +----------MOD_ATT:N-N----------+-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,assays) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (assays,vitro) COMP_of:N-N (set,SPXXX) Parse 508 +------------------------------------COMP_with:N-N-----------------------------------+ | +----------SUBJ:V-N---------+------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+----COMP_of:N-N----+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) COMP_by:N-V (hypothesis,performing) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 509 +------------------------OBJ:V-N-----------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ | +---------------MOD_ATT:N-N--------------+ | +-------------COMP_with:V-N------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,set) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (hypothesis,SPXXX) OBJ:V-N (assays,hypothesis) Parse 510 +------------------------OBJ:V-N-----------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ | +---------------MOD_ATT:N-N--------------+ | +-------------COMP_with:V-N------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +-SUBJ:V-N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) COMP_with:V-N (assays,set) COMP_with:V-N (assays,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) COMP_of:N-N (hypothesis,SPXXX) Parse 511 +-----------------------SUBJ:V-N-----------------------+------------------------OBJ:V-N-----------------------+ +------------------COMP_of:N-N-----------------+ | +---------------MOD_ATT:N-N--------------+ +------------------------COMP_by:V-N------------------------+-------------COMP_with:N-N------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-----MOD_ATT:N-N-----+ +-------COMP_with:N-N------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ | | | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,assays) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (assays,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (transcription,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) Parse 512 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +-------------------OBJ:V-N-------------------+ | +------------------------COMP_by:V-N------------------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-----MOD_ATT:N-N-----+ | +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) OBJ:V-N (containing,promoter) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (transcription,performing) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 513 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ +------------------------COMP_by:V-N------------------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-----MOD_ATT:N-N-----+ | +----COMP_of:N-N----+ | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (transcription,performing) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 514 +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ | | +---------------MOD_ATT:N-N--------------+ +------------------------------COMP_with:N-N-----------------------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ | | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +-SUBJ:V-N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) COMP_of:N-N (hypothesis,SPXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) Parse 515 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +----------MOD_ATT:N-N----------+ +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:N-N (hypothesis,set) MOD_ATT:N-N (assays,performing) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 516 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------SUBJ:V-N----------------------------------------------+-------------------OBJ:V-N-------------------+ | +-----------------COMP_by:N-N-----------------+-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +----------MOD_ATT:N-N----------+-------COMP_with:N-N------+----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) OBJ:V-N (containing,promoter) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 517 +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------OBJ:V-N-------------------+ | +-------------------OBJ:V-N-------------------+ | +------MOD_POST:N-ADJ-----+ +-------------COMP_with:V-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ +-------COMP_with:V-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) MOD_POST:N-ADJ (hypothesis,vitro) COMP_of:N-N (hypothesis,SPXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) OBJ:V-N (containing,promoter) COMP_with:V-N (assays,set) COMP_in:N-N (hypothesis,vitro) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) Parse 518 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ | +---------------MOD_ATT:N-N--------------+ +------------------------------COMP_with:N-N-----------------------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ +----COMP_of:N-N----+ | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 519 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------COMP_with:V-N------------+ | +-------------------OBJ:V-N-------------------+ | +----------SUBJ:V-N---------+-------------------OBJ:V-N-------------------+ | +------MOD_POST:N-ADJ-----+ | | +----COMP_of:N-N----+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ +-------COMP_with:V-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +-SUBJ:V-N+ | +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (hypothesis,vitro) SUBJ:V-N (containing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) SUBJ:V-N (containing,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_with:V-N (assays,set) COMP_in:N-N (hypothesis,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (with,regions) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) OBJ:V-N (assays,hypothesis) Parse 520 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ +-------------------OBJ:V-N-------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) OBJ:V-N (performing,assays) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) COMP_with:N-N (hypothesis,set) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 521 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------COMP_with:V-N------------------------------------------+ | | | +----------SUBJ:V-N---------+-------------------OBJ:V-N-------------------+ | +-------------------------------------COMP_with:V-N------------------------------------+----COMP_of:N-N----+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ | | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+-SUBJ:V-N+ | +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) COMP_in:ADJ-N (transcription,vitro) SUBJ:V-N (containing,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,set) OBJ:V-N (with,regions) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 522 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ | +------------------------------------COMP_with:N-N-----------------------------------+ | +------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ | | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) COMP_of:N-N (hypothesis,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) SUBJ:V-N (assays,transcription) Parse 523 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ | | +---------------MOD_ATT:N-N--------------+ +------------------------------COMP_with:N-N-----------------------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ | | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +-SUBJ:V-N+ +MOD_ATT:N-+ | | | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) COMP_of:N-N (hypothesis,SPXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) SUBJ:V-N (assays,transcription) Parse 524 +------------------------OBJ:V-N-----------------------+ +-------------COMP_with:N-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +------------OBJ:V-N------------+-------COMP_with:N-N------+----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (assays,GENEXXX) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) COMP_with:N-N (assays,set) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 525 +-----------------------SUBJ:V-N-----------------------+------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+-------------COMP_with:N-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +----------MOD_ATT:N-N----------+-------COMP_with:N-N------+----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,assays) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 526 +-----------------------SUBJ:V-N-----------------------+ +------------------COMP_of:N-N-----------------+ +------------------------OBJ:V-N-----------------------+ +-------------COMP_with:N-N------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +------------OBJ:V-N------------+-------COMP_with:N-N------+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +MOD_ATT:N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (assays,GENEXXX) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,assays) COMP_with:N-N (assays,set) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (assays,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) Parse 527 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | +-----------------COMP_by:N-N-----------------+ | | +------------------------OBJ:V-N-----------------------+ | | +----------MOD_ATT:N-N----------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+ +----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (assays,vitro) COMP_with:V-N (tested,set) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 528 +------------------------------------COMP_with:N-N-----------------------------------+ | +----------SUBJ:V-N---------+------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+----COMP_of:N-N----+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ | +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (containing,regions) SUBJ:V-N (containing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 529 +------------------------------------COMP_with:N-N-----------------------------------+ | +----------SUBJ:V-N---------+------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+----COMP_of:N-N----+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ | +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 530 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ | +--------------------------------OBJ:V-N-------------------------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +------------OBJ:V-N------------+-------COMP_with:N-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,hypothesis) COMP_of:N-N (set,SPXXX) Parse 531 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ +------------------------COMP_by:V-N------------------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-----MOD_ATT:N-N-----+ | +----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:V-N (tested,set) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (transcription,performing) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 532 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------SUBJ:V-N----------------------------------------------+-------------------OBJ:V-N-------------------+ | | +--------------------------------OBJ:V-N-------------------------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +------------OBJ:V-N------------+-------COMP_with:N-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) COMP_of:N-N (set,SPXXX) Parse 533 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+-------------COMP_with:N-N------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +----------MOD_ATT:N-N----------+-------COMP_with:N-N------+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (hypothesis,SPXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 534 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ | +------------------------------------COMP_with:N-N-----------------------------------+ | +------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ | | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +MOD_ATT:N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_of:N-N (hypothesis,SPXXX) OBJ:V-N (performing,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,transcription) Parse 535 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ | +-------------------OBJ:V-N-------------------+ | +------------------------OBJ:V-N-----------------------+ +------MOD_POST:N-ADJ-----+ +-------------COMP_with:V-N------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ +-------COMP_with:V-N------+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) MOD_POST:N-ADJ (hypothesis,vitro) COMP_of:N-N (hypothesis,SPXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_with:V-N (assays,set) COMP_in:N-N (hypothesis,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) Parse 536 +------------------------OBJ:V-N-----------------------+ +-----------------------SUBJ:V-N-----------------------+-------------------OBJ:V-N-------------------+ | +-----------------COMP_by:N-N-----------------+-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +----------MOD_ATT:N-N----------+-------COMP_with:N-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,assays) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 537 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ +-------------------OBJ:V-N-------------------+ | +---------------MOD_ATT:N-N--------------+ +------MOD_POST:N-ADJ-----+ +-------------COMP_with:V-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ +-------COMP_with:V-N------+ | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (hypothesis,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_with:V-N (assays,set) COMP_in:N-N (hypothesis,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 538 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 539 +------------------------OBJ:V-N-----------------------+ +-------------------OBJ:V-N-------------------+ | +----------------------------------------------OBJ:V-N---------------------------------------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +------------OBJ:V-N------------+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) COMP_of:N-N (set,SPXXX) Parse 540 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ +-------------------OBJ:V-N-------------------+ | | +-----------------COMP_by:N-N-----------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +----------MOD_ATT:N-N----------+-------COMP_with:N-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 541 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | | +---------------MOD_ATT:N-N--------------+ | +-----------------COMP_by:N-N-----------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +----------MOD_ATT:N-N----------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 542 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 543 +----------------------------------------------OBJ:V-N---------------------------------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | +------------------------OBJ:V-N-----------------------+ | +-------------------OBJ:V-N-------------------+ | | | +---------------MOD_ATT:N-N--------------+ | +------MOD_POST:N-ADJ-----+ | | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ | | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) MOD_POST:N-ADJ (hypothesis,vitro) OBJ:V-N (tested,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) COMP_in:N-N (hypothesis,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 544 +-----------------------SUBJ:V-N-----------------------+------------------------OBJ:V-N-----------------------+ +------------------------COMP_by:V-N------------------------+-------------COMP_with:N-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-----MOD_ATT:N-N-----+ +-------COMP_with:N-N------+ | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) SUBJ:V-N (containing,assays) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (transcription,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 545 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +------------OBJ:V-N------------+-------COMP_with:N-N------+ | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) COMP_with:N-N (assays,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 546 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +----------MOD_ATT:N-N----------+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:N-N (hypothesis,set) MOD_ATT:N-N (assays,performing) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 547 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | | +-------------------OBJ:V-N-------------------+ | | +------------------------OBJ:V-N-----------------------+ +------MOD_POST:N-ADJ-----+ | | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ | | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) MOD_POST:N-ADJ (hypothesis,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,set) COMP_with:N-N (hypothesis,GENEXXX) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_in:N-N (hypothesis,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 548 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (tested,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:N-N (hypothesis,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 549 +----------------------------------------------OBJ:V-N---------------------------------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | +------------------------OBJ:V-N-----------------------+ | +-----------------COMP_by:N-N-----------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +----------MOD_ATT:N-N----------+ | +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 550 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ | +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 551 +-------------------------------------COMP_by:N-N------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +----------MOD_ATT:N-N----------+-------COMP_with:N-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 552 +------------------------OBJ:V-N-----------------------+ +--------------------------------------------COMP_by:V-N-------------------------------------------+ | +---------------MOD_ATT:N-N--------------+ +------------------------COMP_by:V-N------------------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-----MOD_ATT:N-N-----+ +-------COMP_with:N-N------+ +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (transcription,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_by:V-N (tested,set) COMP_of:N-N (set,SPXXX) Parse 553 +------------------------OBJ:V-N-----------------------+ | +---------------MOD_ATT:N-N--------------+ +--------------------------------------------COMP_by:V-N-------------------------------------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+--------COMP_by:V-N--------+------------OBJ:V-N------------+-------COMP_with:V-N------+ | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_by:V-N (tested,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) COMP_by:V-N (tested,set) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,performing) Parse 554 +-------------------------------------COMP_by:N-N------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +----------MOD_ATT:N-N----------+-------COMP_with:N-N------+ | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 555 +--------------------------------------------COMP_by:V-N-------------------------------------------+ +------------------------COMP_by:V-N------------------------+ | +------------------------OBJ:V-N-----------------------+ | +----------MOD_ATT:N-N----------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_by:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 556 +--------------------------------------------COMP_by:V-N-------------------------------------------+ +------------------------COMP_by:V-N------------------------+ | +------------------------OBJ:V-N-----------------------+ | +----------MOD_ATT:N-N----------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_by:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 557 +------------------------OBJ:V-N-----------------------+ +--------------------------------------------COMP_by:V-N-------------------------------------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+--------COMP_by:V-N--------+------------OBJ:V-N------------+-------COMP_with:V-N------+ | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:V-N (assays,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_by:V-N (tested,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) COMP_by:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,performing) MOD_ATT:N-N (promoter,GENEXXX) Parse 558 +--------------------------------------------COMP_by:V-N-------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+--------COMP_by:V-N--------+MOD_POST:N-+ +-------COMP_with:V-N------+ +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ +COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) COMP_by:V-N (tested,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_by:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 559 +------------------------OBJ:V-N-----------------------+ +-------------------OBJ:V-N-------------------+ | +--------------------------------OBJ:V-N-------------------------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +------------OBJ:V-N------------+-------COMP_with:N-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (performing,set) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) COMP_of:N-N (set,SPXXX) Parse 560 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +-----------------------------------------COMP_of:N-N----------------------------------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (tested,set) OBJ:V-N (containing,regions) SUBJ:V-N (containing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (hypothesis,SPXXX) COMP_of:N-N (set,SPXXX) Parse 561 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ +-------------------OBJ:V-N-------------------+ | | +-----------------------------------------COMP_of:N-N----------------------------------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (hypothesis,SPXXX) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 562 +----------------------------------------------OBJ:V-N---------------------------------------------+ | +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +-------------------OBJ:V-N-------------------+ | | +-------------------OBJ:V-N-------------------+ | | +------MOD_POST:N-ADJ-----+ | | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ +-------COMP_with:V-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) MOD_POST:N-ADJ (hypothesis,vitro) OBJ:V-N (tested,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,promoter) COMP_with:V-N (assays,GENEXXX) SUBJ:V-N (containing,SPXXX) COMP_in:N-N (hypothesis,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (hypothesis,SPXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 563 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ +-------------------OBJ:V-N-------------------+ | | +-----------------------------------------COMP_of:N-N----------------------------------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (tested,set) SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,promoter) COMP_with:V-N (assays,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (hypothesis,SPXXX) COMP_of:N-N (set,SPXXX) Parse 564 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ +-------------------OBJ:V-N-------------------+ | | +-----------------------------------------COMP_of:N-N----------------------------------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) OBJ:V-N (containing,promoter) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (hypothesis,SPXXX) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 565 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------OBJ:V-N-------------------+ | +-------------------------------------COMP_with:V-N------------------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-V--------+------------OBJ:V-N------------+ | | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +MOD_ATT:N+ | +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:V-V (tested,performing) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) OBJ:V-N (performing,assays) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (with,regions) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 566 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +-----------------------------------------COMP_of:N-N----------------------------------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (tested,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (hypothesis,SPXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 567 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------OBJ:V-N-------------------+ | +-------------------------------------COMP_with:V-N------------------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ | | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +-SUBJ:V-N+ | +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (with,regions) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 568 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------COMP_with:V-N------------------------------------------+ | +-------------------------------------COMP_with:V-N------------------------------------+ | | | +-------------------OBJ:V-N-------------------+ | | | +-------------------OBJ:V-N-------------------+ | | +------MOD_POST:N-ADJ-----+ | | | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ | | | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +-SUBJ:V-N+ | +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,promoter) COMP_with:V-N (tested,set) SUBJ:V-N (containing,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (with,regions) MOD_POST:N-ADJ (hypothesis,vitro) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) COMP_in:N-N (hypothesis,vitro) Parse 569 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +-----------------------------------------COMP_of:N-N----------------------------------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+ +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (tested,set) OBJ:V-N (containing,regions) SUBJ:V-N (containing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) SUBJ:V-N (assays,transcription) COMP_of:N-N (hypothesis,SPXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 570 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +-----------------------------------------COMP_of:N-N----------------------------------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+ +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,hypothesis) SUBJ:V-N (assays,transcription) COMP_of:N-N (hypothesis,SPXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 571 +------------------------OBJ:V-N-----------------------+ | +---------------MOD_ATT:N-N--------------+ +-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +------------OBJ:V-N------------+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (assays,GENEXXX) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (performing,assays) MOD_ATT:N-N (regions,GENEXXX) COMP_with:N-N (assays,set) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 572 +------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+-------------COMP_with:V-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-N--------+MOD_POST:N-+ +-------COMP_with:V-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ +COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) COMP_with:V-N (assays,set) COMP_by:V-N (tested,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,performing) Parse 573 +------------------------OBJ:V-N-----------------------+ +-------------COMP_with:V-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-N--------+------------OBJ:V-N------------+-------COMP_with:V-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) SUBJ:V-N (assays,transcription) COMP_with:V-N (assays,set) COMP_in:ADJ-N (transcription,vitro) COMP_by:V-N (tested,performing) COMP_with:V-N (assays,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) COMP_of:N-N (set,SPXXX) Parse 574 +------------------------OBJ:V-N-----------------------+ | +---------------MOD_ATT:N-N--------------+ +-------------COMP_with:V-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+--------COMP_by:V-N--------+------------OBJ:V-N------------+-------COMP_with:V-N------+ +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) OBJ:V-N (assays,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) COMP_with:V-N (assays,set) COMP_in:ADJ-N (transcription,vitro) COMP_by:V-N (tested,performing) COMP_with:V-N (assays,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 575 +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------------COMP_with:N-N-----------------------------+ | +-------------------OBJ:V-N-------------------+ | | +------------------------OBJ:V-N-----------------------+ +------MOD_POST:N-ADJ-----+ | | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ | | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) MOD_POST:N-ADJ (hypothesis,vitro) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,set) COMP_with:N-N (hypothesis,GENEXXX) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:N-N (hypothesis,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 576 +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+ | +-------------------OBJ:V-N-------------------+ | +-----------------COMP_by:N-N-----------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +----------MOD_ATT:N-N----------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (containing,promoter) MOD_ATT:N-N (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 577 +------------------------OBJ:V-N-----------------------+ +------------------------COMP_by:V-N------------------------+-------------COMP_with:N-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-----MOD_ATT:N-N-----+ +-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (transcription,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 578 +------------------------COMP_by:V-N------------------------+ +------------------------OBJ:V-N-----------------------+ | +----------MOD_ATT:N-N----------+-------------COMP_with:N-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 579 +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ | +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:N-N (hypothesis,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 580 +-------------COMP_with:N-N------------+ | +----------SUBJ:V-N---------+------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+ +----COMP_of:N-N----+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +-----MOD_ATT:N-N-----+ +-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) SUBJ:V-N (containing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (transcription,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 581 +-------------COMP_with:V-N------------+ +------------------------OBJ:V-N-----------------------+ | +----------SUBJ:V-N---------+ +---------------MOD_ATT:N-N--------------+ +------------OBJ:V-N------------+ +----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +MOD_POST:N-+ +-------COMP_with:V-N------+ +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) SUBJ:V-N (containing,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_with:V-N (assays,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,set) OBJ:V-N (tested,hypothesis) COMP_by:N-N (hypothesis,performing) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,performing) Parse 582 +------------------------OBJ:V-N-----------------------+ +------------------------COMP_by:V-N------------------------+ | +---------------MOD_ATT:N-N--------------+ | +----------MOD_ATT:N-N----------+-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+----COMP_of:N-N----+ | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 583 +-------------COMP_with:N-N------------+ +-----------------COMP_by:N-N-----------------+ +----------SUBJ:V-N---------+------------------------OBJ:V-N-----------------------+ | +----------MOD_ATT:N-N----------+ +----COMP_of:N-N----+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) SUBJ:V-N (containing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (assays,vitro) COMP_of:N-N (set,SPXXX) Parse 584 +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------------COMP_with:N-N-----------------------------+ | +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +-----MOD_ATT:N-N-----+ | +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (transcription,performing) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 585 +-------------COMP_with:V-N------------+ | +----------SUBJ:V-N---------+------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+ +----COMP_of:N-N----+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-N--------+MOD_POST:N-+ +-------COMP_with:V-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ +COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) SUBJ:V-N (containing,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_with:V-N (assays,set) COMP_by:V-N (tested,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,performing) Parse 586 +------------------------OBJ:V-N-----------------------+ +-------------------OBJ:V-N-------------------+ | +---------------MOD_ATT:N-N--------------+ +------MOD_POST:N-ADJ-----+ +-------------COMP_with:V-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ +-------COMP_with:V-N------+----COMP_of:N-N----+ | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (hypothesis,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) SUBJ:V-N (containing,SPXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_with:V-N (assays,set) COMP_in:N-N (hypothesis,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) COMP_by:N-N (hypothesis,performing) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 587 +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+------------------COMP_of:N-N-----------------+ | +---------------MOD_ATT:N-N--------------+ | +----------MOD_ATT:N-N----------+-------------COMP_with:N-N------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (assays,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,performing) COMP_in:ADJ-N (assays,vitro) Parse 588 +------------------------OBJ:V-N-----------------------+ +------------------COMP_of:N-N-----------------+ | +---------------MOD_ATT:N-N--------------+ +------------------------COMP_by:V-N------------------------+-------------COMP_with:N-N------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-----MOD_ATT:N-N-----+ +-------COMP_with:N-N------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (assays,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (transcription,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) Parse 589 +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +-------------COMP_with:V-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +------------OBJ:V-N------------+-------COMP_with:V-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_with:V-N (assays,set) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) COMP_by:N-N (hypothesis,performing) SUBJ:V-N (assays,transcription) COMP_of:N-N (hypothesis,SPXXX) OBJ:V-N (assays,performing) Parse 590 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ | +-----------------COMP_by:N-N-----------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +-----MOD_ATT:N-N-----+ | +----COMP_of:N-N----+ | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (transcription,performing) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 591 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ | +------------OBJ:V-N------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +MOD_POST:N-+ | +----COMP_of:N-N----+ | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_POST:N-ADJ (performing,vitro) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (assays,performing) COMP_with:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,SPXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_in:N-N (performing,vitro) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 592 +------------------------OBJ:V-N-----------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ | +---------------MOD_ATT:N-N--------------+ +------------------------------COMP_with:N-N-----------------------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ +----COMP_of:N-N----+ | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 593 +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 594 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------SUBJ:V-N----------------------------------------------+ +---------------MOD_ATT:N-N--------------+ | +-------------COMP_with:V-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+-------COMP_with:V-N------+----COMP_of:N-N----+ | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) OBJ:V-N (assays,performing) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (GENEXXX,SPXXX) COMP_with:V-N (assays,set) COMP_in:ADJ-N (transcription,vitro) COMP_with:V-N (assays,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 595 +-----------------------SUBJ:V-N-----------------------+ +------------------COMP_of:N-N-----------------+ +------------------------OBJ:V-N-----------------------+ +------------------------COMP_by:V-N------------------------+-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-----MOD_ATT:N-N-----+ +-------COMP_with:N-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,assays) COMP_of:N-N (assays,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (transcription,performing) OBJ:V-N (tested,hypothesis) Parse 596 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------COMP_by:N-N-----------------+ +------------------------OBJ:V-N-----------------------+ | +----------MOD_ATT:N-N----------+-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (assays,vitro) COMP_of:N-N (set,SPXXX) Parse 597 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+----------SUBJ:V-N---------+------------------------OBJ:V-N-----------------------+ | +-------------------OBJ:V-N-------------------+ +----COMP_of:N-N----+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +MOD_POST:N-+ | | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_POST:N-ADJ (performing,vitro) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) SUBJ:V-N (containing,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,set) COMP_in:N-N (performing,vitro) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 598 +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------------COMP_with:N-N-----------------------------+ | +------------------------OBJ:V-N-----------------------+ +-------------------OBJ:V-N-------------------+ +----------SUBJ:V-N---------+ +---------------MOD_ATT:N-N--------------+ +------MOD_POST:N-ADJ-----+ | +----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ | | +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) MOD_POST:N-ADJ (hypothesis,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,set) COMP_with:N-N (hypothesis,GENEXXX) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:N-N (hypothesis,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 599 +------------------------OBJ:V-N-----------------------+ +-------------------------------------------COMP_with:V-N------------------------------------------+ | +---------------MOD_ATT:N-N--------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+--------COMP_by:V-N--------+------------OBJ:V-N------------+ +----COMP_of:N-N----+ | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_by:V-N (tested,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (assays,performing) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 600 +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------OBJ:V-N-----------------------+ | +----------SUBJ:V-N---------+-------------------OBJ:V-N-------------------+ | +------------------------------COMP_with:N-N-----------------------------+----COMP_of:N-N----+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) OBJ:V-N (containing,promoter) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 601 +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ | | +---------------MOD_ATT:N-N--------------+ +------------------------------COMP_with:N-N-----------------------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ | | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) COMP_of:N-N (hypothesis,SPXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) Parse 602 +------------------------------------------------OBJ:V-N------------------------------------------------+ | +----------SUBJ:V-N---------+-------------------OBJ:V-N-------------------+ | | +----COMP_of:N-N----+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +------------OBJ:V-N------------+ | | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +MOD_ATT:N+ | +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) OBJ:V-N (with,regions) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) COMP_by:N-V (hypothesis,performing) OBJ:V-N (performing,assays) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) Parse 603 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+------------------COMP_of:N-N-----------------+ | +---------------MOD_ATT:N-N--------------+ | +----------MOD_ATT:N-N----------+-------------COMP_with:N-N------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ | | | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (assays,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,performing) COMP_in:ADJ-N (assays,vitro) Parse 604 +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | | +-------------------OBJ:V-N-------------------+ | | | +------------------------OBJ:V-N-----------------------+ +------MOD_POST:N-ADJ-----+ | | | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ | | | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) MOD_POST:N-ADJ (hypothesis,vitro) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,set) COMP_with:N-N (hypothesis,GENEXXX) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:N-N (hypothesis,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (hypothesis,SPXXX) Parse 605 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ | +---------------MOD_ATT:N-N--------------+ | +-------------COMP_with:V-N------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+-------COMP_with:V-N------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ | | | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,set) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,hypothesis) COMP_by:N-N (hypothesis,performing) SUBJ:V-N (assays,transcription) COMP_of:N-N (hypothesis,SPXXX) OBJ:V-N (assays,performing) Parse 606 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ +-------------------OBJ:V-N-------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) COMP_with:N-N (hypothesis,set) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 607 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ | +-------------------OBJ:V-N-------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ | | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) COMP_of:N-N (hypothesis,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) COMP_with:N-N (hypothesis,set) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) Parse 608 +------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+-------------COMP_with:V-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +MOD_POST:N-+ +-------COMP_with:V-N------+----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) SUBJ:V-N (containing,SPXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_with:V-N (assays,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) COMP_by:N-N (hypothesis,performing) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,performing) Parse 609 +-------------------OBJ:V-N-------------------+ +------------------------OBJ:V-N-----------------------+ +------MOD_POST:N-ADJ-----+ +-------------COMP_with:V-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ +-------COMP_with:V-N------+----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (hypothesis,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) SUBJ:V-N (containing,SPXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_with:V-N (assays,set) COMP_in:N-N (hypothesis,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) COMP_by:N-N (hypothesis,performing) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 610 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+--------COMP_by:V-N--------+------------OBJ:V-N------------+ +----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (tested,set) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (GENEXXX,SPXXX) COMP_by:V-N (tested,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (assays,performing) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 611 +-------------COMP_with:V-N------------+ +-------------------OBJ:V-N-------------------+ +----------SUBJ:V-N---------+------------------------OBJ:V-N-----------------------+ +------MOD_POST:N-ADJ-----+ | +----COMP_of:N-N----+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ +-------COMP_with:V-N------+ +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (hypothesis,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) SUBJ:V-N (containing,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_with:V-N (assays,set) COMP_in:N-N (hypothesis,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,set) OBJ:V-N (tested,hypothesis) COMP_by:N-N (hypothesis,performing) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 612 +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------------COMP_with:N-N-----------------------------+----------SUBJ:V-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-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) SUBJ:V-N (containing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (transcription,performing) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 613 +-------------------------------------------COMP_with:V-N------------------------------------------+ | +----------SUBJ:V-N---------+------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+----COMP_of:N-N----+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+--------COMP_by:V-N--------+------------OBJ:V-N------------+ | +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) SUBJ:V-N (containing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (GENEXXX,SPXXX) COMP_by:V-N (tested,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (assays,performing) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 614 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +-------------COMP_with:V-N------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+-------COMP_with:V-N------+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:V-N (assays,GENEXXX) COMP_with:V-N (assays,set) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (hypothesis,SPXXX) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (assays,performing) MOD_ATT:N-N (promoter,GENEXXX) Parse 615 +------------------------OBJ:V-N-----------------------+ | +---------------MOD_ATT:N-N--------------+ +------------OBJ:V-N------------+-------------COMP_with:V-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+--------COMP_by:V-N--------+MOD_POST:N-+ +-------COMP_with:V-N------+ | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ +COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,set) COMP_by:V-N (tested,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,performing) Parse 616 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------SUBJ:V-N----------------------------------------------+ +---------------MOD_ATT:N-N--------------+ | +------------OBJ:V-N------------+-------------COMP_with:V-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +MOD_POST:N-+ +-------COMP_with:V-N------+ | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) COMP_with:V-N (assays,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,performing) Parse 617 +------------------------OBJ:V-N-----------------------+ +------------------------COMP_by:V-N------------------------+-----------------------SUBJ:V-N-----------------------+-------------------OBJ:V-N-------------------+ | | +----------MOD_ATT:N-N----------+-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,assays) MOD:V-ADV (tested,directly) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (assays,vitro) COMP_of:N-N (set,SPXXX) Parse 618 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +------------OBJ:V-N------------+-------COMP_with:V-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) COMP_by:N-N (hypothesis,performing) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,performing) Parse 619 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +MOD_POST:N-+ +-------COMP_with:V-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) MOD_POST:N-ADJ (performing,vitro) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (assays,performing) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 620 +----------------------------------------------OBJ:V-N---------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ | +------------------------OBJ:V-N-----------------------+ | | +----------MOD_ATT:N-N----------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (promoter,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 621 +----------------------------------------------OBJ:V-N---------------------------------------------+ | +-------------------OBJ:V-N-------------------+ | +------------------------OBJ:V-N-----------------------+ | +------MOD_POST:N-ADJ-----+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ +-------COMP_with:V-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) MOD_POST:N-ADJ (hypothesis,vitro) OBJ:V-N (tested,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (hypothesis,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 622 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | | +-------------------OBJ:V-N-------------------+ | | +------------------------OBJ:V-N-----------------------+ +------MOD_POST:N-ADJ-----+ | | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ | | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) MOD_POST:N-ADJ (hypothesis,vitro) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,set) COMP_with:N-N (hypothesis,GENEXXX) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:N-N (hypothesis,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 623 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +-------------------OBJ:V-N-------------------+ | | +---------------MOD_ATT:N-N--------------+ | +------MOD_POST:N-ADJ-----+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ +-------COMP_with:V-N------+ +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) MOD_POST:N-ADJ (hypothesis,vitro) OBJ:V-N (tested,set) SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (hypothesis,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 624 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ | +---------------MOD_ATT:N-N--------------+ | +------------------------------COMP_with:N-N-----------------------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 625 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ | +---------------MOD_ATT:N-N--------------+ | +------------------------------COMP_with:N-N-----------------------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ | +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 626 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ +-------------------OBJ:V-N-------------------+ | | +------------------------------COMP_with:N-N-----------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (tested,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 627 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+--------COMP_by:V-N--------+MOD_POST:N-+ | | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ +COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_POST:N-ADJ (performing,vitro) SUBJ:V-N (tested,We) OBJ:V-N (assays,performing) COMP_with:V-N (tested,set) COMP_by:V-N (tested,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_in:N-N (performing,vitro) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 628 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +-----MOD_ATT:N-N-----+ | | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (transcription,performing) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 629 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +-----------------COMP_by:N-N-----------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +-----MOD_ATT:N-N-----+ +-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (transcription,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 630 +----------------------------------------------OBJ:V-N---------------------------------------------+ | +-----------------COMP_by:N-N-----------------+ | +------------------------OBJ:V-N-----------------------+ | | +----------MOD_ATT:N-N----------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 631 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+ +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:V-N (assays,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,hypothesis) Parse 632 +----------------------------------------------OBJ:V-N---------------------------------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | | +-------------------OBJ:V-N-------------------+ | | +------------------------OBJ:V-N-----------------------+ | +------MOD_POST:N-ADJ-----+ | | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ | | +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) MOD_POST:N-ADJ (hypothesis,vitro) OBJ:V-N (tested,set) SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) COMP_in:N-N (hypothesis,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 633 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-------------------------------------COMP_by:N-N------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +-----MOD_ATT:N-N-----+ +-------COMP_with:N-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (transcription,performing) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 634 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-------------------------------------COMP_by:N-N------------------------------------+ | +-----------------COMP_by:N-N-----------------+ | +------------------------OBJ:V-N-----------------------+ | +----------MOD_ATT:N-N----------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (promoter,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 635 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-------------------------------------COMP_by:N-N------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+ | | +---------------MOD_ATT:N-N--------------+ | +----------MOD_ATT:N-N----------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 636 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_by:N-N------------------------------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +------------OBJ:V-N------------+-------COMP_with:V-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) COMP_by:N-N (hypothesis,performing) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,performing) Parse 637 +------------------------OBJ:V-N-----------------------+ +--------------------------------------------COMP_by:V-N-------------------------------------------+ | +---------------MOD_ATT:N-N--------------+ +------------------------COMP_by:V-N------------------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-----MOD_ATT:N-N-----+ +-------COMP_with:N-N------+ | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (transcription,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_by:V-N (tested,set) COMP_of:N-N (set,SPXXX) Parse 638 +--------------------------------------------COMP_by:V-N-------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-N--------+MOD_POST:N-+ +-------COMP_with:V-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ +COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) MOD_POST:N-ADJ (performing,vitro) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) COMP_by:V-N (tested,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (assays,performing) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_by:V-N (tested,set) COMP_of:N-N (set,SPXXX) Parse 639 +------------------------OBJ:V-N-----------------------+ | +---------------MOD_ATT:N-N--------------+ +--------------------------------------------COMP_by:V-N-------------------------------------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+--------COMP_by:V-N--------+------------OBJ:V-N------------+-------COMP_with:V-N------+ +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_by:V-N (tested,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) COMP_by:V-N (tested,set) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,performing) Parse 640 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-------------------------------------COMP_by:N-N------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +MOD_POST:N-+ +-------COMP_with:V-N------+ | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (assays,performing) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 641 +-------------------------------------COMP_by:N-N------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +-----MOD_ATT:N-N-----+ +-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (transcription,performing) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 642 +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_by:N-N------------------------------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+-------COMP_with:V-N------+ | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:V-N (assays,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,performing) MOD_ATT:N-N (promoter,GENEXXX) Parse 643 +-----------------------------------------COMP_of:N-N----------------------------------------+ +-------------------------------------COMP_by:N-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+ | | | +---------------MOD_ATT:N-N--------------+ | +----------MOD_ATT:N-N----------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (hypothesis,SPXXX) Parse 644 +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_by:N-N------------------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +------------OBJ:V-N------------+-------COMP_with:V-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) COMP_of:N-N (hypothesis,SPXXX) Parse 645 +-----------------------------------------COMP_of:N-N----------------------------------------+ +-------------------------------------COMP_by:N-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +MOD_POST:N-+ +-------COMP_with:V-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_POST:N-ADJ (performing,vitro) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) COMP_with:V-N (assays,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_in:N-N (performing,vitro) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (hypothesis,SPXXX) Parse 646 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ | +-------------------------------------COMP_by:N-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +-----MOD_ATT:N-N-----+ +-------COMP_with:N-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (transcription,performing) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (hypothesis,SPXXX) Parse 647 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_by:N-N------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ +-----------------COMP_by:N-N-----------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +-----MOD_ATT:N-N-----+ +-------COMP_with:N-N------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ | | | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (transcription,performing) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (hypothesis,SPXXX) Parse 648 +-----------------------------------------COMP_of:N-N----------------------------------------+ +-------------------------------------COMP_by:N-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +-----MOD_ATT:N-N-----+ +-------COMP_with:N-N------+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (transcription,performing) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (hypothesis,SPXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 649 +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_by:N-N------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+-------COMP_with:V-N------+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:V-N (assays,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (assays,performing) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (hypothesis,SPXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 650 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ | +-------------------------------------COMP_by:N-N------------------------------------+ | | +-----------------COMP_by:N-N-----------------+ | | +------------------------OBJ:V-N-----------------------+ | +----------MOD_ATT:N-N----------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (hypothesis,SPXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 651 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_by:N-N------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+-------COMP_with:V-N------+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:V-N (assays,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (assays,performing) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (hypothesis,SPXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 652 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------COMP_with:V-N------------------------------------------+ | +-------------------------------------COMP_with:V-N------------------------------------+ | +-------------------OBJ:V-N-------------------+ | | +-----------------COMP_by:N-N-----------------+ | | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +----------MOD_ATT:N-N----------+ | | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ | +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) COMP_in:ADJ-N (transcription,vitro) OBJ:V-N (containing,promoter) MOD:V-ADV (tested,directly) OBJ:V-N (with,regions) COMP_with:V-N (tested,GENEXXX) MOD_ATT:N-N (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 653 +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +-----MOD_ATT:N-N-----+ +-------COMP_with:N-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (transcription,performing) OBJ:V-N (tested,hypothesis) COMP_of:N-N (set,SPXXX) Parse 654 +------------------------OBJ:V-N-----------------------+ +-------------COMP_with:V-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +------------OBJ:V-N------------+-------COMP_with:V-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) SUBJ:V-N (assays,transcription) COMP_with:V-N (assays,set) COMP_in:ADJ-N (transcription,vitro) COMP_with:V-N (assays,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) COMP_by:N-N (hypothesis,performing) COMP_of:N-N (set,SPXXX) Parse 655 +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +-----MOD_ATT:N-N-----+ +-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (transcription,performing) OBJ:V-N (tested,hypothesis) COMP_of:N-N (set,SPXXX) Parse 656 +------------------------OBJ:V-N-----------------------+ | +---------------MOD_ATT:N-N--------------+ +------------OBJ:V-N------------+-------------COMP_with:V-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +MOD_POST:N-+ +-------COMP_with:V-N------+ +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) COMP_with:V-N (assays,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,performing) Parse 657 +------------------------OBJ:V-N-----------------------+ +-------------COMP_with:V-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) SUBJ:V-N (containing,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_with:V-N (assays,set) COMP_in:ADJ-N (transcription,vitro) COMP_with:V-N (assays,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) COMP_by:N-N (hypothesis,performing) COMP_of:N-N (set,SPXXX) Parse 658 +------------------------OBJ:V-N-----------------------+ | +---------------MOD_ATT:N-N--------------+ +------------OBJ:V-N------------+-------------COMP_with:V-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+--------COMP_by:V-N--------+MOD_POST:N-+ +-------COMP_with:V-N------+ +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ +COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) COMP_with:V-N (assays,set) COMP_by:V-N (tested,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,performing) Parse 659 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +MOD_POST:N-+ | | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_POST:N-ADJ (performing,vitro) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) COMP_with:V-N (tested,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_in:N-N (performing,vitro) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 660 +------------------------OBJ:V-N-----------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ | +---------------MOD_ATT:N-N--------------+ +------------------------------COMP_with:N-N-----------------------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 661 +------------------------OBJ:V-N-----------------------+ +------------------------COMP_by:V-N------------------------+ +-------------------OBJ:V-N-------------------+ | | +----------MOD_ATT:N-N----------+-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:V-N (tested,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (assays,vitro) COMP_of:N-N (set,SPXXX) Parse 662 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | +-----------------COMP_by:N-N-----------------+ | | +------------------------OBJ:V-N-----------------------+ | | +----------MOD_ATT:N-N----------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 663 +------------------------OBJ:V-N-----------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ | +---------------MOD_ATT:N-N--------------+ +------------------------------COMP_with:N-N-----------------------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 664 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ | +-----------------COMP_by:N-N-----------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +-----MOD_ATT:N-N-----+ | | +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (transcription,performing) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 665 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-N--------+------------OBJ:V-N------------+ | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) COMP_in:ADJ-N (transcription,vitro) COMP_by:V-N (tested,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 666 +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-V-+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_by:N-V (hypothesis,performing) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 667 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | +-----------------COMP_by:N-N-----------------+ | | +------------------------OBJ:V-N-----------------------+ | | +----------MOD_ATT:N-N----------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+ | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 668 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) SUBJ:V-N (containing,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) COMP_of:N-N (set,SPXXX) Parse 669 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ | +-------------------OBJ:V-N-------------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +MOD_POST:N-+ | | +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_POST:N-ADJ (performing,vitro) SUBJ:V-N (tested,We) COMP_with:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_in:N-N (performing,vitro) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 670 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +-------------------OBJ:V-N-------------------+ | | +-----------------COMP_by:N-N-----------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +-----MOD_ATT:N-N-----+ | | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (transcription,performing) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 671 +------------------------OBJ:V-N-----------------------+ +-------------COMP_with:V-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+ | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (assays,transcription) COMP_with:V-N (assays,set) COMP_in:ADJ-N (transcription,vitro) COMP_with:V-N (assays,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 672 +-------------------OBJ:V-N-------------------+ +------------------------OBJ:V-N-----------------------+ +------MOD_POST:N-ADJ-----+ +-------------COMP_with:V-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ +-------COMP_with:V-N------+ +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (hypothesis,vitro) SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_with:V-N (assays,set) COMP_in:N-N (hypothesis,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_by:N-N (hypothesis,performing) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 673 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +MOD_POST:N-+ | | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_POST:N-ADJ (performing,vitro) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (assays,performing) COMP_with:V-N (tested,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_in:N-N (performing,vitro) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 674 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ | +-------------------OBJ:V-N-------------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +MOD_POST:N-+ | | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_POST:N-ADJ (performing,vitro) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (tested,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_in:N-N (performing,vitro) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 675 +------------------------OBJ:V-N-----------------------+ +-------------------OBJ:V-N-------------------+ | +-------------COMP_with:V-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +------------OBJ:V-N------------+-------COMP_with:V-N------+----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) SUBJ:V-N (assays,transcription) COMP_of:N-N (GENEXXX,SPXXX) OBJ:V-N (containing,promoter) COMP_with:V-N (assays,set) COMP_in:ADJ-N (transcription,vitro) COMP_with:V-N (assays,GENEXXX) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 676 +------------------------OBJ:V-N-----------------------+ +-------------COMP_with:V-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +------------OBJ:V-N------------+-------COMP_with:V-N------+----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) SUBJ:V-N (assays,transcription) COMP_of:N-N (GENEXXX,SPXXX) COMP_with:V-N (assays,set) COMP_in:ADJ-N (transcription,vitro) COMP_with:V-N (assays,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) COMP_by:N-N (hypothesis,performing) COMP_of:N-N (set,SPXXX) Parse 677 +------------------------OBJ:V-N-----------------------+ +-------------------OBJ:V-N-------------------+ | +-------------COMP_with:V-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (GENEXXX,SPXXX) OBJ:V-N (containing,promoter) COMP_with:V-N (assays,set) COMP_in:ADJ-N (transcription,vitro) COMP_with:V-N (assays,GENEXXX) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 678 +-------------COMP_with:V-N------------+ +------------------------OBJ:V-N-----------------------+ | +----------SUBJ:V-N---------+ +---------------MOD_ATT:N-N--------------+ +-------------------OBJ:V-N-------------------+ +----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +MOD_POST:N-+ +-------COMP_with:V-N------+ +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) SUBJ:V-N (containing,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_with:V-N (assays,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,set) OBJ:V-N (tested,hypothesis) COMP_by:N-N (hypothesis,performing) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 679 +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------------COMP_with:N-N-----------------------------+ | +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+ | | | +---------------MOD_ATT:N-N--------------+ | +----------MOD_ATT:N-N----------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+ +----COMP_of:N-N----+ | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 680 +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+-------------COMP_with:V-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +MOD_POST:N-+ +-------COMP_with:V-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) COMP_with:V-N (assays,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (assays,performing) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (hypothesis,SPXXX) Parse 681 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+----------SUBJ:V-N---------+ +---------------MOD_ATT:N-N--------------+ | +------------OBJ:V-N------------+ +----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +MOD_POST:N-+ | | +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_POST:N-ADJ (performing,vitro) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (assays,performing) COMP_with:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,set) COMP_in:N-N (performing,vitro) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 682 +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------------COMP_with:N-N-----------------------------+ | +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+ | | +-------------------OBJ:V-N-------------------+ | | +----------MOD_ATT:N-N----------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+ +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) OBJ:V-N (containing,promoter) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 683 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +MOD_POST:N-+ | +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_POST:N-ADJ (performing,vitro) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) COMP_with:V-N (tested,set) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_in:N-N (performing,vitro) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 684 +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ | | +---------------MOD_ATT:N-N--------------+ +------------------------------COMP_with:N-N-----------------------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ | | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_of:N-N (hypothesis,SPXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) OBJ:V-N (assays,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) Parse 685 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ | +------------OBJ:V-N------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +MOD_POST:N-+ | +----COMP_of:N-N----+ | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_POST:N-ADJ (performing,vitro) SUBJ:V-N (tested,We) OBJ:V-N (assays,performing) COMP_with:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_in:N-N (performing,vitro) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 686 +------------------------OBJ:V-N-----------------------+ +-------------------------------------------COMP_with:V-N------------------------------------------+ | +---------------MOD_ATT:N-N--------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ +----COMP_of:N-N----+ | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) COMP_of:N-N (set,SPXXX) Parse 687 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+ | | +---------------MOD_ATT:N-N--------------+ +-----------------COMP_by:N-N-----------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +-----MOD_ATT:N-N-----+ | +----COMP_of:N-N----+ | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (transcription,performing) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 688 +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ | +------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+ | | +-------------------OBJ:V-N-------------------+ | +-----------------COMP_by:N-N-----------------+ | | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +-----MOD_ATT:N-N-----+ | | | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_of:N-N (hypothesis,SPXXX) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (transcription,performing) MOD_ATT:N-N (promoter,GENEXXX) Parse 689 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +-------------COMP_with:V-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +------------OBJ:V-N------------+-------COMP_with:V-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_with:V-N (assays,set) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) COMP_by:N-N (hypothesis,performing) SUBJ:V-N (assays,transcription) COMP_of:N-N (hypothesis,SPXXX) OBJ:V-N (assays,performing) Parse 690 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+ | | +---------------MOD_ATT:N-N--------------+ | +----------MOD_ATT:N-N----------+-------------COMP_with:N-N------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ | | | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (hypothesis,SPXXX) Parse 691 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ +-------------------OBJ:V-N-------------------+ | | +-------------COMP_with:V-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +------------OBJ:V-N------------+-------COMP_with:V-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_with:V-N (assays,set) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (hypothesis,SPXXX) OBJ:V-N (assays,performing) Parse 692 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ | +------------------------------------COMP_with:N-N-----------------------------------+ | +------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ | | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_of:N-N (hypothesis,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) Parse 693 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ | +------------------------------------COMP_with:N-N-----------------------------------+ | | +------------------------------COMP_with:N-N-----------------------------+ | | +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+ | | | | +---------------MOD_ATT:N-N--------------+ | +----------MOD_ATT:N-N----------+ | | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+ | | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ | | | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_of:N-N (hypothesis,SPXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:N-N (hypothesis,set) MOD_ATT:N-N (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,transcription) COMP_in:ADJ-N (assays,vitro) Parse 694 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ | +------------------------------------COMP_with:N-N-----------------------------------+ | +------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+ | | +-------------------OBJ:V-N-------------------+ | +-----------------COMP_by:N-N-----------------+ | | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +-----MOD_ATT:N-N-----+ | | | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_of:N-N (hypothesis,SPXXX) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) COMP_with:N-N (hypothesis,set) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (transcription,performing) MOD_ATT:N-N (promoter,GENEXXX) Parse 695 +------------------------OBJ:V-N-----------------------+ +-------------COMP_with:V-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (GENEXXX,SPXXX) COMP_with:V-N (assays,set) COMP_in:ADJ-N (transcription,vitro) COMP_with:V-N (assays,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 696 +------------------------OBJ:V-N-----------------------+ +-------------COMP_with:V-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +------------OBJ:V-N------------+-------COMP_with:V-N------+----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) OBJ:V-N (assays,performing) SUBJ:V-N (assays,transcription) COMP_of:N-N (GENEXXX,SPXXX) COMP_with:V-N (assays,set) COMP_in:ADJ-N (transcription,vitro) COMP_with:V-N (assays,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 697 +-------------COMP_with:N-N------------+ +-----------------COMP_by:N-N-----------------+ +----------SUBJ:V-N---------+------------------------OBJ:V-N-----------------------+ | +----------MOD_ATT:N-N----------+ +----COMP_of:N-N----+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) SUBJ:V-N (containing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,performing) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 698 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +MOD_POST:N-+ | +----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_POST:N-ADJ (performing,vitro) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) COMP_with:V-N (tested,set) SUBJ:V-N (containing,SPXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_in:N-N (performing,vitro) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 699 +----------------------------------COMP_of:N-N---------------------------------+ +------------------------OBJ:V-N-----------------------+ | +-------------COMP_with:V-N------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+--------COMP_by:V-N--------+------------OBJ:V-N------------+-------COMP_with:V-N------+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_of:N-N (performing,SPXXX) COMP_with:V-N (assays,GENEXXX) COMP_with:V-N (assays,set) COMP_in:ADJ-N (transcription,vitro) COMP_by:V-N (tested,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (assays,performing) MOD_ATT:N-N (promoter,GENEXXX) Parse 700 +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+-------------COMP_with:V-N------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +MOD_POST:N-+ +-------COMP_with:V-N------+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) COMP_with:V-N (assays,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) COMP_of:N-N (hypothesis,SPXXX) MOD_ATT:N-N (regions,GENEXXX) Parse 701 +-------------------------------------------COMP_with:V-N------------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ +----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (tested,set) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 702 +-----------------------SUBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+------------------COMP_of:N-N-----------------+ +------------------------OBJ:V-N-----------------------+ | +----------MOD_ATT:N-N----------+-------------COMP_with:N-N------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) SUBJ:V-N (containing,assays) COMP_of:N-N (assays,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 703 +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +COMP_in:N-N+ | | | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+MOD_POST:N-+ +-SUBJ:V-N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_of:N-N (hypothesis,SPXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) OBJ:V-N (assays,performing) COMP_in:N-N (performing,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) MOD_POST:N-ADJ (performing,vitro) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) Parse 704 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | +-------------------OBJ:V-N-------------------+ +----------SUBJ:V-N---------+------------------------OBJ:V-N-----------------------+ | +------MOD_POST:N-ADJ-----+ | +----COMP_of:N-N----+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ | | +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) SUBJ:V-N (containing,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,set) MOD_POST:N-ADJ (hypothesis,vitro) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) COMP_in:N-N (hypothesis,vitro) Parse 705 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ +----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (assays,performing) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 706 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ | +------------------------------------COMP_with:N-N-----------------------------------+ | +------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ | | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_of:N-N (hypothesis,SPXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) OBJ:V-N (assays,performing) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 707 +---------------------------------------SUBJ:V-N---------------------------------------+------------------------OBJ:V-N-----------------------+ | +-------------COMP_with:V-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-N--------+------------OBJ:V-N------------+-------COMP_with:V-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) SUBJ:V-N (assays,transcription) SUBJ:V-N (containing,performing) COMP_with:V-N (assays,set) COMP_in:ADJ-N (transcription,vitro) COMP_by:V-N (tested,performing) COMP_with:V-N (assays,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) COMP_of:N-N (set,SPXXX) Parse 708 +------------------------OBJ:V-N-----------------------+ +-------------------OBJ:V-N-------------------+ | +---------------MOD_ATT:N-N--------------+ +------MOD_POST:N-ADJ-----+ +-------------COMP_with:V-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ +-------COMP_with:V-N------+ | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (hypothesis,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,set) COMP_in:N-N (hypothesis,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_by:N-N (hypothesis,performing) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 709 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------SUBJ:V-N----------------------------------------------+ +---------------MOD_ATT:N-N--------------+ | +-------------COMP_with:V-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+-------COMP_with:V-N------+ | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) OBJ:V-N (assays,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) COMP_with:V-N (assays,set) COMP_in:ADJ-N (transcription,vitro) COMP_with:V-N (assays,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,hypothesis) COMP_by:N-N (hypothesis,performing) COMP_of:N-N (set,SPXXX) Parse 710 +------------------------OBJ:V-N-----------------------+ +-------------------------------------------COMP_with:V-N------------------------------------------+ | +---------------MOD_ATT:N-N--------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +------------OBJ:V-N------------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (tested,set) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (assays,performing) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) COMP_of:N-N (set,SPXXX) Parse 711 +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+-----------------------SUBJ:V-N-----------------------+-------------------OBJ:V-N-------------------+ | | +----------MOD_ATT:N-N----------+-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,assays) MOD:V-ADV (tested,directly) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (assays,vitro) COMP_of:N-N (set,SPXXX) Parse 712 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+ | +---------------MOD_ATT:N-N--------------+ | +----------MOD_ATT:N-N----------+-------------COMP_with:N-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,performing) COMP_in:ADJ-N (assays,vitro) COMP_of:N-N (set,SPXXX) Parse 713 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------SUBJ:V-N----------------------------------------------+-------------------OBJ:V-N-------------------+ | | +------------OBJ:V-N------------+-------------COMP_with:V-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +MOD_POST:N-+ +-------COMP_with:V-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) OBJ:V-N (containing,promoter) COMP_with:V-N (assays,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,performing) Parse 714 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ | +---------------MOD_ATT:N-N--------------+ | +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +MOD_POST:N-+ +-------COMP_with:V-N------+ +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (assays,performing) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 715 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | | +-----------------COMP_by:N-N-----------------+ | | +------------------------OBJ:V-N-----------------------+ | +----------MOD_ATT:N-N----------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 716 +------------------------OBJ:V-N-----------------------+ | +---------------MOD_ATT:N-N--------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+ | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_by:N-N (hypothesis,performing) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 717 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ | +---------------MOD_ATT:N-N--------------+ | +-------------------OBJ:V-N-------------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +MOD_POST:N-+ +-------COMP_with:V-N------+ | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (tested,set) MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 718 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +-----------------COMP_by:N-N-----------------+ | | +---------------MOD_ATT:N-N--------------+ | | +----------MOD_ATT:N-N----------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 719 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) COMP_by:N-N (hypothesis,performing) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 720 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ +-------------------OBJ:V-N-------------------+ | | +------------OBJ:V-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +MOD_POST:N-+ +-------COMP_with:V-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) OBJ:V-N (containing,promoter) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 721 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | | +---------------MOD_ATT:N-N--------------+ | +-----------------COMP_by:N-N-----------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +-----MOD_ATT:N-N-----+ | | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (transcription,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 722 +------------------------OBJ:V-N-----------------------+ +-------------------OBJ:V-N-------------------+ | +----------------------------------------------OBJ:V-N---------------------------------------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 723 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+ | | +-------------------OBJ:V-N-------------------+ | | +----------MOD_ATT:N-N----------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) MOD:V-ADV (tested,directly) COMP_with:N-N (hypothesis,set) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 724 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +-----------------COMP_by:N-N-----------------+ | +-------------------OBJ:V-N-------------------+ | | | +----------MOD_ATT:N-N----------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (promoter,GENEXXX) MOD:V-ADV (tested,directly) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 725 +----------------------------------------------OBJ:V-N---------------------------------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | +------------------------OBJ:V-N-----------------------+ | +-----------------COMP_by:N-N-----------------+ | | | +---------------MOD_ATT:N-N--------------+ | | +----------MOD_ATT:N-N----------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+ | +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 726 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +-------------------OBJ:V-N-------------------+ | +-------------------OBJ:V-N-------------------+ | | +------MOD_POST:N-ADJ-----+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ +-------COMP_with:V-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) MOD_POST:N-ADJ (hypothesis,vitro) OBJ:V-N (tested,set) SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (hypothesis,vitro) OBJ:V-N (containing,promoter) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 727 +---------------------------------------SUBJ:V-N---------------------------------------+------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+-------------COMP_with:V-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+--------COMP_by:V-N--------+MOD_POST:N-+ +-------COMP_with:V-N------+ | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ +COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) SUBJ:V-N (containing,performing) COMP_with:V-N (assays,set) COMP_by:V-N (tested,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,performing) Parse 728 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (assays,performing) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 729 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +MOD_POST:N-+ +-------COMP_with:V-N------+ +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 730 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ | +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (assays,performing) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 731 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------SUBJ:V-N----------------------------------------------+-------------------OBJ:V-N-------------------+ | +-------------------------------------COMP_by:N-N------------------------------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +------------OBJ:V-N------------+-------COMP_with:V-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) COMP_by:N-N (hypothesis,set) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,performing) Parse 732 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_by:N-N------------------------------------+ +-------------------OBJ:V-N-------------------+ | | +------------OBJ:V-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +MOD_POST:N-+ +-------COMP_with:V-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) OBJ:V-N (containing,promoter) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 733 +-------------------------------------COMP_by:N-N------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+ | | +---------------MOD_ATT:N-N--------------+ | +----------MOD_ATT:N-N----------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 734 +------------------------OBJ:V-N-----------------------+ | +---------------MOD_ATT:N-N--------------+ +-------------------------------------COMP_by:N-N------------------------------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+-------COMP_with:V-N------+ | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_by:N-N (hypothesis,performing) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,performing) Parse 735 +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_by:N-N------------------------------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +------------OBJ:V-N------------+-------COMP_with:V-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) COMP_by:N-N (hypothesis,performing) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,performing) Parse 736 +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_by:N-N------------------------------------+ +-------------------OBJ:V-N-------------------+ | | +------------OBJ:V-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +MOD_POST:N-+ +-------COMP_with:V-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) OBJ:V-N (containing,promoter) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 737 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-------------------------------------COMP_by:N-N------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +-----MOD_ATT:N-N-----+ +-------COMP_with:N-N------+ | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (transcription,performing) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 738 +-------------------------------------COMP_by:N-N------------------------------------+ +-----------------COMP_by:N-N-----------------+ | +------------------------OBJ:V-N-----------------------+ | +----------MOD_ATT:N-N----------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 739 +-----------------------------------------COMP_of:N-N----------------------------------------+ +-------------------------------------COMP_by:N-N------------------------------------+ | +-----------------COMP_by:N-N-----------------+ | | +------------------------OBJ:V-N-----------------------+ | +----------MOD_ATT:N-N----------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (promoter,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (assays,transcription) COMP_of:N-N (hypothesis,SPXXX) Parse 740 +--------------------------------------------COMP_by:V-N-------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +---------------------------------------SUBJ:V-N---------------------------------------+ +---------------MOD_ATT:N-N--------------+ | +----------------------------------COMP_of:N-N---------------------------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+--------COMP_by:V-N--------+------------OBJ:V-N------------+-------COMP_with:V-N------+ +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) SUBJ:V-N (containing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_of:N-N (performing,SPXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:ADJ-N (transcription,vitro) SUBJ:V-N (containing,performing) COMP_by:V-N (tested,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (assays,performing) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 741 +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_by:N-N------------------------------------+ | +-------------------OBJ:V-N-------------------+ | | +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +MOD_POST:N-+ +-------COMP_with:V-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_POST:N-ADJ (performing,vitro) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) COMP_with:V-N (assays,GENEXXX) OBJ:V-N (containing,promoter) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:N-N (performing,vitro) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (hypothesis,SPXXX) Parse 742 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_by:N-N------------------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +------------OBJ:V-N------------+-------COMP_with:V-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) COMP_of:N-N (hypothesis,SPXXX) Parse 743 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ | +-------------------------------------COMP_by:N-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+ | | +-------------------OBJ:V-N-------------------+ | | +----------MOD_ATT:N-N----------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (promoter,GENEXXX) MOD:V-ADV (tested,directly) COMP_by:N-N (hypothesis,set) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (hypothesis,SPXXX) Parse 744 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_by:N-N------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ | +------------OBJ:V-N------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +MOD_POST:N-+ +-------COMP_with:V-N------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ | | | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_POST:N-ADJ (performing,vitro) SUBJ:V-N (tested,We) OBJ:V-N (assays,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_in:N-N (performing,vitro) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (hypothesis,SPXXX) MOD_ATT:N-N (regions,GENEXXX) Parse 745 +-----------------------------------------COMP_of:N-N----------------------------------------+ +-------------------------------------COMP_by:N-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +MOD_POST:N-+ +-------COMP_with:V-N------+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_POST:N-ADJ (performing,vitro) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (assays,performing) COMP_with:V-N (assays,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_in:N-N (performing,vitro) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) COMP_of:N-N (hypothesis,SPXXX) MOD_ATT:N-N (regions,GENEXXX) Parse 746 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ | +-------------------------------------COMP_by:N-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +MOD_POST:N-+ +-------COMP_with:V-N------+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_POST:N-ADJ (performing,vitro) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (assays,performing) COMP_with:V-N (assays,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_in:N-N (performing,vitro) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) COMP_of:N-N (hypothesis,SPXXX) MOD_ATT:N-N (regions,GENEXXX) Parse 747 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------COMP_with:V-N------------------------------------------+ | +-------------------------------------COMP_with:V-N------------------------------------+ | | | +-----------------COMP_by:N-N-----------------+ | | | +-------------------OBJ:V-N-------------------+ | | | +----------MOD_ATT:N-N----------+ | | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+ | | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ | +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) OBJ:V-N (containing,promoter) MOD:V-ADV (tested,directly) OBJ:V-N (with,regions) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 748 +------------------------OBJ:V-N-----------------------+ | +---------------MOD_ATT:N-N--------------+ +-------------COMP_with:V-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +------------OBJ:V-N------------+-------COMP_with:V-N------+ | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) OBJ:V-N (assays,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) COMP_with:V-N (assays,set) COMP_in:ADJ-N (transcription,vitro) COMP_with:V-N (assays,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) COMP_by:N-N (hypothesis,performing) COMP_of:N-N (set,SPXXX) Parse 749 +------------------------OBJ:V-N-----------------------+ | +---------------MOD_ATT:N-N--------------+ +------------OBJ:V-N------------+-------------COMP_with:V-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +MOD_POST:N-+ +-------COMP_with:V-N------+ | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) COMP_with:V-N (assays,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,performing) Parse 750 +------------------------OBJ:V-N-----------------------+ +-------------------OBJ:V-N-------------------+ | +-----------------COMP_by:N-N-----------------+-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +-----MOD_ATT:N-N-----+ +-------COMP_with:N-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (transcription,performing) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 751 +------------------------OBJ:V-N-----------------------+ +-------------------OBJ:V-N-------------------+ | +---------------MOD_ATT:N-N--------------+ +------MOD_POST:N-ADJ-----+ +-------------COMP_with:V-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ +-------COMP_with:V-N------+ | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (hypothesis,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_with:V-N (assays,set) COMP_in:N-N (hypothesis,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 752 +------------------------OBJ:V-N-----------------------+ +-------------------OBJ:V-N-------------------+ | +-----------------COMP_by:N-N-----------------+-------------COMP_with:N-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +-----MOD_ATT:N-N-----+ +-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (transcription,performing) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 753 +------------------------OBJ:V-N-----------------------+ +-------------------OBJ:V-N-------------------+ | +---------------MOD_ATT:N-N--------------+ +------MOD_POST:N-ADJ-----+ +-------------COMP_with:V-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ +-------COMP_with:V-N------+ +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (hypothesis,vitro) SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_with:V-N (assays,set) COMP_in:N-N (hypothesis,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 754 +------------------------OBJ:V-N-----------------------+ +-------------------OBJ:V-N-------------------+ | +-------------COMP_with:V-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) SUBJ:V-N (containing,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_with:V-N (assays,set) COMP_in:ADJ-N (transcription,vitro) COMP_with:V-N (assays,GENEXXX) MOD:V-ADV (tested,directly) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 755 +------------------------OBJ:V-N-----------------------+ +-------------------------------------------COMP_with:V-N------------------------------------------+ | +---------------MOD_ATT:N-N--------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) COMP_of:N-N (set,SPXXX) Parse 756 +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------------COMP_with:N-N-----------------------------+ | +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+ | | +-------------------OBJ:V-N-------------------+ | | +----------MOD_ATT:N-N----------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+ | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) MOD:V-ADV (tested,directly) COMP_with:N-N (hypothesis,set) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 757 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ | +-------------------OBJ:V-N-------------------+ | | | +---------------MOD_ATT:N-N--------------+ | +------MOD_POST:N-ADJ-----+ | | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ | | +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_POST:N-ADJ (hypothesis,vitro) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) COMP_in:N-N (hypothesis,vitro) Parse 758 +------------------------OBJ:V-N-----------------------+ +-----------------COMP_by:N-N-----------------+-------------COMP_with:N-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +-----MOD_ATT:N-N-----+ +-------COMP_with:N-N------+ | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (transcription,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 759 +------------------------OBJ:V-N-----------------------+ +-------------------OBJ:V-N-------------------+-------------COMP_with:V-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +MOD_POST:N-+ +-------COMP_with:V-N------+ | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) COMP_with:V-N (assays,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_by:N-N (hypothesis,performing) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 760 +-----------------COMP_by:N-N-----------------+ +------------------------OBJ:V-N-----------------------+ | +----------MOD_ATT:N-N----------+-------------COMP_with:N-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+-------COMP_with:N-N------+ +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_with:N-N (assays,set) COMP_with:N-N (assays,GENEXXX) COMP_by:N-N (hypothesis,assays) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (assays,transcription) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 761 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +MOD_POST:N-+ | | +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_POST:N-ADJ (performing,vitro) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (assays,performing) COMP_with:V-N (tested,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_in:N-N (performing,vitro) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 762 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | | +-------------------OBJ:V-N-------------------+ | | +------------------------OBJ:V-N-----------------------+ | +------MOD_POST:N-ADJ-----+ | | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ | | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (tested,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_POST:N-ADJ (hypothesis,vitro) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) COMP_in:N-N (hypothesis,vitro) Parse 763 +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------------------------COMP_with:V-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ | +-------------------OBJ:V-N-------------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +MOD_POST:N-+ | | +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_POST:N-ADJ (performing,vitro) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (tested,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_in:N-N (performing,vitro) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 764 +------------------------------------COMP_with:N-N-----------------------------------+ | +----------SUBJ:V-N---------+------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+----COMP_of:N-N----+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) SUBJ:V-N (containing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 765 +------------------------OBJ:V-N-----------------------+ +----------------------------------COMP_of:N-N---------------------------------+ | +---------------MOD_ATT:N-N--------------+ +------------OBJ:V-N------------+-------------COMP_with:V-N------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+--------COMP_by:V-N--------+MOD_POST:N-+ +-------COMP_with:V-N------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ +COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) COMP_of:N-N (performing,SPXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) COMP_with:V-N (assays,set) COMP_by:V-N (tested,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (assays,performing) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) Parse 766 +---------------------------------------SUBJ:V-N---------------------------------------+------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+-------------COMP_with:V-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-N--------+MOD_POST:N-+ +-------COMP_with:V-N------+----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ +COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) COMP_of:N-N (GENEXXX,SPXXX) COMP_with:V-N (assays,set) COMP_by:V-N (tested,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,performing) Parse 767 +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +COMP_in:N-N+ | | | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+MOD_POST:N-+ +-SUBJ:V-N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_of:N-N (hypothesis,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) COMP_in:N-N (performing,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_POST:N-ADJ (performing,vitro) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) Parse 768 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+ | | +---------------MOD_ATT:N-N--------------+ | +------------OBJ:V-N------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +MOD_POST:N-+ | +----COMP_of:N-N----+ | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_POST:N-ADJ (performing,vitro) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) OBJ:V-N (assays,performing) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,hypothesis) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_in:N-N (performing,vitro) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 769 +---------------------------------------SUBJ:V-N---------------------------------------+ +----------------------------------COMP_of:N-N---------------------------------+ | +-----------------------------COMP_with:N-N----------------------------+ | +------------------------OBJ:V-N-----------------------+ +-----------------------COMP_with:N-N----------------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-N--------+------------OBJ:V-N------------+ | | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (performing,set) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (performing,SPXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) COMP_with:N-N (performing,GENEXXX) SUBJ:V-N (containing,performing) COMP_in:ADJ-N (transcription,vitro) COMP_by:V-N (tested,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) Parse 770 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------OBJ:V-N-------------------+ | +-------------------------------------COMP_with:V-N------------------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ | +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ | +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,promoter) COMP_with:V-N (tested,set) COMP_in:ADJ-N (transcription,vitro) SUBJ:V-N (containing,SPXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (with,regions) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 771 +---------------------------------------SUBJ:V-N---------------------------------------+ +----------------------------------COMP_of:N-N---------------------------------+ | +-----------------------------COMP_with:N-N----------------------------+ | | +-----------------------COMP_with:N-N----------------------+ | | +------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+ | | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-N--------+MOD_POST:N-+ | | | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ +COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_of:N-N (performing,SPXXX) COMP_with:N-N (performing,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) COMP_in:N-N (performing,vitro) COMP_with:N-N (performing,set) SUBJ:V-N (containing,performing) COMP_by:V-N (tested,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) Parse 772 +---------------------------------------SUBJ:V-N---------------------------------------+------------------------OBJ:V-N-----------------------+ +----------------------------------COMP_of:N-N---------------------------------+ +-------------------OBJ:V-N-------------------+ | | +-------------COMP_with:V-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-N--------+------------OBJ:V-N------------+-------COMP_with:V-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_of:N-N (performing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) SUBJ:V-N (containing,performing) COMP_with:V-N (assays,set) COMP_in:ADJ-N (transcription,vitro) COMP_by:V-N (tested,performing) MOD:V-ADV (tested,directly) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) OBJ:V-N (assays,performing) Parse 773 +----------------------------------COMP_of:N-N---------------------------------+ +------------------------OBJ:V-N-----------------------+ | +-------------COMP_with:V-N------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +------------OBJ:V-N------------+-------COMP_with:V-N------+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_of:N-N (performing,SPXXX) COMP_with:V-N (assays,GENEXXX) COMP_with:V-N (assays,set) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (assays,performing) MOD_ATT:N-N (promoter,GENEXXX) Parse 774 +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------------COMP_with:N-N-----------------------------+----------SUBJ:V-N---------+------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ +----COMP_of:N-N----+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +MOD_POST:N-+ | | +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_POST:N-ADJ (performing,vitro) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) SUBJ:V-N (containing,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,set) COMP_in:N-N (performing,vitro) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 775 +---------------------------------------SUBJ:V-N---------------------------------------+------------------------OBJ:V-N-----------------------+ | +-------------COMP_with:V-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +------------OBJ:V-N------------+-------COMP_with:V-N------+----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (assays,performing) SUBJ:V-N (assays,transcription) SUBJ:V-N (containing,performing) COMP_of:N-N (GENEXXX,SPXXX) COMP_with:V-N (assays,set) COMP_in:ADJ-N (transcription,vitro) COMP_with:V-N (assays,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 776 +---------------------------------------SUBJ:V-N---------------------------------------+------------------------OBJ:V-N-----------------------+ | +-------------COMP_with:V-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+--------COMP_by:V-N--------+------------OBJ:V-N------------+-------COMP_with:V-N------+----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (assays,performing) SUBJ:V-N (assays,transcription) SUBJ:V-N (containing,performing) COMP_of:N-N (GENEXXX,SPXXX) COMP_with:V-N (assays,set) COMP_in:ADJ-N (transcription,vitro) COMP_by:V-N (tested,performing) COMP_with:V-N (assays,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 777 +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------OBJ:V-N-------------------+-------------COMP_with:V-N------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +MOD_POST:N-+ +-------COMP_with:V-N------+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) COMP_with:V-N (assays,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) COMP_of:N-N (hypothesis,SPXXX) MOD_ATT:N-N (regions,GENEXXX) Parse 778 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ +-------------------OBJ:V-N-------------------+-------------COMP_with:V-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +MOD_POST:N-+ +-------COMP_with:V-N------+----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) SUBJ:V-N (containing,hypothesis) COMP_of:N-N (GENEXXX,SPXXX) COMP_with:V-N (assays,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) COMP_by:N-N (hypothesis,performing) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 779 +---------------------------------------SUBJ:V-N---------------------------------------+ +----------------------------------COMP_of:N-N---------------------------------+ | +-----------------------------COMP_with:N-N----------------------------+ | +------------------------OBJ:V-N-----------------------+ +-----------------------COMP_with:N-N----------------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+--------COMP_by:V-N--------+------------OBJ:V-N------------+ | | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (performing,set) COMP_of:N-N (performing,SPXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) OBJ:V-N (assays,performing) COMP_with:N-N (performing,GENEXXX) SUBJ:V-N (containing,performing) COMP_in:ADJ-N (transcription,vitro) COMP_by:V-N (tested,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 780 +---------------------------------------SUBJ:V-N---------------------------------------+ +----------------------------------COMP_of:N-N---------------------------------+ | +-----------------------------COMP_with:N-N----------------------------+ | | +-----------------------COMP_with:N-N----------------------+ | | +------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+ | | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+--------COMP_by:V-N--------+MOD_POST:N-+ | | | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ +COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_of:N-N (performing,SPXXX) COMP_with:N-N (performing,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (assays,performing) COMP_in:N-N (performing,vitro) COMP_with:N-N (performing,set) SUBJ:V-N (containing,performing) COMP_by:V-N (tested,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) Parse 781 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------OBJ:V-N-------------------+-------------COMP_with:V-N------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +MOD_POST:N-+ +-------COMP_with:V-N------+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) COMP_with:V-N (assays,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) COMP_of:N-N (hypothesis,SPXXX) MOD_ATT:N-N (regions,GENEXXX) Parse 782 +---------------------------------------SUBJ:V-N---------------------------------------+------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+-------------COMP_with:V-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +MOD_POST:N-+ +-------COMP_with:V-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) SUBJ:V-N (containing,performing) COMP_with:V-N (assays,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,performing) Parse 783 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------SUBJ:V-N----------------------------------------------+ +---------------MOD_ATT:N-N--------------+ +-------------------OBJ:V-N-------------------+-------------COMP_with:V-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +MOD_POST:N-+ +-------COMP_with:V-N------+ | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) COMP_with:V-N (assays,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 784 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) COMP_of:N-N (set,SPXXX) Parse 785 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ +-------------------OBJ:V-N-------------------+-------------COMP_with:V-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +MOD_POST:N-+ +-------COMP_with:V-N------+ | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) COMP_with:V-N (assays,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,hypothesis) COMP_by:N-N (hypothesis,performing) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 786 +----------------------------------------------OBJ:V-N---------------------------------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | +------------------------OBJ:V-N-----------------------+ | | +------------OBJ:V-N------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +MOD_POST:N-+ | | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_POST:N-ADJ (performing,vitro) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) OBJ:V-N (assays,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_in:N-N (performing,vitro) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 787 +--------------------------------------------COMP_by:V-N-------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +-----------------------COMP_with:N-N----------------------+ | | +---------------MOD_ATT:N-N--------------+ | +------------OBJ:V-N------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+--------COMP_by:V-N--------+MOD_POST:N-+ | | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ +COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) OBJ:V-N (assays,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_in:N-N (performing,vitro) COMP_with:N-N (performing,GENEXXX) COMP_by:V-N (tested,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_by:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 788 +--------------------------------------------COMP_by:V-N-------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +-----------------------COMP_with:N-N----------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-N--------+------------OBJ:V-N------------+ | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (performing,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_by:V-N (tested,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:V-N (tested,set) COMP_of:N-N (set,SPXXX) Parse 789 +------------------------OBJ:V-N-----------------------+ +--------------------------------------------COMP_by:V-N-------------------------------------------+ | +---------------MOD_ATT:N-N--------------+ | +----------------------------------COMP_of:N-N---------------------------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+--------COMP_by:V-N--------+------------OBJ:V-N------------+-------COMP_with:V-N------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_of:N-N (performing,SPXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_by:V-N (tested,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (assays,performing) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_by:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 790 +--------------------------------------------COMP_by:V-N-------------------------------------------+ | +---------------------------------------SUBJ:V-N---------------------------------------+ | +----------------------------------COMP_of:N-N---------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-N--------+MOD_POST:N-+ +-------COMP_with:V-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ +COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) COMP_of:N-N (performing,SPXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,performing) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) COMP_by:V-N (tested,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_by:V-N (tested,set) COMP_of:N-N (set,SPXXX) Parse 791 +--------------------------------------------COMP_by:V-N-------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +----------------------------------COMP_of:N-N---------------------------------+ +-------------------OBJ:V-N-------------------+ | | +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-N--------+MOD_POST:N-+ +-------COMP_with:V-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ +COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) COMP_of:N-N (performing,SPXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,promoter) OBJ:V-N (assays,performing) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) SUBJ:V-N (containing,SPXXX) COMP_by:V-N (tested,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_by:V-N (tested,set) COMP_of:N-N (set,SPXXX) Parse 792 +--------------------------------------------COMP_by:V-N-------------------------------------------+ | +----------------------------------COMP_of:N-N---------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+--------COMP_by:V-N--------+MOD_POST:N-+ +-------COMP_with:V-N------+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ +COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) COMP_of:N-N (performing,SPXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) SUBJ:V-N (containing,SPXXX) COMP_by:V-N (tested,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 793 +--------------------------------------------COMP_by:V-N-------------------------------------------+ | +---------------------------------------SUBJ:V-N---------------------------------------+ | +----------------------------------COMP_of:N-N---------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+--------COMP_by:V-N--------+MOD_POST:N-+ +-------COMP_with:V-N------+ +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ +COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) COMP_of:N-N (performing,SPXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,performing) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) COMP_by:V-N (tested,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 794 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ | +---------------MOD_ATT:N-N--------------+ | +-----------------------------------------COMP_of:N-N----------------------------------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (tested,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (hypothesis,SPXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 795 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ | | +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +-------------------OBJ:V-N-------------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +MOD_POST:N-+ +-------COMP_with:V-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (tested,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_POST:N-ADJ (performing,vitro) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) SUBJ:V-N (containing,hypothesis) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,set) COMP_in:N-N (performing,vitro) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (hypothesis,SPXXX) COMP_of:N-N (set,SPXXX) Parse 796 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ | +---------------MOD_ATT:N-N--------------+ | +-----------------------------------------COMP_of:N-N----------------------------------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+ +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (tested,set) OBJ:V-N (containing,regions) SUBJ:V-N (containing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) COMP_of:N-N (hypothesis,SPXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 797 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ | | +-----------------------------------------COMP_of:N-N----------------------------------------+ | | +-------------------OBJ:V-N-------------------+ | | +------------------------OBJ:V-N-----------------------+ | +------MOD_POST:N-ADJ-----+ | | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ +-------COMP_with:V-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) MOD_POST:N-ADJ (hypothesis,vitro) OBJ:V-N (tested,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (hypothesis,vitro) SUBJ:V-N (containing,hypothesis) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,set) COMP_of:N-N (hypothesis,SPXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 798 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ | | +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +-------------------OBJ:V-N-------------------+ | | | +---------------MOD_ATT:N-N--------------+ | +------MOD_POST:N-ADJ-----+ | | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ +-------COMP_with:V-N------+ +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) MOD_POST:N-ADJ (hypothesis,vitro) OBJ:V-N (tested,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (hypothesis,vitro) SUBJ:V-N (containing,hypothesis) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,set) COMP_of:N-N (hypothesis,SPXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 799 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------COMP_with:V-N------------------------------------------+ | +-------------------------------------COMP_with:V-N------------------------------------+ | | | +-----------------COMP_by:N-N-----------------+ | | | +-------------------OBJ:V-N-------------------+ | | | +----------MOD_ATT:N-N----------+ | | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | | +---COMP_in:ADJ-N---+ | | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | | +MOD_ATT:N+ | +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_by:N-N (hypothesis,assays) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_in:ADJ-N (assays,vitro) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) OBJ:V-N (containing,promoter) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) OBJ:V-N (with,regions) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (assays,performing) MOD_ATT:N-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 800 +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------------COMP_with:N-N-----------------------------+ | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +MOD_POST:N-+ | | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_POST:N-ADJ (performing,vitro) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_in:N-N (performing,vitro) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 801 +------------------------OBJ:V-N-----------------------+ +-----------------------------COMP_with:N-N----------------------------+ | +---------------MOD_ATT:N-N--------------+ +-----------------------COMP_with:N-N----------------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+--------COMP_by:V-N--------+------------OBJ:V-N------------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (performing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:N-N (performing,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (regions,GENEXXX) COMP_by:V-N (tested,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 802 +------------------------OBJ:V-N-----------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ | +---------------MOD_ATT:N-N--------------+ +------------------------------COMP_with:N-N-----------------------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ | +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (assays,performing) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) COMP_of:N-N (set,SPXXX) Parse 803 +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------------COMP_with:N-N-----------------------------+ | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +MOD_POST:N-+ | | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_POST:N-ADJ (performing,vitro) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) OBJ:V-N (assays,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_in:N-N (performing,vitro) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 804 +-----------------------------COMP_with:N-N----------------------------+ +-----------------------COMP_with:N-N----------------------+ | +------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+--------COMP_by:V-N--------+MOD_POST:N-+ | | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ +COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (performing,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (assays,performing) COMP_in:N-N (performing,vitro) COMP_with:N-N (performing,set) COMP_by:V-N (tested,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 805 +-----------------------------COMP_with:N-N----------------------------+ +------------------------OBJ:V-N-----------------------+ +-----------------------COMP_with:N-N----------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-N--------+------------OBJ:V-N------------+ +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (performing,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (performing,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (GENEXXX,SPXXX) COMP_by:V-N (tested,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (assays,performing) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 806 +----------------------------------COMP_of:N-N---------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+-------------COMP_with:V-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +MOD_POST:N-+ +-------COMP_with:V-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) COMP_of:N-N (performing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) COMP_with:V-N (assays,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (assays,performing) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) Parse 807 +------------------------OBJ:V-N-----------------------+ +-----------------------------COMP_with:N-N----------------------------+ +-------------------OBJ:V-N-------------------+ | +-----------------------COMP_with:N-N----------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-N--------+------------OBJ:V-N------------+ +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) COMP_with:N-N (performing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (performing,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (GENEXXX,SPXXX) OBJ:V-N (containing,promoter) COMP_by:V-N (tested,performing) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 808 +----------------------------------COMP_of:N-N---------------------------------+ +-----------------------------COMP_with:N-N----------------------------+ | +------------------------OBJ:V-N-----------------------+ +-----------------------COMP_with:N-N----------------------+ | | | +---------------MOD_ATT:N-N--------------+ +------------OBJ:V-N------------+ | | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +MOD_POST:N-+ | | | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_of:N-N (performing,SPXXX) COMP_with:N-N (performing,GENEXXX) OBJ:V-N (assays,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_in:N-N (performing,vitro) COMP_with:N-N (performing,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) Parse 809 +---------------------------------------SUBJ:V-N---------------------------------------+ +-----------------------------COMP_with:N-N----------------------------+ | +-----------------------COMP_with:N-N----------------------+ | +------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +MOD_POST:N-+ | +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (performing,GENEXXX) SUBJ:V-N (containing,performing) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) COMP_in:N-N (performing,vitro) COMP_with:N-N (performing,set) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 810 +-----------------------------COMP_with:N-N----------------------------+ +------------------------OBJ:V-N-----------------------+ +-----------------------COMP_with:N-N----------------------+----------SUBJ:V-N---------+-------------------OBJ:V-N-------------------+ | +------------OBJ:V-N------------+ +----COMP_of:N-N----+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-N--------+MOD_POST:N-+ | | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ +COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (performing,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) COMP_in:N-N (performing,vitro) SUBJ:V-N (containing,GENEXXX) COMP_with:N-N (performing,set) COMP_of:N-N (GENEXXX,SPXXX) COMP_by:V-N (tested,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,set) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 811 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------SUBJ:V-N----------------------------------------------+ +---------------MOD_ATT:N-N--------------+ | +-------------COMP_with:V-N------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+----COMP_of:N-N----+ | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (GENEXXX,SPXXX) COMP_with:V-N (assays,set) COMP_in:ADJ-N (transcription,vitro) COMP_with:V-N (assays,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 812 +------------------------OBJ:V-N-----------------------+ +---------------------------------------SUBJ:V-N---------------------------------------+-------------------OBJ:V-N-------------------+ | +------------OBJ:V-N------------+-------------COMP_with:V-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +MOD_POST:N-+ +-------COMP_with:V-N------+----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,performing) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,promoter) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) COMP_of:N-N (GENEXXX,SPXXX) COMP_with:V-N (assays,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,performing) Parse 813 +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ | +------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ | | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) COMP_of:N-N (hypothesis,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) Parse 814 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-------------------OBJ:V-N-------------------+ +------------------------OBJ:V-N-----------------------+ +------MOD_POST:N-ADJ-----+ +-------------COMP_with:V-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ +-------COMP_with:V-N------+----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (hypothesis,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) SUBJ:V-N (containing,hypothesis) COMP_of:N-N (GENEXXX,SPXXX) COMP_with:V-N (assays,set) COMP_in:N-N (hypothesis,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 815 +---------------------------------------SUBJ:V-N---------------------------------------+ +----------------------------------COMP_of:N-N---------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+-------------COMP_with:V-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +MOD_POST:N-+ +-------COMP_with:V-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) COMP_of:N-N (performing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) SUBJ:V-N (containing,performing) COMP_with:V-N (assays,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (assays,performing) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) Parse 816 +----------------------------------COMP_of:N-N---------------------------------+ +-----------------------------COMP_with:N-N----------------------------+ | +------------------------OBJ:V-N-----------------------+ +-----------------------COMP_with:N-N----------------------+ | | +-------------------OBJ:V-N-------------------+ | +------------OBJ:V-N------------+ | | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-N--------+MOD_POST:N-+ | | | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ +COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_of:N-N (performing,SPXXX) COMP_with:N-N (performing,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) COMP_in:N-N (performing,vitro) COMP_with:N-N (performing,set) OBJ:V-N (containing,promoter) COMP_by:V-N (tested,performing) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) Parse 817 +----------------------------------------------SUBJ:V-N----------------------------------------------+ | +----------------------------------COMP_of:N-N---------------------------------+ +------------------------OBJ:V-N-----------------------+ | | +-------------COMP_with:V-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +------------OBJ:V-N------------+-------COMP_with:V-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_of:N-N (performing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_with:V-N (assays,set) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) COMP_by:N-N (hypothesis,performing) SUBJ:V-N (assays,transcription) OBJ:V-N (assays,performing) Parse 818 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------SUBJ:V-N----------------------------------------------+-------------------OBJ:V-N-------------------+ | | +-------------COMP_with:V-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (GENEXXX,SPXXX) OBJ:V-N (containing,promoter) COMP_with:V-N (assays,set) COMP_in:ADJ-N (transcription,vitro) COMP_with:V-N (assays,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 819 +----------------------------------------------SUBJ:V-N----------------------------------------------+ | +----------------------------------COMP_of:N-N---------------------------------+ | | +-----------------------------COMP_with:N-N----------------------------+ | +------------------------OBJ:V-N-----------------------+ | +-----------------------COMP_with:N-N----------------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ | | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (performing,set) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (performing,SPXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) COMP_with:N-N (performing,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) Parse 820 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ +-------------------OBJ:V-N-------------------+ +-------------------OBJ:V-N-------------------+ | +------MOD_POST:N-ADJ-----+ +-------------COMP_with:V-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ +-------COMP_with:V-N------+----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (hypothesis,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,promoter) COMP_with:V-N (assays,GENEXXX) SUBJ:V-N (containing,hypothesis) COMP_of:N-N (GENEXXX,SPXXX) COMP_with:V-N (assays,set) COMP_in:N-N (hypothesis,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 821 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------COMP_with:V-N------------------------------------------+ | +-------------------------------------COMP_with:V-N------------------------------------+----------SUBJ:V-N---------+-------------------OBJ:V-N-------------------+ | | +------------OBJ:V-N------------+ | +----COMP_of:N-N----+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +MOD_POST:N-+ | | | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ | +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_POST:N-ADJ (performing,vitro) SUBJ:V-N (tested,We) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) COMP_with:V-N (tested,set) SUBJ:V-N (containing,GENEXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (with,regions) COMP_in:N-N (performing,vitro) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) Parse 822 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------OBJ:V-N-------------------+-------------COMP_with:V-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +MOD_POST:N-+ +-------COMP_with:V-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) MOD_POST:N-ADJ (performing,vitro) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) COMP_with:V-N (assays,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (hypothesis,SPXXX) Parse 823 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------OBJ:V-N-------------------+ | +-------------------OBJ:V-N-------------------+ | +------MOD_POST:N-ADJ-----+ +-------------COMP_with:V-N------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ +-------COMP_with:V-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) MOD_POST:N-ADJ (hypothesis,vitro) COMP_of:N-N (hypothesis,SPXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) OBJ:V-N (containing,promoter) COMP_with:V-N (assays,set) COMP_in:N-N (hypothesis,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) Parse 824 +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ +----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 825 +---------------------------------------SUBJ:V-N---------------------------------------+ +-----------------------------COMP_with:N-N----------------------------+ +------------------------OBJ:V-N-----------------------+ +-----------------------COMP_with:N-N----------------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +------------OBJ:V-N------------+ +----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (performing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:N-N (performing,GENEXXX) COMP_in:ADJ-N (transcription,vitro) SUBJ:V-N (containing,performing) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 826 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ | +-------------COMP_with:V-N------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+----COMP_of:N-N----+ | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (GENEXXX,SPXXX) COMP_with:V-N (assays,set) COMP_in:ADJ-N (transcription,vitro) COMP_with:V-N (assays,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,hypothesis) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 827 +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ | +------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ | | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) COMP_of:N-N (hypothesis,SPXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 828 +---------------------------------------SUBJ:V-N---------------------------------------+------------------------OBJ:V-N-----------------------+ +-----------------------------COMP_with:N-N----------------------------+ | +---------------MOD_ATT:N-N--------------+ +-----------------------COMP_with:N-N----------------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +------------OBJ:V-N------------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (performing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:N-N (performing,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) COMP_of:N-N (set,SPXXX) Parse 829 +------------------------OBJ:V-N-----------------------+ +---------------------------------------SUBJ:V-N---------------------------------------+-------------------OBJ:V-N-------------------+ | | +-------------COMP_with:V-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +------------OBJ:V-N------------+-------COMP_with:V-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) SUBJ:V-N (assays,transcription) SUBJ:V-N (containing,performing) COMP_with:V-N (assays,set) COMP_in:ADJ-N (transcription,vitro) COMP_with:V-N (assays,GENEXXX) MOD:V-ADV (tested,directly) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 830 +---------------------------------------SUBJ:V-N---------------------------------------+ +-----------------------------COMP_with:N-N----------------------------+ +------------------------OBJ:V-N-----------------------+ +-----------------------COMP_with:N-N----------------------+ | | +---------------MOD_ATT:N-N--------------+ +------------OBJ:V-N------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+--------COMP_by:V-N--------+MOD_POST:N-+ | | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+ +COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (performing,GENEXXX) OBJ:V-N (assays,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_in:N-N (performing,vitro) COMP_with:N-N (performing,set) SUBJ:V-N (containing,performing) COMP_by:V-N (tested,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 831 +----------------------------------------------OBJ:V-N---------------------------------------------+ | +-----------------------COMP_with:N-N----------------------+ | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +MOD_POST:N-+ | | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) MOD_POST:N-ADJ (performing,vitro) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) COMP_in:N-N (performing,vitro) COMP_with:N-N (performing,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 832 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ | +---------------MOD_ATT:N-N--------------+ +------------------------------COMP_with:N-N-----------------------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) COMP_of:N-N (set,SPXXX) Parse 833 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | +------------------------OBJ:V-N-----------------------+ +-------------------OBJ:V-N-------------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +MOD_POST:N-+ | | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_POST:N-ADJ (performing,vitro) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_in:N-N (performing,vitro) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 834 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ | +---------------MOD_ATT:N-N--------------+ | +-----------------------COMP_with:N-N----------------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +------------OBJ:V-N------------+ | +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:N-N (performing,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) COMP_of:N-N (set,SPXXX) Parse 835 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ +-------------------OBJ:V-N-------------------+ +-------------------OBJ:V-N-------------------+ | +------MOD_POST:N-ADJ-----+ +-------------COMP_with:V-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ +-------COMP_with:V-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (hypothesis,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) OBJ:V-N (containing,promoter) COMP_with:V-N (assays,set) COMP_in:N-N (hypothesis,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 836 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (tested,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) COMP_of:N-N (set,SPXXX) Parse 837 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (tested,set) SUBJ:V-N (containing,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) COMP_of:N-N (set,SPXXX) Parse 838 +----------------------------------------------OBJ:V-N---------------------------------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | | +-------------------OBJ:V-N-------------------+ | | +------------------------OBJ:V-N-----------------------+ | +------MOD_POST:N-ADJ-----+ | | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ | | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) MOD_POST:N-ADJ (hypothesis,vitro) OBJ:V-N (tested,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) COMP_in:N-N (hypothesis,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 839 +----------------------------------------------SUBJ:V-N----------------------------------------------+ | +-----------------------------COMP_with:N-N----------------------------+ | | +-----------------------COMP_with:N-N----------------------+ | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +MOD_POST:N-+ | | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (performing,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (assays,performing) COMP_in:N-N (performing,vitro) COMP_with:N-N (performing,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 840 +----------------------------------------------OBJ:V-N---------------------------------------------+ | +-----------------------COMP_with:N-N----------------------+ | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +MOD_POST:N-+ | | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (assays,performing) COMP_in:N-N (performing,vitro) COMP_with:N-N (performing,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 841 +----------------------------------------------OBJ:V-N---------------------------------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | +------------------------OBJ:V-N-----------------------+ | +-------------------OBJ:V-N-------------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +MOD_POST:N-+ | | +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (tested,set) SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_POST:N-ADJ (performing,vitro) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_in:N-N (performing,vitro) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 842 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_by:N-N------------------------------------+ | +---------------MOD_ATT:N-N--------------+ | +-----------------------COMP_with:N-N----------------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:N-N (performing,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (assays,performing) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) COMP_of:N-N (set,SPXXX) Parse 843 +-------------------------------------COMP_by:N-N------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +-----------------------COMP_with:N-N----------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (performing,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) COMP_of:N-N (set,SPXXX) Parse 844 +-------------------------------------COMP_by:N-N------------------------------------+ | +-----------------------COMP_with:N-N----------------------+ | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +MOD_POST:N-+ | | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) COMP_in:N-N (performing,vitro) COMP_with:N-N (performing,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 845 +--------------------------------------------COMP_by:V-N-------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +-----------------------COMP_with:N-N----------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-N--------+------------OBJ:V-N------------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (performing,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_by:V-N (tested,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:V-N (tested,set) COMP_of:N-N (set,SPXXX) Parse 846 +-------------------------------------COMP_by:N-N------------------------------------+ | +-----------------------COMP_with:N-N----------------------+ | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +MOD_POST:N-+ | | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) MOD_POST:N-ADJ (performing,vitro) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) COMP_in:N-N (performing,vitro) COMP_with:N-N (performing,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 847 +--------------------------------------------COMP_by:V-N-------------------------------------------+ | +-----------------------COMP_with:N-N----------------------+ | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-N--------+MOD_POST:N-+ | | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ +COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) COMP_in:N-N (performing,vitro) COMP_with:N-N (performing,GENEXXX) COMP_by:V-N (tested,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (promoter,GENEXXX) COMP_by:V-N (tested,set) COMP_of:N-N (set,SPXXX) Parse 848 +-------------------------------------COMP_by:N-N------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +-----------------------COMP_with:N-N----------------------+ | | +---------------MOD_ATT:N-N--------------+ | +------------OBJ:V-N------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +MOD_POST:N-+ | | +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) OBJ:V-N (assays,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_in:N-N (performing,vitro) COMP_with:N-N (performing,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 849 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-------------------------------------COMP_by:N-N------------------------------------+ | | +-----------------------COMP_with:N-N----------------------+ | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +MOD_POST:N-+ | | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (assays,performing) COMP_in:N-N (performing,vitro) COMP_with:N-N (performing,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 850 +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_by:N-N------------------------------------+ | +---------------MOD_ATT:N-N--------------+ | +----------------------------------COMP_of:N-N---------------------------------+ | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+-------COMP_with:V-N------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_of:N-N (performing,SPXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (assays,performing) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 851 +-------------------------------------COMP_by:N-N------------------------------------+ | +----------------------------------COMP_of:N-N---------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +MOD_POST:N-+ +-------COMP_with:V-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) COMP_of:N-N (performing,SPXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) SUBJ:V-N (containing,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 852 +--------------------------------------------COMP_by:V-N-------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +-----------------------COMP_with:N-N----------------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+--------COMP_by:V-N--------+------------OBJ:V-N------------+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (performing,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_by:V-N (tested,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (assays,performing) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_by:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 853 +-------------------------------------COMP_by:N-N------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +----------------------------------COMP_of:N-N---------------------------------+ +-------------------OBJ:V-N-------------------+ | | +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +MOD_POST:N-+ +-------COMP_with:V-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) COMP_of:N-N (performing,SPXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,promoter) OBJ:V-N (assays,performing) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) SUBJ:V-N (containing,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 854 +--------------------------------------------COMP_by:V-N-------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +-----------------------COMP_with:N-N----------------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+--------COMP_by:V-N--------+------------OBJ:V-N------------+ | +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (performing,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_by:V-N (tested,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (assays,performing) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) MOD_ATT:N-N (regions,GENEXXX) COMP_by:V-N (tested,set) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 855 +---------------------------------------SUBJ:V-N---------------------------------------+------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_by:N-N------------------------------------+ +-------------------OBJ:V-N-------------------+ | | +----------------------------------COMP_of:N-N---------------------------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +------------OBJ:V-N------------+-------COMP_with:V-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_of:N-N (performing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,promoter) COMP_with:V-N (assays,GENEXXX) COMP_in:ADJ-N (transcription,vitro) SUBJ:V-N (containing,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 856 +---------------------------------------SUBJ:V-N---------------------------------------+ +-------------------------------------COMP_by:N-N------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +----------------------------------COMP_of:N-N---------------------------------+ +-------------------OBJ:V-N-------------------+ | | +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +MOD_POST:N-+ +-------COMP_with:V-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) COMP_of:N-N (performing,SPXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,performing) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,set) COMP_by:N-N (hypothesis,set) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 857 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-------------------------------------COMP_by:N-N------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +----------------------------------COMP_of:N-N---------------------------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +------------OBJ:V-N------------+-------COMP_with:V-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_of:N-N (performing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (assays,performing) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 858 +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ +-------------------------------------COMP_by:N-N------------------------------------+ | | +---------------MOD_ATT:N-N--------------+ | +-----------------------COMP_with:N-N----------------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ | | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (performing,GENEXXX) OBJ:V-N (assays,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) COMP_of:N-N (hypothesis,SPXXX) Parse 859 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ | +-------------------------------------COMP_by:N-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ | +-----------------------COMP_with:N-N----------------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ | | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (performing,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) COMP_of:N-N (hypothesis,SPXXX) Parse 860 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ | +-------------------------------------COMP_by:N-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ | +-----------------------COMP_with:N-N----------------------+ | | | +---------------MOD_ATT:N-N--------------+ | +------------OBJ:V-N------------+ | | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +MOD_POST:N-+ | | | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ | | | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_POST:N-ADJ (performing,vitro) SUBJ:V-N (tested,We) OBJ:V-N (assays,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_with:N-N (performing,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_in:N-N (performing,vitro) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (hypothesis,SPXXX) MOD_ATT:N-N (regions,GENEXXX) Parse 861 +-------------------------------------COMP_by:N-N------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +----------------------------------COMP_of:N-N---------------------------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+-------COMP_with:V-N------+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_of:N-N (performing,SPXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (assays,performing) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 862 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-------------------------------------COMP_by:N-N------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +----------------------------------COMP_of:N-N---------------------------------+ | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+-------COMP_with:V-N------+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_of:N-N (performing,SPXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (assays,performing) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 863 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +-----------------------------------------COMP_of:N-N----------------------------------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (tested,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (hypothesis,SPXXX) COMP_of:N-N (set,SPXXX) Parse 864 +----------------------------------------------OBJ:V-N---------------------------------------------+ | +-----------------------------------------COMP_of:N-N----------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +-------------------OBJ:V-N-------------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +MOD_POST:N-+ +-------COMP_with:V-N------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (tested,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_POST:N-ADJ (performing,vitro) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) SUBJ:V-N (containing,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:N-N (performing,vitro) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (hypothesis,SPXXX) COMP_of:N-N (set,SPXXX) Parse 865 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +-----------------------------------------COMP_of:N-N----------------------------------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+-------COMP_with:V-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (tested,set) OBJ:V-N (containing,regions) SUBJ:V-N (containing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (hypothesis,SPXXX) COMP_of:N-N (set,SPXXX) Parse 866 +------------------------------------------------OBJ:V-N------------------------------------------------+ | +-------------------OBJ:V-N-------------------+ | +------------OBJ:V-N------------+-------------COMP_with:V-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +MOD_POST:N-+ +-------COMP_with:V-N------+ +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ | +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) SUBJ:V-N (containing,set) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,promoter) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) COMP_with:V-N (assays,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (with,regions) OBJ:V-N (tested,hypothesis) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,performing) Parse 867 +------------------------------------------------OBJ:V-N------------------------------------------------+ | +-------------------OBJ:V-N-------------------+ | +-------------------OBJ:V-N-------------------+-------------COMP_with:V-N------------+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +MOD_POST:N-+ +-------COMP_with:V-N------+ | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ | +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,promoter) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (performing,vitro) SUBJ:V-N (containing,SPXXX) COMP_with:V-N (assays,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (with,regions) OBJ:V-N (tested,hypothesis) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) OBJ:V-N (assays,hypothesis) Parse 868 +------------------------------------------------OBJ:V-N------------------------------------------------+ +-------------------------------------------COMP_with:V-N------------------------------------------+ +-------------------OBJ:V-N-------------------+ | +-------------------------------------COMP_with:V-N------------------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ | | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ | +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) SUBJ:V-N (containing,set) MOD_ATT:N-N (promoter,GENEXXX) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (tested,set) COMP_in:ADJ-N (transcription,vitro) OBJ:V-N (containing,promoter) MOD:V-ADV (tested,directly) OBJ:V-N (with,regions) COMP_with:V-N (tested,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 869 +----------------------------------------------OBJ:V-N---------------------------------------------+ | +-----------------------------------------COMP_of:N-N----------------------------------------+ | +-------------------OBJ:V-N-------------------+ | | +------------------------OBJ:V-N-----------------------+ | +------MOD_POST:N-ADJ-----+ | | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ +-------COMP_with:V-N------+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) MOD_POST:N-ADJ (hypothesis,vitro) OBJ:V-N (tested,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) SUBJ:V-N (containing,SPXXX) COMP_in:N-N (hypothesis,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_of:N-N (hypothesis,SPXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 870 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ | | +-----------------------------------------COMP_of:N-N----------------------------------------+ | | +-------------------OBJ:V-N-------------------+ | | +------------------------OBJ:V-N-----------------------+ | +------MOD_POST:N-ADJ-----+ | | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ +-------COMP_with:V-N------+ +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) MOD_POST:N-ADJ (hypothesis,vitro) OBJ:V-N (tested,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:V-N (assays,GENEXXX) COMP_in:N-N (hypothesis,vitro) SUBJ:V-N (containing,hypothesis) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,set) COMP_of:N-N (hypothesis,SPXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 871 +-----------------------------COMP_with:N-N----------------------------+ +------------------------OBJ:V-N-----------------------+ +-----------------------COMP_with:N-N----------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +------------OBJ:V-N------------+ | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . COMP_with:N-N (performing,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (performing,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) COMP_of:N-N (set,SPXXX) Parse 872 +------------------------OBJ:V-N-----------------------+ +-----------------------------COMP_with:N-N----------------------------+ | +---------------MOD_ATT:N-N--------------+ +-----------------------COMP_with:N-N----------------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +------------OBJ:V-N------------+ | +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_with:N-N (performing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:N-N (performing,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (assays,performing) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) COMP_of:N-N (set,SPXXX) Parse 873 +-----------------------------COMP_with:N-N----------------------------+ +------------------------OBJ:V-N-----------------------+ +-----------------------COMP_with:N-N----------------------+ | | +---------------MOD_ATT:N-N--------------+ +------------OBJ:V-N------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +MOD_POST:N-+ | | +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (performing,GENEXXX) OBJ:V-N (assays,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_in:N-N (performing,vitro) COMP_with:N-N (performing,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 874 +-----------------------------COMP_with:N-N----------------------------+ +------------------------OBJ:V-N-----------------------+ +-----------------------COMP_with:N-N----------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+--------COMP_by:V-N--------+------------OBJ:V-N------------+ | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+ | +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_with:N-N (performing,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (performing,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_by:V-N (tested,performing) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_of:N-N (set,SPXXX) Parse 875 +------------------------OBJ:V-N-----------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ | +---------------MOD_ATT:N-N--------------+ +------------------------------COMP_with:N-N-----------------------------+ | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) COMP_of:N-N (set,SPXXX) Parse 876 +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------------COMP_with:N-N-----------------------------+ | +-------------------OBJ:V-N-------------------+ | | +------------------------OBJ:V-N-----------------------+ +------MOD_POST:N-ADJ-----+ | | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ | | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) MOD_POST:N-ADJ (hypothesis,vitro) SUBJ:V-N (containing,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,set) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:N-N (hypothesis,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 877 +-----------------------------COMP_with:N-N----------------------------+ +-----------------------COMP_with:N-N----------------------+ | +------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +MOD_POST:N-+ | | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (performing,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (assays,performing) COMP_in:N-N (performing,vitro) COMP_with:N-N (performing,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 878 +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------------COMP_with:N-N-----------------------------+ | +-------------------OBJ:V-N-------------------+ | | +------------------------OBJ:V-N-----------------------+ +------MOD_POST:N-ADJ-----+ | | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ | | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) MOD_POST:N-ADJ (hypothesis,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,set) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:N-N (hypothesis,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 879 +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------------COMP_with:N-N-----------------------------+ | +-------------------OBJ:V-N-------------------+ | | +------------------------OBJ:V-N-----------------------+ +------MOD_POST:N-ADJ-----+ | | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ | | +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) MOD_POST:N-ADJ (hypothesis,vitro) SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,set) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:N-N (hypothesis,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 880 +-----------------------------COMP_with:N-N----------------------------+ +-----------------------COMP_with:N-N----------------------+ | +------------------------OBJ:V-N-----------------------+ +------------OBJ:V-N------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +MOD_POST:N-+ | +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (performing,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) COMP_in:N-N (performing,vitro) SUBJ:V-N (containing,SPXXX) COMP_with:N-N (performing,set) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 881 +-----------------------------COMP_with:N-N----------------------------+ +------------------------OBJ:V-N-----------------------+ | +----------SUBJ:V-N---------+-------------------OBJ:V-N-------------------+ | +-----------------------COMP_with:N-N----------------------+----COMP_of:N-N----+ | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +------------OBJ:V-N------------+ | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) COMP_with:N-N (performing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) SUBJ:V-N (containing,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,promoter) COMP_with:N-N (performing,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 882 +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+ | +-------------------OBJ:V-N-------------------+ | +-------------------OBJ:V-N-------------------+ | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +MOD_POST:N-+ | +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_POST:N-ADJ (performing,vitro) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) OBJ:V-N (containing,promoter) SUBJ:V-N (containing,SPXXX) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:N-N (performing,vitro) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 883 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+ | | +---------------MOD_ATT:N-N--------------+ +-------------------OBJ:V-N-------------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +MOD_POST:N-+ | +----COMP_of:N-N----+ | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_POST:N-ADJ (performing,vitro) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) SUBJ:V-N (containing,hypothesis) COMP_of:N-N (GENEXXX,SPXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_in:N-N (performing,vitro) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 884 +----------------------------------------------SUBJ:V-N----------------------------------------------+ | +----------------------------------COMP_of:N-N---------------------------------+ | | +-----------------------------COMP_with:N-N----------------------------+ | | | +-----------------------COMP_with:N-N----------------------+ | | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +MOD_POST:N-+ | | | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_of:N-N (performing,SPXXX) COMP_with:N-N (performing,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) COMP_in:N-N (performing,vitro) COMP_with:N-N (performing,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) Parse 885 +----------------------------------------------SUBJ:V-N----------------------------------------------+------------------------OBJ:V-N-----------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ +-------------------OBJ:V-N-------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------------------OBJ:V-N-------------------+ +----COMP_of:N-N----+ | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) COMP_in:ADJ-N (transcription,vitro) COMP_of:N-N (GENEXXX,SPXXX) OBJ:V-N (containing,promoter) MOD:V-ADV (tested,directly) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 886 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ | +------------------------------------COMP_with:N-N-----------------------------------+ | | +------------------------------COMP_with:N-N-----------------------------+ | | +------------------------OBJ:V-N-----------------------+ +-------------------OBJ:V-N-------------------+ | | | | +---------------MOD_ATT:N-N--------------+ +------MOD_POST:N-ADJ-----+ | | | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ | | | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ | | | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) MOD_POST:N-ADJ (hypothesis,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,set) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_in:N-N (hypothesis,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (hypothesis,SPXXX) MOD_ATT:N-N (regions,GENEXXX) Parse 887 +----------------------------------------------SUBJ:V-N----------------------------------------------+ | +----------------------------------COMP_of:N-N---------------------------------+ | | +-----------------------------COMP_with:N-N----------------------------+ | | | +-----------------------COMP_with:N-N----------------------+ | | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +MOD_POST:N-+ | | | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_of:N-N (performing,SPXXX) COMP_with:N-N (performing,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (assays,performing) COMP_in:N-N (performing,vitro) COMP_with:N-N (performing,set) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) Parse 888 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ | | +-----------------------------COMP_with:N-N----------------------------+ | | | +-----------------------COMP_with:N-N----------------------+ | | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +MOD_POST:N-+ | | | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . MOD_POST:N-ADJ (performing,vitro) COMP_with:N-N (performing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (assays,performing) COMP_in:N-N (performing,vitro) COMP_with:N-N (performing,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (containing,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) COMP_of:N-N (hypothesis,SPXXX) MOD_ATT:N-N (regions,GENEXXX) Parse 889 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +-----------------------COMP_with:N-N----------------------+ | | +---------------MOD_ATT:N-N--------------+ | +------------OBJ:V-N------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ +MOD_POST:N-+ | | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) OBJ:V-N (assays,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_in:N-N (performing,vitro) COMP_with:N-N (performing,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 890 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +-----------------------COMP_with:N-N----------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +------------OBJ:V-N------------+ | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (performing,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) COMP_of:N-N (set,SPXXX) Parse 891 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+ | | +---------------MOD_ATT:N-N--------------+ +-------------------OBJ:V-N-------------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +MOD_POST:N-+ | | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_POST:N-ADJ (performing,vitro) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_in:N-N (performing,vitro) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 892 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | | +---------------MOD_ATT:N-N--------------+ | +-------------------OBJ:V-N-------------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +MOD_POST:N-+ | | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) OBJ:V-N (tested,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_POST:N-ADJ (performing,vitro) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_in:N-N (performing,vitro) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 893 +------------------------OBJ:V-N-----------------------+ +----------------------------------------------OBJ:V-N---------------------------------------------+ +-------------------OBJ:V-N-------------------+ | | +-----------------------COMP_with:N-N----------------------+ | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +------------OBJ:V-N------------+ | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) SUBJ:V-N (containing,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (performing,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) OBJ:V-N (assays,performing) OBJ:V-N (containing,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 894 +----------------------------------------------OBJ:V-N---------------------------------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | | +-------------------OBJ:V-N-------------------+ | | +------------------------OBJ:V-N-----------------------+ | +------MOD_POST:N-ADJ-----+ | | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ | | +----SUBJ:V-N---+ | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) MOD_POST:N-ADJ (hypothesis,vitro) OBJ:V-N (tested,set) SUBJ:V-N (containing,set) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) COMP_in:N-N (hypothesis,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 895 +----------------------------------------------OBJ:V-N---------------------------------------------+ | +------------------------------COMP_with:N-N-----------------------------+ | +------------------------OBJ:V-N-----------------------+ | +-------------------OBJ:V-N-------------------+ | | +-------------------OBJ:V-N-------------------+ | | +------MOD_POST:N-ADJ-----+ | | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ +-------COMP_in:N-N-------+ | | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ | +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) MOD_POST:N-ADJ (hypothesis,vitro) OBJ:V-N (tested,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) COMP_with:N-N (hypothesis,GENEXXX) COMP_in:N-N (hypothesis,vitro) OBJ:V-N (containing,promoter) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 896 +----------------------------------------------OBJ:V-N---------------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +-----------------------COMP_with:N-N----------------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ +------------OBJ:V-N------------+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (tested,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (performing,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (assays,performing) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 897 +-------------------------------------COMP_by:N-N------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +-----------------------COMP_with:N-N----------------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+SUBJ:V-+ | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (performing,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) OBJ:V-N (assays,performing) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 898 +-------------------------------------COMP_by:N-N------------------------------------+ +------------------------OBJ:V-N-----------------------+ | +-----------------------COMP_with:N-N----------------------+ | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ | +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (performing,GENEXXX) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) OBJ:V-N (assays,performing) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 899 +-------------------------------------COMP_by:N-N------------------------------------+ | +-----------------------COMP_with:N-N----------------------+ | +------------------------OBJ:V-N-----------------------+ | +------------OBJ:V-N------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +MOD_POST:N-+ | | +----SUBJ:V-N---+ | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . SUBJ:V-N (containing,set) MOD_POST:N-ADJ (performing,vitro) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) MOD_ATT:N-N (regions,GENEXXX) OBJ:V-N (assays,performing) COMP_in:N-N (performing,vitro) COMP_with:N-N (performing,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) MOD_ATT:N-N (promoter,GENEXXX) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) Parse 900 +-----------------------------------------COMP_of:N-N----------------------------------------+ +-------------------------------------COMP_by:N-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ | +-----------------------COMP_with:N-N----------------------+ | | | +---------------MOD_ATT:N-N--------------+ | +------------OBJ:V-N------------+ | | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +MOD_POST:N-+ | | | | | | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_POST:N-ADJ (performing,vitro) SUBJ:V-N (tested,We) OBJ:V-N (assays,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_with:N-N (performing,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) SUBJ:V-N (containing,SPXXX) COMP_in:N-N (performing,vitro) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (hypothesis,SPXXX) MOD_ATT:N-N (regions,GENEXXX) Parse 901 +-----------------------------------------COMP_of:N-N----------------------------------------+ +-------------------------------------COMP_by:N-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ | +-----------------------COMP_with:N-N----------------------+ | | +-------------------OBJ:V-N-------------------+ | | +------------OBJ:V-N------------+ | | | | +----------MOD_ATT:N-N----------+ | +---SUBJ:V-N--+ | +MOD_POST:N-+ | | | | | | +-----MOD_ATT:N-N-----+ | | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ | +SUBJ:V-+ | | +MOD_ATT+ | | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_POST:N-ADJ (performing,vitro) SUBJ:V-N (tested,We) MOD_ATT:N-N (promoter,GENEXXX) OBJ:V-N (assays,performing) COMP_with:N-N (performing,GENEXXX) OBJ:V-N (containing,promoter) MOD:V-ADV (tested,directly) SUBJ:V-N (containing,SPXXX) MOD_ATT:N-N (promoter,GENEXXX) COMP_in:N-N (performing,vitro) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (promoter,GENEXXX) COMP_of:N-N (hypothesis,SPXXX) Parse 902 +----------------------------------------------SUBJ:V-N----------------------------------------------+ +-----------------------------------------COMP_of:N-N----------------------------------------+ | +-------------------------------------COMP_by:N-N------------------------------------+ | +------------------------OBJ:V-N-----------------------+ | +-----------------------COMP_with:N-N----------------------+ | | | +---------------MOD_ATT:N-N--------------+ +---SUBJ:V-N--+ | +------------OBJ:V-N------------+ | | | | | +----------MOD_ATT:N-N---------+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+ +COMP_in:A+-SUBJ:V-N+ +MOD_ATT:N-+ | | | | | +MOD_ATT+MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) SUBJ:V-N (tested,We) COMP_with:N-N (performing,GENEXXX) OBJ:V-N (assays,performing) COMP_in:ADJ-N (transcription,vitro) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_by:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (containing,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (hypothesis,SPXXX) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (promoter,GENEXXX) Parse 903 +------------------------------------COMP_with:N-N-----------------------------------+ +------------------------OBJ:V-N-----------------------+ +------------------------------COMP_with:N-N-----------------------------+ | | +---------------MOD_ATT:N-N--------------+ +-------------------OBJ:V-N-------------------+ | | | | +----------MOD_ATT:N-N---------+ +---SUBJ:V-N--+ | +MOD_POST:N-+ | | +----SUBJ:V-N---+ | | +---MOD_ATT:N-N--+ | +MOD:V-A+---OBJ:V-N---+-COMP_by:N-N-+COMP_in:N-N+ +-SUBJ:V-N+ +MOD_ATT:N-+ +COMP_of+ | | | | +MOD_ATT:+ | | | | | | | | | | | | | | | | | | We directly tested this hypothesis by performing in vitro transcription assays with reconstituted GENEXXX and a set of SPXXX containing the GENEXXX , GENEXXX , and GENEXXX promoter regions . OBJ:V-N (assays,hypothesis) SUBJ:V-N (containing,set) OBJ:V-N (containing,regions) MOD_ATT:N-ADJ (GENEXXX,reconstituted) MOD_POST:N-ADJ (performing,vitro) SUBJ:V-N (tested,We) COMP_with:N-N (hypothesis,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) MOD:V-ADV (tested,directly) MOD_ATT:N-N (regions,promoter) COMP_in:N-N (performing,vitro) COMP_with:N-N (hypothesis,set) OBJ:V-N (tested,hypothesis) SUBJ:V-N (assays,transcription) COMP_by:N-N (hypothesis,performing) MOD_ATT:N-N (regions,GENEXXX) MOD_ATT:N-N (regions,GENEXXX) COMP_of:N-N (set,SPXXX) PMID: 1700430-1 Sentence 4 In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . Parse 0 +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +--------COMP_in:ADV-N-------+ | +COMP_in:V+---------OBJ:V-N--------+ +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+------COMP_in:V_PASS-N------+ +-----COMP_of:N-N----+--------APPOS--------+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-ADJ (growth,stationary) SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (transcribed,stability) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) COMP_in:ADV-N (expressed,phase) APPOS (gene,gene) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) COMP_of:N-N (stability,mRNA) OBJ:V-N (compared,concentrations) COMP_of:N-N (those,mRNA) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) APPOS (mRNA,dehydrogenase) COMP_in:V_PASS-N (expressed,phase) COMP_in:V-N (compared,study) APPOS (dehydrogenase,SDH) MOD_ATT:N-ADJ (dehydrogenase,succinate) Parse 1 +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +--------COMP_in:ADV-N-------+ | | +------COMP_in:V_PASS-N------+ | +COMP_in:V+---------OBJ:V-N--------+ +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+--------APPOS--------+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (transcribed,stability) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD_ATT:N-ADJ (phase,stationary) COMP_in:ADV-N (expressed,phase) APPOS (gene,gene) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) COMP_of:N-N (stability,mRNA) OBJ:V-N (compared,concentrations) COMP_of:N-N (those,mRNA) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) APPOS (mRNA,dehydrogenase) COMP_in:V_PASS-N (expressed,phase) COMP_in:V-N (compared,study) APPOS (dehydrogenase,SDH) MOD_ATT:N-ADJ (dehydrogenase,succinate) Parse 2 +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +--------COMP_in:ADV-N-------+ +-------------------APPOS------------------+ +COMP_in:V+---------OBJ:V-N--------+ +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+------COMP_in:V_PASS-N------+ +-----COMP_of:N-N----+ | | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-ADJ (growth,stationary) SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (transcribed,stability) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) COMP_in:ADV-N (expressed,phase) APPOS (gene,gene) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) COMP_of:N-N (stability,mRNA) OBJ:V-N (compared,concentrations) COMP_of:N-N (those,mRNA) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (mRNA,vegetative) APPOS (those,dehydrogenase) MOD_ATT:N-ADJ (concentrations,cellular) COMP_in:V_PASS-N (expressed,phase) COMP_in:V-N (compared,study) APPOS (dehydrogenase,SDH) MOD_ATT:N-ADJ (dehydrogenase,succinate) Parse 3 +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +--------COMP_in:ADV-N-------+ | | +------COMP_in:V_PASS-N------+ +-------------------APPOS------------------+ +COMP_in:V+---------OBJ:V-N--------+ +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+ | | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (transcribed,stability) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD_ATT:N-ADJ (phase,stationary) COMP_in:ADV-N (expressed,phase) APPOS (gene,gene) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) COMP_of:N-N (stability,mRNA) OBJ:V-N (compared,concentrations) COMP_of:N-N (those,mRNA) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (mRNA,vegetative) APPOS (those,dehydrogenase) MOD_ATT:N-ADJ (concentrations,cellular) COMP_in:V_PASS-N (expressed,phase) COMP_in:V-N (compared,study) APPOS (dehydrogenase,SDH) MOD_ATT:N-ADJ (dehydrogenase,succinate) Parse 4 +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +--------COMP_in:ADV-N-------+ | +COMP_in:V+---------OBJ:V-N--------+ +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+------COMP_in:V_PASS-N------+ +-----COMP_of:N-N----+--------APPOS--------+------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) MOD_ATT:N-ADJ (growth,stationary) SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (transcribed,stability) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) COMP_in:ADV-N (expressed,phase) APPOS (gene,gene) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) COMP_of:N-N (stability,mRNA) OBJ:V-N (compared,concentrations) COMP_of:N-N (those,mRNA) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) APPOS (mRNA,dehydrogenase) COMP_in:V_PASS-N (expressed,phase) APPOS (dehydrogenase,mRNA) COMP_in:V-N (compared,study) MOD_ATT:N-ADJ (dehydrogenase,succinate) Parse 5 +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +--------COMP_in:ADV-N-------+ | | +------COMP_in:V_PASS-N------+ | +COMP_in:V+---------OBJ:V-N--------+ +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+--------APPOS--------+------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (transcribed,stability) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD_ATT:N-ADJ (phase,stationary) COMP_in:ADV-N (expressed,phase) APPOS (gene,gene) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) COMP_of:N-N (stability,mRNA) OBJ:V-N (compared,concentrations) COMP_of:N-N (those,mRNA) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) APPOS (mRNA,dehydrogenase) COMP_in:V_PASS-N (expressed,phase) APPOS (dehydrogenase,mRNA) COMP_in:V-N (compared,study) MOD_ATT:N-ADJ (dehydrogenase,succinate) Parse 6 +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +--------COMP_in:ADV-N-------+ +-------------------APPOS------------------+ +COMP_in:V+---------OBJ:V-N--------+ +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+------COMP_in:V_PASS-N------+ +-----COMP_of:N-N----+ +------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) MOD_ATT:N-ADJ (growth,stationary) SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (transcribed,stability) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) COMP_in:ADV-N (expressed,phase) APPOS (gene,gene) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) COMP_of:N-N (stability,mRNA) OBJ:V-N (compared,concentrations) COMP_of:N-N (those,mRNA) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (mRNA,vegetative) APPOS (those,dehydrogenase) MOD_ATT:N-ADJ (concentrations,cellular) COMP_in:V_PASS-N (expressed,phase) APPOS (dehydrogenase,mRNA) COMP_in:V-N (compared,study) MOD_ATT:N-ADJ (dehydrogenase,succinate) Parse 7 +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +--------COMP_in:ADV-N-------+ | | +------COMP_in:V_PASS-N------+ +-------------------APPOS------------------+ +COMP_in:V+---------OBJ:V-N--------+ +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+ +------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (transcribed,stability) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD_ATT:N-ADJ (phase,stationary) COMP_in:ADV-N (expressed,phase) APPOS (gene,gene) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) COMP_of:N-N (stability,mRNA) OBJ:V-N (compared,concentrations) COMP_of:N-N (those,mRNA) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (mRNA,vegetative) APPOS (those,dehydrogenase) MOD_ATT:N-ADJ (concentrations,cellular) COMP_in:V_PASS-N (expressed,phase) APPOS (dehydrogenase,mRNA) COMP_in:V-N (compared,study) MOD_ATT:N-ADJ (dehydrogenase,succinate) Parse 8 +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ +--------------------------------COMP_in:V-N-------------------------------+ +------COMP_in:V_PASS-N------+ | +COMP_in:V+---------OBJ:V-N--------+ +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+--------COMP_in:ADV-N-------+ +-----COMP_of:N-N----+--------APPOS--------+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD:V_PASS-ADV (expressed,preferentially) APPOS (mRNA,dehydrogenase) MOD_ATT:N-ADJ (growth,stationary) SUBJ:V-N (transcribed,stability) SUBJ:V_PASS-N (expressed,gene) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) OBJ:V-N (compared,concentrations) APPOS (dehydrogenase,SDH) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_in:ADV-N (expressed,phase) COMP_from:V-N (transcribed,GENEXXX) MOD_ATT:N-ADJ (dehydrogenase,succinate) COMP_in:V-N (compared,study) Parse 9 +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +------COMP_in:V_PASS-N------+ | +--------------------------------COMP_in:V-N-------------------------------+ +--------COMP_in:ADV-N-------+ | +COMP_in:V+---------OBJ:V-N--------+ +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+--------APPOS--------+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD:V_PASS-ADV (expressed,preferentially) APPOS (mRNA,dehydrogenase) SUBJ:V-N (transcribed,stability) SUBJ:V_PASS-N (expressed,gene) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD_ATT:N-ADJ (phase,stationary) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) OBJ:V-N (compared,concentrations) APPOS (dehydrogenase,SDH) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_in:ADV-N (expressed,phase) COMP_from:V-N (transcribed,GENEXXX) MOD_ATT:N-ADJ (dehydrogenase,succinate) COMP_in:V-N (compared,study) Parse 10 +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ +--------------------------------COMP_in:V-N-------------------------------+ +------COMP_in:V_PASS-N------+ +-------------------APPOS------------------+ +COMP_in:V+---------OBJ:V-N--------+ +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+--------COMP_in:ADV-N-------+ +-----COMP_of:N-N----+ | | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (growth,stationary) SUBJ:V-N (transcribed,stability) SUBJ:V_PASS-N (expressed,gene) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) OBJ:V-N (compared,concentrations) APPOS (dehydrogenase,SDH) MOD_ATT:N-ADJ (mRNA,vegetative) COMP_of:N-N (those,mRNA) APPOS (those,dehydrogenase) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_in:ADV-N (expressed,phase) COMP_from:V-N (transcribed,GENEXXX) MOD_ATT:N-ADJ (dehydrogenase,succinate) COMP_in:V-N (compared,study) Parse 11 +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +------COMP_in:V_PASS-N------+ | +--------------------------------COMP_in:V-N-------------------------------+ +--------COMP_in:ADV-N-------+ +-------------------APPOS------------------+ +COMP_in:V+---------OBJ:V-N--------+ +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+ | | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD:V_PASS-ADV (expressed,preferentially) SUBJ:V-N (transcribed,stability) SUBJ:V_PASS-N (expressed,gene) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD_ATT:N-ADJ (phase,stationary) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) OBJ:V-N (compared,concentrations) APPOS (dehydrogenase,SDH) MOD_ATT:N-ADJ (mRNA,vegetative) COMP_of:N-N (those,mRNA) APPOS (those,dehydrogenase) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_in:ADV-N (expressed,phase) COMP_from:V-N (transcribed,GENEXXX) MOD_ATT:N-ADJ (dehydrogenase,succinate) COMP_in:V-N (compared,study) Parse 12 +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ +--------------------------------COMP_in:V-N-------------------------------+ +------COMP_in:V_PASS-N------+ | +COMP_in:V+---------OBJ:V-N--------+ +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+--------COMP_in:ADV-N-------+ +-----COMP_of:N-N----+--------APPOS--------+------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) MOD:V_PASS-ADV (expressed,preferentially) APPOS (mRNA,dehydrogenase) MOD_ATT:N-ADJ (growth,stationary) SUBJ:V-N (transcribed,stability) SUBJ:V_PASS-N (expressed,gene) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) OBJ:V-N (compared,concentrations) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_in:ADV-N (expressed,phase) APPOS (dehydrogenase,mRNA) COMP_from:V-N (transcribed,GENEXXX) MOD_ATT:N-ADJ (dehydrogenase,succinate) COMP_in:V-N (compared,study) Parse 13 +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +------COMP_in:V_PASS-N------+ | +--------------------------------COMP_in:V-N-------------------------------+ +--------COMP_in:ADV-N-------+ | +COMP_in:V+---------OBJ:V-N--------+ +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+--------APPOS--------+------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) MOD:V_PASS-ADV (expressed,preferentially) APPOS (mRNA,dehydrogenase) SUBJ:V-N (transcribed,stability) SUBJ:V_PASS-N (expressed,gene) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD_ATT:N-ADJ (phase,stationary) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) OBJ:V-N (compared,concentrations) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_in:ADV-N (expressed,phase) APPOS (dehydrogenase,mRNA) COMP_from:V-N (transcribed,GENEXXX) MOD_ATT:N-ADJ (dehydrogenase,succinate) COMP_in:V-N (compared,study) Parse 14 +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ +--------------------------------COMP_in:V-N-------------------------------+ +------COMP_in:V_PASS-N------+ +-------------------APPOS------------------+ +COMP_in:V+---------OBJ:V-N--------+ +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+--------COMP_in:ADV-N-------+ +-----COMP_of:N-N----+ +------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (growth,stationary) SUBJ:V-N (transcribed,stability) SUBJ:V_PASS-N (expressed,gene) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) OBJ:V-N (compared,concentrations) MOD_ATT:N-ADJ (mRNA,vegetative) COMP_of:N-N (those,mRNA) APPOS (those,dehydrogenase) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_in:ADV-N (expressed,phase) APPOS (dehydrogenase,mRNA) COMP_from:V-N (transcribed,GENEXXX) MOD_ATT:N-ADJ (dehydrogenase,succinate) COMP_in:V-N (compared,study) Parse 15 +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +------COMP_in:V_PASS-N------+ | +--------------------------------COMP_in:V-N-------------------------------+ +--------COMP_in:ADV-N-------+ +-------------------APPOS------------------+ +COMP_in:V+---------OBJ:V-N--------+ +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+ +------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) MOD:V_PASS-ADV (expressed,preferentially) SUBJ:V-N (transcribed,stability) SUBJ:V_PASS-N (expressed,gene) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD_ATT:N-ADJ (phase,stationary) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) OBJ:V-N (compared,concentrations) MOD_ATT:N-ADJ (mRNA,vegetative) COMP_of:N-N (those,mRNA) APPOS (those,dehydrogenase) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_in:ADV-N (expressed,phase) APPOS (dehydrogenase,mRNA) COMP_from:V-N (transcribed,GENEXXX) MOD_ATT:N-ADJ (dehydrogenase,succinate) COMP_in:V-N (compared,study) Parse 16 +--------------------------------COMP_in:V-N-------------------------------+ | +----------------SUBJ:V-N---------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------COMP_of:N-N---------+ | +------COMP_in:V_PASS-N------+ | +-OBJ:V-N-+ +--------MOD_ATT:N-ADJ-------+-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+--------COMP_in:ADV-N-------+ +-----COMP_of:N-N----+--------APPOS--------+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . COMP_of:N-N (concentrations,mRNA) MOD_ATT:N-ADJ (growth,stationary) SUBJ:V-N (transcribed,stability) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) SUBJ:V-N (transcribed,concentrations) MOD_ATT:N-N (phase,growth) COMP_of:N-N (those,mRNA) SUBJ:V_PASS-N (expressed,gene) COMP_of:N-N (stability,mRNA) APPOS (dehydrogenase,SDH) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) MOD_ATT:N-ADJ (stability,cellular) COMP_in:V-N (transcribed,study) COMP_from:V-N (transcribed,GENEXXX) APPOS (mRNA,dehydrogenase) MOD_ATT:N-ADJ (dehydrogenase,succinate) COMP_in:ADV-N (expressed,phase) OBJ:V-N (compared,study) MOD_ATT:N-ADJ (mRNA,vegetative) APPOS (gene,gene) Parse 17 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------------SUBJ:V-N---------------+ +------COMP_in:V_PASS-N------+ | | +----------COMP_of:N-N---------+ | +--------COMP_in:ADV-N-------+ | +-OBJ:V-N-+ +--------MOD_ATT:N-ADJ-------+-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+--------APPOS--------+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . COMP_of:N-N (concentrations,mRNA) SUBJ:V-N (transcribed,stability) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) SUBJ:V-N (transcribed,concentrations) MOD_ATT:N-N (phase,growth) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (phase,stationary) SUBJ:V_PASS-N (expressed,gene) COMP_of:N-N (stability,mRNA) APPOS (dehydrogenase,SDH) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) MOD_ATT:N-ADJ (stability,cellular) COMP_in:V-N (transcribed,study) COMP_from:V-N (transcribed,GENEXXX) APPOS (mRNA,dehydrogenase) MOD_ATT:N-ADJ (dehydrogenase,succinate) COMP_in:ADV-N (expressed,phase) OBJ:V-N (compared,study) MOD_ATT:N-ADJ (mRNA,vegetative) APPOS (gene,gene) Parse 18 +--------------------------------COMP_in:V-N-------------------------------+ | +----------------SUBJ:V-N---------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------COMP_of:N-N---------+ | +------COMP_in:V_PASS-N------+ +-------------------APPOS------------------+ +-OBJ:V-N-+ +--------MOD_ATT:N-ADJ-------+-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+--------COMP_in:ADV-N-------+ +-----COMP_of:N-N----+ | | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . COMP_of:N-N (concentrations,mRNA) MOD_ATT:N-ADJ (growth,stationary) APPOS (those,dehydrogenase) SUBJ:V-N (transcribed,stability) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) SUBJ:V-N (transcribed,concentrations) MOD_ATT:N-N (phase,growth) COMP_of:N-N (those,mRNA) SUBJ:V_PASS-N (expressed,gene) COMP_of:N-N (stability,mRNA) APPOS (dehydrogenase,SDH) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) MOD_ATT:N-ADJ (stability,cellular) COMP_in:V-N (transcribed,study) COMP_from:V-N (transcribed,GENEXXX) MOD_ATT:N-ADJ (dehydrogenase,succinate) COMP_in:ADV-N (expressed,phase) OBJ:V-N (compared,study) APPOS (gene,gene) Parse 19 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------------SUBJ:V-N---------------+ +------COMP_in:V_PASS-N------+ | | +----------COMP_of:N-N---------+ | +--------COMP_in:ADV-N-------+ +-------------------APPOS------------------+ +-OBJ:V-N-+ +--------MOD_ATT:N-ADJ-------+-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+ | | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . COMP_of:N-N (concentrations,mRNA) APPOS (those,dehydrogenase) SUBJ:V-N (transcribed,stability) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) SUBJ:V-N (transcribed,concentrations) MOD_ATT:N-N (phase,growth) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (phase,stationary) SUBJ:V_PASS-N (expressed,gene) COMP_of:N-N (stability,mRNA) APPOS (dehydrogenase,SDH) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) MOD_ATT:N-ADJ (stability,cellular) COMP_in:V-N (transcribed,study) COMP_from:V-N (transcribed,GENEXXX) MOD_ATT:N-ADJ (dehydrogenase,succinate) COMP_in:ADV-N (expressed,phase) OBJ:V-N (compared,study) APPOS (gene,gene) Parse 20 +--------------------------------COMP_in:V-N-------------------------------+ | +----------------SUBJ:V-N---------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------COMP_of:N-N---------+ | +------COMP_in:V_PASS-N------+ | +-OBJ:V-N-+ +--------MOD_ATT:N-ADJ-------+-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+--------COMP_in:ADV-N-------+ +-----COMP_of:N-N----+--------APPOS--------+------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) COMP_of:N-N (concentrations,mRNA) MOD_ATT:N-ADJ (growth,stationary) SUBJ:V-N (transcribed,stability) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) SUBJ:V-N (transcribed,concentrations) MOD_ATT:N-N (phase,growth) COMP_of:N-N (those,mRNA) SUBJ:V_PASS-N (expressed,gene) COMP_of:N-N (stability,mRNA) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) MOD_ATT:N-ADJ (stability,cellular) COMP_in:V-N (transcribed,study) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) APPOS (mRNA,dehydrogenase) MOD_ATT:N-ADJ (dehydrogenase,succinate) COMP_in:ADV-N (expressed,phase) OBJ:V-N (compared,study) MOD_ATT:N-ADJ (mRNA,vegetative) APPOS (gene,gene) Parse 21 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------------SUBJ:V-N---------------+ +------COMP_in:V_PASS-N------+ | | +----------COMP_of:N-N---------+ | +--------COMP_in:ADV-N-------+ | +-OBJ:V-N-+ +--------MOD_ATT:N-ADJ-------+-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+--------APPOS--------+------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) COMP_of:N-N (concentrations,mRNA) SUBJ:V-N (transcribed,stability) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) SUBJ:V-N (transcribed,concentrations) MOD_ATT:N-N (phase,growth) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (phase,stationary) SUBJ:V_PASS-N (expressed,gene) COMP_of:N-N (stability,mRNA) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) MOD_ATT:N-ADJ (stability,cellular) COMP_in:V-N (transcribed,study) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) APPOS (mRNA,dehydrogenase) MOD_ATT:N-ADJ (dehydrogenase,succinate) COMP_in:ADV-N (expressed,phase) OBJ:V-N (compared,study) MOD_ATT:N-ADJ (mRNA,vegetative) APPOS (gene,gene) Parse 22 +--------------------------------COMP_in:V-N-------------------------------+ | +----------------SUBJ:V-N---------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------COMP_of:N-N---------+ | +------COMP_in:V_PASS-N------+ +-------------------APPOS------------------+ +-OBJ:V-N-+ +--------MOD_ATT:N-ADJ-------+-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+--------COMP_in:ADV-N-------+ +-----COMP_of:N-N----+ +------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) COMP_of:N-N (concentrations,mRNA) MOD_ATT:N-ADJ (growth,stationary) APPOS (those,dehydrogenase) SUBJ:V-N (transcribed,stability) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) SUBJ:V-N (transcribed,concentrations) MOD_ATT:N-N (phase,growth) COMP_of:N-N (those,mRNA) SUBJ:V_PASS-N (expressed,gene) COMP_of:N-N (stability,mRNA) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) MOD_ATT:N-ADJ (stability,cellular) COMP_in:V-N (transcribed,study) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) MOD_ATT:N-ADJ (dehydrogenase,succinate) COMP_in:ADV-N (expressed,phase) OBJ:V-N (compared,study) APPOS (gene,gene) Parse 23 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------------SUBJ:V-N---------------+ +------COMP_in:V_PASS-N------+ | | +----------COMP_of:N-N---------+ | +--------COMP_in:ADV-N-------+ +-------------------APPOS------------------+ +-OBJ:V-N-+ +--------MOD_ATT:N-ADJ-------+-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+ +------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) COMP_of:N-N (concentrations,mRNA) APPOS (those,dehydrogenase) SUBJ:V-N (transcribed,stability) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) SUBJ:V-N (transcribed,concentrations) MOD_ATT:N-N (phase,growth) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (phase,stationary) SUBJ:V_PASS-N (expressed,gene) COMP_of:N-N (stability,mRNA) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) MOD_ATT:N-ADJ (stability,cellular) COMP_in:V-N (transcribed,study) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) MOD_ATT:N-ADJ (dehydrogenase,succinate) COMP_in:ADV-N (expressed,phase) OBJ:V-N (compared,study) APPOS (gene,gene) Parse 24 +--------------------------------COMP_in:V-N-------------------------------+ | +-----------------OBJ:V-N-----------------+ +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | | +--------MOD_ATT:N-ADJ-------+ | +------COMP_in:V_PASS-N------+ | +-OBJ:V-N-+---------OBJ:V-N--------+----MOD_POST:N-ADJ----+ +----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+--------COMP_in:ADV-N-------+ +-----COMP_of:N-N----+--------APPOS--------+ | +SUBJ:+ +MOD_ATT:N-A+ +MOD_P+ +SUBJ:V-N+---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-ADJ (growth,stationary) MOD_POST:N-ADJ (concentrations,of) SUBJ:V_PASS-N (expressed,gene) COMP_in:V-N (transcribed,study) MOD_POST:N-ADJ (stability,of) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) COMP_of:N-N (those,mRNA) OBJ:V-N (compared,concentrations) APPOS (dehydrogenase,SDH) SUBJ:V-N (transcribed,mRNA) OBJ:V-N (compared,stability) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) APPOS (mRNA,dehydrogenase) APPOS (gene,gene) MOD_ATT:N-ADJ (stability,cellular) MOD_ATT:N-ADJ (dehydrogenase,succinate) MOD_ATT:N-N (phase,growth) COMP_in:ADV-N (expressed,phase) APPOS (GENEXXX,subtilisin) OBJ:V-N (compared,study) Parse 25 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +-----------------OBJ:V-N-----------------+ | +------COMP_in:V_PASS-N------+ | | | +--------MOD_ATT:N-ADJ-------+ | +--------COMP_in:ADV-N-------+ | +-OBJ:V-N-+---------OBJ:V-N--------+----MOD_POST:N-ADJ----+ +----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+--------APPOS--------+ | +SUBJ:+ +MOD_ATT:N-A+ +MOD_P+ +SUBJ:V-N+---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_POST:N-ADJ (concentrations,of) SUBJ:V_PASS-N (expressed,gene) COMP_in:V-N (transcribed,study) MOD_POST:N-ADJ (stability,of) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (phase,stationary) OBJ:V-N (compared,concentrations) APPOS (dehydrogenase,SDH) SUBJ:V-N (transcribed,mRNA) OBJ:V-N (compared,stability) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) APPOS (mRNA,dehydrogenase) APPOS (gene,gene) MOD_ATT:N-ADJ (stability,cellular) MOD_ATT:N-ADJ (dehydrogenase,succinate) MOD_ATT:N-N (phase,growth) COMP_in:ADV-N (expressed,phase) APPOS (GENEXXX,subtilisin) OBJ:V-N (compared,study) Parse 26 +--------------------------------COMP_in:V-N-------------------------------+ | +-----------------OBJ:V-N-----------------+ +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | | +--------MOD_ATT:N-ADJ-------+ | +------COMP_in:V_PASS-N------+ +-------------------APPOS------------------+ +-OBJ:V-N-+---------OBJ:V-N--------+----MOD_POST:N-ADJ----+ +----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+--------COMP_in:ADV-N-------+ +-----COMP_of:N-N----+ | | +SUBJ:+ +MOD_ATT:N-A+ +MOD_P+ +SUBJ:V-N+---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-ADJ (growth,stationary) MOD_POST:N-ADJ (concentrations,of) SUBJ:V_PASS-N (expressed,gene) COMP_in:V-N (transcribed,study) MOD_POST:N-ADJ (stability,of) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) COMP_of:N-N (those,mRNA) OBJ:V-N (compared,concentrations) APPOS (dehydrogenase,SDH) SUBJ:V-N (transcribed,mRNA) OBJ:V-N (compared,stability) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (mRNA,vegetative) APPOS (those,dehydrogenase) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) APPOS (gene,gene) MOD_ATT:N-ADJ (stability,cellular) MOD_ATT:N-ADJ (dehydrogenase,succinate) MOD_ATT:N-N (phase,growth) COMP_in:ADV-N (expressed,phase) APPOS (GENEXXX,subtilisin) OBJ:V-N (compared,study) Parse 27 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +-----------------OBJ:V-N-----------------+ | +------COMP_in:V_PASS-N------+ | | | +--------MOD_ATT:N-ADJ-------+ | +--------COMP_in:ADV-N-------+ +-------------------APPOS------------------+ +-OBJ:V-N-+---------OBJ:V-N--------+----MOD_POST:N-ADJ----+ +----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+ | | +SUBJ:+ +MOD_ATT:N-A+ +MOD_P+ +SUBJ:V-N+---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_POST:N-ADJ (concentrations,of) SUBJ:V_PASS-N (expressed,gene) COMP_in:V-N (transcribed,study) MOD_POST:N-ADJ (stability,of) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (phase,stationary) OBJ:V-N (compared,concentrations) APPOS (dehydrogenase,SDH) SUBJ:V-N (transcribed,mRNA) OBJ:V-N (compared,stability) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (mRNA,vegetative) APPOS (those,dehydrogenase) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) APPOS (gene,gene) MOD_ATT:N-ADJ (stability,cellular) MOD_ATT:N-ADJ (dehydrogenase,succinate) MOD_ATT:N-N (phase,growth) COMP_in:ADV-N (expressed,phase) APPOS (GENEXXX,subtilisin) OBJ:V-N (compared,study) Parse 28 +--------------------------------COMP_in:V-N-------------------------------+ | +-----------------OBJ:V-N-----------------+ +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | | +--------MOD_ATT:N-ADJ-------+ | +------COMP_in:V_PASS-N------+ | +-OBJ:V-N-+---------OBJ:V-N--------+----MOD_POST:N-ADJ----+ +----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+--------COMP_in:ADV-N-------+ +-----COMP_of:N-N----+--------APPOS--------+------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +MOD_P+ +SUBJ:V-N+---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) MOD_ATT:N-ADJ (growth,stationary) MOD_POST:N-ADJ (concentrations,of) SUBJ:V_PASS-N (expressed,gene) COMP_in:V-N (transcribed,study) MOD_POST:N-ADJ (stability,of) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) COMP_of:N-N (those,mRNA) OBJ:V-N (compared,concentrations) SUBJ:V-N (transcribed,mRNA) OBJ:V-N (compared,stability) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) APPOS (mRNA,dehydrogenase) APPOS (gene,gene) MOD_ATT:N-ADJ (stability,cellular) MOD_ATT:N-ADJ (dehydrogenase,succinate) MOD_ATT:N-N (phase,growth) COMP_in:ADV-N (expressed,phase) APPOS (GENEXXX,subtilisin) OBJ:V-N (compared,study) Parse 29 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +-----------------OBJ:V-N-----------------+ | +------COMP_in:V_PASS-N------+ | | | +--------MOD_ATT:N-ADJ-------+ | +--------COMP_in:ADV-N-------+ | +-OBJ:V-N-+---------OBJ:V-N--------+----MOD_POST:N-ADJ----+ +----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+--------APPOS--------+------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +MOD_P+ +SUBJ:V-N+---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) MOD_POST:N-ADJ (concentrations,of) SUBJ:V_PASS-N (expressed,gene) COMP_in:V-N (transcribed,study) MOD_POST:N-ADJ (stability,of) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (phase,stationary) OBJ:V-N (compared,concentrations) SUBJ:V-N (transcribed,mRNA) OBJ:V-N (compared,stability) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) APPOS (mRNA,dehydrogenase) APPOS (gene,gene) MOD_ATT:N-ADJ (stability,cellular) MOD_ATT:N-ADJ (dehydrogenase,succinate) MOD_ATT:N-N (phase,growth) COMP_in:ADV-N (expressed,phase) APPOS (GENEXXX,subtilisin) OBJ:V-N (compared,study) Parse 30 +--------------------------------COMP_in:V-N-------------------------------+ | +-----------------OBJ:V-N-----------------+ +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | | +--------MOD_ATT:N-ADJ-------+ | +------COMP_in:V_PASS-N------+ +-------------------APPOS------------------+ +-OBJ:V-N-+---------OBJ:V-N--------+----MOD_POST:N-ADJ----+ +----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+--------COMP_in:ADV-N-------+ +-----COMP_of:N-N----+ +------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +MOD_P+ +SUBJ:V-N+---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) MOD_ATT:N-ADJ (growth,stationary) MOD_POST:N-ADJ (concentrations,of) SUBJ:V_PASS-N (expressed,gene) COMP_in:V-N (transcribed,study) MOD_POST:N-ADJ (stability,of) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) COMP_of:N-N (those,mRNA) OBJ:V-N (compared,concentrations) SUBJ:V-N (transcribed,mRNA) OBJ:V-N (compared,stability) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (mRNA,vegetative) APPOS (those,dehydrogenase) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) APPOS (gene,gene) MOD_ATT:N-ADJ (stability,cellular) MOD_ATT:N-ADJ (dehydrogenase,succinate) MOD_ATT:N-N (phase,growth) COMP_in:ADV-N (expressed,phase) APPOS (GENEXXX,subtilisin) OBJ:V-N (compared,study) Parse 31 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +-----------------OBJ:V-N-----------------+ | +------COMP_in:V_PASS-N------+ | | | +--------MOD_ATT:N-ADJ-------+ | +--------COMP_in:ADV-N-------+ +-------------------APPOS------------------+ +-OBJ:V-N-+---------OBJ:V-N--------+----MOD_POST:N-ADJ----+ +----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+ +------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +MOD_P+ +SUBJ:V-N+---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) MOD_POST:N-ADJ (concentrations,of) SUBJ:V_PASS-N (expressed,gene) COMP_in:V-N (transcribed,study) MOD_POST:N-ADJ (stability,of) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (phase,stationary) OBJ:V-N (compared,concentrations) SUBJ:V-N (transcribed,mRNA) OBJ:V-N (compared,stability) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (mRNA,vegetative) APPOS (those,dehydrogenase) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) APPOS (gene,gene) MOD_ATT:N-ADJ (stability,cellular) MOD_ATT:N-ADJ (dehydrogenase,succinate) MOD_ATT:N-N (phase,growth) COMP_in:ADV-N (expressed,phase) APPOS (GENEXXX,subtilisin) OBJ:V-N (compared,study) Parse 32 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------------SUBJ:V-N---------------+ +------COMP_in:V_PASS-N------+ | +-OBJ:V-N-+ | +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+--------COMP_in:ADV-N-------+ +-----COMP_of:N-N----+--------APPOS--------+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD:V_PASS-ADV (expressed,preferentially) APPOS (mRNA,dehydrogenase) MOD_ATT:N-ADJ (growth,stationary) SUBJ:V-N (transcribed,stability) SUBJ:V_PASS-N (expressed,gene) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) SUBJ:V-N (transcribed,concentrations) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) APPOS (dehydrogenase,SDH) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_in:ADV-N (expressed,phase) COMP_from:V-N (transcribed,GENEXXX) MOD_ATT:N-ADJ (dehydrogenase,succinate) OBJ:V-N (compared,study) Parse 33 +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ +--------------------------------COMP_in:V-N-------------------------------+ +------COMP_in:V_PASS-N------+ | | +----------------SUBJ:V-N---------------+ +--------COMP_in:ADV-N-------+ | +-OBJ:V-N-+ | +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+--------APPOS--------+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD:V_PASS-ADV (expressed,preferentially) APPOS (mRNA,dehydrogenase) SUBJ:V-N (transcribed,stability) SUBJ:V_PASS-N (expressed,gene) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) SUBJ:V-N (transcribed,concentrations) MOD_ATT:N-ADJ (phase,stationary) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) APPOS (dehydrogenase,SDH) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_in:ADV-N (expressed,phase) COMP_from:V-N (transcribed,GENEXXX) MOD_ATT:N-ADJ (dehydrogenase,succinate) OBJ:V-N (compared,study) Parse 34 +--------------------------------COMP_in:V-N-------------------------------+ | +----------------SUBJ:V-N---------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------COMP_of:N-N---------+ | +------COMP_in:V_PASS-N------+ | +-OBJ:V-N-+ | +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+--------COMP_in:ADV-N-------+ +-----COMP_of:N-N----+--------APPOS--------+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . COMP_of:N-N (concentrations,mRNA) SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (transcribed,stability) MOD_ATT:N-ADJ (growth,stationary) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD:V_PASS-ADV (expressed,preferentially) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) APPOS (dehydrogenase,SDH) MOD_ATT:N-ADJ (mRNA,vegetative) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) SUBJ:V-N (transcribed,concentrations) MOD_ATT:N-ADJ (dehydrogenase,succinate) COMP_in:ADV-N (expressed,phase) OBJ:V-N (compared,study) APPOS (mRNA,dehydrogenase) Parse 35 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------------SUBJ:V-N---------------+ +------COMP_in:V_PASS-N------+ | | +----------COMP_of:N-N---------+ | +--------COMP_in:ADV-N-------+ | +-OBJ:V-N-+ | +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+--------APPOS--------+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . COMP_of:N-N (concentrations,mRNA) SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (transcribed,stability) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (phase,stationary) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) APPOS (dehydrogenase,SDH) MOD_ATT:N-ADJ (mRNA,vegetative) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) SUBJ:V-N (transcribed,concentrations) MOD_ATT:N-ADJ (dehydrogenase,succinate) COMP_in:ADV-N (expressed,phase) OBJ:V-N (compared,study) APPOS (mRNA,dehydrogenase) Parse 36 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------------SUBJ:V-N---------------+ +------COMP_in:V_PASS-N------+ +-------------------APPOS------------------+ +-OBJ:V-N-+ | +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+--------COMP_in:ADV-N-------+ +-----COMP_of:N-N----+ | | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (growth,stationary) SUBJ:V-N (transcribed,stability) SUBJ:V_PASS-N (expressed,gene) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) SUBJ:V-N (transcribed,concentrations) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) APPOS (dehydrogenase,SDH) MOD_ATT:N-ADJ (mRNA,vegetative) COMP_of:N-N (those,mRNA) APPOS (those,dehydrogenase) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_in:ADV-N (expressed,phase) COMP_from:V-N (transcribed,GENEXXX) MOD_ATT:N-ADJ (dehydrogenase,succinate) OBJ:V-N (compared,study) Parse 37 +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ +--------------------------------COMP_in:V-N-------------------------------+ +------COMP_in:V_PASS-N------+ | | +----------------SUBJ:V-N---------------+ +--------COMP_in:ADV-N-------+ +-------------------APPOS------------------+ +-OBJ:V-N-+ | +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+ | | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD:V_PASS-ADV (expressed,preferentially) SUBJ:V-N (transcribed,stability) SUBJ:V_PASS-N (expressed,gene) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) SUBJ:V-N (transcribed,concentrations) MOD_ATT:N-ADJ (phase,stationary) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) APPOS (dehydrogenase,SDH) MOD_ATT:N-ADJ (mRNA,vegetative) COMP_of:N-N (those,mRNA) APPOS (those,dehydrogenase) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_in:ADV-N (expressed,phase) COMP_from:V-N (transcribed,GENEXXX) MOD_ATT:N-ADJ (dehydrogenase,succinate) OBJ:V-N (compared,study) Parse 38 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------------SUBJ:V-N---------------+ +------COMP_in:V_PASS-N------+ | +-OBJ:V-N-+ | +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+--------COMP_in:ADV-N-------+ +-----COMP_of:N-N----+--------APPOS--------+------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) MOD:V_PASS-ADV (expressed,preferentially) APPOS (mRNA,dehydrogenase) MOD_ATT:N-ADJ (growth,stationary) SUBJ:V-N (transcribed,stability) SUBJ:V_PASS-N (expressed,gene) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) SUBJ:V-N (transcribed,concentrations) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_in:ADV-N (expressed,phase) APPOS (dehydrogenase,mRNA) COMP_from:V-N (transcribed,GENEXXX) MOD_ATT:N-ADJ (dehydrogenase,succinate) OBJ:V-N (compared,study) Parse 39 +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ +--------------------------------COMP_in:V-N-------------------------------+ +------COMP_in:V_PASS-N------+ | | +----------------SUBJ:V-N---------------+ +--------COMP_in:ADV-N-------+ | +-OBJ:V-N-+ | +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+--------APPOS--------+------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) MOD:V_PASS-ADV (expressed,preferentially) APPOS (mRNA,dehydrogenase) SUBJ:V-N (transcribed,stability) SUBJ:V_PASS-N (expressed,gene) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) SUBJ:V-N (transcribed,concentrations) MOD_ATT:N-ADJ (phase,stationary) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_in:ADV-N (expressed,phase) APPOS (dehydrogenase,mRNA) COMP_from:V-N (transcribed,GENEXXX) MOD_ATT:N-ADJ (dehydrogenase,succinate) OBJ:V-N (compared,study) Parse 40 +--------------------------------COMP_in:V-N-------------------------------+ | +----------------SUBJ:V-N---------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------COMP_of:N-N---------+ | +------COMP_in:V_PASS-N------+ +-------------------APPOS------------------+ +-OBJ:V-N-+ | +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+--------COMP_in:ADV-N-------+ +-----COMP_of:N-N----+ | | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . COMP_of:N-N (concentrations,mRNA) SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (transcribed,stability) MOD_ATT:N-ADJ (growth,stationary) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD:V_PASS-ADV (expressed,preferentially) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) APPOS (dehydrogenase,SDH) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) SUBJ:V-N (transcribed,concentrations) MOD_ATT:N-ADJ (dehydrogenase,succinate) APPOS (those,dehydrogenase) COMP_in:ADV-N (expressed,phase) OBJ:V-N (compared,study) MOD_ATT:N-ADJ (mRNA,vegetative) Parse 41 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------------SUBJ:V-N---------------+ +------COMP_in:V_PASS-N------+ | | +----------COMP_of:N-N---------+ | +--------COMP_in:ADV-N-------+ +-------------------APPOS------------------+ +-OBJ:V-N-+ | +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+ | | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . COMP_of:N-N (concentrations,mRNA) SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (transcribed,stability) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (phase,stationary) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) APPOS (dehydrogenase,SDH) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) SUBJ:V-N (transcribed,concentrations) MOD_ATT:N-ADJ (dehydrogenase,succinate) APPOS (those,dehydrogenase) COMP_in:ADV-N (expressed,phase) OBJ:V-N (compared,study) MOD_ATT:N-ADJ (mRNA,vegetative) Parse 42 +--------------------------------COMP_in:V-N-------------------------------+ | +----------------SUBJ:V-N---------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------COMP_of:N-N---------+ | +------COMP_in:V_PASS-N------+ | +-OBJ:V-N-+ | +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+--------COMP_in:ADV-N-------+ +-----COMP_of:N-N----+--------APPOS--------+------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) COMP_of:N-N (concentrations,mRNA) SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (transcribed,stability) MOD_ATT:N-ADJ (growth,stationary) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD:V_PASS-ADV (expressed,preferentially) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) MOD_ATT:N-ADJ (mRNA,vegetative) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) SUBJ:V-N (transcribed,concentrations) MOD_ATT:N-ADJ (dehydrogenase,succinate) COMP_in:ADV-N (expressed,phase) OBJ:V-N (compared,study) APPOS (mRNA,dehydrogenase) Parse 43 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------------SUBJ:V-N---------------+ +------COMP_in:V_PASS-N------+ | | +----------COMP_of:N-N---------+ | +--------COMP_in:ADV-N-------+ | +-OBJ:V-N-+ | +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+--------APPOS--------+------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) COMP_of:N-N (concentrations,mRNA) SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (transcribed,stability) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (phase,stationary) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) MOD_ATT:N-ADJ (mRNA,vegetative) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) SUBJ:V-N (transcribed,concentrations) MOD_ATT:N-ADJ (dehydrogenase,succinate) COMP_in:ADV-N (expressed,phase) OBJ:V-N (compared,study) APPOS (mRNA,dehydrogenase) Parse 44 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------------SUBJ:V-N---------------+ +------COMP_in:V_PASS-N------+ +-------------------APPOS------------------+ +-OBJ:V-N-+ | +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+--------COMP_in:ADV-N-------+ +-----COMP_of:N-N----+ +------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (growth,stationary) SUBJ:V-N (transcribed,stability) SUBJ:V_PASS-N (expressed,gene) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) SUBJ:V-N (transcribed,concentrations) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) MOD_ATT:N-ADJ (mRNA,vegetative) COMP_of:N-N (those,mRNA) APPOS (those,dehydrogenase) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_in:ADV-N (expressed,phase) APPOS (dehydrogenase,mRNA) COMP_from:V-N (transcribed,GENEXXX) MOD_ATT:N-ADJ (dehydrogenase,succinate) OBJ:V-N (compared,study) Parse 45 +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ +--------------------------------COMP_in:V-N-------------------------------+ +------COMP_in:V_PASS-N------+ | | +----------------SUBJ:V-N---------------+ +--------COMP_in:ADV-N-------+ +-------------------APPOS------------------+ +-OBJ:V-N-+ | +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+ +------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) MOD:V_PASS-ADV (expressed,preferentially) SUBJ:V-N (transcribed,stability) SUBJ:V_PASS-N (expressed,gene) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) SUBJ:V-N (transcribed,concentrations) MOD_ATT:N-ADJ (phase,stationary) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) MOD_ATT:N-ADJ (mRNA,vegetative) COMP_of:N-N (those,mRNA) APPOS (those,dehydrogenase) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_in:ADV-N (expressed,phase) APPOS (dehydrogenase,mRNA) COMP_from:V-N (transcribed,GENEXXX) MOD_ATT:N-ADJ (dehydrogenase,succinate) OBJ:V-N (compared,study) Parse 46 +--------------------------------COMP_in:V-N-------------------------------+ | +----------------SUBJ:V-N---------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------COMP_of:N-N---------+ | +------COMP_in:V_PASS-N------+ +-------------------APPOS------------------+ +-OBJ:V-N-+ | +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+--------COMP_in:ADV-N-------+ +-----COMP_of:N-N----+ +------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) COMP_of:N-N (concentrations,mRNA) SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (transcribed,stability) MOD_ATT:N-ADJ (growth,stationary) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD:V_PASS-ADV (expressed,preferentially) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) SUBJ:V-N (transcribed,concentrations) MOD_ATT:N-ADJ (dehydrogenase,succinate) APPOS (those,dehydrogenase) COMP_in:ADV-N (expressed,phase) OBJ:V-N (compared,study) MOD_ATT:N-ADJ (mRNA,vegetative) Parse 47 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------------SUBJ:V-N---------------+ +------COMP_in:V_PASS-N------+ | | +----------COMP_of:N-N---------+ | +--------COMP_in:ADV-N-------+ +-------------------APPOS------------------+ +-OBJ:V-N-+ | +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+ +------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) COMP_of:N-N (concentrations,mRNA) SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (transcribed,stability) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (phase,stationary) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) SUBJ:V-N (transcribed,concentrations) MOD_ATT:N-ADJ (dehydrogenase,succinate) APPOS (those,dehydrogenase) COMP_in:ADV-N (expressed,phase) OBJ:V-N (compared,study) MOD_ATT:N-ADJ (mRNA,vegetative) Parse 48 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +-----------------OBJ:V-N-----------------+ | +------COMP_in:V_PASS-N------+ | +-OBJ:V-N-+---------OBJ:V-N--------+----MOD_POST:N-ADJ----+ +----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+--------COMP_in:ADV-N-------+ +-----COMP_of:N-N----+--------APPOS--------+ | +SUBJ:+ +MOD_ATT:N-A+ +MOD_P+ +SUBJ:V-N+---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-ADJ (growth,stationary) MOD_POST:N-ADJ (concentrations,of) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) MOD_POST:N-ADJ (stability,of) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) COMP_of:N-N (those,mRNA) SUBJ:V_PASS-N (expressed,gene) OBJ:V-N (compared,concentrations) APPOS (dehydrogenase,SDH) SUBJ:V-N (transcribed,mRNA) OBJ:V-N (compared,stability) MOD:V_PASS-ADV (expressed,preferentially) COMP_in:V-N (transcribed,study) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) APPOS (mRNA,dehydrogenase) MOD_ATT:N-ADJ (dehydrogenase,succinate) COMP_in:ADV-N (expressed,phase) OBJ:V-N (compared,study) MOD_ATT:N-ADJ (mRNA,vegetative) APPOS (gene,gene) Parse 49 +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ +--------------------------------COMP_in:V-N-------------------------------+ +------COMP_in:V_PASS-N------+ | | +-----------------OBJ:V-N-----------------+ | +--------COMP_in:ADV-N-------+ | +-OBJ:V-N-+---------OBJ:V-N--------+----MOD_POST:N-ADJ----+ +----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+--------APPOS--------+ | +SUBJ:+ +MOD_ATT:N-A+ +MOD_P+ +SUBJ:V-N+---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_POST:N-ADJ (concentrations,of) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) MOD_POST:N-ADJ (stability,of) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (phase,stationary) SUBJ:V_PASS-N (expressed,gene) OBJ:V-N (compared,concentrations) APPOS (dehydrogenase,SDH) SUBJ:V-N (transcribed,mRNA) OBJ:V-N (compared,stability) MOD:V_PASS-ADV (expressed,preferentially) COMP_in:V-N (transcribed,study) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) APPOS (mRNA,dehydrogenase) MOD_ATT:N-ADJ (dehydrogenase,succinate) COMP_in:ADV-N (expressed,phase) OBJ:V-N (compared,study) MOD_ATT:N-ADJ (mRNA,vegetative) APPOS (gene,gene) Parse 50 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +-----------------OBJ:V-N-----------------+ | +------COMP_in:V_PASS-N------+ +-------------------APPOS------------------+ +-OBJ:V-N-+---------OBJ:V-N--------+----MOD_POST:N-ADJ----+ +----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+--------COMP_in:ADV-N-------+ +-----COMP_of:N-N----+ | | +SUBJ:+ +MOD_ATT:N-A+ +MOD_P+ +SUBJ:V-N+---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-ADJ (growth,stationary) MOD_POST:N-ADJ (concentrations,of) APPOS (those,dehydrogenase) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) MOD_POST:N-ADJ (stability,of) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) COMP_of:N-N (those,mRNA) SUBJ:V_PASS-N (expressed,gene) OBJ:V-N (compared,concentrations) APPOS (dehydrogenase,SDH) SUBJ:V-N (transcribed,mRNA) OBJ:V-N (compared,stability) MOD:V_PASS-ADV (expressed,preferentially) COMP_in:V-N (transcribed,study) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) MOD_ATT:N-ADJ (dehydrogenase,succinate) COMP_in:ADV-N (expressed,phase) OBJ:V-N (compared,study) APPOS (gene,gene) Parse 51 +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ +--------------------------------COMP_in:V-N-------------------------------+ +------COMP_in:V_PASS-N------+ | | +-----------------OBJ:V-N-----------------+ | +--------COMP_in:ADV-N-------+ +-------------------APPOS------------------+ +-OBJ:V-N-+---------OBJ:V-N--------+----MOD_POST:N-ADJ----+ +----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+ | | +SUBJ:+ +MOD_ATT:N-A+ +MOD_P+ +SUBJ:V-N+---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_POST:N-ADJ (concentrations,of) APPOS (those,dehydrogenase) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) MOD_POST:N-ADJ (stability,of) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (phase,stationary) SUBJ:V_PASS-N (expressed,gene) OBJ:V-N (compared,concentrations) APPOS (dehydrogenase,SDH) SUBJ:V-N (transcribed,mRNA) OBJ:V-N (compared,stability) MOD:V_PASS-ADV (expressed,preferentially) COMP_in:V-N (transcribed,study) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) MOD_ATT:N-ADJ (dehydrogenase,succinate) COMP_in:ADV-N (expressed,phase) OBJ:V-N (compared,study) APPOS (gene,gene) Parse 52 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +-----------------OBJ:V-N-----------------+ | +------COMP_in:V_PASS-N------+ | +-OBJ:V-N-+---------OBJ:V-N--------+----MOD_POST:N-ADJ----+ +----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+--------COMP_in:ADV-N-------+ +-----COMP_of:N-N----+--------APPOS--------+------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +MOD_P+ +SUBJ:V-N+---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) MOD_ATT:N-ADJ (growth,stationary) MOD_POST:N-ADJ (concentrations,of) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) MOD_POST:N-ADJ (stability,of) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) COMP_of:N-N (those,mRNA) SUBJ:V_PASS-N (expressed,gene) OBJ:V-N (compared,concentrations) SUBJ:V-N (transcribed,mRNA) OBJ:V-N (compared,stability) MOD:V_PASS-ADV (expressed,preferentially) COMP_in:V-N (transcribed,study) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) APPOS (mRNA,dehydrogenase) MOD_ATT:N-ADJ (dehydrogenase,succinate) COMP_in:ADV-N (expressed,phase) OBJ:V-N (compared,study) MOD_ATT:N-ADJ (mRNA,vegetative) APPOS (gene,gene) Parse 53 +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ +--------------------------------COMP_in:V-N-------------------------------+ +------COMP_in:V_PASS-N------+ | | +-----------------OBJ:V-N-----------------+ | +--------COMP_in:ADV-N-------+ | +-OBJ:V-N-+---------OBJ:V-N--------+----MOD_POST:N-ADJ----+ +----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+--------APPOS--------+------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +MOD_P+ +SUBJ:V-N+---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) MOD_POST:N-ADJ (concentrations,of) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) MOD_POST:N-ADJ (stability,of) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (phase,stationary) SUBJ:V_PASS-N (expressed,gene) OBJ:V-N (compared,concentrations) SUBJ:V-N (transcribed,mRNA) OBJ:V-N (compared,stability) MOD:V_PASS-ADV (expressed,preferentially) COMP_in:V-N (transcribed,study) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) APPOS (mRNA,dehydrogenase) MOD_ATT:N-ADJ (dehydrogenase,succinate) COMP_in:ADV-N (expressed,phase) OBJ:V-N (compared,study) MOD_ATT:N-ADJ (mRNA,vegetative) APPOS (gene,gene) Parse 54 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +-----------------OBJ:V-N-----------------+ | +------COMP_in:V_PASS-N------+ +-------------------APPOS------------------+ +-OBJ:V-N-+---------OBJ:V-N--------+----MOD_POST:N-ADJ----+ +----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+--------COMP_in:ADV-N-------+ +-----COMP_of:N-N----+ +------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +MOD_P+ +SUBJ:V-N+---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) MOD_ATT:N-ADJ (growth,stationary) MOD_POST:N-ADJ (concentrations,of) APPOS (those,dehydrogenase) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) MOD_POST:N-ADJ (stability,of) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) COMP_of:N-N (those,mRNA) SUBJ:V_PASS-N (expressed,gene) OBJ:V-N (compared,concentrations) SUBJ:V-N (transcribed,mRNA) OBJ:V-N (compared,stability) MOD:V_PASS-ADV (expressed,preferentially) COMP_in:V-N (transcribed,study) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) MOD_ATT:N-ADJ (dehydrogenase,succinate) COMP_in:ADV-N (expressed,phase) OBJ:V-N (compared,study) APPOS (gene,gene) Parse 55 +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ +--------------------------------COMP_in:V-N-------------------------------+ +------COMP_in:V_PASS-N------+ | | +-----------------OBJ:V-N-----------------+ | +--------COMP_in:ADV-N-------+ +-------------------APPOS------------------+ +-OBJ:V-N-+---------OBJ:V-N--------+----MOD_POST:N-ADJ----+ +----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+ +------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +MOD_P+ +SUBJ:V-N+---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) MOD_POST:N-ADJ (concentrations,of) APPOS (those,dehydrogenase) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) MOD_POST:N-ADJ (stability,of) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (phase,stationary) SUBJ:V_PASS-N (expressed,gene) OBJ:V-N (compared,concentrations) SUBJ:V-N (transcribed,mRNA) OBJ:V-N (compared,stability) MOD:V_PASS-ADV (expressed,preferentially) COMP_in:V-N (transcribed,study) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) MOD_ATT:N-ADJ (dehydrogenase,succinate) COMP_in:ADV-N (expressed,phase) OBJ:V-N (compared,study) APPOS (gene,gene) Parse 56 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------------SUBJ:V-N---------------+ +------COMP_in:V_PASS-N------+ | +-OBJ:V-N-+ +--------MOD_ATT:N-ADJ-------+-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+--------COMP_in:ADV-N-------+ +-----COMP_of:N-N----+--------APPOS--------+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (transcribed,stability) MOD_ATT:N-ADJ (growth,stationary) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD:V_PASS-ADV (expressed,preferentially) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) APPOS (dehydrogenase,SDH) MOD_ATT:N-ADJ (mRNA,vegetative) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) MOD_ATT:N-ADJ (stability,cellular) COMP_from:V-N (transcribed,GENEXXX) SUBJ:V-N (transcribed,concentrations) MOD_ATT:N-ADJ (dehydrogenase,succinate) COMP_in:ADV-N (expressed,phase) OBJ:V-N (compared,study) APPOS (mRNA,dehydrogenase) Parse 57 +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ +--------------------------------COMP_in:V-N-------------------------------+ +------COMP_in:V_PASS-N------+ | | +----------------SUBJ:V-N---------------+ +--------COMP_in:ADV-N-------+ | +-OBJ:V-N-+ +--------MOD_ATT:N-ADJ-------+-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+--------APPOS--------+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (transcribed,stability) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (phase,stationary) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) APPOS (dehydrogenase,SDH) MOD_ATT:N-ADJ (mRNA,vegetative) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) MOD_ATT:N-ADJ (stability,cellular) COMP_from:V-N (transcribed,GENEXXX) SUBJ:V-N (transcribed,concentrations) MOD_ATT:N-ADJ (dehydrogenase,succinate) COMP_in:ADV-N (expressed,phase) OBJ:V-N (compared,study) APPOS (mRNA,dehydrogenase) Parse 58 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------------SUBJ:V-N---------------+ +------COMP_in:V_PASS-N------+ +-------------------APPOS------------------+ +-OBJ:V-N-+ +--------MOD_ATT:N-ADJ-------+-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+--------COMP_in:ADV-N-------+ +-----COMP_of:N-N----+ | | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (transcribed,stability) MOD_ATT:N-ADJ (growth,stationary) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD:V_PASS-ADV (expressed,preferentially) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) APPOS (dehydrogenase,SDH) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) MOD_ATT:N-ADJ (stability,cellular) COMP_from:V-N (transcribed,GENEXXX) SUBJ:V-N (transcribed,concentrations) MOD_ATT:N-ADJ (dehydrogenase,succinate) APPOS (those,dehydrogenase) COMP_in:ADV-N (expressed,phase) OBJ:V-N (compared,study) MOD_ATT:N-ADJ (mRNA,vegetative) Parse 59 +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ +--------------------------------COMP_in:V-N-------------------------------+ +------COMP_in:V_PASS-N------+ | | +----------------SUBJ:V-N---------------+ +--------COMP_in:ADV-N-------+ +-------------------APPOS------------------+ +-OBJ:V-N-+ +--------MOD_ATT:N-ADJ-------+-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+ | | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (transcribed,stability) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (phase,stationary) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) APPOS (dehydrogenase,SDH) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) MOD_ATT:N-ADJ (stability,cellular) COMP_from:V-N (transcribed,GENEXXX) SUBJ:V-N (transcribed,concentrations) MOD_ATT:N-ADJ (dehydrogenase,succinate) APPOS (those,dehydrogenase) COMP_in:ADV-N (expressed,phase) OBJ:V-N (compared,study) MOD_ATT:N-ADJ (mRNA,vegetative) Parse 60 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------------SUBJ:V-N---------------+ +------COMP_in:V_PASS-N------+ | +-OBJ:V-N-+ +--------MOD_ATT:N-ADJ-------+-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+--------COMP_in:ADV-N-------+ +-----COMP_of:N-N----+--------APPOS--------+------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (transcribed,stability) MOD_ATT:N-ADJ (growth,stationary) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD:V_PASS-ADV (expressed,preferentially) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) MOD_ATT:N-ADJ (mRNA,vegetative) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) MOD_ATT:N-ADJ (stability,cellular) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) SUBJ:V-N (transcribed,concentrations) MOD_ATT:N-ADJ (dehydrogenase,succinate) COMP_in:ADV-N (expressed,phase) OBJ:V-N (compared,study) APPOS (mRNA,dehydrogenase) Parse 61 +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ +--------------------------------COMP_in:V-N-------------------------------+ +------COMP_in:V_PASS-N------+ | | +----------------SUBJ:V-N---------------+ +--------COMP_in:ADV-N-------+ | +-OBJ:V-N-+ +--------MOD_ATT:N-ADJ-------+-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+--------APPOS--------+------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (transcribed,stability) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (phase,stationary) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) MOD_ATT:N-ADJ (mRNA,vegetative) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) MOD_ATT:N-ADJ (stability,cellular) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) SUBJ:V-N (transcribed,concentrations) MOD_ATT:N-ADJ (dehydrogenase,succinate) COMP_in:ADV-N (expressed,phase) OBJ:V-N (compared,study) APPOS (mRNA,dehydrogenase) Parse 62 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------------SUBJ:V-N---------------+ +------COMP_in:V_PASS-N------+ +-------------------APPOS------------------+ +-OBJ:V-N-+ +--------MOD_ATT:N-ADJ-------+-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+--------COMP_in:ADV-N-------+ +-----COMP_of:N-N----+ +------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (transcribed,stability) MOD_ATT:N-ADJ (growth,stationary) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD:V_PASS-ADV (expressed,preferentially) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) MOD_ATT:N-ADJ (stability,cellular) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) SUBJ:V-N (transcribed,concentrations) MOD_ATT:N-ADJ (dehydrogenase,succinate) APPOS (those,dehydrogenase) COMP_in:ADV-N (expressed,phase) OBJ:V-N (compared,study) MOD_ATT:N-ADJ (mRNA,vegetative) Parse 63 +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ +--------------------------------COMP_in:V-N-------------------------------+ +------COMP_in:V_PASS-N------+ | | +----------------SUBJ:V-N---------------+ +--------COMP_in:ADV-N-------+ +-------------------APPOS------------------+ +-OBJ:V-N-+ +--------MOD_ATT:N-ADJ-------+-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+ +------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (transcribed,stability) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_in:V_PASS-N (expressed,phase) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (phase,stationary) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) MOD_ATT:N-ADJ (stability,cellular) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) SUBJ:V-N (transcribed,concentrations) MOD_ATT:N-ADJ (dehydrogenase,succinate) APPOS (those,dehydrogenase) COMP_in:ADV-N (expressed,phase) OBJ:V-N (compared,study) MOD_ATT:N-ADJ (mRNA,vegetative) Parse 64 +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +--------------------COMP_in:N-N--------------------+ | +COMP_in:V+---------OBJ:V-N--------+ +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ | +-----COMP_of:N-N----+--------APPOS--------+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-ADJ (growth,stationary) MOD:V_PASS-ADV (expressed,preferentially) SUBJ:V_PASS-N (expressed,gene) APPOS (dehydrogenase,SDH) SUBJ:V-N (transcribed,stability) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) COMP_in:N-N (gene,phase) APPOS (gene,gene) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) COMP_of:N-N (stability,mRNA) OBJ:V-N (compared,concentrations) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) APPOS (mRNA,dehydrogenase) COMP_in:V-N (compared,study) MOD_ATT:N-ADJ (dehydrogenase,succinate) Parse 65 +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +--------------------COMP_in:N-N--------------------+ | +COMP_in:V+---------OBJ:V-N--------+ +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+--------APPOS--------+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (phase,stationary) SUBJ:V_PASS-N (expressed,gene) APPOS (dehydrogenase,SDH) SUBJ:V-N (transcribed,stability) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) COMP_in:N-N (gene,phase) APPOS (gene,gene) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) COMP_of:N-N (stability,mRNA) OBJ:V-N (compared,concentrations) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) APPOS (mRNA,dehydrogenase) COMP_in:V-N (compared,study) MOD_ATT:N-ADJ (dehydrogenase,succinate) Parse 66 +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +--------------------COMP_in:N-N--------------------+ +-------------------APPOS------------------+ +COMP_in:V+---------OBJ:V-N--------+ +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ | +-----COMP_of:N-N----+ | | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-ADJ (growth,stationary) MOD:V_PASS-ADV (expressed,preferentially) SUBJ:V_PASS-N (expressed,gene) APPOS (dehydrogenase,SDH) SUBJ:V-N (transcribed,stability) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) COMP_in:N-N (gene,phase) APPOS (gene,gene) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) COMP_of:N-N (stability,mRNA) OBJ:V-N (compared,concentrations) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (mRNA,vegetative) APPOS (those,dehydrogenase) MOD_ATT:N-ADJ (concentrations,cellular) COMP_in:V-N (compared,study) MOD_ATT:N-ADJ (dehydrogenase,succinate) Parse 67 +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +--------------------COMP_in:N-N--------------------+ +-------------------APPOS------------------+ +COMP_in:V+---------OBJ:V-N--------+ +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+ | | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (phase,stationary) SUBJ:V_PASS-N (expressed,gene) APPOS (dehydrogenase,SDH) SUBJ:V-N (transcribed,stability) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) COMP_in:N-N (gene,phase) APPOS (gene,gene) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) COMP_of:N-N (stability,mRNA) OBJ:V-N (compared,concentrations) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (mRNA,vegetative) APPOS (those,dehydrogenase) MOD_ATT:N-ADJ (concentrations,cellular) COMP_in:V-N (compared,study) MOD_ATT:N-ADJ (dehydrogenase,succinate) Parse 68 +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +--------------------COMP_in:N-N--------------------+ | +COMP_in:V+---------OBJ:V-N--------+ +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ | +-----COMP_of:N-N----+--------APPOS--------+------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-ADJ (growth,stationary) MOD:V_PASS-ADV (expressed,preferentially) SUBJ:V_PASS-N (expressed,gene) MOD_ATT:N-N (mRNA,SDH) SUBJ:V-N (transcribed,stability) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) COMP_in:N-N (gene,phase) APPOS (gene,gene) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) COMP_of:N-N (stability,mRNA) OBJ:V-N (compared,concentrations) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) APPOS (dehydrogenase,mRNA) APPOS (mRNA,dehydrogenase) COMP_in:V-N (compared,study) MOD_ATT:N-ADJ (dehydrogenase,succinate) Parse 69 +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +--------------------COMP_in:N-N--------------------+ | +COMP_in:V+---------OBJ:V-N--------+ +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+--------APPOS--------+------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (phase,stationary) SUBJ:V_PASS-N (expressed,gene) MOD_ATT:N-N (mRNA,SDH) SUBJ:V-N (transcribed,stability) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) COMP_in:N-N (gene,phase) APPOS (gene,gene) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) COMP_of:N-N (stability,mRNA) OBJ:V-N (compared,concentrations) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) APPOS (dehydrogenase,mRNA) APPOS (mRNA,dehydrogenase) COMP_in:V-N (compared,study) MOD_ATT:N-ADJ (dehydrogenase,succinate) Parse 70 +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +--------------------COMP_in:N-N--------------------+ +-------------------APPOS------------------+ +COMP_in:V+---------OBJ:V-N--------+ +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ | +-----COMP_of:N-N----+ +------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-ADJ (growth,stationary) MOD:V_PASS-ADV (expressed,preferentially) SUBJ:V_PASS-N (expressed,gene) MOD_ATT:N-N (mRNA,SDH) SUBJ:V-N (transcribed,stability) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) COMP_in:N-N (gene,phase) APPOS (gene,gene) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) COMP_of:N-N (stability,mRNA) OBJ:V-N (compared,concentrations) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (mRNA,vegetative) APPOS (those,dehydrogenase) MOD_ATT:N-ADJ (concentrations,cellular) APPOS (dehydrogenase,mRNA) COMP_in:V-N (compared,study) MOD_ATT:N-ADJ (dehydrogenase,succinate) Parse 71 +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +--------------------COMP_in:N-N--------------------+ +-------------------APPOS------------------+ +COMP_in:V+---------OBJ:V-N--------+ +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+ +------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (phase,stationary) SUBJ:V_PASS-N (expressed,gene) MOD_ATT:N-N (mRNA,SDH) SUBJ:V-N (transcribed,stability) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) COMP_in:N-N (gene,phase) APPOS (gene,gene) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) COMP_of:N-N (stability,mRNA) OBJ:V-N (compared,concentrations) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (mRNA,vegetative) APPOS (those,dehydrogenase) MOD_ATT:N-ADJ (concentrations,cellular) APPOS (dehydrogenase,mRNA) COMP_in:V-N (compared,study) MOD_ATT:N-ADJ (dehydrogenase,succinate) Parse 72 +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ +--------------------------------COMP_in:V-N-------------------------------+ +--------------------COMP_in:N-N--------------------+ | +COMP_in:V+---------OBJ:V-N--------+ +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ | +-----COMP_of:N-N----+--------APPOS--------+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . SUBJ:V_PASS-N (expressed,gene) MOD_ATT:N-ADJ (growth,stationary) SUBJ:V-N (transcribed,stability) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD:V_PASS-ADV (expressed,preferentially) COMP_in:N-N (gene,phase) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) OBJ:V-N (compared,concentrations) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) APPOS (mRNA,dehydrogenase) COMP_from:V-N (transcribed,GENEXXX) COMP_in:V-N (compared,study) APPOS (dehydrogenase,SDH) MOD_ATT:N-ADJ (dehydrogenase,succinate) Parse 73 +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ +--------------------------------COMP_in:V-N-------------------------------+ +--------------------COMP_in:N-N--------------------+ | +COMP_in:V+---------OBJ:V-N--------+ +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+--------APPOS--------+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (transcribed,stability) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (phase,stationary) COMP_in:N-N (gene,phase) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) OBJ:V-N (compared,concentrations) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) APPOS (mRNA,dehydrogenase) COMP_from:V-N (transcribed,GENEXXX) COMP_in:V-N (compared,study) APPOS (dehydrogenase,SDH) MOD_ATT:N-ADJ (dehydrogenase,succinate) Parse 74 +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ +--------------------------------COMP_in:V-N-------------------------------+ +--------------------COMP_in:N-N--------------------+ +-------------------APPOS------------------+ +COMP_in:V+---------OBJ:V-N--------+ +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ | +-----COMP_of:N-N----+ | | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . SUBJ:V_PASS-N (expressed,gene) MOD_ATT:N-ADJ (growth,stationary) SUBJ:V-N (transcribed,stability) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD:V_PASS-ADV (expressed,preferentially) COMP_in:N-N (gene,phase) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) OBJ:V-N (compared,concentrations) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (mRNA,vegetative) APPOS (those,dehydrogenase) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) COMP_in:V-N (compared,study) APPOS (dehydrogenase,SDH) MOD_ATT:N-ADJ (dehydrogenase,succinate) Parse 75 +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ +--------------------------------COMP_in:V-N-------------------------------+ +--------------------COMP_in:N-N--------------------+ +-------------------APPOS------------------+ +COMP_in:V+---------OBJ:V-N--------+ +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+ | | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (transcribed,stability) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (phase,stationary) COMP_in:N-N (gene,phase) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) OBJ:V-N (compared,concentrations) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (mRNA,vegetative) APPOS (those,dehydrogenase) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) COMP_in:V-N (compared,study) APPOS (dehydrogenase,SDH) MOD_ATT:N-ADJ (dehydrogenase,succinate) Parse 76 +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ +--------------------------------COMP_in:V-N-------------------------------+ +--------------------COMP_in:N-N--------------------+ | +COMP_in:V+---------OBJ:V-N--------+ +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ | +-----COMP_of:N-N----+--------APPOS--------+------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) SUBJ:V_PASS-N (expressed,gene) MOD_ATT:N-ADJ (growth,stationary) SUBJ:V-N (transcribed,stability) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD:V_PASS-ADV (expressed,preferentially) COMP_in:N-N (gene,phase) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) OBJ:V-N (compared,concentrations) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) APPOS (mRNA,dehydrogenase) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) COMP_in:V-N (compared,study) MOD_ATT:N-ADJ (dehydrogenase,succinate) Parse 77 +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ +--------------------------------COMP_in:V-N-------------------------------+ +--------------------COMP_in:N-N--------------------+ | +COMP_in:V+---------OBJ:V-N--------+ +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+--------APPOS--------+------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (transcribed,stability) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (phase,stationary) COMP_in:N-N (gene,phase) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) OBJ:V-N (compared,concentrations) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) APPOS (mRNA,dehydrogenase) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) COMP_in:V-N (compared,study) MOD_ATT:N-ADJ (dehydrogenase,succinate) Parse 78 +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ +--------------------------------COMP_in:V-N-------------------------------+ +--------------------COMP_in:N-N--------------------+ +-------------------APPOS------------------+ +COMP_in:V+---------OBJ:V-N--------+ +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ | +-----COMP_of:N-N----+ +------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) SUBJ:V_PASS-N (expressed,gene) MOD_ATT:N-ADJ (growth,stationary) SUBJ:V-N (transcribed,stability) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD:V_PASS-ADV (expressed,preferentially) COMP_in:N-N (gene,phase) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) OBJ:V-N (compared,concentrations) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (mRNA,vegetative) APPOS (those,dehydrogenase) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) COMP_in:V-N (compared,study) MOD_ATT:N-ADJ (dehydrogenase,succinate) Parse 79 +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ +--------------------------------COMP_in:V-N-------------------------------+ +--------------------COMP_in:N-N--------------------+ +-------------------APPOS------------------+ +COMP_in:V+---------OBJ:V-N--------+ +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+ +------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (transcribed,stability) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (phase,stationary) COMP_in:N-N (gene,phase) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) OBJ:V-N (compared,concentrations) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (mRNA,vegetative) APPOS (those,dehydrogenase) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) COMP_in:V-N (compared,study) MOD_ATT:N-ADJ (dehydrogenase,succinate) Parse 80 +--------------------------------COMP_in:V-N-------------------------------+ | +----------------SUBJ:V-N---------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------COMP_of:N-N---------+ | +--------------------COMP_in:N-N--------------------+ | +-OBJ:V-N-+ +--------MOD_ATT:N-ADJ-------+-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ | +-----COMP_of:N-N----+--------APPOS--------+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . COMP_of:N-N (concentrations,mRNA) MOD_ATT:N-ADJ (growth,stationary) SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (transcribed,stability) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) SUBJ:V-N (transcribed,concentrations) MOD_ATT:N-N (phase,growth) COMP_of:N-N (stability,mRNA) APPOS (dehydrogenase,SDH) MOD_ATT:N-ADJ (mRNA,vegetative) COMP_of:N-N (those,mRNA) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (concentrations,cellular) COMP_in:N-N (gene,phase) OBJ:V-N (transcribed,gene) MOD_ATT:N-ADJ (stability,cellular) COMP_in:V-N (transcribed,study) COMP_from:V-N (transcribed,GENEXXX) MOD_ATT:N-ADJ (dehydrogenase,succinate) OBJ:V-N (compared,study) APPOS (mRNA,dehydrogenase) APPOS (gene,gene) Parse 81 +--------------------------------COMP_in:V-N-------------------------------+ | +----------------SUBJ:V-N---------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------COMP_of:N-N---------+ | +--------------------COMP_in:N-N--------------------+ | +-OBJ:V-N-+ +--------MOD_ATT:N-ADJ-------+-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+--------APPOS--------+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . COMP_of:N-N (concentrations,mRNA) SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (transcribed,stability) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) SUBJ:V-N (transcribed,concentrations) MOD_ATT:N-N (phase,growth) MOD_ATT:N-ADJ (phase,stationary) COMP_of:N-N (stability,mRNA) APPOS (dehydrogenase,SDH) MOD_ATT:N-ADJ (mRNA,vegetative) COMP_of:N-N (those,mRNA) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (concentrations,cellular) COMP_in:N-N (gene,phase) OBJ:V-N (transcribed,gene) MOD_ATT:N-ADJ (stability,cellular) COMP_in:V-N (transcribed,study) COMP_from:V-N (transcribed,GENEXXX) MOD_ATT:N-ADJ (dehydrogenase,succinate) OBJ:V-N (compared,study) APPOS (mRNA,dehydrogenase) APPOS (gene,gene) Parse 82 +--------------------------------COMP_in:V-N-------------------------------+ | +----------------SUBJ:V-N---------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------COMP_of:N-N---------+ | +--------------------COMP_in:N-N--------------------+ +-------------------APPOS------------------+ +-OBJ:V-N-+ +--------MOD_ATT:N-ADJ-------+-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ | +-----COMP_of:N-N----+ | | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . COMP_of:N-N (concentrations,mRNA) MOD_ATT:N-ADJ (growth,stationary) SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (transcribed,stability) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) SUBJ:V-N (transcribed,concentrations) MOD_ATT:N-N (phase,growth) COMP_of:N-N (stability,mRNA) APPOS (dehydrogenase,SDH) COMP_of:N-N (those,mRNA) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (concentrations,cellular) COMP_in:N-N (gene,phase) OBJ:V-N (transcribed,gene) MOD_ATT:N-ADJ (stability,cellular) COMP_in:V-N (transcribed,study) COMP_from:V-N (transcribed,GENEXXX) MOD_ATT:N-ADJ (dehydrogenase,succinate) APPOS (those,dehydrogenase) OBJ:V-N (compared,study) MOD_ATT:N-ADJ (mRNA,vegetative) APPOS (gene,gene) Parse 83 +--------------------------------COMP_in:V-N-------------------------------+ | +----------------SUBJ:V-N---------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------COMP_of:N-N---------+ | +--------------------COMP_in:N-N--------------------+ +-------------------APPOS------------------+ +-OBJ:V-N-+ +--------MOD_ATT:N-ADJ-------+-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+ | | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . COMP_of:N-N (concentrations,mRNA) SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (transcribed,stability) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) SUBJ:V-N (transcribed,concentrations) MOD_ATT:N-N (phase,growth) MOD_ATT:N-ADJ (phase,stationary) COMP_of:N-N (stability,mRNA) APPOS (dehydrogenase,SDH) COMP_of:N-N (those,mRNA) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (concentrations,cellular) COMP_in:N-N (gene,phase) OBJ:V-N (transcribed,gene) MOD_ATT:N-ADJ (stability,cellular) COMP_in:V-N (transcribed,study) COMP_from:V-N (transcribed,GENEXXX) MOD_ATT:N-ADJ (dehydrogenase,succinate) APPOS (those,dehydrogenase) OBJ:V-N (compared,study) MOD_ATT:N-ADJ (mRNA,vegetative) APPOS (gene,gene) Parse 84 +--------------------------------COMP_in:V-N-------------------------------+ | +----------------SUBJ:V-N---------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------COMP_of:N-N---------+ | +--------------------COMP_in:N-N--------------------+ | +-OBJ:V-N-+ +--------MOD_ATT:N-ADJ-------+-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ | +-----COMP_of:N-N----+--------APPOS--------+------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) COMP_of:N-N (concentrations,mRNA) MOD_ATT:N-ADJ (growth,stationary) SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (transcribed,stability) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) SUBJ:V-N (transcribed,concentrations) MOD_ATT:N-N (phase,growth) COMP_of:N-N (stability,mRNA) MOD_ATT:N-ADJ (mRNA,vegetative) COMP_of:N-N (those,mRNA) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (concentrations,cellular) COMP_in:N-N (gene,phase) OBJ:V-N (transcribed,gene) MOD_ATT:N-ADJ (stability,cellular) COMP_in:V-N (transcribed,study) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) MOD_ATT:N-ADJ (dehydrogenase,succinate) OBJ:V-N (compared,study) APPOS (mRNA,dehydrogenase) APPOS (gene,gene) Parse 85 +--------------------------------COMP_in:V-N-------------------------------+ | +----------------SUBJ:V-N---------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------COMP_of:N-N---------+ | +--------------------COMP_in:N-N--------------------+ | +-OBJ:V-N-+ +--------MOD_ATT:N-ADJ-------+-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+--------APPOS--------+------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) COMP_of:N-N (concentrations,mRNA) SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (transcribed,stability) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) SUBJ:V-N (transcribed,concentrations) MOD_ATT:N-N (phase,growth) MOD_ATT:N-ADJ (phase,stationary) COMP_of:N-N (stability,mRNA) MOD_ATT:N-ADJ (mRNA,vegetative) COMP_of:N-N (those,mRNA) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (concentrations,cellular) COMP_in:N-N (gene,phase) OBJ:V-N (transcribed,gene) MOD_ATT:N-ADJ (stability,cellular) COMP_in:V-N (transcribed,study) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) MOD_ATT:N-ADJ (dehydrogenase,succinate) OBJ:V-N (compared,study) APPOS (mRNA,dehydrogenase) APPOS (gene,gene) Parse 86 +--------------------------------COMP_in:V-N-------------------------------+ | +----------------SUBJ:V-N---------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------COMP_of:N-N---------+ | +--------------------COMP_in:N-N--------------------+ +-------------------APPOS------------------+ +-OBJ:V-N-+ +--------MOD_ATT:N-ADJ-------+-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ | +-----COMP_of:N-N----+ +------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) COMP_of:N-N (concentrations,mRNA) MOD_ATT:N-ADJ (growth,stationary) SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (transcribed,stability) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) SUBJ:V-N (transcribed,concentrations) MOD_ATT:N-N (phase,growth) COMP_of:N-N (stability,mRNA) COMP_of:N-N (those,mRNA) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (concentrations,cellular) COMP_in:N-N (gene,phase) OBJ:V-N (transcribed,gene) MOD_ATT:N-ADJ (stability,cellular) COMP_in:V-N (transcribed,study) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) MOD_ATT:N-ADJ (dehydrogenase,succinate) APPOS (those,dehydrogenase) OBJ:V-N (compared,study) MOD_ATT:N-ADJ (mRNA,vegetative) APPOS (gene,gene) Parse 87 +--------------------------------COMP_in:V-N-------------------------------+ | +----------------SUBJ:V-N---------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------COMP_of:N-N---------+ | +--------------------COMP_in:N-N--------------------+ +-------------------APPOS------------------+ +-OBJ:V-N-+ +--------MOD_ATT:N-ADJ-------+-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+ +------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) COMP_of:N-N (concentrations,mRNA) SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (transcribed,stability) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) SUBJ:V-N (transcribed,concentrations) MOD_ATT:N-N (phase,growth) MOD_ATT:N-ADJ (phase,stationary) COMP_of:N-N (stability,mRNA) COMP_of:N-N (those,mRNA) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (concentrations,cellular) COMP_in:N-N (gene,phase) OBJ:V-N (transcribed,gene) MOD_ATT:N-ADJ (stability,cellular) COMP_in:V-N (transcribed,study) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) MOD_ATT:N-ADJ (dehydrogenase,succinate) APPOS (those,dehydrogenase) OBJ:V-N (compared,study) MOD_ATT:N-ADJ (mRNA,vegetative) APPOS (gene,gene) Parse 88 +--------------------------------COMP_in:V-N-------------------------------+ | +-----------------OBJ:V-N-----------------+ +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | | +--------MOD_ATT:N-ADJ-------+ | +--------------------COMP_in:N-N--------------------+ | +-OBJ:V-N-+---------OBJ:V-N--------+----MOD_POST:N-ADJ----+ +----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ | +-----COMP_of:N-N----+--------APPOS--------+ | +SUBJ:+ +MOD_ATT:N-A+ +MOD_P+ +SUBJ:V-N+---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-ADJ (growth,stationary) MOD_POST:N-ADJ (concentrations,of) SUBJ:V_PASS-N (expressed,gene) COMP_in:V-N (transcribed,study) MOD_POST:N-ADJ (stability,of) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) MOD_ATT:N-N (phase,growth) COMP_of:N-N (those,mRNA) COMP_in:N-N (gene,phase) OBJ:V-N (compared,concentrations) APPOS (dehydrogenase,SDH) SUBJ:V-N (transcribed,mRNA) OBJ:V-N (compared,stability) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) APPOS (mRNA,dehydrogenase) APPOS (gene,gene) MOD_ATT:N-ADJ (stability,cellular) MOD_ATT:N-ADJ (dehydrogenase,succinate) APPOS (GENEXXX,subtilisin) OBJ:V-N (compared,study) MOD_ATT:N-ADJ (mRNA,vegetative) Parse 89 +--------------------------------COMP_in:V-N-------------------------------+ | +-----------------OBJ:V-N-----------------+ +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | | +--------MOD_ATT:N-ADJ-------+ | +--------------------COMP_in:N-N--------------------+ | +-OBJ:V-N-+---------OBJ:V-N--------+----MOD_POST:N-ADJ----+ +----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+--------APPOS--------+ | +SUBJ:+ +MOD_ATT:N-A+ +MOD_P+ +SUBJ:V-N+---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_POST:N-ADJ (concentrations,of) SUBJ:V_PASS-N (expressed,gene) COMP_in:V-N (transcribed,study) MOD_POST:N-ADJ (stability,of) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) MOD_ATT:N-N (phase,growth) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (phase,stationary) COMP_in:N-N (gene,phase) OBJ:V-N (compared,concentrations) APPOS (dehydrogenase,SDH) SUBJ:V-N (transcribed,mRNA) OBJ:V-N (compared,stability) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) APPOS (mRNA,dehydrogenase) APPOS (gene,gene) MOD_ATT:N-ADJ (stability,cellular) MOD_ATT:N-ADJ (dehydrogenase,succinate) APPOS (GENEXXX,subtilisin) OBJ:V-N (compared,study) MOD_ATT:N-ADJ (mRNA,vegetative) Parse 90 +--------------------------------COMP_in:V-N-------------------------------+ | +-----------------OBJ:V-N-----------------+ +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | | +--------MOD_ATT:N-ADJ-------+ | +--------------------COMP_in:N-N--------------------+ +-------------------APPOS------------------+ +-OBJ:V-N-+---------OBJ:V-N--------+----MOD_POST:N-ADJ----+ +----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ | +-----COMP_of:N-N----+ | | +SUBJ:+ +MOD_ATT:N-A+ +MOD_P+ +SUBJ:V-N+---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-ADJ (growth,stationary) MOD_POST:N-ADJ (concentrations,of) SUBJ:V_PASS-N (expressed,gene) COMP_in:V-N (transcribed,study) MOD_POST:N-ADJ (stability,of) APPOS (those,dehydrogenase) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) MOD_ATT:N-N (phase,growth) COMP_of:N-N (those,mRNA) COMP_in:N-N (gene,phase) OBJ:V-N (compared,concentrations) APPOS (dehydrogenase,SDH) SUBJ:V-N (transcribed,mRNA) OBJ:V-N (compared,stability) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) APPOS (gene,gene) MOD_ATT:N-ADJ (stability,cellular) MOD_ATT:N-ADJ (dehydrogenase,succinate) APPOS (GENEXXX,subtilisin) OBJ:V-N (compared,study) Parse 91 +--------------------------------COMP_in:V-N-------------------------------+ | +-----------------OBJ:V-N-----------------+ +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | | +--------MOD_ATT:N-ADJ-------+ | +--------------------COMP_in:N-N--------------------+ +-------------------APPOS------------------+ +-OBJ:V-N-+---------OBJ:V-N--------+----MOD_POST:N-ADJ----+ +----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+ | | +SUBJ:+ +MOD_ATT:N-A+ +MOD_P+ +SUBJ:V-N+---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_POST:N-ADJ (concentrations,of) SUBJ:V_PASS-N (expressed,gene) COMP_in:V-N (transcribed,study) MOD_POST:N-ADJ (stability,of) APPOS (those,dehydrogenase) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) MOD_ATT:N-N (phase,growth) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (phase,stationary) COMP_in:N-N (gene,phase) OBJ:V-N (compared,concentrations) APPOS (dehydrogenase,SDH) SUBJ:V-N (transcribed,mRNA) OBJ:V-N (compared,stability) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) APPOS (gene,gene) MOD_ATT:N-ADJ (stability,cellular) MOD_ATT:N-ADJ (dehydrogenase,succinate) APPOS (GENEXXX,subtilisin) OBJ:V-N (compared,study) Parse 92 +--------------------------------COMP_in:V-N-------------------------------+ | +-----------------OBJ:V-N-----------------+ +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | | +--------MOD_ATT:N-ADJ-------+ | +--------------------COMP_in:N-N--------------------+ | +-OBJ:V-N-+---------OBJ:V-N--------+----MOD_POST:N-ADJ----+ +----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ | +-----COMP_of:N-N----+--------APPOS--------+------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +MOD_P+ +SUBJ:V-N+---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) MOD_ATT:N-ADJ (growth,stationary) MOD_POST:N-ADJ (concentrations,of) SUBJ:V_PASS-N (expressed,gene) COMP_in:V-N (transcribed,study) MOD_POST:N-ADJ (stability,of) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) MOD_ATT:N-N (phase,growth) COMP_of:N-N (those,mRNA) COMP_in:N-N (gene,phase) OBJ:V-N (compared,concentrations) SUBJ:V-N (transcribed,mRNA) OBJ:V-N (compared,stability) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) APPOS (mRNA,dehydrogenase) APPOS (gene,gene) MOD_ATT:N-ADJ (stability,cellular) MOD_ATT:N-ADJ (dehydrogenase,succinate) APPOS (GENEXXX,subtilisin) OBJ:V-N (compared,study) MOD_ATT:N-ADJ (mRNA,vegetative) Parse 93 +--------------------------------COMP_in:V-N-------------------------------+ | +-----------------OBJ:V-N-----------------+ +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | | +--------MOD_ATT:N-ADJ-------+ | +--------------------COMP_in:N-N--------------------+ | +-OBJ:V-N-+---------OBJ:V-N--------+----MOD_POST:N-ADJ----+ +----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+--------APPOS--------+------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +MOD_P+ +SUBJ:V-N+---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) MOD_POST:N-ADJ (concentrations,of) SUBJ:V_PASS-N (expressed,gene) COMP_in:V-N (transcribed,study) MOD_POST:N-ADJ (stability,of) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) MOD_ATT:N-N (phase,growth) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (phase,stationary) COMP_in:N-N (gene,phase) OBJ:V-N (compared,concentrations) SUBJ:V-N (transcribed,mRNA) OBJ:V-N (compared,stability) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) APPOS (mRNA,dehydrogenase) APPOS (gene,gene) MOD_ATT:N-ADJ (stability,cellular) MOD_ATT:N-ADJ (dehydrogenase,succinate) APPOS (GENEXXX,subtilisin) OBJ:V-N (compared,study) MOD_ATT:N-ADJ (mRNA,vegetative) Parse 94 +--------------------------------COMP_in:V-N-------------------------------+ | +-----------------OBJ:V-N-----------------+ +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | | +--------MOD_ATT:N-ADJ-------+ | +--------------------COMP_in:N-N--------------------+ +-------------------APPOS------------------+ +-OBJ:V-N-+---------OBJ:V-N--------+----MOD_POST:N-ADJ----+ +----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ | +-----COMP_of:N-N----+ +------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +MOD_P+ +SUBJ:V-N+---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) MOD_ATT:N-ADJ (growth,stationary) MOD_POST:N-ADJ (concentrations,of) SUBJ:V_PASS-N (expressed,gene) COMP_in:V-N (transcribed,study) MOD_POST:N-ADJ (stability,of) APPOS (those,dehydrogenase) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) MOD_ATT:N-N (phase,growth) COMP_of:N-N (those,mRNA) COMP_in:N-N (gene,phase) OBJ:V-N (compared,concentrations) SUBJ:V-N (transcribed,mRNA) OBJ:V-N (compared,stability) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) APPOS (gene,gene) MOD_ATT:N-ADJ (stability,cellular) MOD_ATT:N-ADJ (dehydrogenase,succinate) APPOS (GENEXXX,subtilisin) OBJ:V-N (compared,study) Parse 95 +--------------------------------COMP_in:V-N-------------------------------+ | +-----------------OBJ:V-N-----------------+ +--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | | +--------MOD_ATT:N-ADJ-------+ | +--------------------COMP_in:N-N--------------------+ +-------------------APPOS------------------+ +-OBJ:V-N-+---------OBJ:V-N--------+----MOD_POST:N-ADJ----+ +----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+ +------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +MOD_P+ +SUBJ:V-N+---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) MOD_POST:N-ADJ (concentrations,of) SUBJ:V_PASS-N (expressed,gene) COMP_in:V-N (transcribed,study) MOD_POST:N-ADJ (stability,of) APPOS (those,dehydrogenase) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) MOD_ATT:N-N (phase,growth) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (phase,stationary) COMP_in:N-N (gene,phase) OBJ:V-N (compared,concentrations) SUBJ:V-N (transcribed,mRNA) OBJ:V-N (compared,stability) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) APPOS (gene,gene) MOD_ATT:N-ADJ (stability,cellular) MOD_ATT:N-ADJ (dehydrogenase,succinate) APPOS (GENEXXX,subtilisin) OBJ:V-N (compared,study) Parse 96 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------------SUBJ:V-N---------------+ +--------------------COMP_in:N-N--------------------+ | +-OBJ:V-N-+ | +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ | +-----COMP_of:N-N----+--------APPOS--------+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . SUBJ:V_PASS-N (expressed,gene) MOD_ATT:N-ADJ (growth,stationary) SUBJ:V-N (transcribed,stability) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD:V_PASS-ADV (expressed,preferentially) SUBJ:V-N (transcribed,concentrations) COMP_in:N-N (gene,phase) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) APPOS (mRNA,dehydrogenase) COMP_from:V-N (transcribed,GENEXXX) OBJ:V-N (compared,study) APPOS (dehydrogenase,SDH) MOD_ATT:N-ADJ (dehydrogenase,succinate) Parse 97 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------------SUBJ:V-N---------------+ +--------------------COMP_in:N-N--------------------+ | +-OBJ:V-N-+ | +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+--------APPOS--------+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (transcribed,stability) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD:V_PASS-ADV (expressed,preferentially) SUBJ:V-N (transcribed,concentrations) MOD_ATT:N-ADJ (phase,stationary) COMP_in:N-N (gene,phase) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) APPOS (mRNA,dehydrogenase) COMP_from:V-N (transcribed,GENEXXX) OBJ:V-N (compared,study) APPOS (dehydrogenase,SDH) MOD_ATT:N-ADJ (dehydrogenase,succinate) Parse 98 +--------------------------------COMP_in:V-N-------------------------------+ | +----------------SUBJ:V-N---------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------COMP_of:N-N---------+ | +--------------------COMP_in:N-N--------------------+ | +-OBJ:V-N-+ | +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ | +-----COMP_of:N-N----+--------APPOS--------+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . COMP_of:N-N (concentrations,mRNA) SUBJ:V-N (transcribed,stability) APPOS (mRNA,dehydrogenase) MOD_ATT:N-ADJ (growth,stationary) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) SUBJ:V_PASS-N (expressed,gene) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) APPOS (dehydrogenase,SDH) COMP_of:N-N (those,mRNA) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) MOD_ATT:N-ADJ (dehydrogenase,succinate) SUBJ:V-N (transcribed,concentrations) COMP_in:N-N (gene,phase) OBJ:V-N (compared,study) Parse 99 +--------------------------------COMP_in:V-N-------------------------------+ | +----------------SUBJ:V-N---------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------COMP_of:N-N---------+ | +--------------------COMP_in:N-N--------------------+ | +-OBJ:V-N-+ | +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+--------APPOS--------+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . COMP_of:N-N (concentrations,mRNA) SUBJ:V-N (transcribed,stability) APPOS (mRNA,dehydrogenase) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD_ATT:N-ADJ (phase,stationary) SUBJ:V_PASS-N (expressed,gene) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) APPOS (dehydrogenase,SDH) COMP_of:N-N (those,mRNA) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) MOD_ATT:N-ADJ (dehydrogenase,succinate) SUBJ:V-N (transcribed,concentrations) COMP_in:N-N (gene,phase) OBJ:V-N (compared,study) Parse 100 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------------SUBJ:V-N---------------+ +--------------------COMP_in:N-N--------------------+ +-------------------APPOS------------------+ +-OBJ:V-N-+ | +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ | +-----COMP_of:N-N----+ | | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . SUBJ:V_PASS-N (expressed,gene) MOD_ATT:N-ADJ (growth,stationary) SUBJ:V-N (transcribed,stability) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD:V_PASS-ADV (expressed,preferentially) SUBJ:V-N (transcribed,concentrations) COMP_in:N-N (gene,phase) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (mRNA,vegetative) APPOS (those,dehydrogenase) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) OBJ:V-N (compared,study) APPOS (dehydrogenase,SDH) MOD_ATT:N-ADJ (dehydrogenase,succinate) Parse 101 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------------SUBJ:V-N---------------+ +--------------------COMP_in:N-N--------------------+ +-------------------APPOS------------------+ +-OBJ:V-N-+ | +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+ | | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (transcribed,stability) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD:V_PASS-ADV (expressed,preferentially) SUBJ:V-N (transcribed,concentrations) MOD_ATT:N-ADJ (phase,stationary) COMP_in:N-N (gene,phase) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (mRNA,vegetative) APPOS (those,dehydrogenase) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) OBJ:V-N (compared,study) APPOS (dehydrogenase,SDH) MOD_ATT:N-ADJ (dehydrogenase,succinate) Parse 102 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------------SUBJ:V-N---------------+ +--------------------COMP_in:N-N--------------------+ | +-OBJ:V-N-+ | +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ | +-----COMP_of:N-N----+--------APPOS--------+------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) SUBJ:V_PASS-N (expressed,gene) MOD_ATT:N-ADJ (growth,stationary) SUBJ:V-N (transcribed,stability) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD:V_PASS-ADV (expressed,preferentially) SUBJ:V-N (transcribed,concentrations) COMP_in:N-N (gene,phase) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) APPOS (mRNA,dehydrogenase) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) OBJ:V-N (compared,study) MOD_ATT:N-ADJ (dehydrogenase,succinate) Parse 103 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------------SUBJ:V-N---------------+ +--------------------COMP_in:N-N--------------------+ | +-OBJ:V-N-+ | +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+--------APPOS--------+------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (transcribed,stability) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD:V_PASS-ADV (expressed,preferentially) SUBJ:V-N (transcribed,concentrations) MOD_ATT:N-ADJ (phase,stationary) COMP_in:N-N (gene,phase) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) APPOS (mRNA,dehydrogenase) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) OBJ:V-N (compared,study) MOD_ATT:N-ADJ (dehydrogenase,succinate) Parse 104 +--------------------------------COMP_in:V-N-------------------------------+ | +----------------SUBJ:V-N---------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------COMP_of:N-N---------+ | +--------------------COMP_in:N-N--------------------+ +-------------------APPOS------------------+ +-OBJ:V-N-+ | +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ | +-----COMP_of:N-N----+ | | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . COMP_of:N-N (concentrations,mRNA) SUBJ:V-N (transcribed,stability) MOD_ATT:N-ADJ (growth,stationary) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) SUBJ:V_PASS-N (expressed,gene) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) APPOS (dehydrogenase,SDH) MOD_ATT:N-ADJ (mRNA,vegetative) COMP_of:N-N (those,mRNA) MOD:V_PASS-ADV (expressed,preferentially) APPOS (those,dehydrogenase) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) MOD_ATT:N-ADJ (dehydrogenase,succinate) SUBJ:V-N (transcribed,concentrations) COMP_in:N-N (gene,phase) OBJ:V-N (compared,study) Parse 105 +--------------------------------COMP_in:V-N-------------------------------+ | +----------------SUBJ:V-N---------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------COMP_of:N-N---------+ | +--------------------COMP_in:N-N--------------------+ +-------------------APPOS------------------+ +-OBJ:V-N-+ | +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+ | | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . COMP_of:N-N (concentrations,mRNA) SUBJ:V-N (transcribed,stability) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD_ATT:N-ADJ (phase,stationary) SUBJ:V_PASS-N (expressed,gene) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) APPOS (dehydrogenase,SDH) MOD_ATT:N-ADJ (mRNA,vegetative) COMP_of:N-N (those,mRNA) MOD:V_PASS-ADV (expressed,preferentially) APPOS (those,dehydrogenase) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) MOD_ATT:N-ADJ (dehydrogenase,succinate) SUBJ:V-N (transcribed,concentrations) COMP_in:N-N (gene,phase) OBJ:V-N (compared,study) Parse 106 +--------------------------------COMP_in:V-N-------------------------------+ | +----------------SUBJ:V-N---------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------COMP_of:N-N---------+ | +--------------------COMP_in:N-N--------------------+ | +-OBJ:V-N-+ | +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ | +-----COMP_of:N-N----+--------APPOS--------+------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) COMP_of:N-N (concentrations,mRNA) SUBJ:V-N (transcribed,stability) APPOS (mRNA,dehydrogenase) MOD_ATT:N-ADJ (growth,stationary) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) SUBJ:V_PASS-N (expressed,gene) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) COMP_of:N-N (those,mRNA) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) MOD_ATT:N-ADJ (dehydrogenase,succinate) SUBJ:V-N (transcribed,concentrations) COMP_in:N-N (gene,phase) OBJ:V-N (compared,study) Parse 107 +--------------------------------COMP_in:V-N-------------------------------+ | +----------------SUBJ:V-N---------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------COMP_of:N-N---------+ | +--------------------COMP_in:N-N--------------------+ | +-OBJ:V-N-+ | +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+--------APPOS--------+------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) COMP_of:N-N (concentrations,mRNA) SUBJ:V-N (transcribed,stability) APPOS (mRNA,dehydrogenase) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD_ATT:N-ADJ (phase,stationary) SUBJ:V_PASS-N (expressed,gene) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) COMP_of:N-N (those,mRNA) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) MOD_ATT:N-ADJ (dehydrogenase,succinate) SUBJ:V-N (transcribed,concentrations) COMP_in:N-N (gene,phase) OBJ:V-N (compared,study) Parse 108 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------------SUBJ:V-N---------------+ +--------------------COMP_in:N-N--------------------+ +-------------------APPOS------------------+ +-OBJ:V-N-+ | +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ | +-----COMP_of:N-N----+ +------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) SUBJ:V_PASS-N (expressed,gene) MOD_ATT:N-ADJ (growth,stationary) SUBJ:V-N (transcribed,stability) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD:V_PASS-ADV (expressed,preferentially) SUBJ:V-N (transcribed,concentrations) COMP_in:N-N (gene,phase) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (mRNA,vegetative) APPOS (those,dehydrogenase) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) OBJ:V-N (compared,study) MOD_ATT:N-ADJ (dehydrogenase,succinate) Parse 109 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------------SUBJ:V-N---------------+ +--------------------COMP_in:N-N--------------------+ +-------------------APPOS------------------+ +-OBJ:V-N-+ | +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+ +------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (transcribed,stability) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD:V_PASS-ADV (expressed,preferentially) SUBJ:V-N (transcribed,concentrations) MOD_ATT:N-ADJ (phase,stationary) COMP_in:N-N (gene,phase) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) COMP_of:N-N (those,mRNA) MOD_ATT:N-ADJ (mRNA,vegetative) APPOS (those,dehydrogenase) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) OBJ:V-N (compared,study) MOD_ATT:N-ADJ (dehydrogenase,succinate) Parse 110 +--------------------------------COMP_in:V-N-------------------------------+ | +----------------SUBJ:V-N---------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------COMP_of:N-N---------+ | +--------------------COMP_in:N-N--------------------+ +-------------------APPOS------------------+ +-OBJ:V-N-+ | +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ | +-----COMP_of:N-N----+ +------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) COMP_of:N-N (concentrations,mRNA) SUBJ:V-N (transcribed,stability) MOD_ATT:N-ADJ (growth,stationary) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) SUBJ:V_PASS-N (expressed,gene) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) MOD_ATT:N-ADJ (mRNA,vegetative) COMP_of:N-N (those,mRNA) MOD:V_PASS-ADV (expressed,preferentially) APPOS (those,dehydrogenase) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) MOD_ATT:N-ADJ (dehydrogenase,succinate) SUBJ:V-N (transcribed,concentrations) COMP_in:N-N (gene,phase) OBJ:V-N (compared,study) Parse 111 +--------------------------------COMP_in:V-N-------------------------------+ | +----------------SUBJ:V-N---------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------COMP_of:N-N---------+ | +--------------------COMP_in:N-N--------------------+ +-------------------APPOS------------------+ +-OBJ:V-N-+ | +-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+ +------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) COMP_of:N-N (concentrations,mRNA) SUBJ:V-N (transcribed,stability) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD_ATT:N-ADJ (phase,stationary) SUBJ:V_PASS-N (expressed,gene) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) MOD_ATT:N-ADJ (mRNA,vegetative) COMP_of:N-N (those,mRNA) MOD:V_PASS-ADV (expressed,preferentially) APPOS (those,dehydrogenase) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) MOD_ATT:N-ADJ (dehydrogenase,succinate) SUBJ:V-N (transcribed,concentrations) COMP_in:N-N (gene,phase) OBJ:V-N (compared,study) Parse 112 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +-----------------OBJ:V-N-----------------+ | +--------------------COMP_in:N-N--------------------+ | +-OBJ:V-N-+---------OBJ:V-N--------+----MOD_POST:N-ADJ----+ +----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ | +-----COMP_of:N-N----+--------APPOS--------+ | +SUBJ:+ +MOD_ATT:N-A+ +MOD_P+ +SUBJ:V-N+---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-ADJ (growth,stationary) MOD_POST:N-ADJ (concentrations,of) SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) MOD_POST:N-ADJ (stability,of) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) OBJ:V-N (compared,concentrations) APPOS (dehydrogenase,SDH) MOD_ATT:N-ADJ (mRNA,vegetative) SUBJ:V-N (transcribed,mRNA) OBJ:V-N (compared,stability) COMP_of:N-N (those,mRNA) MOD:V_PASS-ADV (expressed,preferentially) COMP_in:V-N (transcribed,study) MOD_ATT:N-ADJ (concentrations,cellular) COMP_in:N-N (gene,phase) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) MOD_ATT:N-ADJ (dehydrogenase,succinate) OBJ:V-N (compared,study) APPOS (mRNA,dehydrogenase) APPOS (gene,gene) Parse 113 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +-----------------OBJ:V-N-----------------+ | +--------------------COMP_in:N-N--------------------+ | +-OBJ:V-N-+---------OBJ:V-N--------+----MOD_POST:N-ADJ----+ +----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+--------APPOS--------+ | +SUBJ:+ +MOD_ATT:N-A+ +MOD_P+ +SUBJ:V-N+---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_POST:N-ADJ (concentrations,of) SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) MOD_POST:N-ADJ (stability,of) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD_ATT:N-ADJ (phase,stationary) OBJ:V-N (compared,concentrations) APPOS (dehydrogenase,SDH) MOD_ATT:N-ADJ (mRNA,vegetative) SUBJ:V-N (transcribed,mRNA) OBJ:V-N (compared,stability) COMP_of:N-N (those,mRNA) MOD:V_PASS-ADV (expressed,preferentially) COMP_in:V-N (transcribed,study) MOD_ATT:N-ADJ (concentrations,cellular) COMP_in:N-N (gene,phase) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) MOD_ATT:N-ADJ (dehydrogenase,succinate) OBJ:V-N (compared,study) APPOS (mRNA,dehydrogenase) APPOS (gene,gene) Parse 114 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +-----------------OBJ:V-N-----------------+ | +--------------------COMP_in:N-N--------------------+ +-------------------APPOS------------------+ +-OBJ:V-N-+---------OBJ:V-N--------+----MOD_POST:N-ADJ----+ +----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ | +-----COMP_of:N-N----+ | | +SUBJ:+ +MOD_ATT:N-A+ +MOD_P+ +SUBJ:V-N+---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-ADJ (growth,stationary) MOD_POST:N-ADJ (concentrations,of) SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) MOD_POST:N-ADJ (stability,of) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) OBJ:V-N (compared,concentrations) APPOS (dehydrogenase,SDH) SUBJ:V-N (transcribed,mRNA) OBJ:V-N (compared,stability) COMP_of:N-N (those,mRNA) MOD:V_PASS-ADV (expressed,preferentially) COMP_in:V-N (transcribed,study) MOD_ATT:N-ADJ (concentrations,cellular) COMP_in:N-N (gene,phase) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) MOD_ATT:N-ADJ (dehydrogenase,succinate) APPOS (those,dehydrogenase) OBJ:V-N (compared,study) MOD_ATT:N-ADJ (mRNA,vegetative) APPOS (gene,gene) Parse 115 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +-----------------OBJ:V-N-----------------+ | +--------------------COMP_in:N-N--------------------+ +-------------------APPOS------------------+ +-OBJ:V-N-+---------OBJ:V-N--------+----MOD_POST:N-ADJ----+ +----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+ | | +SUBJ:+ +MOD_ATT:N-A+ +MOD_P+ +SUBJ:V-N+---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_POST:N-ADJ (concentrations,of) SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) MOD_POST:N-ADJ (stability,of) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD_ATT:N-ADJ (phase,stationary) OBJ:V-N (compared,concentrations) APPOS (dehydrogenase,SDH) SUBJ:V-N (transcribed,mRNA) OBJ:V-N (compared,stability) COMP_of:N-N (those,mRNA) MOD:V_PASS-ADV (expressed,preferentially) COMP_in:V-N (transcribed,study) MOD_ATT:N-ADJ (concentrations,cellular) COMP_in:N-N (gene,phase) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) MOD_ATT:N-ADJ (dehydrogenase,succinate) APPOS (those,dehydrogenase) OBJ:V-N (compared,study) MOD_ATT:N-ADJ (mRNA,vegetative) APPOS (gene,gene) Parse 116 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +-----------------OBJ:V-N-----------------+ | +--------------------COMP_in:N-N--------------------+ | +-OBJ:V-N-+---------OBJ:V-N--------+----MOD_POST:N-ADJ----+ +----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ | +-----COMP_of:N-N----+--------APPOS--------+------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +MOD_P+ +SUBJ:V-N+---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) MOD_ATT:N-ADJ (growth,stationary) MOD_POST:N-ADJ (concentrations,of) SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) MOD_POST:N-ADJ (stability,of) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) OBJ:V-N (compared,concentrations) MOD_ATT:N-ADJ (mRNA,vegetative) SUBJ:V-N (transcribed,mRNA) OBJ:V-N (compared,stability) COMP_of:N-N (those,mRNA) MOD:V_PASS-ADV (expressed,preferentially) COMP_in:V-N (transcribed,study) MOD_ATT:N-ADJ (concentrations,cellular) COMP_in:N-N (gene,phase) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) MOD_ATT:N-ADJ (dehydrogenase,succinate) OBJ:V-N (compared,study) APPOS (mRNA,dehydrogenase) APPOS (gene,gene) Parse 117 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +-----------------OBJ:V-N-----------------+ | +--------------------COMP_in:N-N--------------------+ | +-OBJ:V-N-+---------OBJ:V-N--------+----MOD_POST:N-ADJ----+ +----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+--------APPOS--------+------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +MOD_P+ +SUBJ:V-N+---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) MOD_POST:N-ADJ (concentrations,of) SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) MOD_POST:N-ADJ (stability,of) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD_ATT:N-ADJ (phase,stationary) OBJ:V-N (compared,concentrations) MOD_ATT:N-ADJ (mRNA,vegetative) SUBJ:V-N (transcribed,mRNA) OBJ:V-N (compared,stability) COMP_of:N-N (those,mRNA) MOD:V_PASS-ADV (expressed,preferentially) COMP_in:V-N (transcribed,study) MOD_ATT:N-ADJ (concentrations,cellular) COMP_in:N-N (gene,phase) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) MOD_ATT:N-ADJ (dehydrogenase,succinate) OBJ:V-N (compared,study) APPOS (mRNA,dehydrogenase) APPOS (gene,gene) Parse 118 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +-----------------OBJ:V-N-----------------+ | +--------------------COMP_in:N-N--------------------+ +-------------------APPOS------------------+ +-OBJ:V-N-+---------OBJ:V-N--------+----MOD_POST:N-ADJ----+ +----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ | +-----COMP_of:N-N----+ +------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +MOD_P+ +SUBJ:V-N+---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) MOD_ATT:N-ADJ (growth,stationary) MOD_POST:N-ADJ (concentrations,of) SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) MOD_POST:N-ADJ (stability,of) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) OBJ:V-N (compared,concentrations) SUBJ:V-N (transcribed,mRNA) OBJ:V-N (compared,stability) COMP_of:N-N (those,mRNA) MOD:V_PASS-ADV (expressed,preferentially) COMP_in:V-N (transcribed,study) MOD_ATT:N-ADJ (concentrations,cellular) COMP_in:N-N (gene,phase) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) MOD_ATT:N-ADJ (dehydrogenase,succinate) APPOS (those,dehydrogenase) OBJ:V-N (compared,study) MOD_ATT:N-ADJ (mRNA,vegetative) APPOS (gene,gene) Parse 119 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +-----------------OBJ:V-N-----------------+ | +--------------------COMP_in:N-N--------------------+ +-------------------APPOS------------------+ +-OBJ:V-N-+---------OBJ:V-N--------+----MOD_POST:N-ADJ----+ +----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+ +------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +MOD_P+ +SUBJ:V-N+---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) MOD_POST:N-ADJ (concentrations,of) SUBJ:V_PASS-N (expressed,gene) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) MOD_POST:N-ADJ (stability,of) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD_ATT:N-ADJ (phase,stationary) OBJ:V-N (compared,concentrations) SUBJ:V-N (transcribed,mRNA) OBJ:V-N (compared,stability) COMP_of:N-N (those,mRNA) MOD:V_PASS-ADV (expressed,preferentially) COMP_in:V-N (transcribed,study) MOD_ATT:N-ADJ (concentrations,cellular) COMP_in:N-N (gene,phase) OBJ:V-N (transcribed,gene) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) MOD_ATT:N-ADJ (dehydrogenase,succinate) APPOS (those,dehydrogenase) OBJ:V-N (compared,study) MOD_ATT:N-ADJ (mRNA,vegetative) APPOS (gene,gene) Parse 120 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------------SUBJ:V-N---------------+ +--------------------COMP_in:N-N--------------------+ | +-OBJ:V-N-+ +--------MOD_ATT:N-ADJ-------+-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ | +-----COMP_of:N-N----+--------APPOS--------+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . SUBJ:V-N (transcribed,stability) APPOS (mRNA,dehydrogenase) MOD_ATT:N-ADJ (growth,stationary) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) SUBJ:V_PASS-N (expressed,gene) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) APPOS (dehydrogenase,SDH) COMP_of:N-N (those,mRNA) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) MOD_ATT:N-ADJ (stability,cellular) COMP_from:V-N (transcribed,GENEXXX) MOD_ATT:N-ADJ (dehydrogenase,succinate) SUBJ:V-N (transcribed,concentrations) COMP_in:N-N (gene,phase) OBJ:V-N (compared,study) Parse 121 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------------SUBJ:V-N---------------+ +--------------------COMP_in:N-N--------------------+ | +-OBJ:V-N-+ +--------MOD_ATT:N-ADJ-------+-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+--------APPOS--------+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . SUBJ:V-N (transcribed,stability) APPOS (mRNA,dehydrogenase) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD_ATT:N-ADJ (phase,stationary) SUBJ:V_PASS-N (expressed,gene) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) APPOS (dehydrogenase,SDH) COMP_of:N-N (those,mRNA) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) MOD_ATT:N-ADJ (stability,cellular) COMP_from:V-N (transcribed,GENEXXX) MOD_ATT:N-ADJ (dehydrogenase,succinate) SUBJ:V-N (transcribed,concentrations) COMP_in:N-N (gene,phase) OBJ:V-N (compared,study) Parse 122 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------------SUBJ:V-N---------------+ +--------------------COMP_in:N-N--------------------+ +-------------------APPOS------------------+ +-OBJ:V-N-+ +--------MOD_ATT:N-ADJ-------+-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ | +-----COMP_of:N-N----+ | | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . SUBJ:V-N (transcribed,stability) MOD_ATT:N-ADJ (growth,stationary) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) SUBJ:V_PASS-N (expressed,gene) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) APPOS (dehydrogenase,SDH) MOD_ATT:N-ADJ (mRNA,vegetative) COMP_of:N-N (those,mRNA) MOD:V_PASS-ADV (expressed,preferentially) APPOS (those,dehydrogenase) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) MOD_ATT:N-ADJ (stability,cellular) COMP_from:V-N (transcribed,GENEXXX) MOD_ATT:N-ADJ (dehydrogenase,succinate) SUBJ:V-N (transcribed,concentrations) COMP_in:N-N (gene,phase) OBJ:V-N (compared,study) Parse 123 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------------SUBJ:V-N---------------+ +--------------------COMP_in:N-N--------------------+ +-------------------APPOS------------------+ +-OBJ:V-N-+ +--------MOD_ATT:N-ADJ-------+-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+ | | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+---APPOS--+ | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . SUBJ:V-N (transcribed,stability) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD_ATT:N-ADJ (phase,stationary) SUBJ:V_PASS-N (expressed,gene) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) APPOS (dehydrogenase,SDH) MOD_ATT:N-ADJ (mRNA,vegetative) COMP_of:N-N (those,mRNA) MOD:V_PASS-ADV (expressed,preferentially) APPOS (those,dehydrogenase) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) MOD_ATT:N-ADJ (stability,cellular) COMP_from:V-N (transcribed,GENEXXX) MOD_ATT:N-ADJ (dehydrogenase,succinate) SUBJ:V-N (transcribed,concentrations) COMP_in:N-N (gene,phase) OBJ:V-N (compared,study) Parse 124 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------------SUBJ:V-N---------------+ +--------------------COMP_in:N-N--------------------+ | +-OBJ:V-N-+ +--------MOD_ATT:N-ADJ-------+-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ | +-----COMP_of:N-N----+--------APPOS--------+------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) SUBJ:V-N (transcribed,stability) APPOS (mRNA,dehydrogenase) MOD_ATT:N-ADJ (growth,stationary) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) SUBJ:V_PASS-N (expressed,gene) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) COMP_of:N-N (those,mRNA) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) MOD_ATT:N-ADJ (stability,cellular) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) MOD_ATT:N-ADJ (dehydrogenase,succinate) SUBJ:V-N (transcribed,concentrations) COMP_in:N-N (gene,phase) OBJ:V-N (compared,study) Parse 125 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------------SUBJ:V-N---------------+ +--------------------COMP_in:N-N--------------------+ | +-OBJ:V-N-+ +--------MOD_ATT:N-ADJ-------+-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+--------APPOS--------+------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) SUBJ:V-N (transcribed,stability) APPOS (mRNA,dehydrogenase) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD_ATT:N-ADJ (phase,stationary) SUBJ:V_PASS-N (expressed,gene) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) COMP_of:N-N (those,mRNA) MOD:V_PASS-ADV (expressed,preferentially) MOD_ATT:N-ADJ (mRNA,vegetative) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) MOD_ATT:N-ADJ (stability,cellular) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) MOD_ATT:N-ADJ (dehydrogenase,succinate) SUBJ:V-N (transcribed,concentrations) COMP_in:N-N (gene,phase) OBJ:V-N (compared,study) Parse 126 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------------SUBJ:V-N---------------+ +--------------------COMP_in:N-N--------------------+ +-------------------APPOS------------------+ +-OBJ:V-N-+ +--------MOD_ATT:N-ADJ-------+-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ | +-----COMP_of:N-N----+ +------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ +MOD_ATT:+MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) SUBJ:V-N (transcribed,stability) MOD_ATT:N-ADJ (growth,stationary) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) SUBJ:V_PASS-N (expressed,gene) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) MOD_ATT:N-ADJ (mRNA,vegetative) COMP_of:N-N (those,mRNA) MOD:V_PASS-ADV (expressed,preferentially) APPOS (those,dehydrogenase) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) MOD_ATT:N-ADJ (stability,cellular) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) MOD_ATT:N-ADJ (dehydrogenase,succinate) SUBJ:V-N (transcribed,concentrations) COMP_in:N-N (gene,phase) OBJ:V-N (compared,study) Parse 127 +--------------------------------COMP_in:V-N-------------------------------+--------------------------------------------------COMP_with:V-N--------------------------------------------------+ | +----------------SUBJ:V-N---------------+ +--------------------COMP_in:N-N--------------------+ +-------------------APPOS------------------+ +-OBJ:V-N-+ +--------MOD_ATT:N-ADJ-------+-------SUBJ:V-N-------+----------------OBJ:V-N----------------+ +-----SUBJ:V_PASS-N----+ +-MOD_ATT:N-ADJ-+ +-----COMP_of:N-N----+ +------APPOS-----+ | +SUBJ:+ +MOD_ATT:N-A+ +-COMP_of:N-N-+ +---COMP_from:V-N--+---APPOS--+ +--APPOS-+ +MOD:V_PASS-A+ | +MOD_AT+ | +MOD_ATT+ +MOD_ATT:N-A+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | | | In this study we compared the cellular concentrations and stability of the mRNA transcribed from the GENEXXX ( subtilisin ) gene ( a gene preferentially expressed in stationary growth phase ) with those of a vegetative mRNA , succinate dehydrogenase ( SDH ) mRNA . MOD_ATT:N-N (mRNA,SDH) SUBJ:V-N (transcribed,stability) COMP_in:V-N (transcribed,study) SUBJ:V-N (compared,we) COMP_with:V-N (transcribed,those) APPOS (GENEXXX,subtilisin) MOD_ATT:N-N (phase,growth) MOD_ATT:N-ADJ (phase,stationary) SUBJ:V_PASS-N (expressed,gene) APPOS (gene,gene) COMP_of:N-N (stability,mRNA) MOD_ATT:N-ADJ (mRNA,vegetative) COMP_of:N-N (those,mRNA) MOD:V_PASS-ADV (expressed,preferentially) APPOS (those,dehydrogenase) MOD_ATT:N-ADJ (concentrations,cellular) OBJ:V-N (transcribed,gene) MOD_ATT:N-ADJ (stability,cellular) COMP_from:V-N (transcribed,GENEXXX) APPOS (dehydrogenase,mRNA) MOD_ATT:N-ADJ (dehydrogenase,succinate) SUBJ:V-N (transcribed,concentrations) COMP_in:N-N (gene,phase) OBJ:V-N (compared,study) PMID: 1784821-1 Sentence 5 Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . Parse 0 +-----------SUBJ:V_PASS-N-----------+----------------------COMP_in:V_PASS-N----------------------+ +--------APPOS--------+ | +-----COMP_of:N-N----+ | +MOD_AT+MOD_ATT:+MOD_AT+--APPOS--+ | +----COMP_during:V_PASS-N----+ +MOD_ATT:N+ | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . COMP_in:V_PASS-N (produced,SPXXX) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-ADJ (formation,endospore) APPOS (factors,GENEXXX) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (produced,factors) APPOS (factors,GENEXXX) COMP_of:N-N (hours,formation) COMP_during:V_PASS-N (produced,hours) Parse 1 +-----------SUBJ:V_PASS-N-----------+----------------------COMP_in:V_PASS-N----------------------+ +--MOD_ATT:N-N--+--------APPOS--------+ | +-----COMP_of:N-N----+ | +MOD_AT+ +MOD_AT+--APPOS--+ | +----COMP_during:V_PASS-N----+ +MOD_ATT:N+ | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . COMP_in:V_PASS-N (produced,SPXXX) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-N (factors,polymerase) MOD_ATT:N-ADJ (formation,endospore) APPOS (factors,GENEXXX) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (produced,factors) APPOS (factors,GENEXXX) COMP_of:N-N (hours,formation) COMP_during:V_PASS-N (produced,hours) Parse 2 +-----------SUBJ:V_PASS-N-----------+----------------------COMP_in:V_PASS-N----------------------+ +--MOD_ATT:N-N--+ +--------APPOS--------+ | +-----COMP_of:N-N----+ | | +MOD_ATT:+MOD_AT+--APPOS--+ | +----COMP_during:V_PASS-N----+ +MOD_ATT:N+ | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . MOD_ATT:N-N (sigma,RNA) COMP_in:V_PASS-N (produced,SPXXX) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-ADJ (formation,endospore) APPOS (factors,GENEXXX) SUBJ:V_PASS-N (produced,factors) APPOS (factors,GENEXXX) COMP_of:N-N (hours,formation) COMP_during:V_PASS-N (produced,hours) Parse 3 +-----------SUBJ:V_PASS-N-----------+----------------------COMP_in:V_PASS-N----------------------+ +------MOD_ATT:N-N-----+--------APPOS--------+ | +-----COMP_of:N-N----+ | | +MOD_ATT:+MOD_AT+--APPOS--+ | +----COMP_during:V_PASS-N----+ +MOD_ATT:N+ | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . COMP_in:V_PASS-N (produced,SPXXX) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-ADJ (formation,endospore) APPOS (factors,GENEXXX) SUBJ:V_PASS-N (produced,factors) MOD_ATT:N-N (factors,RNA) APPOS (factors,GENEXXX) COMP_of:N-N (hours,formation) COMP_during:V_PASS-N (produced,hours) Parse 4 +------MOD_ATT:N-N-----+-----------SUBJ:V_PASS-N-----------+----------------------COMP_in:V_PASS-N----------------------+ | +--MOD_ATT:N-N--+--------APPOS--------+ | +-----COMP_of:N-N----+ | | | +MOD_AT+--APPOS--+ | +----COMP_during:V_PASS-N----+ +MOD_ATT:N+ | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . COMP_in:V_PASS-N (produced,SPXXX) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-N (factors,polymerase) MOD_ATT:N-ADJ (formation,endospore) APPOS (factors,GENEXXX) SUBJ:V_PASS-N (produced,factors) MOD_ATT:N-N (factors,RNA) APPOS (factors,GENEXXX) COMP_of:N-N (hours,formation) COMP_during:V_PASS-N (produced,hours) Parse 5 +-----------SUBJ:V_PASS-N-----------+ +--------APPOS--------+ | +-----COMP_of:N-N----+ +MOD_AT+MOD_ATT:+MOD_AT+--APPOS--+ | +----COMP_during:V_PASS-N----+ +MOD_ATT:N+COMP_in:N-+ | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . COMP_of:N-N (hours,formation) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-ADJ (formation,endospore) COMP_in:N-N (formation,SPXXX) MOD_ATT:N-N (sigma,polymerase) APPOS (factors,GENEXXX) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (produced,factors) APPOS (factors,GENEXXX) COMP_during:V_PASS-N (produced,hours) Parse 6 +-----------SUBJ:V_PASS-N-----------+ +--MOD_ATT:N-N--+--------APPOS--------+ | +-----COMP_of:N-N----+ +MOD_AT+ +MOD_AT+--APPOS--+ | +----COMP_during:V_PASS-N----+ +MOD_ATT:N+COMP_in:N-+ | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . COMP_of:N-N (hours,formation) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-ADJ (formation,endospore) MOD_ATT:N-N (factors,polymerase) COMP_in:N-N (formation,SPXXX) APPOS (factors,GENEXXX) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (produced,factors) APPOS (factors,GENEXXX) COMP_during:V_PASS-N (produced,hours) Parse 7 +-----------SUBJ:V_PASS-N-----------+ +--MOD_ATT:N-N--+ +--------APPOS--------+ | +-----COMP_of:N-N----+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +----COMP_during:V_PASS-N----+ +MOD_ATT:N+COMP_in:N-+ | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (hours,formation) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-ADJ (formation,endospore) COMP_in:N-N (formation,SPXXX) MOD_ATT:N-N (sigma,polymerase) APPOS (factors,GENEXXX) SUBJ:V_PASS-N (produced,factors) APPOS (factors,GENEXXX) COMP_during:V_PASS-N (produced,hours) Parse 8 +-----------SUBJ:V_PASS-N-----------+ +------MOD_ATT:N-N-----+--------APPOS--------+ | +-----COMP_of:N-N----+ | +MOD_ATT:+MOD_AT+--APPOS--+ | +----COMP_during:V_PASS-N----+ +MOD_ATT:N+COMP_in:N-+ | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . COMP_of:N-N (hours,formation) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-ADJ (formation,endospore) COMP_in:N-N (formation,SPXXX) MOD_ATT:N-N (sigma,polymerase) APPOS (factors,GENEXXX) SUBJ:V_PASS-N (produced,factors) MOD_ATT:N-N (factors,RNA) APPOS (factors,GENEXXX) COMP_during:V_PASS-N (produced,hours) Parse 9 +------MOD_ATT:N-N-----+-----------SUBJ:V_PASS-N-----------+ | +--MOD_ATT:N-N--+--------APPOS--------+ | +-----COMP_of:N-N----+ | | +MOD_AT+--APPOS--+ | +----COMP_during:V_PASS-N----+ +MOD_ATT:N+COMP_in:N-+ | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . COMP_of:N-N (hours,formation) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-ADJ (formation,endospore) MOD_ATT:N-N (factors,polymerase) COMP_in:N-N (formation,SPXXX) APPOS (factors,GENEXXX) SUBJ:V_PASS-N (produced,factors) MOD_ATT:N-N (factors,RNA) APPOS (factors,GENEXXX) COMP_during:V_PASS-N (produced,hours) Parse 10 +-----------SUBJ:V_PASS-N-----------+ +----------COMP_in:N-N----------+ +--------APPOS--------+ | +-----COMP_of:N-N----+ | +MOD_AT+MOD_ATT:+MOD_AT+--APPOS--+ | +----COMP_during:V_PASS-N----+ +MOD_ATT:N+ | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . COMP_of:N-N (hours,formation) MOD_ATT:N-N (factors,sigma) COMP_in:N-N (hours,SPXXX) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-ADJ (formation,endospore) APPOS (factors,GENEXXX) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (produced,factors) APPOS (factors,GENEXXX) COMP_during:V_PASS-N (produced,hours) Parse 11 +-----------SUBJ:V_PASS-N-----------+ +----------COMP_in:N-N----------+ +--MOD_ATT:N-N--+--------APPOS--------+ | +-----COMP_of:N-N----+ | +MOD_AT+ +MOD_AT+--APPOS--+ | +----COMP_during:V_PASS-N----+ +MOD_ATT:N+ | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . COMP_of:N-N (hours,formation) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-N (factors,polymerase) COMP_in:N-N (hours,SPXXX) MOD_ATT:N-ADJ (formation,endospore) APPOS (factors,GENEXXX) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (produced,factors) APPOS (factors,GENEXXX) COMP_during:V_PASS-N (produced,hours) Parse 12 +-----------SUBJ:V_PASS-N-----------+ +----------COMP_in:N-N----------+ +--MOD_ATT:N-N--+ +--------APPOS--------+ | +-----COMP_of:N-N----+ | | +MOD_ATT:+MOD_AT+--APPOS--+ | +----COMP_during:V_PASS-N----+ +MOD_ATT:N+ | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . MOD_ATT:N-N (sigma,RNA) COMP_of:N-N (hours,formation) MOD_ATT:N-N (factors,sigma) COMP_in:N-N (hours,SPXXX) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-ADJ (formation,endospore) APPOS (factors,GENEXXX) SUBJ:V_PASS-N (produced,factors) APPOS (factors,GENEXXX) COMP_during:V_PASS-N (produced,hours) Parse 13 +-----------SUBJ:V_PASS-N-----------+ +----------COMP_in:N-N----------+ +------MOD_ATT:N-N-----+--------APPOS--------+ | +-----COMP_of:N-N----+ | | +MOD_ATT:+MOD_AT+--APPOS--+ | +----COMP_during:V_PASS-N----+ +MOD_ATT:N+ | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . COMP_of:N-N (hours,formation) MOD_ATT:N-N (factors,sigma) COMP_in:N-N (hours,SPXXX) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-ADJ (formation,endospore) APPOS (factors,GENEXXX) SUBJ:V_PASS-N (produced,factors) MOD_ATT:N-N (factors,RNA) APPOS (factors,GENEXXX) COMP_during:V_PASS-N (produced,hours) Parse 14 +------MOD_ATT:N-N-----+-----------SUBJ:V_PASS-N-----------+ +----------COMP_in:N-N----------+ | +--MOD_ATT:N-N--+--------APPOS--------+ | +-----COMP_of:N-N----+ | | | +MOD_AT+--APPOS--+ | +----COMP_during:V_PASS-N----+ +MOD_ATT:N+ | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . COMP_of:N-N (hours,formation) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-N (factors,polymerase) COMP_in:N-N (hours,SPXXX) MOD_ATT:N-ADJ (formation,endospore) APPOS (factors,GENEXXX) SUBJ:V_PASS-N (produced,factors) MOD_ATT:N-N (factors,RNA) APPOS (factors,GENEXXX) COMP_during:V_PASS-N (produced,hours) Parse 15 +-----------------------------------------------SUBJ:V-N-----------------------------------------------+ +-------------------------OBJ:V-N------------------------+ | | +-----------SUBJ:V_PASS-N-----------+ | | +--------APPOS--------+ | | +-----COMP_in:V-N----+ | +MOD_AT+MOD_ATT:+MOD_AT+--APPOS--+ | | +----COMP_during:V_PASS-N----+MOD+ +-OBJ:V-N-+ | | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . OBJ:V-N (are,Two) COMP_in:V-N (endospore,SPXXX) COMP_during:V_PASS-N (produced,hours) OBJ:V-N (endospore,formation) MOD_ATT:N-N (factors,sigma) SUBJ:V_PASS-N (produced,factors) MOD_ATT:N-N (sigma,polymerase) APPOS (factors,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_POST:N-ADJ (hours,of) SUBJ:V-N (endospore,Two) APPOS (factors,GENEXXX) Parse 16 +-----------------------------------------------SUBJ:V-N-----------------------------------------------+ +-------------------------OBJ:V-N------------------------+ | | +-----------SUBJ:V_PASS-N-----------+ | | +--MOD_ATT:N-N--+--------APPOS--------+ | | +-----COMP_in:V-N----+ | +MOD_AT+ +MOD_AT+--APPOS--+ | | +----COMP_during:V_PASS-N----+MOD+ +-OBJ:V-N-+ | | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . OBJ:V-N (are,Two) COMP_in:V-N (endospore,SPXXX) COMP_during:V_PASS-N (produced,hours) OBJ:V-N (endospore,formation) MOD_ATT:N-N (factors,sigma) SUBJ:V_PASS-N (produced,factors) MOD_ATT:N-N (factors,polymerase) APPOS (factors,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_POST:N-ADJ (hours,of) SUBJ:V-N (endospore,Two) APPOS (factors,GENEXXX) Parse 17 +-----------------------------------------------SUBJ:V-N-----------------------------------------------+ +-------------------------OBJ:V-N------------------------+ | | +-----------SUBJ:V_PASS-N-----------+ | | +--MOD_ATT:N-N--+ +--------APPOS--------+ | | +-----COMP_in:V-N----+ | | +MOD_ATT:+MOD_AT+--APPOS--+ | | +----COMP_during:V_PASS-N----+MOD+ +-OBJ:V-N-+ | | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . MOD_ATT:N-N (sigma,RNA) OBJ:V-N (are,Two) COMP_in:V-N (endospore,SPXXX) COMP_during:V_PASS-N (produced,hours) OBJ:V-N (endospore,formation) MOD_ATT:N-N (factors,sigma) SUBJ:V_PASS-N (produced,factors) MOD_ATT:N-N (sigma,polymerase) APPOS (factors,GENEXXX) MOD_POST:N-ADJ (hours,of) SUBJ:V-N (endospore,Two) APPOS (factors,GENEXXX) Parse 18 +-----------------------------------------------SUBJ:V-N-----------------------------------------------+ +-------------------------OBJ:V-N------------------------+ | | +-----------SUBJ:V_PASS-N-----------+ | | +------MOD_ATT:N-N-----+--------APPOS--------+ | | +-----COMP_in:V-N----+ | | +MOD_ATT:+MOD_AT+--APPOS--+ | | +----COMP_during:V_PASS-N----+MOD+ +-OBJ:V-N-+ | | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . OBJ:V-N (are,Two) COMP_in:V-N (endospore,SPXXX) COMP_during:V_PASS-N (produced,hours) OBJ:V-N (endospore,formation) MOD_ATT:N-N (factors,sigma) SUBJ:V_PASS-N (produced,factors) MOD_ATT:N-N (sigma,polymerase) APPOS (factors,GENEXXX) MOD_POST:N-ADJ (hours,of) MOD_ATT:N-N (factors,RNA) SUBJ:V-N (endospore,Two) APPOS (factors,GENEXXX) Parse 19 +-----------------------------------------------SUBJ:V-N-----------------------------------------------+ +-------------------------OBJ:V-N------------------------+ | | +------MOD_ATT:N-N-----+-----------SUBJ:V_PASS-N-----------+ | | | +--MOD_ATT:N-N--+--------APPOS--------+ | | +-----COMP_in:V-N----+ | | | +MOD_AT+--APPOS--+ | | +----COMP_during:V_PASS-N----+MOD+ +-OBJ:V-N-+ | | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . OBJ:V-N (are,Two) COMP_in:V-N (endospore,SPXXX) COMP_during:V_PASS-N (produced,hours) OBJ:V-N (endospore,formation) MOD_ATT:N-N (factors,sigma) SUBJ:V_PASS-N (produced,factors) MOD_ATT:N-N (factors,polymerase) APPOS (factors,GENEXXX) MOD_POST:N-ADJ (hours,of) MOD_ATT:N-N (factors,RNA) SUBJ:V-N (endospore,Two) APPOS (factors,GENEXXX) Parse 20 +-----------------------------------------------SUBJ:V-N-----------------------------------------------+ +-------------------------OBJ:V-N------------------------+ | | +-----------SUBJ:V_PASS-N-----------+ | | +--------APPOS--------+ | | | | +MOD_AT+MOD_ATT:+MOD_AT+--APPOS--+ | | +----COMP_during:V_PASS-N----+MOD+ +-OBJ:V-N-+COMP_in:N-+ | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . OBJ:V-N (are,Two) COMP_during:V_PASS-N (produced,hours) OBJ:V-N (endospore,formation) MOD_ATT:N-N (factors,sigma) SUBJ:V_PASS-N (produced,factors) COMP_in:N-N (formation,SPXXX) MOD_ATT:N-N (sigma,polymerase) APPOS (factors,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_POST:N-ADJ (hours,of) SUBJ:V-N (endospore,Two) APPOS (factors,GENEXXX) Parse 21 +-----------------------------------------------SUBJ:V-N-----------------------------------------------+ +-------------------------OBJ:V-N------------------------+ | | +-----------SUBJ:V_PASS-N-----------+ | | +--MOD_ATT:N-N--+--------APPOS--------+ | | | | +MOD_AT+ +MOD_AT+--APPOS--+ | | +----COMP_during:V_PASS-N----+MOD+ +-OBJ:V-N-+COMP_in:N-+ | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . OBJ:V-N (are,Two) COMP_during:V_PASS-N (produced,hours) OBJ:V-N (endospore,formation) MOD_ATT:N-N (factors,sigma) SUBJ:V_PASS-N (produced,factors) MOD_ATT:N-N (factors,polymerase) COMP_in:N-N (formation,SPXXX) APPOS (factors,GENEXXX) MOD_ATT:N-N (polymerase,RNA) MOD_POST:N-ADJ (hours,of) SUBJ:V-N (endospore,Two) APPOS (factors,GENEXXX) Parse 22 +-----------------------------------------------SUBJ:V-N-----------------------------------------------+ +-------------------------OBJ:V-N------------------------+ | | +-----------SUBJ:V_PASS-N-----------+ | | +--MOD_ATT:N-N--+ +--------APPOS--------+ | | | | | +MOD_ATT:+MOD_AT+--APPOS--+ | | +----COMP_during:V_PASS-N----+MOD+ +-OBJ:V-N-+COMP_in:N-+ | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . MOD_ATT:N-N (sigma,RNA) OBJ:V-N (are,Two) COMP_during:V_PASS-N (produced,hours) OBJ:V-N (endospore,formation) MOD_ATT:N-N (factors,sigma) SUBJ:V_PASS-N (produced,factors) COMP_in:N-N (formation,SPXXX) MOD_ATT:N-N (sigma,polymerase) APPOS (factors,GENEXXX) MOD_POST:N-ADJ (hours,of) SUBJ:V-N (endospore,Two) APPOS (factors,GENEXXX) Parse 23 +-----------------------------------------------SUBJ:V-N-----------------------------------------------+ +-------------------------OBJ:V-N------------------------+ | | +-----------SUBJ:V_PASS-N-----------+ | | +------MOD_ATT:N-N-----+--------APPOS--------+ | | | | | +MOD_ATT:+MOD_AT+--APPOS--+ | | +----COMP_during:V_PASS-N----+MOD+ +-OBJ:V-N-+COMP_in:N-+ | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . OBJ:V-N (are,Two) COMP_during:V_PASS-N (produced,hours) OBJ:V-N (endospore,formation) MOD_ATT:N-N (factors,sigma) SUBJ:V_PASS-N (produced,factors) COMP_in:N-N (formation,SPXXX) MOD_ATT:N-N (sigma,polymerase) APPOS (factors,GENEXXX) MOD_POST:N-ADJ (hours,of) MOD_ATT:N-N (factors,RNA) SUBJ:V-N (endospore,Two) APPOS (factors,GENEXXX) Parse 24 +-----------------------------------------------SUBJ:V-N-----------------------------------------------+ +-------------------------OBJ:V-N------------------------+ | | +------MOD_ATT:N-N-----+-----------SUBJ:V_PASS-N-----------+ | | | +--MOD_ATT:N-N--+--------APPOS--------+ | | | | | | +MOD_AT+--APPOS--+ | | +----COMP_during:V_PASS-N----+MOD+ +-OBJ:V-N-+COMP_in:N-+ | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . OBJ:V-N (are,Two) COMP_during:V_PASS-N (produced,hours) OBJ:V-N (endospore,formation) MOD_ATT:N-N (factors,sigma) SUBJ:V_PASS-N (produced,factors) MOD_ATT:N-N (factors,polymerase) COMP_in:N-N (formation,SPXXX) APPOS (factors,GENEXXX) MOD_POST:N-ADJ (hours,of) MOD_ATT:N-N (factors,RNA) SUBJ:V-N (endospore,Two) APPOS (factors,GENEXXX) Parse 25 +---------------------------SUBJ:V-N---------------------------+ +-------------------------OBJ:V-N------------------------+ | | +-----------SUBJ:V-N----------+ +-------------------------COMP_in:V-N------------------------+ | +--------APPOS--------+ | +-----------OBJ:V-N----------+-----COMP_of:N-N----+ | | +MOD_AT+MOD_ATT:+MOD_AT+--APPOS--+ | | +--COMP_during:V-N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . SUBJ:V-N (produced,Two) OBJ:V-N (are,Two) COMP_in:V-N (produced,SPXXX) SUBJ:V-N (are,factors) COMP_during:V-N (produced,first) MOD_ATT:N-N (factors,sigma) OBJ:V-N (produced,hours) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-ADJ (formation,endospore) APPOS (factors,GENEXXX) MOD_ATT:N-N (polymerase,RNA) APPOS (factors,GENEXXX) COMP_of:N-N (hours,formation) Parse 26 +---------------------------SUBJ:V-N---------------------------+ +-------------------------OBJ:V-N------------------------+ | | +-----------SUBJ:V-N----------+ +-------------------------COMP_in:V-N------------------------+ | +--MOD_ATT:N-N--+--------APPOS--------+ | +-----------OBJ:V-N----------+-----COMP_of:N-N----+ | | +MOD_AT+ +MOD_AT+--APPOS--+ | | +--COMP_during:V-N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . SUBJ:V-N (produced,Two) OBJ:V-N (are,Two) COMP_in:V-N (produced,SPXXX) SUBJ:V-N (are,factors) COMP_during:V-N (produced,first) MOD_ATT:N-N (factors,sigma) OBJ:V-N (produced,hours) MOD_ATT:N-N (factors,polymerase) MOD_ATT:N-ADJ (formation,endospore) APPOS (factors,GENEXXX) MOD_ATT:N-N (polymerase,RNA) APPOS (factors,GENEXXX) COMP_of:N-N (hours,formation) Parse 27 +---------------------------SUBJ:V-N---------------------------+ +-------------------------OBJ:V-N------------------------+ | | +-----------SUBJ:V-N----------+ +-------------------------COMP_in:V-N------------------------+ | +--MOD_ATT:N-N--+ +--------APPOS--------+ | +-----------OBJ:V-N----------+-----COMP_of:N-N----+ | | | +MOD_ATT:+MOD_AT+--APPOS--+ | | +--COMP_during:V-N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . SUBJ:V-N (produced,Two) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (are,Two) COMP_in:V-N (produced,SPXXX) SUBJ:V-N (are,factors) COMP_during:V-N (produced,first) MOD_ATT:N-N (factors,sigma) OBJ:V-N (produced,hours) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-ADJ (formation,endospore) APPOS (factors,GENEXXX) APPOS (factors,GENEXXX) COMP_of:N-N (hours,formation) Parse 28 +---------------------------SUBJ:V-N---------------------------+ +-------------------------OBJ:V-N------------------------+ | | +-----------SUBJ:V-N----------+ +-------------------------COMP_in:V-N------------------------+ | +------MOD_ATT:N-N-----+--------APPOS--------+ | +-----------OBJ:V-N----------+-----COMP_of:N-N----+ | | | +MOD_ATT:+MOD_AT+--APPOS--+ | | +--COMP_during:V-N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . SUBJ:V-N (produced,Two) OBJ:V-N (are,Two) COMP_in:V-N (produced,SPXXX) SUBJ:V-N (are,factors) COMP_during:V-N (produced,first) MOD_ATT:N-N (factors,sigma) OBJ:V-N (produced,hours) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-ADJ (formation,endospore) APPOS (factors,GENEXXX) MOD_ATT:N-N (factors,RNA) APPOS (factors,GENEXXX) COMP_of:N-N (hours,formation) Parse 29 +---------------------------SUBJ:V-N---------------------------+ +-------------------------OBJ:V-N------------------------+ | | +-----------SUBJ:V-N----------+ +-------------------------COMP_in:V-N------------------------+ | +--------APPOS--------+ | +-----------OBJ:V-N----------+-----COMP_of:N-N----+ | | +MOD_AT+MOD_ATT:+MOD_AT+--APPOS--+ | | +----COMP_during:V-N----+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . SUBJ:V-N (produced,Two) OBJ:V-N (are,Two) COMP_in:V-N (produced,SPXXX) SUBJ:V-N (are,factors) MOD_ATT:N-N (factors,sigma) OBJ:V-N (produced,hours) COMP_during:V-N (produced,two) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-ADJ (formation,endospore) APPOS (factors,GENEXXX) MOD_ATT:N-N (polymerase,RNA) APPOS (factors,GENEXXX) COMP_of:N-N (hours,formation) Parse 30 +---------------------------SUBJ:V-N---------------------------+ +-------------------------OBJ:V-N------------------------+ | | +------MOD_ATT:N-N-----+-----------SUBJ:V-N----------+ +-------------------------COMP_in:V-N------------------------+ | | +--MOD_ATT:N-N--+--------APPOS--------+ | +-----------OBJ:V-N----------+-----COMP_of:N-N----+ | | | | +MOD_AT+--APPOS--+ | | +--COMP_during:V-N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . SUBJ:V-N (produced,Two) OBJ:V-N (are,Two) COMP_in:V-N (produced,SPXXX) SUBJ:V-N (are,factors) COMP_during:V-N (produced,first) MOD_ATT:N-N (factors,sigma) OBJ:V-N (produced,hours) MOD_ATT:N-N (factors,polymerase) MOD_ATT:N-ADJ (formation,endospore) APPOS (factors,GENEXXX) MOD_ATT:N-N (factors,RNA) APPOS (factors,GENEXXX) COMP_of:N-N (hours,formation) Parse 31 +---------------------------SUBJ:V-N---------------------------+ +-------------------------OBJ:V-N------------------------+ | | +-----------SUBJ:V-N----------+ +-------------------------COMP_in:V-N------------------------+ | +--MOD_ATT:N-N--+--------APPOS--------+ | +-----------OBJ:V-N----------+-----COMP_of:N-N----+ | | +MOD_AT+ +MOD_AT+--APPOS--+ | | +----COMP_during:V-N----+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . SUBJ:V-N (produced,Two) OBJ:V-N (are,Two) COMP_in:V-N (produced,SPXXX) SUBJ:V-N (are,factors) MOD_ATT:N-N (factors,sigma) OBJ:V-N (produced,hours) MOD_ATT:N-N (factors,polymerase) COMP_during:V-N (produced,two) MOD_ATT:N-ADJ (formation,endospore) APPOS (factors,GENEXXX) MOD_ATT:N-N (polymerase,RNA) APPOS (factors,GENEXXX) COMP_of:N-N (hours,formation) Parse 32 +---------------------------SUBJ:V-N---------------------------+ +-------------------------OBJ:V-N------------------------+ | | +-----------SUBJ:V-N----------+ +-------------------------COMP_in:V-N------------------------+ | +--MOD_ATT:N-N--+ +--------APPOS--------+ | +-----------OBJ:V-N----------+-----COMP_of:N-N----+ | | | +MOD_ATT:+MOD_AT+--APPOS--+ | | +----COMP_during:V-N----+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . SUBJ:V-N (produced,Two) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (are,Two) COMP_in:V-N (produced,SPXXX) SUBJ:V-N (are,factors) MOD_ATT:N-N (factors,sigma) OBJ:V-N (produced,hours) COMP_during:V-N (produced,two) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-ADJ (formation,endospore) APPOS (factors,GENEXXX) APPOS (factors,GENEXXX) COMP_of:N-N (hours,formation) Parse 33 +---------------------------SUBJ:V-N---------------------------+ +-------------------------OBJ:V-N------------------------+ | | +-----------SUBJ:V-N----------+ +-------------------------COMP_in:V-N------------------------+ | +------MOD_ATT:N-N-----+--------APPOS--------+ | +-----------OBJ:V-N----------+-----COMP_of:N-N----+ | | | +MOD_ATT:+MOD_AT+--APPOS--+ | | +----COMP_during:V-N----+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . SUBJ:V-N (produced,Two) OBJ:V-N (are,Two) COMP_in:V-N (produced,SPXXX) SUBJ:V-N (are,factors) MOD_ATT:N-N (factors,sigma) OBJ:V-N (produced,hours) COMP_during:V-N (produced,two) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-ADJ (formation,endospore) APPOS (factors,GENEXXX) MOD_ATT:N-N (factors,RNA) APPOS (factors,GENEXXX) COMP_of:N-N (hours,formation) Parse 34 +---------------------------SUBJ:V-N---------------------------+ +-------------------------OBJ:V-N------------------------+ | | +------MOD_ATT:N-N-----+-----------SUBJ:V-N----------+ +-------------------------COMP_in:V-N------------------------+ | | +--MOD_ATT:N-N--+--------APPOS--------+ | +-----------OBJ:V-N----------+-----COMP_of:N-N----+ | | | | +MOD_AT+--APPOS--+ | | +----COMP_during:V-N----+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . SUBJ:V-N (produced,Two) OBJ:V-N (are,Two) COMP_in:V-N (produced,SPXXX) SUBJ:V-N (are,factors) MOD_ATT:N-N (factors,sigma) OBJ:V-N (produced,hours) MOD_ATT:N-N (factors,polymerase) COMP_during:V-N (produced,two) MOD_ATT:N-ADJ (formation,endospore) APPOS (factors,GENEXXX) MOD_ATT:N-N (factors,RNA) APPOS (factors,GENEXXX) COMP_of:N-N (hours,formation) Parse 35 +---------------------------SUBJ:V-N---------------------------+ +-------------------------OBJ:V-N------------------------+ | | +-----------SUBJ:V-N----------+ +-------------------------COMP_in:V-N------------------------+ | +--------APPOS--------+ | +---------------------OBJ:V-N---------------------+ | | +MOD_AT+MOD_ATT:+MOD_AT+--APPOS--+ | | +-------COMP_during:V-N------+COMP_of:N-+ | | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . COMP_during:V-N (produced,hours) SUBJ:V-N (produced,Two) OBJ:V-N (are,Two) COMP_in:V-N (produced,SPXXX) SUBJ:V-N (are,factors) MOD_ATT:N-N (factors,sigma) OBJ:V-N (produced,formation) MOD_ATT:N-N (sigma,polymerase) APPOS (factors,GENEXXX) COMP_of:N-N (hours,endospore) MOD_ATT:N-N (polymerase,RNA) APPOS (factors,GENEXXX) Parse 36 +---------------------------SUBJ:V-N---------------------------+ +-------------------------OBJ:V-N------------------------+ | | +-----------SUBJ:V-N----------+ +-------------------------COMP_in:V-N------------------------+ | +--MOD_ATT:N-N--+--------APPOS--------+ | +---------------------OBJ:V-N---------------------+ | | +MOD_AT+ +MOD_AT+--APPOS--+ | | +-------COMP_during:V-N------+COMP_of:N-+ | | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . COMP_during:V-N (produced,hours) SUBJ:V-N (produced,Two) OBJ:V-N (are,Two) COMP_in:V-N (produced,SPXXX) SUBJ:V-N (are,factors) MOD_ATT:N-N (factors,sigma) OBJ:V-N (produced,formation) MOD_ATT:N-N (factors,polymerase) APPOS (factors,GENEXXX) COMP_of:N-N (hours,endospore) MOD_ATT:N-N (polymerase,RNA) APPOS (factors,GENEXXX) Parse 37 +---------------------------SUBJ:V-N---------------------------+ +-------------------------OBJ:V-N------------------------+ | | +-----------SUBJ:V-N----------+ +-------------------------COMP_in:V-N------------------------+ | +--MOD_ATT:N-N--+ +--------APPOS--------+ | +---------------------OBJ:V-N---------------------+ | | | +MOD_ATT:+MOD_AT+--APPOS--+ | | +-------COMP_during:V-N------+COMP_of:N-+ | | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . COMP_during:V-N (produced,hours) SUBJ:V-N (produced,Two) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (are,Two) COMP_in:V-N (produced,SPXXX) SUBJ:V-N (are,factors) MOD_ATT:N-N (factors,sigma) OBJ:V-N (produced,formation) MOD_ATT:N-N (sigma,polymerase) APPOS (factors,GENEXXX) COMP_of:N-N (hours,endospore) APPOS (factors,GENEXXX) Parse 38 +---------------------------SUBJ:V-N---------------------------+ +-------------------------OBJ:V-N------------------------+ | | +-----------SUBJ:V-N----------+ +-------------------------COMP_in:V-N------------------------+ | +------MOD_ATT:N-N-----+--------APPOS--------+ | +---------------------OBJ:V-N---------------------+ | | | +MOD_ATT:+MOD_AT+--APPOS--+ | | +-------COMP_during:V-N------+COMP_of:N-+ | | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . COMP_during:V-N (produced,hours) SUBJ:V-N (produced,Two) OBJ:V-N (are,Two) COMP_in:V-N (produced,SPXXX) SUBJ:V-N (are,factors) MOD_ATT:N-N (factors,sigma) OBJ:V-N (produced,formation) MOD_ATT:N-N (sigma,polymerase) APPOS (factors,GENEXXX) COMP_of:N-N (hours,endospore) MOD_ATT:N-N (factors,RNA) APPOS (factors,GENEXXX) Parse 39 +---------------------------SUBJ:V-N---------------------------+ +-------------------------OBJ:V-N------------------------+ | | +------MOD_ATT:N-N-----+-----------SUBJ:V-N----------+ +-------------------------COMP_in:V-N------------------------+ | | +--MOD_ATT:N-N--+--------APPOS--------+ | +---------------------OBJ:V-N---------------------+ | | | | +MOD_AT+--APPOS--+ | | +-------COMP_during:V-N------+COMP_of:N-+ | | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . COMP_during:V-N (produced,hours) SUBJ:V-N (produced,Two) OBJ:V-N (are,Two) COMP_in:V-N (produced,SPXXX) SUBJ:V-N (are,factors) MOD_ATT:N-N (factors,sigma) OBJ:V-N (produced,formation) MOD_ATT:N-N (factors,polymerase) APPOS (factors,GENEXXX) COMP_of:N-N (hours,endospore) MOD_ATT:N-N (factors,RNA) APPOS (factors,GENEXXX) Parse 40 +---------------------------SUBJ:V-N---------------------------+ +-------------------------OBJ:V-N------------------------+ | | +-----------SUBJ:V-N----------+ | | +--------APPOS--------+ | +-----------OBJ:V-N----------+-----COMP_of:N-N----+ | +MOD_AT+MOD_ATT:+MOD_AT+--APPOS--+ | | +--COMP_during:V-N-+ | +MOD_ATT:N+COMP_in:N-+ | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . SUBJ:V-N (produced,Two) OBJ:V-N (are,Two) SUBJ:V-N (are,factors) COMP_during:V-N (produced,first) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-ADJ (formation,endospore) OBJ:V-N (produced,hours) COMP_in:N-N (formation,SPXXX) MOD_ATT:N-N (sigma,polymerase) APPOS (factors,GENEXXX) MOD_ATT:N-N (polymerase,RNA) APPOS (factors,GENEXXX) COMP_of:N-N (hours,formation) Parse 41 +---------------------------SUBJ:V-N---------------------------+ +-------------------------OBJ:V-N------------------------+ | | +-----------SUBJ:V-N----------+ | | +--MOD_ATT:N-N--+--------APPOS--------+ | +-----------OBJ:V-N----------+-----COMP_of:N-N----+ | +MOD_AT+ +MOD_AT+--APPOS--+ | | +--COMP_during:V-N-+ | +MOD_ATT:N+COMP_in:N-+ | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . SUBJ:V-N (produced,Two) OBJ:V-N (are,Two) SUBJ:V-N (are,factors) COMP_during:V-N (produced,first) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-ADJ (formation,endospore) OBJ:V-N (produced,hours) MOD_ATT:N-N (factors,polymerase) COMP_in:N-N (formation,SPXXX) APPOS (factors,GENEXXX) MOD_ATT:N-N (polymerase,RNA) APPOS (factors,GENEXXX) COMP_of:N-N (hours,formation) Parse 42 +---------------------------SUBJ:V-N---------------------------+ +-------------------------OBJ:V-N------------------------+ | | +-----------SUBJ:V-N----------+ | | +--MOD_ATT:N-N--+ +--------APPOS--------+ | +-----------OBJ:V-N----------+-----COMP_of:N-N----+ | | +MOD_ATT:+MOD_AT+--APPOS--+ | | +--COMP_during:V-N-+ | +MOD_ATT:N+COMP_in:N-+ | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . SUBJ:V-N (produced,Two) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (are,Two) SUBJ:V-N (are,factors) COMP_during:V-N (produced,first) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-ADJ (formation,endospore) OBJ:V-N (produced,hours) COMP_in:N-N (formation,SPXXX) MOD_ATT:N-N (sigma,polymerase) APPOS (factors,GENEXXX) APPOS (factors,GENEXXX) COMP_of:N-N (hours,formation) Parse 43 +---------------------------SUBJ:V-N---------------------------+ +-------------------------OBJ:V-N------------------------+ | | +-----------SUBJ:V-N----------+ | | +------MOD_ATT:N-N-----+--------APPOS--------+ | +-----------OBJ:V-N----------+-----COMP_of:N-N----+ | | +MOD_ATT:+MOD_AT+--APPOS--+ | | +--COMP_during:V-N-+ | +MOD_ATT:N+COMP_in:N-+ | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . SUBJ:V-N (produced,Two) OBJ:V-N (are,Two) SUBJ:V-N (are,factors) COMP_during:V-N (produced,first) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-ADJ (formation,endospore) OBJ:V-N (produced,hours) COMP_in:N-N (formation,SPXXX) MOD_ATT:N-N (sigma,polymerase) APPOS (factors,GENEXXX) MOD_ATT:N-N (factors,RNA) APPOS (factors,GENEXXX) COMP_of:N-N (hours,formation) Parse 44 +---------------------------SUBJ:V-N---------------------------+ +-------------------------OBJ:V-N------------------------+ | | +-----------SUBJ:V-N----------+ | | +--------APPOS--------+ | +-----------OBJ:V-N----------+-----COMP_of:N-N----+ | +MOD_AT+MOD_ATT:+MOD_AT+--APPOS--+ | | +----COMP_during:V-N----+ | +MOD_ATT:N+COMP_in:N-+ | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . SUBJ:V-N (produced,Two) OBJ:V-N (are,Two) SUBJ:V-N (are,factors) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-ADJ (formation,endospore) OBJ:V-N (produced,hours) COMP_in:N-N (formation,SPXXX) COMP_during:V-N (produced,two) MOD_ATT:N-N (sigma,polymerase) APPOS (factors,GENEXXX) MOD_ATT:N-N (polymerase,RNA) APPOS (factors,GENEXXX) COMP_of:N-N (hours,formation) Parse 45 +---------------------------SUBJ:V-N---------------------------+ +-------------------------OBJ:V-N------------------------+ | | +------MOD_ATT:N-N-----+-----------SUBJ:V-N----------+ | | | +--MOD_ATT:N-N--+--------APPOS--------+ | +-----------OBJ:V-N----------+-----COMP_of:N-N----+ | | | +MOD_AT+--APPOS--+ | | +--COMP_during:V-N-+ | +MOD_ATT:N+COMP_in:N-+ | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . SUBJ:V-N (produced,Two) OBJ:V-N (are,Two) SUBJ:V-N (are,factors) COMP_during:V-N (produced,first) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-ADJ (formation,endospore) OBJ:V-N (produced,hours) MOD_ATT:N-N (factors,polymerase) COMP_in:N-N (formation,SPXXX) APPOS (factors,GENEXXX) MOD_ATT:N-N (factors,RNA) APPOS (factors,GENEXXX) COMP_of:N-N (hours,formation) Parse 46 +---------------------------SUBJ:V-N---------------------------+ +-------------------------OBJ:V-N------------------------+ | | +-----------SUBJ:V-N----------+ | +----------COMP_in:N-N----------+ | +--------APPOS--------+ | +-----------OBJ:V-N----------+-----COMP_of:N-N----+ | | +MOD_AT+MOD_ATT:+MOD_AT+--APPOS--+ | | +--COMP_during:V-N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . SUBJ:V-N (produced,Two) OBJ:V-N (are,Two) SUBJ:V-N (are,factors) COMP_during:V-N (produced,first) MOD_ATT:N-N (factors,sigma) OBJ:V-N (produced,hours) COMP_in:N-N (hours,SPXXX) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-ADJ (formation,endospore) APPOS (factors,GENEXXX) MOD_ATT:N-N (polymerase,RNA) APPOS (factors,GENEXXX) COMP_of:N-N (hours,formation) Parse 47 +---------------------------SUBJ:V-N---------------------------+ +-------------------------OBJ:V-N------------------------+ | | +-----------SUBJ:V-N----------+ | | +--MOD_ATT:N-N--+--------APPOS--------+ | +-----------OBJ:V-N----------+-----COMP_of:N-N----+ | +MOD_AT+ +MOD_AT+--APPOS--+ | | +----COMP_during:V-N----+ | +MOD_ATT:N+COMP_in:N-+ | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . SUBJ:V-N (produced,Two) OBJ:V-N (are,Two) SUBJ:V-N (are,factors) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-ADJ (formation,endospore) OBJ:V-N (produced,hours) MOD_ATT:N-N (factors,polymerase) COMP_in:N-N (formation,SPXXX) COMP_during:V-N (produced,two) APPOS (factors,GENEXXX) MOD_ATT:N-N (polymerase,RNA) APPOS (factors,GENEXXX) COMP_of:N-N (hours,formation) Parse 48 +---------------------------SUBJ:V-N---------------------------+ +-------------------------OBJ:V-N------------------------+ | | +-----------SUBJ:V-N----------+ | | +--MOD_ATT:N-N--+ +--------APPOS--------+ | +-----------OBJ:V-N----------+-----COMP_of:N-N----+ | | +MOD_ATT:+MOD_AT+--APPOS--+ | | +----COMP_during:V-N----+ | +MOD_ATT:N+COMP_in:N-+ | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . SUBJ:V-N (produced,Two) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (are,Two) SUBJ:V-N (are,factors) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-ADJ (formation,endospore) OBJ:V-N (produced,hours) COMP_in:N-N (formation,SPXXX) COMP_during:V-N (produced,two) MOD_ATT:N-N (sigma,polymerase) APPOS (factors,GENEXXX) APPOS (factors,GENEXXX) COMP_of:N-N (hours,formation) Parse 49 +---------------------------SUBJ:V-N---------------------------+ +-------------------------OBJ:V-N------------------------+ | | +-----------SUBJ:V-N----------+ | +----------COMP_in:N-N----------+ | +--MOD_ATT:N-N--+--------APPOS--------+ | +-----------OBJ:V-N----------+-----COMP_of:N-N----+ | | +MOD_AT+ +MOD_AT+--APPOS--+ | | +--COMP_during:V-N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . SUBJ:V-N (produced,Two) OBJ:V-N (are,Two) SUBJ:V-N (are,factors) COMP_during:V-N (produced,first) MOD_ATT:N-N (factors,sigma) OBJ:V-N (produced,hours) MOD_ATT:N-N (factors,polymerase) COMP_in:N-N (hours,SPXXX) MOD_ATT:N-ADJ (formation,endospore) APPOS (factors,GENEXXX) MOD_ATT:N-N (polymerase,RNA) APPOS (factors,GENEXXX) COMP_of:N-N (hours,formation) Parse 50 +---------------------------SUBJ:V-N---------------------------+ +-------------------------OBJ:V-N------------------------+ | | +-----------SUBJ:V-N----------+ | +----------COMP_in:N-N----------+ | +--MOD_ATT:N-N--+ +--------APPOS--------+ | +-----------OBJ:V-N----------+-----COMP_of:N-N----+ | | | +MOD_ATT:+MOD_AT+--APPOS--+ | | +--COMP_during:V-N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . SUBJ:V-N (produced,Two) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (are,Two) SUBJ:V-N (are,factors) COMP_during:V-N (produced,first) MOD_ATT:N-N (factors,sigma) OBJ:V-N (produced,hours) COMP_in:N-N (hours,SPXXX) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-ADJ (formation,endospore) APPOS (factors,GENEXXX) APPOS (factors,GENEXXX) COMP_of:N-N (hours,formation) Parse 51 +---------------------------SUBJ:V-N---------------------------+ +-------------------------OBJ:V-N------------------------+ | | +-----------SUBJ:V-N----------+ | | +------MOD_ATT:N-N-----+--------APPOS--------+ | +-----------OBJ:V-N----------+-----COMP_of:N-N----+ | | +MOD_ATT:+MOD_AT+--APPOS--+ | | +----COMP_during:V-N----+ | +MOD_ATT:N+COMP_in:N-+ | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . SUBJ:V-N (produced,Two) OBJ:V-N (are,Two) SUBJ:V-N (are,factors) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-ADJ (formation,endospore) OBJ:V-N (produced,hours) COMP_in:N-N (formation,SPXXX) COMP_during:V-N (produced,two) MOD_ATT:N-N (sigma,polymerase) APPOS (factors,GENEXXX) MOD_ATT:N-N (factors,RNA) APPOS (factors,GENEXXX) COMP_of:N-N (hours,formation) Parse 52 +---------------------------SUBJ:V-N---------------------------+ +-------------------------OBJ:V-N------------------------+ | | +-----------SUBJ:V-N----------+ | +----------COMP_in:N-N----------+ | +------MOD_ATT:N-N-----+--------APPOS--------+ | +-----------OBJ:V-N----------+-----COMP_of:N-N----+ | | | +MOD_ATT:+MOD_AT+--APPOS--+ | | +--COMP_during:V-N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . SUBJ:V-N (produced,Two) OBJ:V-N (are,Two) SUBJ:V-N (are,factors) COMP_during:V-N (produced,first) MOD_ATT:N-N (factors,sigma) OBJ:V-N (produced,hours) COMP_in:N-N (hours,SPXXX) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-ADJ (formation,endospore) APPOS (factors,GENEXXX) MOD_ATT:N-N (factors,RNA) APPOS (factors,GENEXXX) COMP_of:N-N (hours,formation) Parse 53 +---------------------------SUBJ:V-N---------------------------+ +-------------------------OBJ:V-N------------------------+ | | +------MOD_ATT:N-N-----+-----------SUBJ:V-N----------+ | | | +--MOD_ATT:N-N--+--------APPOS--------+ | +-----------OBJ:V-N----------+-----COMP_of:N-N----+ | | | +MOD_AT+--APPOS--+ | | +----COMP_during:V-N----+ | +MOD_ATT:N+COMP_in:N-+ | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . SUBJ:V-N (produced,Two) OBJ:V-N (are,Two) SUBJ:V-N (are,factors) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-ADJ (formation,endospore) OBJ:V-N (produced,hours) MOD_ATT:N-N (factors,polymerase) COMP_in:N-N (formation,SPXXX) COMP_during:V-N (produced,two) APPOS (factors,GENEXXX) MOD_ATT:N-N (factors,RNA) APPOS (factors,GENEXXX) COMP_of:N-N (hours,formation) Parse 54 +---------------------------SUBJ:V-N---------------------------+ +-------------------------OBJ:V-N------------------------+ | | +-----------SUBJ:V-N----------+ | +----------COMP_in:N-N----------+ | +--------APPOS--------+ | +-----------OBJ:V-N----------+-----COMP_of:N-N----+ | | +MOD_AT+MOD_ATT:+MOD_AT+--APPOS--+ | | +----COMP_during:V-N----+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . SUBJ:V-N (produced,Two) OBJ:V-N (are,Two) SUBJ:V-N (are,factors) MOD_ATT:N-N (factors,sigma) OBJ:V-N (produced,hours) COMP_in:N-N (hours,SPXXX) COMP_during:V-N (produced,two) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-ADJ (formation,endospore) APPOS (factors,GENEXXX) MOD_ATT:N-N (polymerase,RNA) APPOS (factors,GENEXXX) COMP_of:N-N (hours,formation) Parse 55 +---------------------------SUBJ:V-N---------------------------+ +-------------------------OBJ:V-N------------------------+ | | +-----------SUBJ:V-N----------+ | | +--------APPOS--------+ | +---------------------OBJ:V-N---------------------+ | +MOD_AT+MOD_ATT:+MOD_AT+--APPOS--+ | | +-------COMP_during:V-N------+COMP_of:N-+ +COMP_in:N-+ | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . COMP_during:V-N (produced,hours) SUBJ:V-N (produced,Two) OBJ:V-N (are,Two) SUBJ:V-N (are,factors) MOD_ATT:N-N (factors,sigma) OBJ:V-N (produced,formation) COMP_in:N-N (formation,SPXXX) MOD_ATT:N-N (sigma,polymerase) APPOS (factors,GENEXXX) MOD_ATT:N-N (polymerase,RNA) APPOS (factors,GENEXXX) COMP_of:N-N (hours,endospore) Parse 56 +---------------------------SUBJ:V-N---------------------------+ +-------------------------OBJ:V-N------------------------+ | | +------MOD_ATT:N-N-----+-----------SUBJ:V-N----------+ | +----------COMP_in:N-N----------+ | | +--MOD_ATT:N-N--+--------APPOS--------+ | +-----------OBJ:V-N----------+-----COMP_of:N-N----+ | | | | +MOD_AT+--APPOS--+ | | +--COMP_during:V-N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . SUBJ:V-N (produced,Two) OBJ:V-N (are,Two) SUBJ:V-N (are,factors) COMP_during:V-N (produced,first) MOD_ATT:N-N (factors,sigma) OBJ:V-N (produced,hours) MOD_ATT:N-N (factors,polymerase) COMP_in:N-N (hours,SPXXX) MOD_ATT:N-ADJ (formation,endospore) APPOS (factors,GENEXXX) MOD_ATT:N-N (factors,RNA) APPOS (factors,GENEXXX) COMP_of:N-N (hours,formation) Parse 57 +---------------------------SUBJ:V-N---------------------------+ +-------------------------OBJ:V-N------------------------+ | | +-----------SUBJ:V-N----------+ | +----------COMP_in:N-N----------+ | +--MOD_ATT:N-N--+--------APPOS--------+ | +-----------OBJ:V-N----------+-----COMP_of:N-N----+ | | +MOD_AT+ +MOD_AT+--APPOS--+ | | +----COMP_during:V-N----+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . SUBJ:V-N (produced,Two) OBJ:V-N (are,Two) SUBJ:V-N (are,factors) MOD_ATT:N-N (factors,sigma) OBJ:V-N (produced,hours) MOD_ATT:N-N (factors,polymerase) COMP_in:N-N (hours,SPXXX) COMP_during:V-N (produced,two) MOD_ATT:N-ADJ (formation,endospore) APPOS (factors,GENEXXX) MOD_ATT:N-N (polymerase,RNA) APPOS (factors,GENEXXX) COMP_of:N-N (hours,formation) Parse 58 +---------------------------SUBJ:V-N---------------------------+ +-------------------------OBJ:V-N------------------------+ | | +-----------SUBJ:V-N----------+ | +----------COMP_in:N-N----------+ | +--MOD_ATT:N-N--+ +--------APPOS--------+ | +-----------OBJ:V-N----------+-----COMP_of:N-N----+ | | | +MOD_ATT:+MOD_AT+--APPOS--+ | | +----COMP_during:V-N----+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . SUBJ:V-N (produced,Two) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (are,Two) SUBJ:V-N (are,factors) MOD_ATT:N-N (factors,sigma) OBJ:V-N (produced,hours) COMP_in:N-N (hours,SPXXX) COMP_during:V-N (produced,two) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-ADJ (formation,endospore) APPOS (factors,GENEXXX) APPOS (factors,GENEXXX) COMP_of:N-N (hours,formation) Parse 59 +---------------------------SUBJ:V-N---------------------------+ +-------------------------OBJ:V-N------------------------+ | | +-----------SUBJ:V-N----------+ | | +--MOD_ATT:N-N--+--------APPOS--------+ | +---------------------OBJ:V-N---------------------+ | +MOD_AT+ +MOD_AT+--APPOS--+ | | +-------COMP_during:V-N------+COMP_of:N-+ +COMP_in:N-+ | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . COMP_during:V-N (produced,hours) SUBJ:V-N (produced,Two) OBJ:V-N (are,Two) SUBJ:V-N (are,factors) MOD_ATT:N-N (factors,sigma) OBJ:V-N (produced,formation) MOD_ATT:N-N (factors,polymerase) COMP_in:N-N (formation,SPXXX) APPOS (factors,GENEXXX) MOD_ATT:N-N (polymerase,RNA) APPOS (factors,GENEXXX) COMP_of:N-N (hours,endospore) Parse 60 +---------------------------SUBJ:V-N---------------------------+ +-------------------------OBJ:V-N------------------------+ | | +-----------SUBJ:V-N----------+ | | +--MOD_ATT:N-N--+ +--------APPOS--------+ | +---------------------OBJ:V-N---------------------+ | | +MOD_ATT:+MOD_AT+--APPOS--+ | | +-------COMP_during:V-N------+COMP_of:N-+ +COMP_in:N-+ | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . COMP_during:V-N (produced,hours) SUBJ:V-N (produced,Two) MOD_ATT:N-N (sigma,RNA) OBJ:V-N (are,Two) SUBJ:V-N (are,factors) MOD_ATT:N-N (factors,sigma) OBJ:V-N (produced,formation) COMP_in:N-N (formation,SPXXX) MOD_ATT:N-N (sigma,polymerase) APPOS (factors,GENEXXX) APPOS (factors,GENEXXX) COMP_of:N-N (hours,endospore) Parse 61 +---------------------------SUBJ:V-N---------------------------+ +-------------------------OBJ:V-N------------------------+ | | +-----------SUBJ:V-N----------+ | +----------COMP_in:N-N----------+ | +------MOD_ATT:N-N-----+--------APPOS--------+ | +-----------OBJ:V-N----------+-----COMP_of:N-N----+ | | | +MOD_ATT:+MOD_AT+--APPOS--+ | | +----COMP_during:V-N----+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . SUBJ:V-N (produced,Two) OBJ:V-N (are,Two) SUBJ:V-N (are,factors) MOD_ATT:N-N (factors,sigma) OBJ:V-N (produced,hours) COMP_in:N-N (hours,SPXXX) COMP_during:V-N (produced,two) MOD_ATT:N-N (sigma,polymerase) MOD_ATT:N-ADJ (formation,endospore) APPOS (factors,GENEXXX) MOD_ATT:N-N (factors,RNA) APPOS (factors,GENEXXX) COMP_of:N-N (hours,formation) Parse 62 +---------------------------SUBJ:V-N---------------------------+ +-------------------------OBJ:V-N------------------------+ | | +-----------SUBJ:V-N----------+ | | +------MOD_ATT:N-N-----+--------APPOS--------+ | +---------------------OBJ:V-N---------------------+ | | +MOD_ATT:+MOD_AT+--APPOS--+ | | +-------COMP_during:V-N------+COMP_of:N-+ +COMP_in:N-+ | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . COMP_during:V-N (produced,hours) SUBJ:V-N (produced,Two) OBJ:V-N (are,Two) SUBJ:V-N (are,factors) MOD_ATT:N-N (factors,sigma) OBJ:V-N (produced,formation) COMP_in:N-N (formation,SPXXX) MOD_ATT:N-N (sigma,polymerase) APPOS (factors,GENEXXX) MOD_ATT:N-N (factors,RNA) APPOS (factors,GENEXXX) COMP_of:N-N (hours,endospore) Parse 63 +---------------------------SUBJ:V-N---------------------------+ +-------------------------OBJ:V-N------------------------+ | | +------MOD_ATT:N-N-----+-----------SUBJ:V-N----------+ | +----------COMP_in:N-N----------+ | | +--MOD_ATT:N-N--+--------APPOS--------+ | +-----------OBJ:V-N----------+-----COMP_of:N-N----+ | | | | +MOD_AT+--APPOS--+ | | +----COMP_during:V-N----+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . SUBJ:V-N (produced,Two) OBJ:V-N (are,Two) SUBJ:V-N (are,factors) MOD_ATT:N-N (factors,sigma) OBJ:V-N (produced,hours) MOD_ATT:N-N (factors,polymerase) COMP_in:N-N (hours,SPXXX) COMP_during:V-N (produced,two) MOD_ATT:N-ADJ (formation,endospore) APPOS (factors,GENEXXX) MOD_ATT:N-N (factors,RNA) APPOS (factors,GENEXXX) COMP_of:N-N (hours,formation) Parse 64 +---------------------------SUBJ:V-N---------------------------+ +-------------------------OBJ:V-N------------------------+ | | +------MOD_ATT:N-N-----+-----------SUBJ:V-N----------+ | | | +--MOD_ATT:N-N--+--------APPOS--------+ | +---------------------OBJ:V-N---------------------+ | | | +MOD_AT+--APPOS--+ | | +-------COMP_during:V-N------+COMP_of:N-+ +COMP_in:N-+ | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . COMP_during:V-N (produced,hours) SUBJ:V-N (produced,Two) OBJ:V-N (are,Two) SUBJ:V-N (are,factors) MOD_ATT:N-N (factors,sigma) OBJ:V-N (produced,formation) MOD_ATT:N-N (factors,polymerase) COMP_in:N-N (formation,SPXXX) APPOS (factors,GENEXXX) MOD_ATT:N-N (factors,RNA) APPOS (factors,GENEXXX) COMP_of:N-N (hours,endospore) Parse 65 +-----------------------------------------------SUBJ:V-N-----------------------------------------------+ +----------------------------OBJ:V-N---------------------------+ | | +----------------------SUBJ:V-N---------------------+ | | +-------------------OBJ:V-N-------------------+ | | | | +-----------SUBJ:V-N----------+ | | | | +--------APPOS--------+ | +-----------OBJ:V-N----------+ +-----COMP_in:V-N----+ | +MOD_AT+ +MOD_AT+--APPOS--+ | | +--COMP_during:V-N-+ +MOD+ +-OBJ:V-N-+ | | | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . COMP_in:V-N (endospore,SPXXX) OBJ:V-N (endospore,formation) OBJ:V-N (produced,Two) SUBJ:V-N (are,factors) COMP_during:V-N (produced,first) MOD_ATT:N-N (factors,sigma) OBJ:V-N (produced,hours) APPOS (factors,GENEXXX) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (produced,polymerase) MOD_POST:N-ADJ (hours,of) SUBJ:V-N (endospore,Two) APPOS (factors,GENEXXX) OBJ:V-N (are,polymerase) Parse 66 +-----------------------------------------------SUBJ:V-N-----------------------------------------------+ +----------------------------OBJ:V-N---------------------------+ | | +-------------------------SUBJ:V-N-------------------------+ | | +-----------------------OBJ:V-N----------------------+ | | | | +-----------SUBJ:V-N----------+ | | | | +--------APPOS--------+ | +-----------OBJ:V-N----------+ +-----COMP_in:V-N----+ | | +MOD_ATT:+MOD_AT+--APPOS--+ | | +--COMP_during:V-N-+ +MOD+ +-OBJ:V-N-+ | | | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . COMP_in:V-N (endospore,SPXXX) OBJ:V-N (endospore,formation) OBJ:V-N (are,RNA) OBJ:V-N (produced,Two) SUBJ:V-N (are,factors) COMP_during:V-N (produced,first) MOD_ATT:N-N (factors,sigma) OBJ:V-N (produced,hours) MOD_ATT:N-N (sigma,polymerase) APPOS (factors,GENEXXX) MOD_POST:N-ADJ (hours,of) SUBJ:V-N (endospore,Two) APPOS (factors,GENEXXX) SUBJ:V-N (produced,RNA) Parse 67 +-----------------------------------------------SUBJ:V-N-----------------------------------------------+ +----------------------------OBJ:V-N---------------------------+ | | +----------------------SUBJ:V-N---------------------+ | | +-------------------OBJ:V-N-------------------+ | | | | +-----------SUBJ:V-N----------+ | | | | +--------APPOS--------+ | +-----------OBJ:V-N----------+ +-----COMP_in:V-N----+ | +MOD_AT+ +MOD_AT+--APPOS--+ | | +----COMP_during:V-N----+ +MOD+ +-OBJ:V-N-+ | | | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . COMP_in:V-N (endospore,SPXXX) OBJ:V-N (endospore,formation) OBJ:V-N (produced,Two) SUBJ:V-N (are,factors) MOD_ATT:N-N (factors,sigma) OBJ:V-N (produced,hours) COMP_during:V-N (produced,two) APPOS (factors,GENEXXX) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (produced,polymerase) MOD_POST:N-ADJ (hours,of) SUBJ:V-N (endospore,Two) APPOS (factors,GENEXXX) OBJ:V-N (are,polymerase) Parse 68 +-----------------------------------------------SUBJ:V-N-----------------------------------------------+ +----------------------------OBJ:V-N---------------------------+ | | +-------------------------SUBJ:V-N-------------------------+ | | +-----------------------OBJ:V-N----------------------+ | | | | +-----------SUBJ:V-N----------+ | | | | +--MOD_ATT:N-N--+--------APPOS--------+ | +-----------OBJ:V-N----------+ +-----COMP_in:V-N----+ | | | +MOD_AT+--APPOS--+ | | +--COMP_during:V-N-+ +MOD+ +-OBJ:V-N-+ | | | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . COMP_in:V-N (endospore,SPXXX) OBJ:V-N (endospore,formation) OBJ:V-N (are,RNA) OBJ:V-N (produced,Two) SUBJ:V-N (are,factors) COMP_during:V-N (produced,first) MOD_ATT:N-N (factors,sigma) OBJ:V-N (produced,hours) MOD_ATT:N-N (factors,polymerase) APPOS (factors,GENEXXX) MOD_POST:N-ADJ (hours,of) SUBJ:V-N (endospore,Two) APPOS (factors,GENEXXX) SUBJ:V-N (produced,RNA) Parse 69 +-----------------------------------------------SUBJ:V-N-----------------------------------------------+ +----------------------------OBJ:V-N---------------------------+ | | +-------------------------SUBJ:V-N-------------------------+ | | +-----------------------OBJ:V-N----------------------+ | | | | +-----------SUBJ:V-N----------+ | | | | +--------APPOS--------+ | +-----------OBJ:V-N----------+ +-----COMP_in:V-N----+ | | +MOD_ATT:+MOD_AT+--APPOS--+ | | +----COMP_during:V-N----+ +MOD+ +-OBJ:V-N-+ | | | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . COMP_in:V-N (endospore,SPXXX) OBJ:V-N (endospore,formation) OBJ:V-N (are,RNA) OBJ:V-N (produced,Two) SUBJ:V-N (are,factors) MOD_ATT:N-N (factors,sigma) OBJ:V-N (produced,hours) COMP_during:V-N (produced,two) MOD_ATT:N-N (sigma,polymerase) APPOS (factors,GENEXXX) MOD_POST:N-ADJ (hours,of) SUBJ:V-N (endospore,Two) APPOS (factors,GENEXXX) SUBJ:V-N (produced,RNA) Parse 70 +-----------------------------------------------SUBJ:V-N-----------------------------------------------+ +----------------------------OBJ:V-N---------------------------+ | | +-------------------------SUBJ:V-N-------------------------+ | | +-----------------------OBJ:V-N----------------------+ | | | | +-----------SUBJ:V-N----------+ | | | | +--MOD_ATT:N-N--+--------APPOS--------+ | +-----------OBJ:V-N----------+ +-----COMP_in:V-N----+ | | | +MOD_AT+--APPOS--+ | | +----COMP_during:V-N----+ +MOD+ +-OBJ:V-N-+ | | | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . COMP_in:V-N (endospore,SPXXX) OBJ:V-N (endospore,formation) OBJ:V-N (are,RNA) OBJ:V-N (produced,Two) SUBJ:V-N (are,factors) MOD_ATT:N-N (factors,sigma) OBJ:V-N (produced,hours) MOD_ATT:N-N (factors,polymerase) COMP_during:V-N (produced,two) APPOS (factors,GENEXXX) MOD_POST:N-ADJ (hours,of) SUBJ:V-N (endospore,Two) APPOS (factors,GENEXXX) SUBJ:V-N (produced,RNA) Parse 71 +-----------------------------------------------SUBJ:V-N-----------------------------------------------+ +----------------------------OBJ:V-N---------------------------+ | | +----------------------SUBJ:V-N---------------------+ | | +-------------------OBJ:V-N-------------------+ | | | | +-----------SUBJ:V-N----------+ | | | | +--------APPOS--------+ | +-----------OBJ:V-N----------+ | | +MOD_AT+ +MOD_AT+--APPOS--+ | | +--COMP_during:V-N-+ +MOD+ +-OBJ:V-N-+COMP_in:N-+ | | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . COMP_in:N-N (formation,SPXXX) OBJ:V-N (endospore,formation) OBJ:V-N (produced,Two) SUBJ:V-N (are,factors) COMP_during:V-N (produced,first) MOD_ATT:N-N (factors,sigma) OBJ:V-N (produced,hours) APPOS (factors,GENEXXX) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (produced,polymerase) MOD_POST:N-ADJ (hours,of) SUBJ:V-N (endospore,Two) APPOS (factors,GENEXXX) OBJ:V-N (are,polymerase) Parse 72 +-----------------------------------------------SUBJ:V-N-----------------------------------------------+ +----------------------------OBJ:V-N---------------------------+ | | +-------------------------SUBJ:V-N-------------------------+ | | +-----------------------OBJ:V-N----------------------+ | | | | +-----------SUBJ:V-N----------+ | | | | +--------APPOS--------+ | +-----------OBJ:V-N----------+ | | | +MOD_ATT:+MOD_AT+--APPOS--+ | | +--COMP_during:V-N-+ +MOD+ +-OBJ:V-N-+COMP_in:N-+ | | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . COMP_in:N-N (formation,SPXXX) OBJ:V-N (endospore,formation) OBJ:V-N (are,RNA) OBJ:V-N (produced,Two) SUBJ:V-N (are,factors) COMP_during:V-N (produced,first) MOD_ATT:N-N (factors,sigma) OBJ:V-N (produced,hours) MOD_ATT:N-N (sigma,polymerase) APPOS (factors,GENEXXX) MOD_POST:N-ADJ (hours,of) SUBJ:V-N (endospore,Two) APPOS (factors,GENEXXX) SUBJ:V-N (produced,RNA) Parse 73 +-----------------------------------------------SUBJ:V-N-----------------------------------------------+ +----------------------------OBJ:V-N---------------------------+ | | +----------------------SUBJ:V-N---------------------+ | | +-------------------OBJ:V-N-------------------+ | | | | +-----------SUBJ:V-N----------+ | | | | +--------APPOS--------+ | +-----------OBJ:V-N----------+ | | +MOD_AT+ +MOD_AT+--APPOS--+ | | +----COMP_during:V-N----+ +MOD+ +-OBJ:V-N-+COMP_in:N-+ | | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . COMP_in:N-N (formation,SPXXX) OBJ:V-N (endospore,formation) OBJ:V-N (produced,Two) SUBJ:V-N (are,factors) MOD_ATT:N-N (factors,sigma) OBJ:V-N (produced,hours) COMP_during:V-N (produced,two) APPOS (factors,GENEXXX) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (produced,polymerase) MOD_POST:N-ADJ (hours,of) SUBJ:V-N (endospore,Two) APPOS (factors,GENEXXX) OBJ:V-N (are,polymerase) Parse 74 +-----------------------------------------------SUBJ:V-N-----------------------------------------------+ +----------------------------OBJ:V-N---------------------------+ | | +-------------------------SUBJ:V-N-------------------------+ | | +-----------------------OBJ:V-N----------------------+ | | | | +-----------SUBJ:V-N----------+ | | | | +--MOD_ATT:N-N--+--------APPOS--------+ | +-----------OBJ:V-N----------+ | | | | +MOD_AT+--APPOS--+ | | +--COMP_during:V-N-+ +MOD+ +-OBJ:V-N-+COMP_in:N-+ | | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . COMP_in:N-N (formation,SPXXX) OBJ:V-N (endospore,formation) OBJ:V-N (are,RNA) OBJ:V-N (produced,Two) SUBJ:V-N (are,factors) COMP_during:V-N (produced,first) MOD_ATT:N-N (factors,sigma) OBJ:V-N (produced,hours) MOD_ATT:N-N (factors,polymerase) APPOS (factors,GENEXXX) MOD_POST:N-ADJ (hours,of) SUBJ:V-N (endospore,Two) APPOS (factors,GENEXXX) SUBJ:V-N (produced,RNA) Parse 75 +-----------------------------------------------SUBJ:V-N-----------------------------------------------+ +----------------------------OBJ:V-N---------------------------+ | | +-------------------------SUBJ:V-N-------------------------+ | | +-----------------------OBJ:V-N----------------------+ | | | | +-----------SUBJ:V-N----------+ | | | | +--------APPOS--------+ | +-----------OBJ:V-N----------+ | | | +MOD_ATT:+MOD_AT+--APPOS--+ | | +----COMP_during:V-N----+ +MOD+ +-OBJ:V-N-+COMP_in:N-+ | | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . COMP_in:N-N (formation,SPXXX) OBJ:V-N (endospore,formation) OBJ:V-N (are,RNA) OBJ:V-N (produced,Two) SUBJ:V-N (are,factors) MOD_ATT:N-N (factors,sigma) OBJ:V-N (produced,hours) COMP_during:V-N (produced,two) MOD_ATT:N-N (sigma,polymerase) APPOS (factors,GENEXXX) MOD_POST:N-ADJ (hours,of) SUBJ:V-N (endospore,Two) APPOS (factors,GENEXXX) SUBJ:V-N (produced,RNA) Parse 76 +-----------------------------------------------SUBJ:V-N-----------------------------------------------+ +----------------------------OBJ:V-N---------------------------+ | | +-------------------------SUBJ:V-N-------------------------+ | | +-----------------------OBJ:V-N----------------------+ | | | | +-----------SUBJ:V-N----------+ | | | | +--MOD_ATT:N-N--+--------APPOS--------+ | +-----------OBJ:V-N----------+ | | | | +MOD_AT+--APPOS--+ | | +----COMP_during:V-N----+ +MOD+ +-OBJ:V-N-+COMP_in:N-+ | | | | | | | | | | | | | | | Two RNA polymerase sigma factors , GENEXXX and GENEXXX , are produced during the first two hours of endospore formation in SPXXX . COMP_in:N-N (formation,SPXXX) OBJ:V-N (endospore,formation) OBJ:V-N (are,RNA) OBJ:V-N (produced,Two) SUBJ:V-N (are,factors) MOD_ATT:N-N (factors,sigma) OBJ:V-N (produced,hours) MOD_ATT:N-N (factors,polymerase) COMP_during:V-N (produced,two) APPOS (factors,GENEXXX) MOD_POST:N-ADJ (hours,of) SUBJ:V-N (endospore,Two) APPOS (factors,GENEXXX) SUBJ:V-N (produced,RNA) PMID: 2111808-4 Sentence 6 SPXXX reduced level of GENEXXX expression suggests that the GENEXXX gene may be part of an operon . Parse 0 +-----------------SUBJ:V-N-----------------+ +-----------COMP_of:N-N----------+ | +SUBJ:V+ +MOD_ATT:+ | +MOD_A+MOD_PRED:N-+COMP_of:N-N+ | | | | | | | | | SPXXX reduced level of GENEXXX expression suggests that the GENEXXX gene may be part of an operon . SUBJ:V-N (suggests,SPXXX) MOD_ATT:N-N (expression,GENEXXX) MOD_PRED:N-N (gene,part) COMP_of:N-N (part,operon) SUBJ:V_PASS-N (reduced,SPXXX) COMP_of:N-N (SPXXX,expression) MOD_ATT:N-N (gene,GENEXXX) Parse 1 +-----------MOD_ATT:N-N----------+ | +----MOD_ATT:N-N---+ | +MOD_AT+ +MOD_ATT:+-SUBJ:V-N+ +MOD_A+MOD_PRED:N-+COMP_of:N-N+ | | | | | | | | | | SPXXX reduced level of GENEXXX expression suggests that the GENEXXX gene may be part of an operon . MOD_ATT:N-N (expression,GENEXXX) SUBJ:V-N (suggests,expression) COMP_of:N-N (part,operon) MOD_ATT:N-N (expression,level) MOD_PRED:N-N (gene,part) MOD_ATT:N-N (expression,SPXXX) MOD_ATT:N-ADJ (level,reduced) MOD_ATT:N-N (gene,GENEXXX) Parse 2 +-MOD_ATT:N-N-+----MOD_ATT:N-N---+ | +MOD_AT+ +MOD_ATT:+-SUBJ:V-N+ +MOD_A+MOD_PRED:N-+COMP_of:N-N+ | | | | | | | | | | SPXXX reduced level of GENEXXX expression suggests that the GENEXXX gene may be part of an operon . MOD_ATT:N-N (expression,GENEXXX) SUBJ:V-N (suggests,expression) COMP_of:N-N (part,operon) MOD_ATT:N-N (level,SPXXX) MOD_ATT:N-N (expression,level) MOD_PRED:N-N (gene,part) MOD_ATT:N-ADJ (level,reduced) MOD_ATT:N-N (gene,GENEXXX) Parse 3 +-----------MOD_ATT:N-N----------+ | +------MOD_ATT:N-ADJ------+ | | +----MOD_ATT:N-N---+ | | | +MOD_ATT:+-SUBJ:V-N+ +MOD_A+MOD_PRED:N-+COMP_of:N-N+ | | | | | | | | | | SPXXX reduced level of GENEXXX expression suggests that the GENEXXX gene may be part of an operon . MOD_ATT:N-N (expression,GENEXXX) SUBJ:V-N (suggests,expression) COMP_of:N-N (part,operon) MOD_ATT:N-N (expression,level) MOD_ATT:N-ADJ (expression,reduced) MOD_PRED:N-N (gene,part) MOD_ATT:N-N (expression,SPXXX) MOD_ATT:N-N (gene,GENEXXX) Parse 4 +-----------MOD_ATT:N-N----------+ | +------MOD_ATT:N-ADJ------+ | | +---MOD_ATT:N-ADJ--+ | | | +MOD_ATT:+-SUBJ:V-N+ +MOD_A+MOD_PRED:N-+COMP_of:N-N+ | | | | | | | | | | SPXXX reduced level of GENEXXX expression suggests that the GENEXXX gene may be part of an operon . MOD_ATT:N-N (expression,GENEXXX) SUBJ:V-N (suggests,expression) COMP_of:N-N (part,operon) MOD_ATT:N-ADJ (expression,reduced) MOD_PRED:N-N (gene,part) MOD_ATT:N-N (expression,SPXXX) MOD_ATT:N-ADJ (expression,level) MOD_ATT:N-N (gene,GENEXXX) PMID: 2997585-4 Sentence 7 Both GENEXXX and GENEXXX were transcribed in the same direction , counterclockwise on the chromosome . Parse 0 +-------SUBJ:V_PASS-N------+ | +-SUBJ:V_PASS-N+---COMP_in:V_PASS-N---+MOD_POST:N-ADJ+----COMP_on:ADJ-N---+ | | | | | | Both GENEXXX and GENEXXX were transcribed in the same direction , counterclockwise on the chromosome . SUBJ:V_PASS-N (transcribed,GENEXXX) COMP_on:ADJ-N (counterclockwise,chromosome) SUBJ:V_PASS-N (transcribed,GENEXXX) COMP_in:V_PASS-N (transcribed,direction) MOD_POST:N-ADJ (direction,counterclockwise) PMID: 3009401-2 Sentence 8 RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . Parse 0 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-------------COMP_by:V_PASS-V------------+------------OBJ:V-N------------+ | | +--------COMP_from:V_PASS-N-------+ | +-------MOD_ATT:N-N-------+ | +-------------------------COMP_of:N-N------------------------+ | | +MOD_ATT:N-+ | | +--MOD_ATT:N-N--+ | | +--------------MOD_ATT:N-N--------------+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | | +MOD_AT+---APPOS---+ +COMP_to:V_PA+ +MOD_+MOD_AT+ +COMP_into:V+MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (cloned,SPXXX) MOD_ATT:N-N (lambda,fragments) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-V (transcribed,using) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) OBJ:V-N (using,polymerase) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (DNA,SPXXX) COMP_of:N-N (bank,lambda) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 1 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | | +--------COMP_from:V_PASS-N-------+ +------------OBJ:V-N------------+ | | | | +MOD_ATT:N-+ +----OBJ:V-N----+ | | | +MOD_ATT:N-N+----------------SUBJ:V-N---------------+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ +MOD_ATT:N+ +MOD_AT+ | +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V_PASS-N----+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,SPXXX) COMP_into:V_PASS-N (cloned,SPXXX) MOD_ATT:N-N (fragments,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) APPOS (DNA,GENEXXX) OBJ:V-N (using,29-containing) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (using,polymerase) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (DNA,SPXXX) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 2 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-------------COMP_by:V_PASS-V------------+------------OBJ:V-N------------+ | | +--------COMP_from:V_PASS-N-------+ | +-------MOD_ATT:N-N-------+ | +---------------SUBJ:V_PASS-N--------------+ | | +MOD_ATT:N-+ | | +--MOD_ATT:N-N--+ | +-----COMP_of:N-N----+ +COMP_into:V_PASS-+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | | +MOD_AT+---APPOS---+ +COMP_to:V_PA+ +MOD_+MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) COMP_into:V_PASS-N (cloned,lambda) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-V (transcribed,using) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) OBJ:V-N (using,polymerase) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) MOD_ATT:N-N (DNA,SPXXX) COMP_of:N-N (bank,fragments) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 3 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | | +--------COMP_from:V_PASS-N-------+ +------------OBJ:V-N------------+ | +------------------------COMP_into:N-N-----------------------+ | | +MOD_ATT:N-+ +----OBJ:V-N----+ | | | +----------SUBJ:V_PASS-N----------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | +MOD_ATT:N+ +MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+SUBJ:V+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,SPXXX) OBJ:V-N (using,29-containing) COMP_by:N-V (RNA,using) COMP_from:V_PASS-N (transcribed,DNA) OBJ:V-N (using,polymerase) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (cloned,SPXXX) SUBJ:V_PASS-N (hybridized,RNA) Parse 4 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-------------COMP_by:V_PASS-V------------+ | | +--------COMP_from:V_PASS-N-------+ +------------OBJ:V-N------------+ | +--------------------OBJ:V-N-------------------+ | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | +-COMP_of:N-N-+ +----------------SUBJ:V-N---------------+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ +MOD_+ +----SUBJ:V_PASS-N----+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (cloned,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-V (transcribed,using) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (polymerase,sigma) OBJ:V-N (using,polymerase) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) COMP_to:V_PASS-N (hybridized,bank) OBJ:V-N (lambda,DNA) MOD_ATT:N-N (DNA,SPXXX) COMP_in:V_PASS-N (transcribed,vitro) COMP_of:N-N (bank,DNA) SUBJ:V_PASS-N (hybridized,RNA) Parse 5 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +-------------COMP_by:V_PASS-V------------+ | | +--------COMP_from:V_PASS-N-------+ +---------OBJ:V-N--------+----------OBJ:V-N---------+ +------------------------------COMP_into:V-N------------------------------+ | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +-----COMP_of:N-N----+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+ +MOD_+MOD_AT+----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,RNA) COMP_by:V_PASS-V (transcribed,using) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (lambda,SPXXX) COMP_of:N-N (bank,fragments) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) COMP_into:V-N (hybridized,lambda) OBJ:V-N (was,RNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 6 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | +--------------COMP_from:N-N--------------+ +------------OBJ:V-N------------+ | | +----COMP_in:N-N----+ | +---------OBJ:V-N--------+ | | | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | | +MOD_ATT:N-N+----------------SUBJ:V-N---------------+ +SUBJ:V_+ | | +MOD_+COMP_by+ | +MOD_ATT:+ | | +COMP_to:V_PA+COMP_of:+ +MOD_AT+----SUBJ:V_PASS-N----+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . APPOS (DNA,GENEXXX) COMP_into:V_PASS-N (cloned,SPXXX) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,DNA) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) COMP_in:N-N (RNA,vitro) MOD_POST:N-ADJ (RNA,vitro) OBJ:V-N (using,RNA) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (using,polymerase) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) SUBJ:V_PASS-N (hybridized,RNA) Parse 7 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +--------COMP_from:V_PASS-N-------+--------------COMP_by:N-N--------------+ | | | +MOD_ATT:N-+ +-------MOD_ATT:N-N-------+ | +-----COMP_of:N-N----+ +COMP_into:V_PASS-+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ +MOD_+MOD_AT+----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (DNA,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (sigma,using) COMP_into:V_PASS-N (cloned,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (DNA,SPXXX) COMP_of:N-N (bank,fragments) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 8 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +--------COMP_from:V_PASS-N-------+--------------COMP_by:N-N--------------+ | | | +MOD_ATT:N-+ +-------MOD_ATT:N-N-------+ | +MOD_ATT:N-N+----------------SUBJ:V-N---------------+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V_PASS-N----+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_into:V_PASS-N (cloned,SPXXX) COMP_by:N-N (DNA,polymerase) MOD_ATT:N-N (fragments,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (sigma,using) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (polymerase,sigma) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (DNA,SPXXX) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 9 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +--------COMP_from:V_PASS-N-------+ +------------OBJ:V-N------------+ | +------------------------COMP_into:N-N-----------------------+ | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | | +----------SUBJ:V_PASS-N----------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+SUBJ:V+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) MOD_ATT:N-ADJ (RNA,29-containing) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) OBJ:V-N (using,polymerase) MOD_ATT:N-N (DNA,SPXXX) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (cloned,SPXXX) SUBJ:V_PASS-N (hybridized,RNA) Parse 10 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-------------COMP_by:V_PASS-V------------+------------OBJ:V-N------------+ | | +--------COMP_from:V_PASS-N-------+ | +-------MOD_ATT:N-N-------+ | | | +MOD_ATT:N-+ | | +-MOD_ATT:N-ADJ-+ | +MOD_ATT:N-N+----------------SUBJ:V-N---------------+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | | +MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+ +MOD_AT+----SUBJ:V_PASS-N----+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_into:V_PASS-N (cloned,SPXXX) MOD_ATT:N-N (fragments,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-V (transcribed,using) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (polymerase,sigma) OBJ:V-N (using,polymerase) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-ADJ (polymerase,29-containing) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 11 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-------------COMP_by:V_PASS-V------------+------------OBJ:V-N------------+ | | +--------COMP_from:V_PASS-N-------+ | +-------MOD_ATT:N-N-------+ | | | +MOD_ATT:N-+ | | +--MOD_ATT:N-N--+ | +-----COMP_of:N-N----+-------------COMP_into:N-N-------------+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | | +MOD_AT+---APPOS---+ +COMP_to:V_PA+ +MOD_+MOD_AT+----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) COMP_into:N-N (fragments,lambda) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-V (transcribed,using) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) OBJ:V-N (using,polymerase) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (DNA,SPXXX) COMP_of:N-N (bank,fragments) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 12 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-------------COMP_by:V_PASS-V------------+ | | +--------COMP_from:V_PASS-N-------+ +------------OBJ:V-N------------+ | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | +-------------OBJ:V-N-------------+--COMP_into:V-N--+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+ +MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (fragments,DNA) COMP_of:N-N (bank,SPXXX) OBJ:V-N (cloned,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-V (transcribed,using) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (using,polymerase) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_in:V_PASS-N (transcribed,vitro) COMP_into:V-N (cloned,lambda) SUBJ:V_PASS-N (hybridized,RNA) Parse 13 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-------------COMP_by:V_PASS-V------------+ | | +--------COMP_from:V_PASS-N-------+ +------------OBJ:V-N------------+ | | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | +-------------OBJ:V-N-------------+--COMP_into:V-N--+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+ +MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (fragments,DNA) COMP_of:N-N (bank,SPXXX) OBJ:V-N (cloned,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,29-containing) COMP_by:V_PASS-V (transcribed,using) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) OBJ:V-N (using,polymerase) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_in:V_PASS-N (transcribed,vitro) COMP_into:V-N (cloned,lambda) SUBJ:V_PASS-N (hybridized,RNA) Parse 14 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | +--------------COMP_from:N-N--------------+ +------------OBJ:V-N------------+ | +------------------------COMP_into:N-N-----------------------+ | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | +-----COMP_of:N-N----+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ +MOD_+MOD_AT+----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_from:N-N (RNA,DNA) COMP_by:N-V (RNA,using) MOD_ATT:N-N (fragments,DNA) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) OBJ:V-N (using,polymerase) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_of:N-N (bank,fragments) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 15 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +------------OBJ:V-N------------+ | +---------------SUBJ:V_PASS-N--------------+ | +--------COMP_from:V_PASS-N-------+ +---------OBJ:V-N--------+ | | +--------------SUBJ:V-N--------------+ | | | +MOD_ATT:N-+ +----OBJ:V-N----+ | | | +-----COMP_of:N-N----+ | +COMP_into:V_PASS-+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ +MOD_ATT:N+ | +---APPOS---+ +COMP_to:V_PA+ +MOD_+MOD_AT+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) OBJ:V-N (using,29-containing) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) COMP_into:V_PASS-N (cloned,lambda) SUBJ:V-N (been,bank) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (lambda,SPXXX) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) OBJ:V-N (using,polymerase) OBJ:V-N (using,RNA) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) MOD_ATT:N-N (DNA,SPXXX) COMP_of:N-N (bank,fragments) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 16 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+----------------------------COMP_into:V_PASS-N---------------------------+ | +--------COMP_from:V_PASS-N-------+ +------------OBJ:V-N------------+ | +---------------SUBJ:V_PASS-N--------------+ | | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | | +----------SUBJ:V-N---------+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+SUBJ:V+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (hybridized,lambda) COMP_of:N-N (bank,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,29-containing) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) SUBJ:V-N (been,SPXXX) OBJ:V-N (using,polymerase) MOD_ATT:N-N (DNA,SPXXX) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 17 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | +--------------COMP_from:N-N--------------+ +------------OBJ:V-N------------+ | +----COMP_in:N-N----+ | | +-------MOD_ATT:N-N-------+ | +--------------------OBJ:V-N-------------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | | +--MOD_ATT:N-N--+ | +-COMP_of:N-N-+ +----------------SUBJ:V-N---------------+ +SUBJ:V_+ | | +MOD_+ | | | +MOD_AT+---APPOS---+ +COMP_to:V_PA+ +MOD_+ +----SUBJ:V_PASS-N----+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (cloned,SPXXX) COMP_from:N-N (RNA,DNA) COMP_by:N-V (RNA,using) COMP_of:N-N (bank,DNA) OBJ:V-N (using,polymerase) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (polymerase,sigma) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-ADJ (DNA,total) SUBJ:V-N (lambda,fragments) OBJ:V-N (lambda,DNA) SUBJ:V_PASS-N (hybridized,RNA) Parse 18 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------COMP_from:V_PASS-N-------+--------------------------OBJ:V-N--------------------------+ | +---------------SUBJ:V_PASS-N--------------+ | | +MOD_ATT:N-+ +----OBJ:V-N----+ +------SUBJ:V-N-----+ | +-----COMP_of:N-N----+ +COMP_into:V_PASS-+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ +MOD_ATT:N+ +MOD_AT+---APPOS---+ | +-COMP_to:V-N+ +MOD_+MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (using,29-containing) MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,fragments) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) COMP_into:V_PASS-N (cloned,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 19 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +---------------SUBJ:V_PASS-N--------------+ | +--------COMP_from:V_PASS-N-------+--------------------------OBJ:V-N--------------------------+ | +-----COMP_of:N-N----+ | | | +MOD_ATT:N-+ +----OBJ:V-N----+ +------SUBJ:V-N-----+ | | +MOD_ATT:N-N+ +COMP_into:V_PASS-+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ +MOD_ATT:N+ +MOD_AT+---APPOS---+ | +-COMP_to:V-N+ | +MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (using,29-containing) MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,fragments) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) COMP_into:V_PASS-N (cloned,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (lambda,SPXXX) COMP_to:V-N (hybridized,bank) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 20 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-------------------COMP_by:N-V-------------------+------------OBJ:V-N------------+ | | +--------COMP_from:V_PASS-N-------+ +---------OBJ:V-N--------+ | | +---------------SUBJ:V_PASS-N--------------+ | | +MOD_ATT:N-+ +----OBJ:V-N----+ | | | +-----COMP_of:N-N----+ +COMP_into:V_PASS-+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | +MOD_ATT:N+ | +---APPOS---+ +COMP_to:V_PA+ +MOD_+MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) OBJ:V-N (using,29-containing) COMP_by:N-V (RNA,using) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) COMP_into:V_PASS-N (cloned,lambda) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) OBJ:V-N (using,polymerase) MOD_ATT:N-ADJ (DNA,total) OBJ:V-N (using,RNA) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) MOD_ATT:N-N (DNA,SPXXX) COMP_of:N-N (bank,fragments) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 21 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+----------------------------COMP_into:V_PASS-N---------------------------+ | +--------------COMP_by:N-N--------------+ | +---------------SUBJ:V_PASS-N--------------+ | | +--------COMP_from:V_PASS-N-------+ +----------MOD_ATT:N-N----------+ | +-----COMP_of:N-N----+ | | | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | | +MOD_ATT:N-N+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ | +MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (hybridized,lambda) COMP_by:N-N (DNA,polymerase) COMP_of:N-N (bank,fragments) MOD_ATT:N-N (fragments,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (RNA,29-containing) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) MOD_ATT:N-N (polymerase,using) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 22 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | | +--------COMP_from:V_PASS-N-------+ +---------OBJ:V-N--------+----------OBJ:V-N---------+ | +-------------------------COMP_of:N-N------------------------+ | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | | +MOD_ATT:N-N+--------------MOD_ATT:N-N--------------+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+ | +MOD_AT+ +COMP_into:V+MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (cloned,SPXXX) MOD_ATT:N-N (lambda,fragments) MOD_ATT:N-N (fragments,SPXXX) COMP_by:N-V (RNA,using) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,RNA) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (lambda,SPXXX) COMP_to:V-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_of:N-N (bank,lambda) OBJ:V-N (was,RNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 23 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +--------COMP_from:V_PASS-N-------+ +------------OBJ:V-N------------+ | +-----COMP_of:N-N----+ | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | | +MOD_ATT:N-N+-------------COMP_into:N-N-------------+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ | +MOD_AT+----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (fragments,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) COMP_into:N-N (fragments,lambda) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (using,polymerase) MOD_ATT:N-N (RNA,29-containing) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_of:N-N (bank,fragments) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 24 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-------------COMP_by:V_PASS-V------------+ | | +--------COMP_from:V_PASS-N-------+ +------------OBJ:V-N------------+ | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | +-------SUBJ:V-N------+-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ +COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-V (transcribed,using) MOD_ATT:N-N (RNA,sigma) OBJ:V-N (using,polymerase) OBJ:V-N (cloned,lambda) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (DNA,SPXXX) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 25 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +------------OBJ:V-N------------+ | +--------------COMP_from:N-N--------------+ +---------OBJ:V-N--------+ | | +---------------SUBJ:V_PASS-N--------------+ | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | +-----COMP_of:N-N----+ +COMP_into:V_PASS-+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+ +---APPOS---+ +COMP_to:V_PA+ +MOD_+MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,polymerase) COMP_into:V_PASS-N (cloned,lambda) OBJ:V-N (using,RNA) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (RNA,29-containing) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) MOD_ATT:N-N (DNA,SPXXX) COMP_of:N-N (bank,fragments) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 26 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +------------OBJ:V-N------------+ | +---------------SUBJ:V_PASS-N--------------+ | +--------COMP_from:V_PASS-N-------+ | +-------MOD_ATT:N-N-------+ | +-----COMP_of:N-N----+ | | | +MOD_ATT:N-+ | | +-MOD_ATT:N-ADJ-+ | | +MOD_ATT:N-N+ +COMP_into:V_PASS-+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | | +MOD_AT+---APPOS---+ +COMP_to:V_PA+ | +MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (fragments,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) COMP_into:V_PASS-N (cloned,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) OBJ:V-N (using,polymerase) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) COMP_of:N-N (bank,fragments) MOD_ATT:N-ADJ (polymerase,29-containing) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 27 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +------------OBJ:V-N------------+ | +---------------SUBJ:V_PASS-N--------------+ +--------------COMP_from:N-N--------------+ | +-------MOD_ATT:N-N-------+ | +-----COMP_of:N-N----+ | | +MOD_ATT:N-+ | | +--MOD_ATT:N-N--+ | | +MOD_ATT:N-N+ +COMP_into:V_PASS-+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | | +MOD_AT+---APPOS---+ +COMP_to:V_PA+ | +MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,DNA) COMP_into:V_PASS-N (cloned,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) OBJ:V-N (using,polymerase) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) COMP_of:N-N (bank,fragments) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 28 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | | +--------COMP_from:V_PASS-N-------+ +------------OBJ:V-N------------+ | +-------------------COMP_into:N-N-------------------+ | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | +----------SUBJ:V_PASS-N----------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+SUBJ:V+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_by:N-V (RNA,using) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (polymerase,RNA) COMP_into:N-N (SPXXX,lambda) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (using,polymerase) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (cloned,SPXXX) SUBJ:V_PASS-N (hybridized,RNA) Parse 29 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +--------------COMP_from:N-N--------------+-----------------------APPOS-----------------------+ | +----COMP_in:N-N----+ | +------------OBJ:V-N------------+ | | +---------------SUBJ:V_PASS-N--------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +----OBJ:V-N----+ | | | +-----COMP_of:N-N----+ +COMP_into:V_PASS-+ +SUBJ:V_+ | | +MOD_+COMP_by+ +MOD_ATT:N+ +MOD_AT+ | +COMP_to:V_PA+ +MOD_+MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) APPOS (DNA,GENEXXX) COMP_of:N-N (bank,fragments) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,DNA) COMP_into:V_PASS-N (cloned,lambda) MOD_ATT:N-N (polymerase,RNA) COMP_by:N-V (DNA,using) MOD_ATT:N-N (DNA,total) OBJ:V-N (using,29-containing) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (lambda,SPXXX) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (using,polymerase) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) SUBJ:V_PASS-N (hybridized,RNA) Parse 30 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +--------------COMP_by:N-N--------------+ | +--------------COMP_from:N-N--------------+ +----------MOD_ATT:N-N----------+ | +----COMP_in:N-N----+ | | +-------MOD_ATT:N-N-------+ | +-------------------------COMP_of:N-N------------------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | | +--MOD_ATT:N-N--+ | | +MOD_ATT:N-N+--------------MOD_ATT:N-N--------------+ +SUBJ:V_+ | | +MOD_+ | | | +MOD_AT+---APPOS---+ +COMP_to:V_PA+ | +MOD_AT+ +COMP_into:V+MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (cloned,SPXXX) MOD_ATT:N-N (lambda,fragments) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) MOD_POST:N-ADJ (RNA,vitro) COMP_to:V_PASS-N (hybridized,bank) COMP_by:N-N (DNA,polymerase) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_of:N-N (bank,lambda) MOD_ATT:N-N (polymerase,using) SUBJ:V_PASS-N (hybridized,RNA) Parse 31 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------------COMP_by:V_PASS-N----------------------------+ | +---------------SUBJ:V_PASS-N--------------+ | +--------COMP_from:V_PASS-N-------+ +----------MOD_ATT:N-N----------+ | +-----COMP_of:N-N----+ | | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | | +MOD_ATT:N-N+ +COMP_into:V_PASS-+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ | +MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (fragments,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) COMP_into:V_PASS-N (cloned,lambda) MOD_ATT:N-N (RNA,29-containing) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-N (transcribed,polymerase) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) COMP_of:N-N (bank,fragments) MOD_ATT:N-N (polymerase,using) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 32 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-------------COMP_by:V_PASS-V------------+ | | +--------COMP_from:V_PASS-N-------+ +------------OBJ:V-N------------+ | +------------------------COMP_into:N-N-----------------------+ | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | | +-------------OBJ:V-N-------------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) OBJ:V-N (cloned,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,29-containing) COMP_by:V_PASS-V (transcribed,using) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) OBJ:V-N (using,polymerase) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 33 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | +--------------COMP_from:N-N--------------+ +------------OBJ:V-N------------+ | +----COMP_in:N-N----+ | | +-------MOD_ATT:N-N-------+ | +---------------SUBJ:V_PASS-N--------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | | +--MOD_ATT:N-N--+ | +-------OBJ:V-N------+ +COMP_into:V_PASS-+ +SUBJ:V_+ | | +MOD_+ | | | +MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+SUBJ:V+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) COMP_by:N-V (RNA,using) OBJ:V-N (using,polymerase) COMP_into:V_PASS-N (cloned,lambda) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (fragments,DNA) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (polymerase,sigma) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (fragments,bank) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-ADJ (DNA,total) SUBJ:V_PASS-N (cloned,bank) SUBJ:V_PASS-N (hybridized,RNA) Parse 34 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-----------------------------------COMP_by:N-N-----------------------------------+ | | +----------MOD_ATT:N-N----------+ | | +--------COMP_from:V_PASS-N-------+ | +-------MOD_ATT:N-N-------+ | +----------------------OBJ:V-N----------------------+ | | +MOD_ATT:N-+ | | +--MOD_ATT:N-N--+ | | +----------------SUBJ:V-N---------------+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | | +MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V_PASS-N----+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_by:N-N (RNA,polymerase) COMP_into:V_PASS-N (cloned,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (polymerase,using) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (lambda,SPXXX) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (DNA,SPXXX) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 35 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-------------COMP_by:V_PASS-V------------+ | +------------------------COMP_into:N-N-----------------------+ | +--------COMP_from:V_PASS-N-------+ +------------OBJ:V-N------------+ | +------------------OBJ:V-N-----------------+ | | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | +-COMP_of:N-N-+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ +MOD_+ +-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_from:V_PASS-N (transcribed,DNA) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,29-containing) COMP_by:V_PASS-V (transcribed,using) OBJ:V-N (cloned,bank) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) OBJ:V-N (using,polymerase) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_in:V_PASS-N (transcribed,vitro) COMP_of:N-N (bank,DNA) SUBJ:V_PASS-N (hybridized,RNA) Parse 36 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | +--------------COMP_from:N-N--------------+ +------------OBJ:V-N------------+ | +----------------------------COMP_into:V_PASS-N---------------------------+ | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | | +---------------SUBJ:V_PASS-N--------------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+ | +COMP_to:V_PA+COMP_of:+MOD_+SUBJ:V+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (hybridized,lambda) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) OBJ:V-N (using,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) APPOS (DNA,GENEXXX) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (RNA,29-containing) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 37 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +--------------COMP_from:N-N--------------+--------------COMP_by:N-N--------------+ | | +MOD_ATT:N-+ +----MOD_ATT:N-N---+ | | +----------------SUBJ:V-N---------------+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V_PASS-N----+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_into:V_PASS-N (cloned,SPXXX) COMP_by:N-N (DNA,polymerase) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (sigma,using) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (DNA,SPXXX) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 38 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------------COMP_by:V_PASS-N----------------------------+ +----------------------------COMP_into:V_PASS-N---------------------------+ | | +----------MOD_ATT:N-N----------+ | +---------------SUBJ:V_PASS-N--------------+ | | +--------COMP_from:V_PASS-N-------+ | +-------MOD_ATT:N-N-------+ | +-----COMP_of:N-N----+ | | | | +MOD_ATT:N-+ | | +--MOD_ATT:N-N--+ | | +MOD_ATT:N-N+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | | +MOD_AT+---APPOS---+ +COMP_to:V_PA+ | +MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (hybridized,lambda) COMP_of:N-N (bank,fragments) MOD_ATT:N-N (fragments,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-N (transcribed,polymerase) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (polymerase,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 39 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +---------------------COMP_by:V_PASS-N--------------------+ | | +--------COMP_from:V_PASS-N-------+ +--------------OBJ:V-N--------------+ | | | +MOD_ATT:N-+ +--MOD_ATT:N-N--+ +------SUBJ:V-N-----+ | +MOD_ATT:N-N+----------------SUBJ:V-N---------------+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | +MOD_ATT:N+ +MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+ +MOD_AT+----SUBJ:V_PASS-N----+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (cloned,SPXXX) MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) COMP_by:V_PASS-N (transcribed,29-containing) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (29-containing,using) SUBJ:V_PASS-N (cloned,fragments) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) SUBJ:V-N (hybridized,RNA) OBJ:V-N (was,29-containing) COMP_in:V_PASS-N (transcribed,vitro) Parse 40 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | | +--------COMP_from:V_PASS-N-------+ +------------OBJ:V-N------------+ | | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | +MOD_ATT:N-N+-------SUBJ:V-N------+-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+ +MOD_AT+----SUBJ:V-N---+ +COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (fragments,SPXXX) COMP_by:N-V (RNA,using) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,29-containing) MOD_ATT:N-N (polymerase,sigma) OBJ:V-N (using,polymerase) OBJ:V-N (cloned,lambda) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 41 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +--------------COMP_by:N-N--------------+ | +---------------SUBJ:V_PASS-N--------------+ | +--------COMP_from:V_PASS-N-------+ +----------MOD_ATT:N-N----------+ | +-----COMP_of:N-N----+ | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | | +MOD_ATT:N-N+ +COMP_into:V_PASS-+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ | +MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (polymerase,using) COMP_by:N-N (DNA,polymerase) MOD_ATT:N-N (fragments,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) COMP_into:V_PASS-N (cloned,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,29-containing) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) COMP_of:N-N (bank,fragments) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 42 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-----------------------------------COMP_by:N-N-----------------------------------+ | +--------------COMP_from:N-N--------------+ | | +----COMP_in:N-N----+ | +----------MOD_ATT:N-N----------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | +-----COMP_of:N-N----+ +COMP_into:V_PASS-+ +SUBJ:V_+ | | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ +MOD_+MOD_AT+----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (polymerase,using) COMP_by:N-N (RNA,polymerase) COMP_of:N-N (bank,fragments) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,DNA) COMP_into:V_PASS-N (cloned,lambda) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-ADJ (RNA,29-containing) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-ADJ (DNA,total) SUBJ:V_PASS-N (hybridized,RNA) Parse 43 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +--------COMP_from:V_PASS-N-------+ +------------OBJ:V-N------------+ | | | +MOD_ATT:N-+ +----OBJ:V-N----+ | | +---------------SUBJ:V_PASS-N--------------+COMP_into:V_PASS-+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ +MOD_ATT:N+ +MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+SUBJ:V+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,SPXXX) OBJ:V-N (using,29-containing) COMP_from:V_PASS-N (transcribed,DNA) OBJ:V-N (using,polymerase) COMP_into:V_PASS-N (cloned,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (lambda,SPXXX) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) MOD_ATT:N-N (DNA,SPXXX) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 44 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-------------COMP_by:V_PASS-V------------+------------OBJ:V-N------------+ | | +--------COMP_from:V_PASS-N-------+ +---------OBJ:V-N--------+ | | +-----COMP_of:N-N----+-------------COMP_into:N-N-------------+ | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | | +MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ +COMP_to:V_PA+ | +MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (fragments,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,polymerase) COMP_into:N-N (fragments,lambda) OBJ:V-N (using,RNA) COMP_by:V_PASS-V (transcribed,using) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) COMP_of:N-N (bank,fragments) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 45 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | +--------------COMP_from:N-N--------------+ +------------OBJ:V-N------------+ | +----------------SUBJ:V-N---------------+ | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | +MOD_ATT:N-N+----------COMP_into:N-N----------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V_PASS-N----+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_into:N-N (fragments,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) COMP_by:N-V (RNA,using) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (RNA,sigma) OBJ:V-N (using,polymerase) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (DNA,SPXXX) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 46 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-------------COMP_by:V_PASS-V------------+ | +----------------SUBJ:V-N---------------+ | +--------COMP_from:V_PASS-N-------+ +------------OBJ:V-N------------+ | +----------COMP_into:N-N----------+ | | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | +----SUBJ:V_PASS-N----+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ | | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_into:N-N (fragments,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,29-containing) COMP_by:V_PASS-V (transcribed,using) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (polymerase,sigma) OBJ:V-N (using,polymerase) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (DNA,SPXXX) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 47 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-----------------------------------COMP_by:N-N-----------------------------------+ | | +--------COMP_from:V_PASS-N-------+ | | +---------------SUBJ:V_PASS-N--------------+ | | +MOD_ATT:N-+ +----MOD_ATT:N-N---+ | | | +----------SUBJ:V-N---------+ +COMP_into:V_PASS-+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+SUBJ:V+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_by:N-N (RNA,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (sigma,using) COMP_into:V_PASS-N (cloned,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (been,SPXXX) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) MOD_ATT:N-N (DNA,SPXXX) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 48 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-----------------------------------COMP_by:N-N-----------------------------------+ | +--------------COMP_from:N-N--------------+ | | +----COMP_in:N-N----+ | | | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +-------MOD_ATT:N-N-------+ | +---------------SUBJ:V_PASS-N--------------+COMP_into:V_PASS-+ +SUBJ:V_+ | | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+SUBJ:V+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (RNA,polymerase) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) COMP_into:V_PASS-N (cloned,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) SUBJ:V-N (fragments,DNA) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) MOD_ATT:N-N (sigma,using) SUBJ:V_PASS-N (hybridized,RNA) Parse 49 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +------------OBJ:V-N------------+ | +------------------------COMP_into:N-N-----------------------+ | +--------COMP_from:V_PASS-N-------+ +---------OBJ:V-N--------+ | | +---------------SUBJ:V_PASS-N--------------+ | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | +-----COMP_of:N-N----+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+ +---APPOS---+ +COMP_to:V_PA+ +MOD_+MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (RNA,sigma) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,polymerase) COMP_into:N-N (bank,lambda) OBJ:V-N (using,RNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (DNA,SPXXX) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) COMP_of:N-N (bank,fragments) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 50 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +---------------SUBJ:V_PASS-N--------------+ | +--------COMP_from:V_PASS-N-------+--------------COMP_by:N-N--------------+ | +-----COMP_of:N-N----+ | | | +MOD_ATT:N-+ +-------MOD_ATT:N-N-------+ | | +MOD_ATT:N-N+ +COMP_into:V_PASS-+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ | +MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (DNA,polymerase) MOD_ATT:N-N (fragments,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (sigma,using) COMP_into:V_PASS-N (cloned,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,29-containing) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) COMP_of:N-N (bank,fragments) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 51 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +--------------COMP_by:N-N--------------+ | | +--------COMP_from:V_PASS-N-------+ +----------MOD_ATT:N-N----------+ | +------------------------COMP_into:N-N-----------------------+ | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | +---------------SUBJ:V_PASS-N--------------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+SUBJ:V+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_by:N-N (DNA,polymerase) COMP_from:V_PASS-N (transcribed,DNA) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (DNA,total) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) MOD_ATT:N-N (polymerase,using) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 52 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +-------------COMP_by:V_PASS-V------------+ | | +--------COMP_from:V_PASS-N-------+ +---------OBJ:V-N--------+----------OBJ:V-N---------+ | +-------------OBJ:V-N-------------+ | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | | +-------SUBJ:V-N------+--COMP_into:V-N--+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+ +MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (cloned,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,RNA) COMP_by:V_PASS-V (transcribed,using) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) COMP_to:V-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) OBJ:V-N (was,RNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) COMP_into:V-N (cloned,lambda) Parse 53 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | +--------------COMP_from:N-N--------------+ +------------OBJ:V-N------------+ | | +------------------OBJ:V-N-----------------+ | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | | | +MOD_ATT:N-N+ +--COMP_into:V-N--+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+ | +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (cloned,bank) APPOS (DNA,GENEXXX) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (RNA,29-containing) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (DNA,SPXXX) COMP_in:V_PASS-N (transcribed,vitro) COMP_into:V-N (cloned,lambda) SUBJ:V_PASS-N (hybridized,RNA) Parse 54 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +--------------COMP_from:N-N--------------+ +----------------------------COMP_into:V_PASS-N---------------------------+ +----COMP_in:N-N----+ | +------------OBJ:V-N------------+ | +---------------SUBJ:V_PASS-N--------------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | +-----COMP_of:N-N----+ | | +SUBJ:V_+ | | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ +MOD_+MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) COMP_into:V_PASS-N (hybridized,lambda) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,polymerase) MOD_ATT:N-N (polymerase,RNA) COMP_by:N-V (DNA,using) MOD_ATT:N-N (DNA,total) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (polymerase,sigma) COMP_of:N-N (bank,fragments) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) SUBJ:V_PASS-N (cloned,bank) SUBJ:V_PASS-N (hybridized,RNA) Parse 55 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | | | +------------OBJ:V-N------------+ | | +------------------------COMP_into:N-N-----------------------+ | +--------COMP_from:V_PASS-N-------+ +---------OBJ:V-N--------+ | | | | +-----------OBJ:V-N----------+ | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | | +-COMP_of:N-N-+ +-------SUBJ:V-N------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+ | | +COMP_to:V_PA+ +MOD_+ +----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (RNA,sigma) COMP_from:V_PASS-N (transcribed,DNA) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (DNA,total) APPOS (DNA,GENEXXX) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (RNA,29-containing) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) SUBJ:V-N (cloned,fragments) OBJ:V-N (using,polymerase) OBJ:V-N (using,RNA) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) OBJ:V-N (cloned,DNA) COMP_in:V_PASS-N (transcribed,vitro) COMP_of:N-N (bank,DNA) SUBJ:V_PASS-N (hybridized,RNA) Parse 56 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | +--------------COMP_from:N-N--------------+ +------------OBJ:V-N------------+ | | +----COMP_in:N-N----+ | +---------OBJ:V-N--------+ | | | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +----OBJ:V-N----+ | | | | +------------------OBJ:V-N-----------------+--COMP_into:V-N--+ +SUBJ:V_+ | | +MOD_+COMP_by+ +MOD_ATT:N+ | | | +COMP_to:V_PA+COMP_of:+ +MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) APPOS (DNA,GENEXXX) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (cloned,bank) COMP_by:N-V (DNA,using) OBJ:V-N (using,29-containing) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (lambda,SPXXX) MOD_POST:N-ADJ (RNA,vitro) OBJ:V-N (using,RNA) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) SUBJ:V-N (cloned,fragments) OBJ:V-N (using,polymerase) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_into:V-N (cloned,lambda) SUBJ:V_PASS-N (hybridized,RNA) Parse 57 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-------------COMP_by:V_PASS-V------------+ +----------------------------COMP_into:V_PASS-N---------------------------+ | +--------COMP_from:V_PASS-N-------+ +------------OBJ:V-N------------+ | +-----COMP_of:N-N----+ | | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | | +MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ | +MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (hybridized,lambda) COMP_of:N-N (bank,fragments) MOD_ATT:N-N (fragments,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-V (transcribed,using) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) OBJ:V-N (using,polymerase) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 58 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------COMP_from:V_PASS-N-------+ +---------OBJ:V-N--------+----------OBJ:V-N---------+ | +---------------SUBJ:V_PASS-N--------------+ | | +MOD_ATT:N-+ +----OBJ:V-N----+ | +------SUBJ:V-N-----+ | +-----COMP_of:N-N----+ +COMP_into:V_PASS-+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ +MOD_ATT:N+ | +---APPOS---+ | +-COMP_to:V-N+ +MOD_+MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) OBJ:V-N (using,29-containing) COMP_of:N-N (bank,fragments) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) COMP_into:V_PASS-N (cloned,lambda) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) OBJ:V-N (using,RNA) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) OBJ:V-N (was,RNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 59 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | +----------------------OBJ:V-N----------------------+ | +--------COMP_from:V_PASS-N-------+ +------------OBJ:V-N------------+ | | +----------------SUBJ:V-N---------------+ | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | | +----------COMP_into:N-N----------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+ +MOD_AT+----SUBJ:V_PASS-N----+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (fragments,DNA) COMP_of:N-N (bank,SPXXX) COMP_into:N-N (fragments,SPXXX) COMP_by:N-V (RNA,using) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (polymerase,sigma) OBJ:V-N (using,polymerase) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (lambda,SPXXX) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) COMP_to:V_PASS-N (hybridized,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 60 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-------------------COMP_by:N-V-------------------+------------OBJ:V-N------------+ | +------------------------COMP_into:N-N-----------------------+ | +--------COMP_from:V_PASS-N-------+ | +-------MOD_ATT:N-N-------+ | | +-------------OBJ:V-N-------------+ | | | +MOD_ATT:N-+ | | +--MOD_ATT:N-N--+ | | | +-------SUBJ:V-N------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | | +MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (cloned,SPXXX) COMP_by:N-V (RNA,using) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (polymerase,sigma) OBJ:V-N (using,polymerase) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 61 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +---------------SUBJ:V_PASS-N--------------+ +-----------------------------------COMP_by:N-N-----------------------------------+ | +--------------SUBJ:V-N--------------+ | | +--------COMP_from:V_PASS-N-------+ | | +-----COMP_of:N-N----+ | | | | +MOD_ATT:N-+ +----MOD_ATT:N-N---+ | | | +MOD_ATT:N-N+ | +COMP_into:V_PASS-+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ | +MOD_AT+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (RNA,polymerase) MOD_ATT:N-N (fragments,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (sigma,using) COMP_into:V_PASS-N (cloned,lambda) SUBJ:V-N (been,bank) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) COMP_of:N-N (bank,fragments) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 62 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-------------------COMP_by:N-V-------------------+------------OBJ:V-N------------+ | +--------------COMP_from:N-N--------------+ +---------OBJ:V-N--------+ | | +------------------------COMP_into:N-N-----------------------+ | +MOD_ATT:N-+ +----OBJ:V-N----+ | | | +---------------SUBJ:V_PASS-N--------------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | +MOD_ATT:N+ | +---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+SUBJ:V+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,SPXXX) OBJ:V-N (using,29-containing) COMP_from:N-N (RNA,DNA) COMP_by:N-V (RNA,using) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (DNA,total) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) OBJ:V-N (using,polymerase) OBJ:V-N (using,RNA) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 63 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +--------------COMP_by:N-N--------------+ | | | +----------MOD_ATT:N-N----------+ +----------------------------COMP_into:V_PASS-N---------------------------+ | +--------COMP_from:V_PASS-N-------+ | +-------MOD_ATT:N-N-------+ | +---------------SUBJ:V_PASS-N--------------+ | | | +MOD_ATT:N-+ | | +--MOD_ATT:N-N--+ | +-----COMP_of:N-N----+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | | +MOD_AT+---APPOS---+ +COMP_to:V_PA+ +MOD_+MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (hybridized,lambda) COMP_by:N-N (DNA,polymerase) COMP_of:N-N (bank,fragments) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (polymerase,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 64 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | +--------------COMP_from:N-N--------------+ +------------OBJ:V-N------------+ | +---------------SUBJ:V_PASS-N--------------+ | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | +-----COMP_of:N-N----+ +COMP_into:V_PASS-+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ +MOD_+MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_from:N-N (RNA,DNA) COMP_by:N-V (RNA,using) MOD_ATT:N-N (fragments,DNA) COMP_into:V_PASS-N (cloned,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) OBJ:V-N (using,polymerase) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) MOD_ATT:N-N (DNA,SPXXX) COMP_of:N-N (bank,fragments) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 65 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +--------------COMP_from:N-N--------------+-----------------------APPOS-----------------------+ +----------------------------COMP_into:V_PASS-N---------------------------+ +----COMP_in:N-N----+ | +------------OBJ:V-N------------+ | | +-------------OBJ:V-N-------------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +----OBJ:V-N----+ | | | | +-------SUBJ:V-N------+ | +SUBJ:V_+ | | +MOD_+COMP_by+ +MOD_ATT:N+ +MOD_AT+ | +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) APPOS (DNA,GENEXXX) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) OBJ:V-N (cloned,SPXXX) COMP_into:V_PASS-N (hybridized,lambda) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) COMP_by:N-V (DNA,using) MOD_ATT:N-N (DNA,total) OBJ:V-N (using,29-containing) COMP_in:N-N (RNA,vitro) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V-N (cloned,fragments) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (using,polymerase) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V_PASS-N (hybridized,RNA) Parse 66 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | +------------------------COMP_into:N-N-----------------------+ +--------------COMP_from:N-N--------------+ +------------OBJ:V-N------------+ | | +---------------SUBJ:V_PASS-N--------------+ | +----COMP_in:N-N----+ | +---------OBJ:V-N--------+ | | | +-----COMP_of:N-N----+ | | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +----OBJ:V-N----+ | | | | | +MOD_ATT:N-N+ | | +SUBJ:V_+ | | +MOD_+COMP_by+ +MOD_ATT:N+ | | | +COMP_to:V_PA+ | +MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) APPOS (DNA,GENEXXX) COMP_of:N-N (bank,fragments) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,DNA) COMP_by:N-V (DNA,using) MOD_ATT:N-N (DNA,total) OBJ:V-N (using,29-containing) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (lambda,SPXXX) COMP_into:N-N (bank,lambda) MOD_POST:N-ADJ (RNA,vitro) OBJ:V-N (using,RNA) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (using,polymerase) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) SUBJ:V_PASS-N (hybridized,RNA) Parse 67 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | | +--------------COMP_by:N-N--------------+ | | +---------------SUBJ:V_PASS-N--------------+ | +--------COMP_from:V_PASS-N-------+ +----------MOD_ATT:N-N----------+ | | +-----COMP_of:N-N----+ | | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | | | +MOD_ATT:N-N+ +COMP_into:V_PASS-+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+ | +COMP_to:V_PA+ | +MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (polymerase,using) COMP_by:N-N (DNA,polymerase) MOD_ATT:N-N (fragments,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) COMP_into:V_PASS-N (cloned,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,29-containing) MOD_ATT:N-N (DNA,total) APPOS (DNA,GENEXXX) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) COMP_of:N-N (bank,fragments) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 68 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +-------------COMP_by:V_PASS-V------------+ | | +--------COMP_from:V_PASS-N-------+ | +--------------OBJ:V-N--------------+ | +--------------------OBJ:V-N-------------------+ | | +MOD_ATT:N-+ +----OBJ:V-N----+ +------SUBJ:V-N-----+ +----------OBJ:V-N---------+ +----------------SUBJ:V-N---------------+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | +MOD_ATT:N+ +MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+ +----SUBJ:V_PASS-N----+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (using,29-containing) COMP_into:V_PASS-N (cloned,SPXXX) MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) SUBJ:V-N (lambda,fragments) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-V (transcribed,using) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) OBJ:V-N (hybridized,DNA) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (lambda,DNA) SUBJ:V-N (hybridized,RNA) OBJ:V-N (was,29-containing) COMP_in:V_PASS-N (transcribed,vitro) Parse 69 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-------------COMP_by:V_PASS-V------------+ +----------------------------COMP_into:V_PASS-N---------------------------+ | +--------COMP_from:V_PASS-N-------+ +------------OBJ:V-N------------+ | +---------------SUBJ:V_PASS-N--------------+ | | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | +--------------SUBJ:V-N--------------+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+SUBJ:V+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (hybridized,lambda) COMP_of:N-N (bank,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) SUBJ:V-N (been,bank) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-V (transcribed,using) MOD_ATT:N-N (DNA,total) MOD_ATT:N-ADJ (RNA,29-containing) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) OBJ:V-N (using,polymerase) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 70 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+----------------------------COMP_into:V_PASS-N---------------------------+ | +-----------------------APPOS-----------------------+ | +---------------SUBJ:V_PASS-N--------------+ | | +--------COMP_from:V_PASS-N-------+ +------------OBJ:V-N------------+ | | +--------------SUBJ:V-N--------------+ | | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | | +-----COMP_of:N-N----+ | | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+ | +COMP_to:V_PA+ +MOD_+MOD_AT+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (hybridized,lambda) COMP_of:N-N (bank,fragments) MOD_ATT:N-N (RNA,sigma) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,polymerase) SUBJ:V-N (been,bank) MOD_ATT:N-N (polymerase,RNA) APPOS (DNA,GENEXXX) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (RNA,29-containing) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 71 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-------------------COMP_by:N-V-------------------+------------OBJ:V-N------------+ | +--------------COMP_from:N-N--------------+ | +-------MOD_ATT:N-N-------+ +----------------------------COMP_into:V_PASS-N---------------------------+ | +MOD_ATT:N-+ | | +--MOD_ATT:N-N--+ | +------------------OBJ:V-N-----------------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | | +MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+ +MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (hybridized,lambda) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) COMP_by:N-V (RNA,using) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (cloned,bank) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) OBJ:V-N (using,polymerase) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 72 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------------------------OBJ:V-N--------------------------+ +------------------------------COMP_into:V-N------------------------------+ | +--------COMP_from:V_PASS-N-------+ +---------OBJ:V-N--------+ | +-------------OBJ:V-N-------------+ | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +MOD_ATT:N-N+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+ +MOD_AT+----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (hybridized,fragments) OBJ:V-N (using,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (RNA,sigma) COMP_into:V-N (hybridized,lambda) COMP_to:V-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 73 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | +--------------COMP_from:N-N--------------+ | +----------------------------COMP_into:V_PASS-N---------------------------+ +----COMP_in:N-N----+ | +------------OBJ:V-N------------+ | +---------------SUBJ:V_PASS-N--------------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | +--------------SUBJ:V-N--------------+ | | +SUBJ:V_+ | | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+SUBJ:V+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) COMP_by:N-V (RNA,using) COMP_into:V_PASS-N (hybridized,lambda) OBJ:V-N (using,polymerase) SUBJ:V-N (been,bank) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) SUBJ:V-N (fragments,DNA) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (polymerase,sigma) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) SUBJ:V_PASS-N (hybridized,RNA) Parse 74 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-------------------------COMP_of:N-N------------------------+ +-------------------COMP_by:N-V-------------------+------------OBJ:V-N------------+ | | +--------------------MOD_ATT:N-N--------------------+ +--------------COMP_from:N-N--------------+ +---------OBJ:V-N--------+ | | | | +------------------MOD_ATT:N-N-----------------+ | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | | | | +--------------MOD_ATT:N-N--------------+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ +COMP_to:V_PA+ | | | +COMP_into:V+MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (lambda,fragments) COMP_from:N-N (RNA,DNA) COMP_by:N-V (RNA,using) OBJ:V-N (using,polymerase) COMP_into:V_PASS-N (cloned,SPXXX) OBJ:V-N (using,RNA) MOD_ATT:N-N (lambda,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_of:N-N (bank,lambda) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 75 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+----------------------------COMP_into:V_PASS-N---------------------------+ +-----------------------------------COMP_by:N-N-----------------------------------+ | +---------------SUBJ:V_PASS-N--------------+ | | +--------COMP_from:V_PASS-N-------+ | | +-----COMP_of:N-N----+ | | | | +MOD_ATT:N-+ +----MOD_ATT:N-N---+ | | | +MOD_ATT:N-N+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ | +MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (hybridized,lambda) COMP_by:N-N (RNA,polymerase) COMP_of:N-N (bank,fragments) MOD_ATT:N-N (fragments,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (sigma,using) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 76 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+------------------------------COMP_into:V-N------------------------------+ | +--------------------------OBJ:V-N--------------------------+ | +---------------SUBJ:V_PASS-N--------------+ | | +--------COMP_from:V_PASS-N-------+ +---------OBJ:V-N--------+ | | +-----COMP_of:N-N----+ | | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | | +MOD_ATT:N-N+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+ | +MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,RNA) MOD_ATT:N-N (RNA,sigma) COMP_of:N-N (bank,fragments) COMP_to:V-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_into:V-N (hybridized,lambda) SUBJ:V_PASS-N (cloned,bank) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 77 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-----------------------------------COMP_by:N-N-----------------------------------+ +----------------------------COMP_into:V_PASS-N---------------------------+ | +----------MOD_ATT:N-N----------+ | +---------------SUBJ:V_PASS-N--------------+ | | +--------COMP_from:V_PASS-N-------+ | +-------MOD_ATT:N-N-------+ | +-----COMP_of:N-N----+ | | | | +MOD_ATT:N-+ | | +--MOD_ATT:N-N--+ | | +MOD_ATT:N-N+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | | +MOD_AT+---APPOS---+ +COMP_to:V_PA+ | +MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (hybridized,lambda) COMP_by:N-N (RNA,polymerase) COMP_of:N-N (bank,fragments) MOD_ATT:N-N (fragments,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (polymerase,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 78 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +-------------COMP_by:V_PASS-V------------+ | | +--------COMP_from:V_PASS-N-------+ +---------OBJ:V-N--------+----------OBJ:V-N---------+ | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +MOD_ATT:N-N+----------------SUBJ:V-N---------------+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+----SUBJ:V_PASS-N----+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (cloned,SPXXX) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) SUBJ:V-N (lambda,fragments) OBJ:V-N (using,RNA) COMP_by:V_PASS-V (transcribed,using) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (was,RNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 79 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +--------------COMP_by:N-N--------------+ | | +--------COMP_from:V_PASS-N-------+ +-------MOD_ATT:N-N------+ | | +----------------SUBJ:V-N---------------+ | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | +MOD_ATT:N-N+----------COMP_into:N-N----------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+ +MOD_AT+----SUBJ:V_PASS-N----+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_by:N-N (DNA,polymerase) COMP_into:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (RNA,using) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) COMP_to:V_PASS-N (hybridized,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 80 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-------------------COMP_by:N-V-------------------+------------OBJ:V-N------------+ | +--------------COMP_from:N-N--------------+ +---------OBJ:V-N--------+ | | | +MOD_ATT:N-+ +----OBJ:V-N----+ | | | +-------SUBJ:V-N------+-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | +MOD_ATT:N+ | +---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ +COMP_into:V+MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,SPXXX) OBJ:V-N (using,29-containing) OBJ:V-N (cloned,lambda) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) COMP_by:N-V (RNA,using) MOD_ATT:N-N (fragments,DNA) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) SUBJ:V-N (cloned,fragments) OBJ:V-N (using,polymerase) MOD_ATT:N-ADJ (DNA,total) OBJ:V-N (using,RNA) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (DNA,SPXXX) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 81 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +--------COMP_from:V_PASS-N-------+--------------COMP_by:N-N--------------+ +----------------------------COMP_into:V_PASS-N---------------------------+ | | +MOD_ATT:N-+ +----MOD_ATT:N-N---+ | | +-----COMP_of:N-N----+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ +MOD_+MOD_AT+----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (hybridized,lambda) COMP_by:N-N (DNA,polymerase) COMP_of:N-N (bank,fragments) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (sigma,using) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 82 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------COMP_from:N-N--------------+------COMP_by:N-N------+--------------OBJ:V-N--------------+ | | +MOD_ATT:N-+ +--MOD_ATT:N-N--+ +------SUBJ:V-N-----+ | +----------SUBJ:V_PASS-N----------+COMP_into:V_PASS-+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | +MOD_ATT:N+ +MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+SUBJ:V+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) SUBJ:V-N (was,polymerase) COMP_into:V_PASS-N (cloned,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (29-containing,using) MOD_ATT:N-N (DNA,total) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (hybridized,RNA) OBJ:V-N (was,29-containing) COMP_by:N-N (DNA,29-containing) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (cloned,SPXXX) Parse 83 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-------------------COMP_by:N-V-------------------+------------OBJ:V-N------------+ | +--------------COMP_from:N-N--------------+ | +-------MOD_ATT:N-N-------+ | | +MOD_ATT:N-+ | | +--MOD_ATT:N-N--+ | +-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | | +MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+-------SUBJ:V-N------+COMP_into:V+MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) OBJ:V-N (cloned,lambda) COMP_from:N-N (RNA,DNA) COMP_by:N-V (RNA,using) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) OBJ:V-N (using,polymerase) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (DNA,SPXXX) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 84 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | +--------------COMP_from:N-N--------------+ | | +----COMP_in:N-N----+ | +------------OBJ:V-N------------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | +MOD_ATT:N-N+-------SUBJ:V-N------+-----OBJ:V-N-----+ +SUBJ:V_+ | | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+ +MOD_AT+----SUBJ:V-N---+ +COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (cloned,lambda) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) COMP_by:N-V (RNA,using) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,polymerase) MOD_ATT:N-N (polymerase,RNA) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (polymerase,sigma) MOD_POST:N-ADJ (RNA,vitro) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-ADJ (DNA,total) SUBJ:V-N (been,fragments) SUBJ:V_PASS-N (hybridized,RNA) Parse 85 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | +--------------COMP_from:N-N--------------+ +------------OBJ:V-N------------+ | +----COMP_in:N-N----+ | | +-------MOD_ATT:N-N-------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | | +--MOD_ATT:N-N--+ | +-----COMP_of:N-N----+----SUBJ:V_PASS-N----+COMP_into:V_PASS-+ +SUBJ:V_+ | | +MOD_+ | | | +MOD_AT+---APPOS---+ +COMP_to:V_PA+ +MOD_+MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,fragments) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) COMP_by:N-V (RNA,using) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,polymerase) COMP_into:V_PASS-N (cloned,lambda) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (polymerase,sigma) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-ADJ (DNA,total) SUBJ:V-N (been,fragments) SUBJ:V_PASS-N (hybridized,RNA) Parse 86 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-------------------COMP_by:N-V-------------------+------------OBJ:V-N------------+ | +--------------COMP_from:N-N--------------+ | +-------MOD_ATT:N-N-------+ | | +MOD_ATT:N-+ | | +--MOD_ATT:N-N--+ | +MOD_ATT:N-N+ +-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | | +MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+-------SUBJ:V-N------+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) COMP_by:N-V (RNA,using) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (polymerase,sigma) OBJ:V-N (using,polymerase) OBJ:V-N (cloned,lambda) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (DNA,SPXXX) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 87 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | +--------------COMP_from:N-N--------------+ | | +----COMP_in:N-N----+ | +------------OBJ:V-N------------+ | +-----COMP_of:N-N----+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | | +MOD_ATT:N-N+ +COMP_into:V_PASS-+ +SUBJ:V_+ | | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ | +MOD_AT+----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,fragments) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) COMP_by:N-V (RNA,using) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,polymerase) COMP_into:V_PASS-N (cloned,lambda) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) MOD_POST:N-ADJ (RNA,vitro) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-ADJ (DNA,total) SUBJ:V_PASS-N (hybridized,RNA) Parse 88 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +--------COMP_from:V_PASS-N-------+ +------------OBJ:V-N------------+ | +--------------------OBJ:V-N-------------------+ | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | +-COMP_of:N-N-+ +----------------SUBJ:V-N---------------+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ +MOD_+ +----SUBJ:V_PASS-N----+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (cloned,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (polymerase,sigma) OBJ:V-N (using,polymerase) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) COMP_to:V_PASS-N (hybridized,bank) OBJ:V-N (lambda,DNA) MOD_ATT:N-N (DNA,SPXXX) COMP_in:V_PASS-N (transcribed,vitro) COMP_of:N-N (bank,DNA) SUBJ:V_PASS-N (hybridized,RNA) Parse 89 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +--------------COMP_from:N-N--------------+-----------------------APPOS-----------------------+ | +----COMP_in:N-N----+ | +------------OBJ:V-N------------+ | | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | | +-------------OBJ:V-N-------------+--COMP_into:V-N--+ +SUBJ:V_+ | | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+ | +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . APPOS (DNA,GENEXXX) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (cloned,SPXXX) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) COMP_by:N-V (DNA,using) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (polymerase,sigma) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (RNA,29-containing) SUBJ:V-N (cloned,fragments) OBJ:V-N (using,polymerase) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_into:V-N (cloned,lambda) SUBJ:V_PASS-N (hybridized,RNA) Parse 90 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | | | +------------OBJ:V-N------------+ | | | +--------COMP_from:V_PASS-N-------+ +---------OBJ:V-N--------+ | | | +---------------SUBJ:V_PASS-N--------------+ | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | | | +----------SUBJ:V-N---------+ +COMP_into:V_PASS-+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+ | | +COMP_to:V_PA+COMP_of:+MOD_+SUBJ:V+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (RNA,sigma) COMP_from:V_PASS-N (transcribed,DNA) COMP_into:V_PASS-N (cloned,lambda) APPOS (DNA,GENEXXX) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (been,SPXXX) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (RNA,29-containing) OBJ:V-N (using,polymerase) MOD_ATT:N-ADJ (DNA,total) OBJ:V-N (using,RNA) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) MOD_ATT:N-N (DNA,SPXXX) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 91 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +-------------COMP_by:V_PASS-V------------+ | | +--------COMP_from:V_PASS-N-------+ | +--------------OBJ:V-N--------------+ | | | +MOD_ATT:N-+ +----OBJ:V-N----+ +------SUBJ:V-N-----+ | +MOD_ATT:N-N+ +-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | +MOD_ATT:N+ +MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+ +MOD_AT+-------SUBJ:V-N------+COMP_into:V+MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (using,29-containing) MOD_ATT:N-N (29-containing,sigma) OBJ:V-N (cloned,lambda) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-V (transcribed,using) MOD_ATT:N-N (DNA,total) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (hybridized,RNA) OBJ:V-N (was,29-containing) COMP_in:V_PASS-N (transcribed,vitro) Parse 92 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +--------------COMP_from:N-N--------------+ | +------------------------COMP_into:N-N-----------------------+ +----COMP_in:N-N----+ | +------------OBJ:V-N------------+ | | +-------------OBJ:V-N-------------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | | | +-------SUBJ:V-N------+ | +SUBJ:V_+ | | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+ +MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (cloned,SPXXX) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,polymerase) MOD_ATT:N-N (polymerase,RNA) COMP_by:N-V (DNA,using) MOD_ATT:N-N (DNA,total) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (polymerase,sigma) COMP_into:N-N (bank,lambda) MOD_POST:N-ADJ (RNA,vitro) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) SUBJ:V_PASS-N (hybridized,RNA) Parse 93 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | +------------------------COMP_into:N-N-----------------------+ | +--------COMP_from:V_PASS-N-------+ +------------OBJ:V-N------------+ | | +-----COMP_of:N-N----+ | | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | | | +MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+ | +COMP_to:V_PA+ | +MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (fragments,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,polymerase) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) APPOS (DNA,GENEXXX) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (RNA,29-containing) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) COMP_of:N-N (bank,fragments) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 94 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +---------------SUBJ:V_PASS-N--------------+ +--------------COMP_from:N-N--------------+ | +--------------SUBJ:V-N--------------+ | +----COMP_in:N-N----+ | +------------OBJ:V-N------------+ | +-----COMP_of:N-N----+ | | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | | +MOD_ATT:N-N+ | +COMP_into:V_PASS-+ +SUBJ:V_+ | | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ | +MOD_AT+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,fragments) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,polymerase) COMP_into:V_PASS-N (cloned,lambda) SUBJ:V-N (been,bank) MOD_ATT:N-N (polymerase,RNA) COMP_by:N-V (DNA,using) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (polymerase,sigma) MOD_POST:N-ADJ (RNA,vitro) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) SUBJ:V_PASS-N (hybridized,RNA) Parse 95 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------COMP_from:N-N--------------+ | +----COMP_in:N-N----+ | +---------OBJ:V-N--------+----------OBJ:V-N---------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +----OBJ:V-N----+ | +------SUBJ:V-N-----+ | +---------------SUBJ:V_PASS-N--------------+COMP_into:V_PASS-+ +SUBJ:V_+ | | +MOD_+COMP_by+ +MOD_ATT:N+ | +---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+SUBJ:V+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (was,polymerase) COMP_into:V_PASS-N (cloned,lambda) COMP_by:N-V (DNA,using) SUBJ:V-N (hybridized,RNA) SUBJ:V-N (fragments,DNA) COMP_in:N-N (RNA,vitro) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (using,RNA) OBJ:V-N (using,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) OBJ:V-N (was,RNA) Parse 96 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | | +--------COMP_from:V_PASS-N-------+ +------------OBJ:V-N------------+ | | +-------------------COMP_into:N-N-------------------+ | | +MOD_ATT:N-+ +----OBJ:V-N----+ | | | +----------SUBJ:V_PASS-N----------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ +MOD_ATT:N+ +MOD_AT+ | +COMP_to:V_PA+COMP_of:+MOD_+SUBJ:V+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (polymerase,RNA) COMP_into:N-N (SPXXX,lambda) APPOS (DNA,GENEXXX) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (using,29-containing) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (using,polymerase) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (cloned,SPXXX) SUBJ:V_PASS-N (hybridized,RNA) Parse 97 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | +--------------COMP_from:N-N--------------+ | | +----COMP_in:N-N----+ | | +--------------OBJ:V-N--------------+ +-------------OBJ:V-N-------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +----OBJ:V-N----+ +------SUBJ:V-N-----+ | +MOD_ATT:N-N+ +COMP_into:V_PASS-+ +SUBJ:V_+ | | +MOD_+ | +MOD_ATT:N+ +MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+ +MOD_AT+----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) COMP_by:N-V (RNA,using) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) COMP_into:V_PASS-N (cloned,lambda) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) SUBJ:V-N (hybridized,RNA) COMP_in:N-N (RNA,vitro) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) OBJ:V-N (using,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (hybridized,fragments) OBJ:V-N (was,29-containing) Parse 98 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-----------------------------------COMP_by:N-N-----------------------------------+ | +------------------------COMP_into:N-N-----------------------+ +--------------COMP_from:N-N--------------+ +----------MOD_ATT:N-N----------+ | +-----COMP_of:N-N----+ | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | | +MOD_ATT:N-N+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ | +MOD_AT+----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (RNA,polymerase) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,DNA) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (RNA,29-containing) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_of:N-N (bank,fragments) MOD_ATT:N-N (polymerase,using) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 99 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | +--------------COMP_from:N-N--------------+ | | +------------------------COMP_into:N-N-----------------------+ +----COMP_in:N-N----+ | +------------OBJ:V-N------------+ | | +-----------OBJ:V-N----------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +----OBJ:V-N----+ | | +-COMP_of:N-N-+ +-------SUBJ:V-N------+ | +SUBJ:V_+ | | +MOD_+ | +MOD_ATT:N+ +MOD_AT+---APPOS---+ +COMP_to:V_PA+ +MOD_+ +----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) COMP_by:N-V (RNA,using) COMP_of:N-N (bank,DNA) MOD_ATT:N-N (polymerase,RNA) COMP_in:N-N (RNA,vitro) COMP_into:N-N (bank,lambda) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) OBJ:V-N (using,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) OBJ:V-N (using,polymerase) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-ADJ (DNA,total) SUBJ:V-N (been,fragments) OBJ:V-N (cloned,DNA) SUBJ:V_PASS-N (hybridized,RNA) Parse 100 +------------------------COMP_into:N-N-----------------------+ +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +---------------SUBJ:V_PASS-N--------------+ | | +--------COMP_from:V_PASS-N-------+ +---------OBJ:V-N--------+----------OBJ:V-N---------+ | +-----COMP_of:N-N----+ | | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | | +MOD_ATT:N-N+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+ | +MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,fragments) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,RNA) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) COMP_into:N-N (bank,lambda) COMP_to:V-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) SUBJ:V_PASS-N (cloned,bank) OBJ:V-N (was,RNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 101 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | | | +------------OBJ:V-N------------+ | | | +--------COMP_from:V_PASS-N-------+ +---------OBJ:V-N--------+ | | | +------------------------COMP_into:N-N-----------------------+ | | +MOD_ATT:N-+ +----OBJ:V-N----+ | | | | | +----------SUBJ:V_PASS-N----------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ +MOD_ATT:N+ | | | +COMP_to:V_PA+COMP_of:+MOD_+SUBJ:V+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (DNA,total) APPOS (DNA,GENEXXX) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (using,RNA) OBJ:V-N (using,29-containing) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (using,polymerase) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (cloned,SPXXX) SUBJ:V_PASS-N (hybridized,RNA) Parse 102 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +--------------COMP_from:N-N--------------+ +------------OBJ:V-N------------+ | +------------------------COMP_into:N-N-----------------------+ +----COMP_in:N-N----+ | +---------OBJ:V-N--------+ | | +------------------OBJ:V-N-----------------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | | +MOD_ATT:N-N+-------SUBJ:V-N------+ | +SUBJ:V_+ | | +MOD_+COMP_by+ | +MOD_ATT:+ +---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (cloned,bank) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,DNA) COMP_by:N-V (DNA,using) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (lambda,SPXXX) COMP_into:N-N (bank,lambda) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) OBJ:V-N (using,polymerase) MOD_ATT:N-ADJ (DNA,total) OBJ:V-N (using,RNA) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) SUBJ:V_PASS-N (hybridized,RNA) Parse 103 +------------------------COMP_into:N-N-----------------------+ +---------------SUBJ:V_PASS-N--------------+ | +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +--------------SUBJ:V-N--------------+ | | | +--------COMP_from:V_PASS-N-------+ +------------OBJ:V-N------------+ | +-----COMP_of:N-N----+ | | | | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | | +MOD_ATT:N-N+ | | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ | +MOD_AT+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (fragments,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) SUBJ:V-N (been,bank) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,29-containing) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) OBJ:V-N (using,polymerase) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) COMP_of:N-N (bank,fragments) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 104 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | +--------------COMP_from:N-N--------------+ +------------OBJ:V-N------------+ | | +------------------------COMP_into:N-N-----------------------+ +----COMP_in:N-N----+ | +---------OBJ:V-N--------+ | | | | +-------------OBJ:V-N-------------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | | | | +-------SUBJ:V-N------+ | +SUBJ:V_+ | | +MOD_+COMP_by+ | +MOD_ATT:+ | | +COMP_to:V_PA+COMP_of:+ +MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . APPOS (DNA,GENEXXX) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (cloned,SPXXX) MOD_ATT:N-N (fragments,DNA) COMP_by:N-V (DNA,using) MOD_ATT:N-N (DNA,total) COMP_in:N-N (RNA,vitro) COMP_into:N-N (bank,lambda) MOD_POST:N-ADJ (RNA,vitro) OBJ:V-N (using,RNA) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) SUBJ:V-N (cloned,fragments) OBJ:V-N (using,polymerase) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) SUBJ:V_PASS-N (hybridized,RNA) Parse 105 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+----------------------------COMP_into:V_PASS-N---------------------------+ | +--------------COMP_by:N-N--------------+ | +---------------SUBJ:V_PASS-N--------------+ | +--------------COMP_from:N-N--------------+ +----------MOD_ATT:N-N----------+ | +-----COMP_of:N-N----+ | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | | +MOD_ATT:N-N+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ | +MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (RNA,sigma) COMP_into:V_PASS-N (hybridized,lambda) MOD_ATT:N-N (polymerase,using) COMP_by:N-N (DNA,polymerase) COMP_of:N-N (bank,fragments) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,29-containing) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 106 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | +------------------------COMP_into:N-N-----------------------+ +--------------COMP_from:N-N--------------+ | | +---------------SUBJ:V_PASS-N--------------+ | +----COMP_in:N-N----+ | +------------OBJ:V-N------------+ | +-----COMP_of:N-N----+ | | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | | +MOD_ATT:N-N+ | | +SUBJ:V_+ | | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ | +MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,fragments) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) COMP_by:N-V (RNA,using) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,polymerase) MOD_ATT:N-N (polymerase,RNA) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (lambda,SPXXX) COMP_into:N-N (bank,lambda) MOD_POST:N-ADJ (RNA,vitro) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-ADJ (DNA,total) SUBJ:V_PASS-N (cloned,bank) SUBJ:V_PASS-N (hybridized,RNA) Parse 107 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------COMP_from:N-N--------------+--------------------------OBJ:V-N--------------------------+ | +----COMP_in:N-N----+ | +---------OBJ:V-N--------+ | | +---------------SUBJ:V_PASS-N--------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +----OBJ:V-N----+ | +------SUBJ:V-N-----+ | +-----COMP_of:N-N----+ +COMP_into:V_PASS-+ +SUBJ:V_+ | | +MOD_+COMP_by+ +MOD_ATT:N+ | +---APPOS---+ | +-COMP_to:V-N+ +MOD_+MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) COMP_from:N-N (RNA,DNA) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) COMP_into:V_PASS-N (cloned,lambda) COMP_by:N-V (DNA,using) SUBJ:V-N (hybridized,RNA) MOD_ATT:N-N (DNA,total) COMP_in:N-N (RNA,vitro) COMP_of:N-N (bank,fragments) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (using,RNA) OBJ:V-N (using,29-containing) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V_PASS-N (cloned,bank) Parse 108 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+----------------------------COMP_into:V_PASS-N---------------------------+ +--------------COMP_from:N-N--------------+--------------COMP_by:N-N--------------+ | +---------------SUBJ:V_PASS-N--------------+ | +----COMP_in:N-N----+ | +----------MOD_ATT:N-N----------+ | +-----COMP_of:N-N----+ | | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | | +MOD_ATT:N-N+ | | +SUBJ:V_+ | | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ | +MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (polymerase,using) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) COMP_into:V_PASS-N (hybridized,lambda) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,29-containing) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) COMP_of:N-N (bank,fragments) MOD_POST:N-ADJ (RNA,vitro) COMP_to:V_PASS-N (hybridized,bank) COMP_by:N-N (DNA,polymerase) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) SUBJ:V_PASS-N (hybridized,RNA) Parse 109 +------------------------------COMP_into:V-N------------------------------+ +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +---------------SUBJ:V_PASS-N--------------+ | +--------------COMP_from:N-N--------------+ +---------OBJ:V-N--------+----------OBJ:V-N---------+ | +-----COMP_of:N-N----+ | | | +MOD_ATT:N-+ +----OBJ:V-N----+ | +------SUBJ:V-N-----+ | | +MOD_ATT:N-N+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ +MOD_ATT:N+ | +---APPOS---+ | +-COMP_to:V-N+ | +MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) OBJ:V-N (using,29-containing) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (DNA,total) COMP_of:N-N (bank,fragments) COMP_to:V-N (hybridized,bank) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) OBJ:V-N (using,RNA) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_into:V-N (hybridized,lambda) SUBJ:V_PASS-N (cloned,bank) OBJ:V-N (was,RNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 110 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | | | +------------OBJ:V-N------------+ | | +------------------------COMP_into:N-N-----------------------+ +--------------COMP_from:N-N--------------+ +---------OBJ:V-N--------+ | | | +------------------OBJ:V-N-----------------+ | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | | | +-------SUBJ:V-N------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+ | | +COMP_to:V_PA+COMP_of:+ +MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,DNA) COMP_into:N-N (bank,lambda) OBJ:V-N (cloned,bank) APPOS (DNA,GENEXXX) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (RNA,29-containing) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) SUBJ:V-N (cloned,fragments) OBJ:V-N (using,polymerase) MOD_ATT:N-ADJ (DNA,total) OBJ:V-N (using,RNA) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 111 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------------------------OBJ:V-N--------------------------+ | +--------------COMP_from:N-N--------------+ +---------OBJ:V-N--------+ | | | +MOD_ATT:N-+ +----OBJ:V-N----+ | +------SUBJ:V-N-----+ | +---------------SUBJ:V_PASS-N--------------+COMP_into:V_PASS-+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ +MOD_ATT:N+ | +---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+SUBJ:V+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) OBJ:V-N (using,29-containing) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) SUBJ:V-N (was,polymerase) COMP_into:V_PASS-N (cloned,lambda) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) OBJ:V-N (using,RNA) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 112 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | | | +------------OBJ:V-N------------+ | | | +--------COMP_from:V_PASS-N-------+ | +-------MOD_ATT:N-N-------+ | +----------------------------COMP_into:V_PASS-N---------------------------+ | | +MOD_ATT:N-+ | | +-MOD_ATT:N-ADJ-+ | | +---------------SUBJ:V_PASS-N--------------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | | +MOD_AT+ | +COMP_to:V_PA+COMP_of:+MOD_+SUBJ:V+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (hybridized,lambda) COMP_of:N-N (bank,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) OBJ:V-N (using,polymerase) MOD_ATT:N-N (polymerase,RNA) APPOS (DNA,GENEXXX) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (DNA,SPXXX) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) MOD_ATT:N-ADJ (polymerase,29-containing) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 113 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +-------------COMP_by:V_PASS-V------------+ | | +--------COMP_from:V_PASS-N-------+ | +--------------OBJ:V-N--------------+ | +------------------------COMP_into:N-N-----------------------+ | | +MOD_ATT:N-+ +----OBJ:V-N----+ +------SUBJ:V-N-----+ | | +-------------OBJ:V-N-------------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | +MOD_ATT:N+ +MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (using,29-containing) MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (cloned,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-V (transcribed,using) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (hybridized,RNA) OBJ:V-N (was,29-containing) COMP_in:V_PASS-N (transcribed,vitro) Parse 114 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +--------------COMP_from:N-N--------------+--------------COMP_by:N-N--------------+ | +----COMP_in:N-N----+ | +-------MOD_ATT:N-N-------+ +----------------------------COMP_into:V_PASS-N---------------------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +--MOD_ATT:N-N--+ | +---------------SUBJ:V_PASS-N--------------+ | +SUBJ:V_+ | | +MOD_+ +MOD_A+ | +MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+SUBJ:V+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) COMP_into:V_PASS-N (hybridized,lambda) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (fragments,DNA) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_by:N-N (DNA,polymerase) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) MOD_ATT:N-N (sigma,using) SUBJ:V_PASS-N (hybridized,RNA) Parse 115 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | +------------------------COMP_into:N-N-----------------------+ | +--------COMP_from:V_PASS-N-------+ +---------OBJ:V-N--------+----------OBJ:V-N---------+ | +---------------SUBJ:V_PASS-N--------------+ | | | +MOD_ATT:N-+ +----OBJ:V-N----+ | +------SUBJ:V-N-----+ | +-----COMP_of:N-N----+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | +MOD_ATT:N+ | +---APPOS---+ | +-COMP_to:V-N+ +MOD_+MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) OBJ:V-N (using,29-containing) COMP_of:N-N (bank,fragments) COMP_by:N-V (RNA,using) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (lambda,SPXXX) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) OBJ:V-N (using,RNA) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) OBJ:V-N (was,RNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 116 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-------------------COMP_by:N-V-------------------+------------OBJ:V-N------------+ | +--------------COMP_from:N-N--------------+ | +-------MOD_ATT:N-N-------+ +----------------------------COMP_into:V_PASS-N---------------------------+ | +MOD_ATT:N-+ | | +--MOD_ATT:N-N--+ | +---------------SUBJ:V_PASS-N--------------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | | +MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+SUBJ:V+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (hybridized,lambda) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) COMP_by:N-V (RNA,using) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) OBJ:V-N (using,polymerase) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 117 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +--------------COMP_from:N-N--------------+ +------------OBJ:V-N------------+ | +----COMP_in:N-N----+ | +---------OBJ:V-N--------+ | | +----------------SUBJ:V-N---------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | +MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +SUBJ:V_+ | | +MOD_+COMP_by+ | +MOD_ATT:+ +---APPOS---+ +COMP_to:V_PA+COMP_of:+ +MOD_AT+----SUBJ:V-N---+ +COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (cloned,SPXXX) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,DNA) SUBJ:V-N (lambda,fragments) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (cloned,fragments) COMP_in:N-N (RNA,vitro) MOD_POST:N-ADJ (RNA,vitro) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) OBJ:V-N (using,polymerase) MOD_ATT:N-ADJ (DNA,total) OBJ:V-N (using,RNA) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) SUBJ:V_PASS-N (hybridized,RNA) Parse 118 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +-------------------------COMP_by:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N-------+ +-------MOD_ATT:N-N------+----------OBJ:V-N---------+ +------------------------------COMP_into:V-N------------------------------+ | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +---------------SUBJ:V_PASS-N--------------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+SUBJ:V+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (RNA,using) COMP_to:V-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) COMP_into:V-N (hybridized,lambda) SUBJ:V_PASS-N (cloned,bank) OBJ:V-N (was,RNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 119 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | +--------------COMP_from:N-N--------------+ | | +----COMP_in:N-N----+ | +------------OBJ:V-N------------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | +-----OBJ:V-N-----+ +SUBJ:V_+ | | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+-------SUBJ:V-N------+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) COMP_by:N-V (RNA,using) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) COMP_in:N-N (RNA,vitro) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) OBJ:V-N (cloned,lambda) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (hybridized,RNA) Parse 120 +------------------------------COMP_into:V-N------------------------------+ +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +---------------SUBJ:V_PASS-N--------------+ | | +---------------------COMP_by:V_PASS-N--------------------+ | +--------------SUBJ:V-N--------------+ | | | +--------COMP_from:V_PASS-N-------+ +--------------OBJ:V-N--------------+ | +-----COMP_of:N-N----+ | | | | | +MOD_ATT:N-+ | +------SUBJ:V-N-----+ | | +MOD_ATT:N-N+ | | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+MOD_ATT:N+ +MOD_AT+---APPOS---+ | +-COMP_to:V-N+ | +MOD_AT+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (sigma,using) SUBJ:V-N (been,bank) COMP_by:V_PASS-N (transcribed,29-containing) MOD_ATT:N-N (polymerase,RNA) COMP_of:N-N (bank,fragments) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_into:V-N (hybridized,lambda) SUBJ:V_PASS-N (cloned,bank) SUBJ:V-N (hybridized,RNA) OBJ:V-N (was,29-containing) COMP_in:V_PASS-N (transcribed,vitro) Parse 121 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | | | +------------OBJ:V-N------------+ | | +--------------COMP_from:N-N--------------+ +---------OBJ:V-N--------+ | | | | +MOD_ATT:N-+ +----OBJ:V-N----+ | | | | +MOD_ATT:N-N+----------------SUBJ:V-N---------------+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ +MOD_ATT:N+ | | | +COMP_to:V_PA+COMP_of:+ +MOD_AT+----SUBJ:V_PASS-N----+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,SPXXX) COMP_into:V_PASS-N (cloned,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,DNA) SUBJ:V_PASS-N (cloned,fragments) APPOS (DNA,GENEXXX) OBJ:V-N (using,RNA) OBJ:V-N (using,29-containing) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (using,polymerase) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) COMP_to:V_PASS-N (hybridized,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 122 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +-------------------COMP_by:N-V-------------------+ +------------------------------COMP_into:V-N------------------------------+ +--------------COMP_from:N-N--------------+ | | +---------------SUBJ:V_PASS-N--------------+ | +----COMP_in:N-N----+ | +---------OBJ:V-N--------+----------OBJ:V-N---------+ | +-----COMP_of:N-N----+ | | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +----OBJ:V-N----+ | +------SUBJ:V-N-----+ | | +MOD_ATT:N-N+ | | +SUBJ:V_+ | | +MOD_+ | +MOD_ATT:N+ | +---APPOS---+ | +-COMP_to:V-N+ | +MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (fragments,SPXXX) COMP_by:N-V (RNA,using) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) SUBJ:V-N (hybridized,RNA) MOD_ATT:N-N (DNA,total) COMP_into:V-N (hybridized,lambda) COMP_in:N-N (RNA,vitro) COMP_of:N-N (bank,fragments) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) OBJ:V-N (using,RNA) OBJ:V-N (using,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) OBJ:V-N (was,RNA) Parse 123 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------------------------OBJ:V-N--------------------------+ | +-------------------------COMP_of:N-N------------------------+ | +-----------COMP_by:N-N----------+ | | | +--------------------MOD_ATT:N-N--------------------+ +--------------COMP_from:N-N--------------+ +-------MOD_ATT:N-N------+ | | | | +------------------MOD_ATT:N-N-----------------+ | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | | | | +--------------MOD_ATT:N-N--------------+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+ | | | +COMP_into:V+MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (cloned,SPXXX) MOD_ATT:N-N (lambda,fragments) COMP_from:N-N (RNA,DNA) SUBJ:V-N (was,polymerase) COMP_by:N-N (DNA,RNA) MOD_ATT:N-N (lambda,DNA) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (RNA,using) MOD_ATT:N-N (lambda,SPXXX) COMP_to:V-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_of:N-N (bank,lambda) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 124 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +--------------COMP_from:N-N--------------+ +------------OBJ:V-N------------+ | +----------SUBJ:V_PASS-N----------+ | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | +----------SUBJ:V-N---------+ +COMP_into:V_PASS-+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+SUBJ:V+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) COMP_into:V_PASS-N (cloned,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) MOD_ATT:N-ADJ (RNA,29-containing) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) SUBJ:V-N (been,SPXXX) OBJ:V-N (using,polymerase) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (DNA,SPXXX) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (cloned,SPXXX) SUBJ:V_PASS-N (hybridized,RNA) Parse 125 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +--------------COMP_from:N-N--------------+ +------------OBJ:V-N------------+ | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | +----------------SUBJ:V-N---------------+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V_PASS-N----+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_into:V_PASS-N (cloned,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (polymerase,sigma) OBJ:V-N (using,polymerase) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (DNA,SPXXX) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 126 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +--------------COMP_by:N-N--------------+ | +--------------COMP_from:N-N--------------+ +-------MOD_ATT:N-N-------+ | | +MOD_ATT:N-+ | +--MOD_ATT:N-N--+ | +-------------OBJ:V-N-------------+--COMP_into:V-N--+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ | +MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_by:N-N (DNA,polymerase) COMP_from:N-N (RNA,DNA) OBJ:V-N (cloned,SPXXX) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (sigma,using) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (DNA,SPXXX) COMP_in:V_PASS-N (transcribed,vitro) COMP_into:V-N (cloned,lambda) SUBJ:V_PASS-N (hybridized,RNA) Parse 127 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | +--------------COMP_from:N-N--------------+--------------COMP_by:N-N--------------+ | | +----COMP_in:N-N----+ | +-------MOD_ATT:N-N------+ | | | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | | +----------------SUBJ:V-N---------------+ +SUBJ:V_+ | | +MOD_+ | | +MOD_ATT:+MOD_AT+ | +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V_PASS-N----+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . APPOS (DNA,GENEXXX) COMP_into:V_PASS-N (cloned,SPXXX) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) COMP_in:N-N (RNA,vitro) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_by:N-N (DNA,polymerase) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (RNA,using) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) SUBJ:V_PASS-N (hybridized,RNA) Parse 128 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +------------------------COMP_into:N-N-----------------------+ +--------------COMP_from:N-N--------------+ +------------OBJ:V-N------------+ | +-----COMP_of:N-N----+ | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | | +MOD_ATT:N-N+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ | +MOD_AT+----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,DNA) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) OBJ:V-N (using,polymerase) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_of:N-N (bank,fragments) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 129 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +------------OBJ:V-N------------+ | +--------------COMP_from:N-N--------------+ +---------OBJ:V-N--------+ | | +------------------------COMP_into:N-N-----------------------+ | +MOD_ATT:N-+ +----OBJ:V-N----+ | | | +-----COMP_of:N-N----+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ +MOD_ATT:N+ | +---APPOS---+ +COMP_to:V_PA+ +MOD_+MOD_AT+----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) OBJ:V-N (using,29-containing) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,DNA) COMP_into:N-N (bank,lambda) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (DNA,SPXXX) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) OBJ:V-N (using,polymerase) OBJ:V-N (using,RNA) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_of:N-N (bank,fragments) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 130 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +--------------COMP_by:N-N--------------+ | +--------------COMP_from:N-N--------------+ +-------MOD_ATT:N-N-------+ | +------------------OBJ:V-N-----------------+ | +MOD_ATT:N-+ | +--MOD_ATT:N-N--+ | | +-------SUBJ:V-N------+--COMP_into:V-N--+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ | +MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+ +MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (fragments,DNA) COMP_of:N-N (bank,SPXXX) COMP_by:N-N (DNA,polymerase) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (sigma,using) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (cloned,bank) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) COMP_in:V_PASS-N (transcribed,vitro) COMP_into:V-N (cloned,lambda) SUBJ:V_PASS-N (hybridized,RNA) Parse 131 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +--------------COMP_from:N-N--------------+ | +----COMP_in:N-N----+ +--------------COMP_by:N-N--------------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +----MOD_ATT:N-N---+ | | +------------------OBJ:V-N-----------------+--COMP_into:V-N--+ +SUBJ:V_+ | | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (cloned,bank) MOD_ATT:N-N (DNA,total) COMP_in:N-N (RNA,vitro) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_by:N-N (DNA,polymerase) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (sigma,using) COMP_into:V-N (cloned,lambda) SUBJ:V_PASS-N (hybridized,RNA) Parse 132 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | | +--------COMP_from:V_PASS-N-------+--------------COMP_by:N-N--------------+ | | +-------------------COMP_into:N-N-------------------+ | | +MOD_ATT:N-+ +-------MOD_ATT:N-N-------+ | | +----------SUBJ:V_PASS-N----------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+ | +COMP_to:V_PA+COMP_of:+MOD_+SUBJ:V+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_by:N-N (DNA,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (polymerase,RNA) COMP_into:N-N (SPXXX,lambda) APPOS (DNA,GENEXXX) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (sigma,using) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (cloned,SPXXX) SUBJ:V_PASS-N (hybridized,RNA) Parse 133 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | +--------------COMP_from:N-N--------------+ | | +----COMP_in:N-N----+ | +------------OBJ:V-N------------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | +MOD_ATT:N-N+----------------SUBJ:V-N---------------+ +SUBJ:V_+ | | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+ +MOD_AT+----SUBJ:V_PASS-N----+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (cloned,SPXXX) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) COMP_by:N-V (RNA,using) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,polymerase) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (polymerase,sigma) MOD_POST:N-ADJ (RNA,vitro) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) SUBJ:V_PASS-N (hybridized,RNA) Parse 134 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +--------------COMP_from:N-N--------------+--------------COMP_by:N-N--------------+ | +----COMP_in:N-N----+ | +-------MOD_ATT:N-N------+ | | +------------------OBJ:V-N-----------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | +-COMP_of:N-N-+ +--COMP_into:V-N--+ +SUBJ:V_+ | | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ +MOD_+ +-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) COMP_of:N-N (bank,DNA) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (cloned,bank) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (lambda,SPXXX) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (RNA,using) COMP_by:N-N (DNA,polymerase) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_into:V-N (cloned,lambda) SUBJ:V_PASS-N (hybridized,RNA) Parse 135 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-----------------------------------COMP_by:N-N-----------------------------------+ | +--------------COMP_from:N-N--------------+ +----------MOD_ATT:N-N----------+ | +----COMP_in:N-N----+ | | +-------MOD_ATT:N-N-------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | | +-MOD_ATT:N-ADJ-+ | +MOD_ATT:N-N+----------------SUBJ:V-N---------------+ +SUBJ:V_+ | | +MOD_+ | | | +MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+ +MOD_AT+----SUBJ:V_PASS-N----+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (RNA,polymerase) COMP_into:V_PASS-N (cloned,SPXXX) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (polymerase,sigma) MOD_POST:N-ADJ (RNA,vitro) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) MOD_ATT:N-N (polymerase,using) MOD_ATT:N-ADJ (polymerase,29-containing) SUBJ:V_PASS-N (hybridized,RNA) Parse 136 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-------------------COMP_by:N-V-------------------+------------OBJ:V-N------------+ | +--------------COMP_from:N-N--------------+ +---------OBJ:V-N--------+ | | +---------------SUBJ:V_PASS-N--------------+ | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | | +----------SUBJ:V-N---------+ +COMP_into:V_PASS-+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+SUBJ:V+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) COMP_by:N-V (RNA,using) OBJ:V-N (using,polymerase) COMP_into:V_PASS-N (cloned,lambda) OBJ:V-N (using,RNA) MOD_ATT:N-N (DNA,total) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (been,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) MOD_ATT:N-N (DNA,SPXXX) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 137 +------------------------COMP_into:N-N-----------------------+ +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +---------------SUBJ:V_PASS-N--------------+ | +--------------COMP_from:N-N--------------+--------------COMP_by:N-N--------------+ | +-----COMP_of:N-N----+ | | | +MOD_ATT:N-+ +-------MOD_ATT:N-N-------+ | | +MOD_ATT:N-N+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ | +MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (DNA,polymerase) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (sigma,using) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,29-containing) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) COMP_of:N-N (bank,fragments) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 138 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------COMP_from:V_PASS-N-------+--------------------------OBJ:V-N--------------------------+ | | | +MOD_ATT:N-+ +----OBJ:V-N----+ +------SUBJ:V-N-----+ | +-----COMP_of:N-N----+ +COMP_into:V_PASS-+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ +MOD_ATT:N+ +MOD_AT+---APPOS---+ | +-COMP_to:V-N+ +MOD_+MOD_AT+----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (using,29-containing) MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,fragments) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) COMP_into:V_PASS-N (cloned,lambda) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 139 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-------------------COMP_by:N-V-------------------+------------OBJ:V-N------------+ | +-----------------COMP_into:N-N----------------+ | +--------COMP_from:V_PASS-N-------+ | +-------MOD_ATT:N-N-------+ | +-----------OBJ:V-N----------+ | | | +MOD_ATT:N-+ | | +--MOD_ATT:N-N--+ | +-COMP_of:N-N-+ +-------SUBJ:V-N------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | | +MOD_AT+---APPOS---+ +COMP_to:V_PA+ +MOD_+ +----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:N-N (DNA,lambda) COMP_by:N-V (RNA,using) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) OBJ:V-N (using,polymerase) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) OBJ:V-N (cloned,DNA) MOD_ATT:N-N (DNA,SPXXX) COMP_in:V_PASS-N (transcribed,vitro) COMP_of:N-N (bank,DNA) SUBJ:V_PASS-N (hybridized,RNA) Parse 140 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +------------------------COMP_into:N-N-----------------------+ | +--------------COMP_by:N-N--------------+ | +---------------SUBJ:V_PASS-N--------------+ | +--------------COMP_from:N-N--------------+ +-------MOD_ATT:N-N------+ | | +-----COMP_of:N-N----+ | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | | +MOD_ATT:N-N+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ | +MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (DNA,polymerase) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,DNA) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (RNA,using) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) COMP_of:N-N (bank,fragments) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 141 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | +------------------------COMP_into:N-N-----------------------+ | +--------COMP_from:V_PASS-N-------+ +------------OBJ:V-N------------+ | +---------------SUBJ:V_PASS-N--------------+ | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | +-----COMP_of:N-N----+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ +MOD_+MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-V (RNA,using) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (using,polymerase) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) COMP_of:N-N (bank,fragments) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 142 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +--------------COMP_from:N-N--------------+ +----------------------------COMP_into:V_PASS-N---------------------------+ +----COMP_in:N-N----+ +--------------COMP_by:N-N--------------+ | +---------------SUBJ:V_PASS-N--------------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +-------MOD_ATT:N-N-------+ | +-----COMP_of:N-N----+ | | +SUBJ:V_+ | | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ +MOD_+MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) COMP_into:V_PASS-N (hybridized,lambda) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (polymerase,sigma) COMP_of:N-N (bank,fragments) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_by:N-N (DNA,polymerase) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) SUBJ:V_PASS-N (cloned,bank) MOD_ATT:N-N (sigma,using) SUBJ:V_PASS-N (hybridized,RNA) Parse 143 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------------COMP_by:V_PASS-N----------------------------+ | | +--------COMP_from:V_PASS-N-------+ | | +------------------------COMP_into:N-N-----------------------+ | | +MOD_ATT:N-+ +-------MOD_ATT:N-N-------+ | +-COMP_of:N-N-+-----------OBJ:V-N----------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ +MOD_+ +-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (sigma,using) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-N (transcribed,polymerase) MOD_ATT:N-N (DNA,total) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) OBJ:V-N (cloned,DNA) COMP_in:V_PASS-N (transcribed,vitro) COMP_of:N-N (bank,DNA) SUBJ:V_PASS-N (hybridized,RNA) Parse 144 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | +--------------COMP_from:N-N--------------+ +------------OBJ:V-N------------+ | | +----------------------OBJ:V-N----------------------+ | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | | | +----------------SUBJ:V-N---------------+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+ | +COMP_to:V_PA+COMP_of:+ +MOD_AT+----SUBJ:V_PASS-N----+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (fragments,DNA) COMP_of:N-N (bank,SPXXX) COMP_into:V_PASS-N (cloned,SPXXX) COMP_from:N-N (RNA,DNA) OBJ:V-N (using,polymerase) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) APPOS (DNA,GENEXXX) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (RNA,29-containing) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (lambda,SPXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) COMP_to:V_PASS-N (hybridized,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 145 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +--------------COMP_from:N-N--------------+-----------------------APPOS-----------------------+ | +------------------------COMP_into:N-N-----------------------+ +----COMP_in:N-N----+ | +------------OBJ:V-N------------+ | | | +----------SUBJ:V_PASS-N----------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | | | +----------SUBJ:V-N---------+ | | +SUBJ:V_+ | | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+ | +COMP_to:V_PA+COMP_of:+MOD_+SUBJ:V+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . APPOS (DNA,GENEXXX) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,RNA) COMP_by:N-V (DNA,using) MOD_ATT:N-N (DNA,total) SUBJ:V-N (fragments,DNA) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (polymerase,sigma) SUBJ:V-N (been,SPXXX) COMP_into:N-N (bank,lambda) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (using,polymerase) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,SPXXX) SUBJ:V_PASS-N (hybridized,RNA) Parse 146 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-------------COMP_by:V_PASS-V------------+------------OBJ:V-N------------+ | | +--------COMP_from:V_PASS-N-------+ | +-------MOD_ATT:N-N-------+ | +---------------SUBJ:V_PASS-N--------------+ | | +MOD_ATT:N-+ | | +-MOD_ATT:N-ADJ-+ | +-----COMP_of:N-N----+ +COMP_into:V_PASS-+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | | +MOD_AT+---APPOS---+ +COMP_to:V_PA+ +MOD_+MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) COMP_into:V_PASS-N (cloned,lambda) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-V (transcribed,using) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) OBJ:V-N (using,polymerase) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) MOD_ATT:N-N (DNA,SPXXX) COMP_of:N-N (bank,fragments) MOD_ATT:N-ADJ (polymerase,29-containing) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 147 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +------------------------COMP_into:N-N-----------------------+ +-------------------COMP_by:N-V-------------------+ | +---------------SUBJ:V_PASS-N--------------+ | | +--------COMP_from:V_PASS-N-------+ +------------OBJ:V-N------------+ | +-----COMP_of:N-N----+ | | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | | +MOD_ATT:N-N+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ | +MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (fragments,SPXXX) COMP_by:N-V (RNA,using) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (using,polymerase) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) COMP_of:N-N (bank,fragments) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 148 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------COMP_from:N-N--------------+ | +------------------------COMP_into:N-N-----------------------+ +----COMP_in:N-N----+ | +--------------OBJ:V-N--------------+ | +---------------SUBJ:V_PASS-N--------------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +----OBJ:V-N----+ +------SUBJ:V-N-----+ | +-----COMP_of:N-N----+ | | +SUBJ:V_+ | | +MOD_+COMP_by+ +MOD_ATT:N+ +MOD_AT+---APPOS---+ | +-COMP_to:V-N+ +MOD_+MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) COMP_from:N-N (RNA,DNA) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) COMP_by:N-V (DNA,using) SUBJ:V-N (hybridized,RNA) MOD_ATT:N-N (DNA,total) COMP_in:N-N (RNA,vitro) COMP_into:N-N (bank,lambda) COMP_of:N-N (bank,fragments) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (using,29-containing) SUBJ:V_PASS-N (cloned,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (was,29-containing) Parse 149 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | +------------------------COMP_into:N-N-----------------------+ +--------------COMP_from:N-N--------------+--------------COMP_by:N-N--------------+ | | +---------------SUBJ:V_PASS-N--------------+ | | +MOD_ATT:N-+ +-------MOD_ATT:N-N-------+ | | +-----COMP_of:N-N----+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+ | +COMP_to:V_PA+ +MOD_+MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (DNA,polymerase) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,DNA) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) APPOS (DNA,GENEXXX) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) COMP_of:N-N (bank,fragments) MOD_ATT:N-N (sigma,using) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 150 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | | +--------------COMP_by:N-N--------------+ | | | +--------COMP_from:V_PASS-N-------+ +-------MOD_ATT:N-N------+ | | | +------------------------COMP_into:N-N-----------------------+ | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | | | +-------------OBJ:V-N-------------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+ | +COMP_to:V_PA+COMP_of:+ +MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_by:N-N (DNA,polymerase) MOD_ATT:N-N (RNA,sigma) OBJ:V-N (cloned,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) APPOS (DNA,GENEXXX) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (RNA,using) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 151 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +--------------COMP_by:N-N--------------+ | | | +----------MOD_ATT:N-N----------+ | +--------------COMP_from:N-N--------------+ | +-------MOD_ATT:N-N-------+ +----------------------------COMP_into:V_PASS-N---------------------------+ | +MOD_ATT:N-+ | | +--MOD_ATT:N-N--+ | +-COMP_of:N-N-+-----------OBJ:V-N----------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | | +MOD_AT+---APPOS---+ +COMP_to:V_PA+ +MOD_+ +-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (hybridized,lambda) COMP_by:N-N (DNA,polymerase) COMP_from:N-N (RNA,DNA) COMP_of:N-N (bank,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (polymerase,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) OBJ:V-N (cloned,DNA) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 152 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +--------------COMP_from:N-N--------------+-----------------------APPOS-----------------------+ +----------------------------COMP_into:V_PASS-N---------------------------+ +----COMP_in:N-N----+ | +------------OBJ:V-N------------+ | | +-----COMP_of:N-N----+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | | | +MOD_ATT:N-N+ | +SUBJ:V_+ | | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+ | +COMP_to:V_PA+ | +MOD_AT+----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . APPOS (DNA,GENEXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) COMP_into:V_PASS-N (hybridized,lambda) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (cloned,fragments) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) COMP_of:N-N (bank,fragments) MOD_POST:N-ADJ (RNA,vitro) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (RNA,29-containing) OBJ:V-N (using,polymerase) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (hybridized,RNA) Parse 153 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+----------------------------COMP_into:V_PASS-N---------------------------+ | +--------COMP_from:V_PASS-N-------+--------------COMP_by:N-N--------------+ | +------------------OBJ:V-N-----------------+ | | | +MOD_ATT:N-+ +-------MOD_ATT:N-N-------+ | | +MOD_ATT:N-N+-------SUBJ:V-N------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (hybridized,lambda) COMP_by:N-N (DNA,polymerase) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (fragments,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (sigma,using) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (cloned,bank) MOD_ATT:N-N (DNA,total) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (cloned,fragments) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (lambda,SPXXX) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 154 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +-------------COMP_by:V_PASS-V------------+ | +------------------------COMP_into:N-N-----------------------+ | +--------COMP_from:V_PASS-N-------+ +---------OBJ:V-N--------+----------OBJ:V-N---------+ | +-----COMP_of:N-N----+ | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | | +MOD_ATT:N-N+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+ | +MOD_AT+----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,fragments) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,RNA) COMP_by:V_PASS-V (transcribed,using) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (lambda,SPXXX) COMP_into:N-N (bank,lambda) COMP_to:V-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (was,RNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 155 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +------------------------COMP_into:N-N-----------------------+ +--------------COMP_from:N-N--------------+ | +---------------SUBJ:V_PASS-N--------------+ | +----COMP_in:N-N----+ | +--------------OBJ:V-N--------------+ | +-----COMP_of:N-N----+ | | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +----OBJ:V-N----+ +------SUBJ:V-N-----+ | | +MOD_ATT:N-N+ | | +SUBJ:V_+ | | +MOD_+COMP_by+ +MOD_ATT:N+ +MOD_AT+---APPOS---+ | +-COMP_to:V-N+ | +MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) COMP_by:N-V (DNA,using) SUBJ:V-N (hybridized,RNA) COMP_in:N-N (RNA,vitro) COMP_into:N-N (bank,lambda) COMP_of:N-N (bank,fragments) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) OBJ:V-N (using,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) OBJ:V-N (was,29-containing) Parse 156 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-----------------------------------COMP_by:N-N-----------------------------------+ | | +--------COMP_from:V_PASS-N-------+ | | +------------------------COMP_into:N-N-----------------------+ | | +MOD_ATT:N-+ +-------MOD_ATT:N-N-------+ | +------------------OBJ:V-N-----------------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+ +MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_by:N-N (RNA,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (sigma,using) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,29-containing) OBJ:V-N (cloned,bank) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 157 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ +----------------------------COMP_into:V_PASS-N---------------------------+ | +--------COMP_from:V_PASS-N-------+ +------------OBJ:V-N------------+ | | +------------------OBJ:V-N-----------------+ | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | | | +MOD_ATT:N-N+-------SUBJ:V-N------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+ | +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (hybridized,lambda) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (fragments,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (cloned,bank) APPOS (DNA,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (cloned,fragments) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (lambda,SPXXX) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 158 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +--------------COMP_by:N-N--------------+ | +--------------COMP_from:N-N--------------+ +----------MOD_ATT:N-N----------+ +----------------------------COMP_into:V_PASS-N---------------------------+ +----COMP_in:N-N----+ | | +-------MOD_ATT:N-N-------+ | +------------------OBJ:V-N-----------------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | | +--MOD_ATT:N-N--+ | | +-------SUBJ:V-N------+ | +SUBJ:V_+ | | +MOD_+ | | | +MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+ +MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) COMP_into:V_PASS-N (hybridized,lambda) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (cloned,bank) MOD_ATT:N-N (DNA,total) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (polymerase,sigma) MOD_POST:N-ADJ (RNA,vitro) COMP_to:V_PASS-N (hybridized,bank) COMP_by:N-N (DNA,polymerase) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) MOD_ATT:N-N (polymerase,using) SUBJ:V_PASS-N (hybridized,RNA) Parse 159 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------------------------OBJ:V-N--------------------------+ | | +-----------COMP_by:N-N----------+ | | | +--------COMP_from:V_PASS-N-------+ +-------MOD_ATT:N-N------+ | | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +---------------SUBJ:V_PASS-N--------------+COMP_into:V_PASS-+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+SUBJ:V+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) SUBJ:V-N (was,polymerase) COMP_by:N-N (DNA,RNA) COMP_from:V_PASS-N (transcribed,DNA) COMP_into:V_PASS-N (cloned,lambda) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (RNA,using) COMP_to:V-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 160 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +--------------COMP_from:N-N--------------+ | +----COMP_in:N-N----+ | +------------OBJ:V-N------------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | +-------SUBJ:V-N------+-----OBJ:V-N-----+ +SUBJ:V_+ | | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ +COMP_into:V+MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (cloned,lambda) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,polymerase) MOD_ATT:N-N (polymerase,RNA) COMP_by:N-V (DNA,using) MOD_ATT:N-N (DNA,total) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (polymerase,sigma) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) COMP_into:V-N (cloned,SPXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V_PASS-N (hybridized,RNA) Parse 161 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | | | +------------OBJ:V-N------------+ | +----------------------------COMP_into:V_PASS-N---------------------------+ | +--------COMP_from:V_PASS-N-------+ +---------OBJ:V-N--------+ | | | +------------------OBJ:V-N-----------------+ | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | | | +MOD_ATT:N-N+-------SUBJ:V-N------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+ | | +COMP_to:V_PA+COMP_of:+ +MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (hybridized,lambda) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (fragments,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (cloned,bank) MOD_ATT:N-N (DNA,total) APPOS (DNA,GENEXXX) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (RNA,29-containing) SUBJ:V-N (cloned,fragments) OBJ:V-N (using,polymerase) OBJ:V-N (using,RNA) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 162 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | | +--------------COMP_by:N-N--------------+ | | | | +----------MOD_ATT:N-N----------+ | | +-------------------------COMP_of:N-N------------------------+ +--------------COMP_from:N-N--------------+ | +-------MOD_ATT:N-N-------+ | | | +--------------------MOD_ATT:N-N--------------------+ | +MOD_ATT:N-+ | | +-MOD_ATT:N-ADJ-+ | | | | +--------------MOD_ATT:N-N--------------+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | | +MOD_AT+ | +COMP_to:V_PA+ | +MOD_AT+ +COMP_into:V+MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (fragments,DNA) COMP_into:V_PASS-N (cloned,SPXXX) COMP_by:N-N (DNA,polymerase) MOD_ATT:N-N (lambda,fragments) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) APPOS (DNA,GENEXXX) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_of:N-N (bank,lambda) MOD_ATT:N-N (polymerase,using) MOD_ATT:N-ADJ (polymerase,29-containing) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 163 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-----------------------------------COMP_by:N-N-----------------------------------+ | | +--------COMP_from:V_PASS-N-------+ | +----------------------------COMP_into:V_PASS-N---------------------------+ | | +MOD_ATT:N-+ +-------MOD_ATT:N-N-------+ | +------------------OBJ:V-N-----------------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+ +MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (hybridized,lambda) COMP_by:N-N (RNA,polymerase) COMP_of:N-N (bank,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (sigma,using) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (cloned,bank) MOD_ATT:N-N (DNA,total) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 164 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +------------------------COMP_into:N-N-----------------------+ +-------------------COMP_by:N-V-------------------+ | +---------------SUBJ:V_PASS-N--------------+ | +--------------COMP_from:N-N--------------+ | +--------------OBJ:V-N--------------+ | +-----COMP_of:N-N----+ | | | +MOD_ATT:N-+ +----OBJ:V-N----+ +------SUBJ:V-N-----+ | | +MOD_ATT:N-N+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | +MOD_ATT:N+ +MOD_AT+---APPOS---+ | +-COMP_to:V-N+ | +MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (using,29-containing) MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,fragments) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) COMP_by:N-V (RNA,using) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (lambda,SPXXX) COMP_into:N-N (bank,lambda) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) SUBJ:V-N (hybridized,RNA) OBJ:V-N (was,29-containing) COMP_in:V_PASS-N (transcribed,vitro) Parse 165 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +--------------COMP_from:N-N--------------+--------------COMP_by:N-N--------------+ | +----COMP_in:N-N----+ | +----------MOD_ATT:N-N----------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | +----------------SUBJ:V-N---------------+ +SUBJ:V_+ | | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V_PASS-N----+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (polymerase,using) COMP_into:V_PASS-N (cloned,SPXXX) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (RNA,sigma) COMP_in:N-N (RNA,vitro) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_by:N-N (DNA,polymerase) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) SUBJ:V_PASS-N (hybridized,RNA) Parse 166 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------------COMP_by:V_PASS-N----------------------------+ | | | +----------MOD_ATT:N-N----------+ +----------------------------COMP_into:V_PASS-N---------------------------+ | +--------COMP_from:V_PASS-N-------+ | +-------MOD_ATT:N-N-------+ | +---------------SUBJ:V_PASS-N--------------+ | | | +MOD_ATT:N-+ | | +-MOD_ATT:N-ADJ-+ | +-------OBJ:V-N------+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | | +MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+SUBJ:V+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (hybridized,lambda) COMP_of:N-N (bank,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (polymerase,using) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (fragments,bank) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) MOD_ATT:N-ADJ (polymerase,29-containing) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 167 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | | +--------------COMP_by:N-N--------------+ | | | +--------COMP_from:V_PASS-N-------+ +----------MOD_ATT:N-N----------+ | +----------------------------COMP_into:V_PASS-N---------------------------+ | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | | +---------------SUBJ:V_PASS-N--------------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+ | +COMP_to:V_PA+COMP_of:+MOD_+SUBJ:V+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (hybridized,lambda) MOD_ATT:N-N (polymerase,using) COMP_by:N-N (DNA,polymerase) COMP_of:N-N (bank,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) APPOS (DNA,GENEXXX) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 168 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------------COMP_by:V_PASS-N----------------------------+ | | | +----------MOD_ATT:N-N----------+ +----------------------------COMP_into:V_PASS-N---------------------------+ | +--------COMP_from:V_PASS-N-------+ | +-------MOD_ATT:N-N-------+ | +---------------SUBJ:V_PASS-N--------------+ | | | +MOD_ATT:N-+ | | +-MOD_ATT:N-ADJ-+ | +-------OBJ:V-N------+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | | +MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+SUBJ:V+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (hybridized,lambda) COMP_of:N-N (bank,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-N (transcribed,polymerase) MOD_ATT:N-N (DNA,total) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (polymerase,using) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (fragments,bank) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) MOD_ATT:N-ADJ (polymerase,29-containing) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 169 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | | +--------COMP_from:V_PASS-N-------+--------------COMP_by:N-N--------------+ | | | | +MOD_ATT:N-+ +-------MOD_ATT:N-N-------+ | | +-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+ | +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+-------SUBJ:V-N------+COMP_into:V+MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_by:N-N (DNA,polymerase) OBJ:V-N (cloned,lambda) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) APPOS (DNA,GENEXXX) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) COMP_into:V-N (cloned,SPXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (sigma,using) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 170 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-------------COMP_by:V_PASS-V------------+------------OBJ:V-N------------+ | | +--------COMP_from:V_PASS-N-------+ | +-------MOD_ATT:N-N-------+ | | | +MOD_ATT:N-+ | | +-MOD_ATT:N-ADJ-+ | +MOD_ATT:N-N+ +-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | | +MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+-------SUBJ:V-N------+COMP_into:V+MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) OBJ:V-N (cloned,lambda) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (fragments,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-V (transcribed,using) MOD_ATT:N-N (polymerase,sigma) OBJ:V-N (using,polymerase) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-ADJ (polymerase,29-containing) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 171 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +---------------------COMP_by:V_PASS-N--------------------+ +------------------------------COMP_into:V-N------------------------------+ | +--------COMP_from:V_PASS-N-------+ +--------------OBJ:V-N--------------+ | +------------------OBJ:V-N-----------------+ | | | +MOD_ATT:N-+ +--MOD_ATT:N-N--+ +------SUBJ:V-N-----+ | | +MOD_ATT:N-N+-------SUBJ:V-N------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | +MOD_ATT:N+ +MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+ +MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) COMP_by:V_PASS-N (transcribed,29-containing) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (cloned,bank) MOD_ATT:N-N (29-containing,using) MOD_ATT:N-N (DNA,total) SUBJ:V-N (cloned,fragments) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_into:V-N (hybridized,lambda) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (hybridized,RNA) OBJ:V-N (was,29-containing) COMP_in:V_PASS-N (transcribed,vitro) Parse 172 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +--------------COMP_by:N-N--------------+ | | | +----------MOD_ATT:N-N----------+ | | +--------COMP_from:V_PASS-N-------+ | +-------MOD_ATT:N-N-------+ | | | +MOD_ATT:N-+ | | +--MOD_ATT:N-N--+ | +MOD_ATT:N-N+----------------SUBJ:V-N---------------+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | | +MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V_PASS-N----+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_into:V_PASS-N (cloned,SPXXX) COMP_by:N-N (DNA,polymerase) MOD_ATT:N-N (fragments,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (polymerase,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (DNA,SPXXX) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 173 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------COMP_from:V_PASS-N-------+--------------------------OBJ:V-N--------------------------+ | | | +MOD_ATT:N-+ +----OBJ:V-N----+ +------SUBJ:V-N-----+ | +MOD_ATT:N-N+-------SUBJ:V-N------+-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ +MOD_ATT:N+ +MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ +COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (using,29-containing) MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (cloned,lambda) COMP_into:V-N (cloned,SPXXX) COMP_to:V-N (hybridized,bank) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 174 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | | +--------------COMP_by:N-N--------------+ | | +--------------COMP_from:N-N--------------+ +----------MOD_ATT:N-N----------+ | | +----------------SUBJ:V-N---------------+ | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | | +MOD_ATT:N-N+----------COMP_into:N-N----------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+ | +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V_PASS-N----+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (polymerase,using) COMP_by:N-N (DNA,polymerase) COMP_into:N-N (fragments,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (cloned,fragments) APPOS (DNA,GENEXXX) MOD_ATT:N-N (polymerase,sigma) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (DNA,SPXXX) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 175 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------------------------OBJ:V-N--------------------------+ | | +--------COMP_from:V_PASS-N-------+ +---------OBJ:V-N--------+ | | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +MOD_ATT:N-N+-------SUBJ:V-N------+-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+ +MOD_AT+----SUBJ:V-N---+ +COMP_into:V+MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (cloned,lambda) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,RNA) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) COMP_to:V-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 176 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------------------------OBJ:V-N--------------------------+ | +--------------COMP_from:N-N--------------+ +---------OBJ:V-N--------+ | | +----------------SUBJ:V-N---------------+ | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +MOD_ATT:N-N+----------COMP_into:N-N----------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+----SUBJ:V_PASS-N----+ | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_into:N-N (fragments,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) SUBJ:V-N (lambda,fragments) OBJ:V-N (using,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 177 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +--------------COMP_from:N-N--------------+--------------COMP_by:N-N--------------+ | +----COMP_in:N-N----+ | +-------MOD_ATT:N-N-------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +--MOD_ATT:N-N--+ | +MOD_ATT:N-N+-------SUBJ:V-N------+-----OBJ:V-N-----+ +SUBJ:V_+ | | +MOD_+ +MOD_A+ | +MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+ +MOD_AT+----SUBJ:V-N---+ +COMP_into:V+MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (cloned,lambda) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (polymerase,sigma) MOD_POST:N-ADJ (RNA,vitro) COMP_to:V_PASS-N (hybridized,bank) COMP_by:N-N (DNA,polymerase) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (sigma,using) SUBJ:V_PASS-N (hybridized,RNA) Parse 178 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +--------------COMP_by:N-N--------------+ | +--------------COMP_from:N-N--------------+ +----------MOD_ATT:N-N----------+ | +----------------SUBJ:V-N---------------+ | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | +MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ +COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (RNA,sigma) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (polymerase,using) COMP_into:V_PASS-N (cloned,SPXXX) COMP_by:N-N (DNA,polymerase) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,DNA) SUBJ:V-N (lambda,fragments) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (DNA,SPXXX) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 179 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | | | +------------OBJ:V-N------------+ | | | +--------COMP_from:V_PASS-N-------+ +---------OBJ:V-N--------+ | | | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | | +MOD_ATT:N-N+ +-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+ | | +COMP_to:V_PA+COMP_of:+ +MOD_AT+-------SUBJ:V-N------+COMP_into:V+MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) OBJ:V-N (cloned,lambda) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (fragments,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) APPOS (DNA,GENEXXX) MOD_ATT:N-N (lambda,SPXXX) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (RNA,29-containing) COMP_into:V-N (cloned,SPXXX) SUBJ:V-N (cloned,fragments) OBJ:V-N (using,polymerase) MOD_ATT:N-ADJ (DNA,total) OBJ:V-N (using,RNA) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 180 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +------------OBJ:V-N------------+ | +--------------COMP_from:N-N--------------+ | +-------MOD_ATT:N-N-------+ | +------------------OBJ:V-N-----------------+ | +MOD_ATT:N-+ | | +-MOD_ATT:N-ADJ-+ | | +MOD_ATT:N-N+ +--COMP_into:V-N--+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | | +MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+ +MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (cloned,bank) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) OBJ:V-N (using,polymerase) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-ADJ (polymerase,29-containing) COMP_in:V_PASS-N (transcribed,vitro) COMP_into:V-N (cloned,lambda) SUBJ:V_PASS-N (hybridized,RNA) Parse 181 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-----------------------------------COMP_by:N-N-----------------------------------+ | +--------------COMP_from:N-N--------------+ | | +----COMP_in:N-N----+ | +----------MOD_ATT:N-N----------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | +MOD_ATT:N-N+-------SUBJ:V-N------+-----OBJ:V-N-----+ +SUBJ:V_+ | | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ +COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (polymerase,using) COMP_by:N-N (RNA,polymerase) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,29-containing) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (polymerase,sigma) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (cloned,lambda) COMP_to:V_PASS-N (hybridized,bank) COMP_into:V-N (cloned,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-ADJ (DNA,total) SUBJ:V-N (been,fragments) SUBJ:V_PASS-N (hybridized,RNA) Parse 182 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | | | +------------OBJ:V-N------------+ | | +--------------COMP_from:N-N--------------+ +---------OBJ:V-N--------+ | | | +----------------SUBJ:V-N---------------+ | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | | +MOD_ATT:N-N+----------COMP_into:N-N----------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+ | | +COMP_to:V_PA+COMP_of:+ +MOD_AT+----SUBJ:V_PASS-N----+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (RNA,sigma) COMP_into:N-N (fragments,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,DNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) APPOS (DNA,GENEXXX) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (RNA,29-containing) OBJ:V-N (using,polymerase) OBJ:V-N (using,RNA) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) COMP_to:V_PASS-N (hybridized,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 183 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------COMP_from:N-N--------------+ | +----COMP_in:N-N----+ | +----------------------OBJ:V-N----------------------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+------SUBJ:V-N-----+ | +----------------SUBJ:V-N---------------+ +SUBJ:V_+ | | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+----SUBJ:V_PASS-N----+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (cloned,SPXXX) COMP_of:N-N (bank,SPXXX) COMP_by:N-N (DNA,using) COMP_from:N-N (RNA,DNA) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) MOD_ATT:N-N (fragments,DNA) SUBJ:V-N (lambda,fragments) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (cloned,fragments) SUBJ:V-N (hybridized,RNA) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (polymerase,sigma) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) Parse 184 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | +--------------COMP_from:N-N--------------+ +------------OBJ:V-N------------+ | +----COMP_in:N-N----+ | +---------OBJ:V-N--------+ | | +-------------OBJ:V-N-------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | | +-------SUBJ:V-N------+--COMP_into:V-N--+ +SUBJ:V_+ | | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ +COMP_to:V_PA+COMP_of:+ +MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (cloned,SPXXX) COMP_by:N-V (RNA,using) MOD_ATT:N-N (fragments,DNA) COMP_in:N-N (RNA,vitro) MOD_POST:N-ADJ (RNA,vitro) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) SUBJ:V-N (cloned,fragments) OBJ:V-N (using,polymerase) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-ADJ (DNA,total) OBJ:V-N (using,RNA) SUBJ:V-N (been,fragments) COMP_into:V-N (cloned,lambda) SUBJ:V_PASS-N (hybridized,RNA) Parse 185 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | | +--------------COMP_by:N-N--------------+ | | +---------------SUBJ:V_PASS-N--------------+ | +--------COMP_from:V_PASS-N-------+ +----------MOD_ATT:N-N----------+ | | +-----COMP_of:N-N----+ | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | | | +MOD_ATT:N-N+ +COMP_into:V_PASS-+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+ | +COMP_to:V_PA+ | +MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (polymerase,using) COMP_by:N-N (DNA,polymerase) MOD_ATT:N-N (fragments,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) COMP_into:V_PASS-N (cloned,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,sigma) APPOS (DNA,GENEXXX) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) COMP_of:N-N (bank,fragments) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 186 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +--------------COMP_from:N-N--------------+--------------COMP_by:N-N--------------+ | +---------------SUBJ:V_PASS-N--------------+ | +MOD_ATT:N-+ +----MOD_ATT:N-N---+ | | +-----COMP_of:N-N----+ +COMP_into:V_PASS-+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ +MOD_+MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (DNA,polymerase) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (sigma,using) COMP_into:V_PASS-N (cloned,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) MOD_ATT:N-N (DNA,SPXXX) COMP_of:N-N (bank,fragments) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 187 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +--------------COMP_from:N-N--------------+-----------------------APPOS-----------------------+ | +----COMP_in:N-N----+ | +------------OBJ:V-N------------+ | | +------------------------COMP_into:N-N-----------------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | | +-----COMP_of:N-N----+----SUBJ:V_PASS-N----+ | +SUBJ:V_+ | | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+ | +COMP_to:V_PA+ +MOD_+MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . APPOS (DNA,GENEXXX) COMP_of:N-N (bank,fragments) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (cloned,fragments) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (polymerase,sigma) COMP_into:N-N (bank,lambda) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (RNA,29-containing) OBJ:V-N (using,polymerase) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) SUBJ:V_PASS-N (hybridized,RNA) Parse 188 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | +--------------COMP_from:N-N--------------+ +------------OBJ:V-N------------+ | | +------------------------COMP_into:N-N-----------------------+ | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | | +-----COMP_of:N-N----+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+ | +COMP_to:V_PA+ +MOD_+MOD_AT+----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,polymerase) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) APPOS (DNA,GENEXXX) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (DNA,SPXXX) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_of:N-N (bank,fragments) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 189 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | +------------------------COMP_into:N-N-----------------------+ +--------------COMP_from:N-N--------------+ +------------OBJ:V-N------------+ | | +-----COMP_of:N-N----+ | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | | | +MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+ | +COMP_to:V_PA+ | +MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,polymerase) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) APPOS (DNA,GENEXXX) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) COMP_of:N-N (bank,fragments) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 190 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +--------------COMP_from:N-N--------------+ +------------OBJ:V-N------------+ | +------------------------COMP_into:N-N-----------------------+ +----COMP_in:N-N----+ | +---------OBJ:V-N--------+ | | +---------------SUBJ:V_PASS-N--------------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | +-----COMP_of:N-N----+ | | +SUBJ:V_+ | | +MOD_+COMP_by+ | +MOD_ATT:+ +---APPOS---+ +COMP_to:V_PA+ +MOD_+MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,fragments) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,DNA) COMP_by:N-V (DNA,using) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (lambda,SPXXX) COMP_into:N-N (bank,lambda) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) OBJ:V-N (using,polymerase) MOD_ATT:N-ADJ (DNA,total) OBJ:V-N (using,RNA) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) SUBJ:V_PASS-N (hybridized,RNA) Parse 191 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+----------------------------COMP_into:V_PASS-N---------------------------+ | +--------COMP_from:V_PASS-N-------+--------------COMP_by:N-N--------------+ | +---------------SUBJ:V_PASS-N--------------+ | | | +MOD_ATT:N-+ +----MOD_ATT:N-N---+ | | +-----COMP_of:N-N----+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ +MOD_+MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (hybridized,lambda) COMP_by:N-N (DNA,polymerase) COMP_of:N-N (bank,fragments) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (sigma,using) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 192 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------------------------OBJ:V-N--------------------------+ | | +--------COMP_from:V_PASS-N-------+ +---------OBJ:V-N--------+ | | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ +-------------OBJ:V-N-------------+ +COMP_into:V_PASS-+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (hybridized,fragments) COMP_into:V_PASS-N (cloned,lambda) OBJ:V-N (using,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 193 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | +--------------COMP_from:N-N--------------+ | | +-------------------COMP_into:N-N-------------------+ +----COMP_in:N-N----+ | +------------OBJ:V-N------------+ | +-------------OBJ:V-N-------------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | | +-------SUBJ:V-N------+ | +SUBJ:V_+ | | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+ +MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:N-N (SPXXX,lambda) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (cloned,SPXXX) COMP_by:N-V (RNA,using) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,polymerase) MOD_ATT:N-N (polymerase,RNA) COMP_in:N-N (RNA,vitro) MOD_POST:N-ADJ (RNA,vitro) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-ADJ (DNA,total) SUBJ:V-N (been,fragments) SUBJ:V_PASS-N (hybridized,RNA) Parse 194 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +--------------COMP_by:N-N--------------+ | +------------------------COMP_into:N-N-----------------------+ +--------------COMP_from:N-N--------------+ +----------MOD_ATT:N-N----------+ | +---------------SUBJ:V_PASS-N--------------+ | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | +-----COMP_of:N-N----+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ +MOD_+MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (DNA,polymerase) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,DNA) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) COMP_of:N-N (bank,fragments) MOD_ATT:N-N (polymerase,using) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 195 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | +--------------COMP_from:N-N--------------+ +---------OBJ:V-N--------+----------OBJ:V-N---------+ | +----------------SUBJ:V-N---------------+ | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ +COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . SUBJ:V-N (lambda,fragments) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) COMP_by:N-V (RNA,using) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,SPXXX) COMP_into:V_PASS-N (cloned,SPXXX) COMP_to:V-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) OBJ:V-N (was,RNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 196 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +-------------------------COMP_by:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N-------+ +----------OBJ:V-N---------+ | +------------------------COMP_into:N-N-----------------------+ | | +MOD_ATT:N-+ +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +-----COMP_of:N-N----+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+ +MOD_+MOD_AT+----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,fragments) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (sigma,using) COMP_by:V_PASS-N (transcribed,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (lambda,SPXXX) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (was,RNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 197 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------------COMP_by:V_PASS-N----------------------------+ | | +--------COMP_from:V_PASS-N-------+ +----------MOD_ATT:N-N----------+ | +----------------SUBJ:V-N---------------+ | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | +MOD_ATT:N-N+----------COMP_into:N-N----------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+ +MOD_AT+----SUBJ:V_PASS-N----+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_into:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (RNA,29-containing) COMP_by:V_PASS-N (transcribed,polymerase) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (polymerase,sigma) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (polymerase,using) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 198 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +------------OBJ:V-N------------+ | +----------------------OBJ:V-N----------------------+ +--------------COMP_from:N-N--------------+ +---------OBJ:V-N--------+ | | | +----------------SUBJ:V-N---------------+ | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | | +----------COMP_into:N-N----------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+ +---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V_PASS-N----+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (RNA,sigma) COMP_into:N-N (fragments,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,polymerase) OBJ:V-N (using,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (RNA,29-containing) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (lambda,SPXXX) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (DNA,SPXXX) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 199 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | +---------------SUBJ:V_PASS-N--------------+ | +--------COMP_from:V_PASS-N-------+--------------COMP_by:N-N--------------+ | | +--------------SUBJ:V-N--------------+ | | | +MOD_ATT:N-+ +-------MOD_ATT:N-N-------+ | | +-----COMP_of:N-N----+ | +COMP_into:V_PASS-+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+ | +COMP_to:V_PA+ +MOD_+MOD_AT+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (DNA,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) COMP_into:V_PASS-N (cloned,lambda) SUBJ:V-N (been,bank) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) APPOS (DNA,GENEXXX) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) MOD_ATT:N-N (DNA,SPXXX) COMP_of:N-N (bank,fragments) MOD_ATT:N-N (sigma,using) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 200 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +----------------------OBJ:V-N----------------------+ +--------------COMP_from:N-N--------------+ +---------OBJ:V-N--------+----------OBJ:V-N---------+ | | +----------------SUBJ:V-N---------------+ | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | | +----------COMP_into:N-N----------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+ +MOD_AT+----SUBJ:V_PASS-N----+ | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_into:N-N (fragments,SPXXX) COMP_from:N-N (RNA,DNA) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) COMP_to:V-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (lambda,SPXXX) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) OBJ:V-N (was,RNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 201 +------------------------COMP_into:N-N-----------------------+ +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +---------------SUBJ:V_PASS-N--------------+ | | +--------COMP_from:V_PASS-N-------+------COMP_by:N-N------+--------------OBJ:V-N--------------+ | +-----COMP_of:N-N----+ | | | | +MOD_ATT:N-+ +--MOD_ATT:N-N--+ +------SUBJ:V-N-----+ | | +MOD_ATT:N-N+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | +MOD_ATT:N+ +MOD_AT+---APPOS---+ | +-COMP_to:V-N+ | +MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,fragments) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (29-containing,using) COMP_into:N-N (bank,lambda) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) SUBJ:V_PASS-N (cloned,bank) SUBJ:V-N (hybridized,RNA) OBJ:V-N (was,29-containing) COMP_by:N-N (DNA,29-containing) COMP_in:V_PASS-N (transcribed,vitro) Parse 202 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +-------------COMP_by:V_PASS-V------------+ | | +--------COMP_from:V_PASS-N-------+ +---------OBJ:V-N--------+----------OBJ:V-N---------+ | +-----------------COMP_into:N-N----------------+ | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +-COMP_of:N-N-+-----------OBJ:V-N----------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+ +MOD_+ +-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:N-N (DNA,lambda) COMP_of:N-N (bank,DNA) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) OBJ:V-N (using,RNA) COMP_by:V_PASS-V (transcribed,using) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (cloned,DNA) OBJ:V-N (was,RNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 203 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | | +--------------COMP_by:N-N--------------+ | | | +--------COMP_from:V_PASS-N-------+ +----------MOD_ATT:N-N----------+ | +----------------------------COMP_into:V_PASS-N---------------------------+ | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | | +-----COMP_of:N-N----+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+ | +COMP_to:V_PA+ +MOD_+MOD_AT+----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (hybridized,lambda) MOD_ATT:N-N (polymerase,using) COMP_by:N-N (DNA,polymerase) COMP_of:N-N (bank,fragments) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-ADJ (RNA,29-containing) APPOS (DNA,GENEXXX) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 204 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------COMP_from:N-N--------------+ | +----COMP_in:N-N----+ | +----------------------OBJ:V-N----------------------+ | +-------------------------COMP_of:N-N------------------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+------SUBJ:V-N-----+ | | +MOD_ATT:N-N+--------------MOD_ATT:N-N--------------+ +SUBJ:V_+ | | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+ | +MOD_AT+ +COMP_into:V+MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,lambda) COMP_into:V_PASS-N (cloned,SPXXX) COMP_by:N-N (DNA,using) MOD_ATT:N-N (lambda,fragments) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,29-containing) SUBJ:V-N (hybridized,RNA) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (polymerase,sigma) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) Parse 205 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +--------------COMP_by:N-N--------------+ | +------------------------COMP_into:N-N-----------------------+ +--------------COMP_from:N-N--------------+ +----------MOD_ATT:N-N----------+ | +------------------OBJ:V-N-----------------+ | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | | +MOD_ATT:N-N+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_by:N-N (DNA,polymerase) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (RNA,29-containing) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (cloned,bank) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (polymerase,using) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 206 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +--------------COMP_by:N-N--------------+ | | | +----------MOD_ATT:N-N----------+ | +------------------------COMP_into:N-N-----------------------+ +--------------COMP_from:N-N--------------+ | +-------MOD_ATT:N-N-------+ | +------------------OBJ:V-N-----------------+ | | +MOD_ATT:N-+ | | +--MOD_ATT:N-N--+ | | +MOD_ATT:N-N+-------SUBJ:V-N------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | | +MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+ +MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_by:N-N (DNA,polymerase) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,DNA) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (cloned,bank) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (polymerase,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 207 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | +--------------COMP_from:N-N--------------+--------------COMP_by:N-N--------------+ | +----------------------------COMP_into:V_PASS-N---------------------------+ +----COMP_in:N-N----+ | +----------MOD_ATT:N-N----------+ | | +-----COMP_of:N-N----+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | | | +MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +SUBJ:V_+ | | +MOD_+ | | +MOD_ATT:+MOD_AT+ | +COMP_to:V_PA+ | +MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . APPOS (DNA,GENEXXX) MOD_ATT:N-N (polymerase,using) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (fragments,SPXXX) COMP_into:V_PASS-N (hybridized,lambda) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (polymerase,sigma) COMP_of:N-N (bank,fragments) MOD_POST:N-ADJ (RNA,vitro) COMP_to:V_PASS-N (hybridized,bank) COMP_by:N-N (DNA,polymerase) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) SUBJ:V_PASS-N (hybridized,RNA) Parse 208 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------------------------OBJ:V-N--------------------------+ | | +--------COMP_from:V_PASS-N-------+ +---------OBJ:V-N--------+ | | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ +----------OBJ:V-N---------+-----------OBJ:V-N----------+--COMP_into:V-N--+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+ +-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) OBJ:V-N (using,RNA) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) OBJ:V-N (hybridized,DNA) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (cloned,DNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) COMP_into:V-N (cloned,lambda) Parse 209 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | +--------------------OBJ:V-N-------------------+ +--------------COMP_from:N-N--------------+ +------------OBJ:V-N------------+ | | +----------------SUBJ:V-N---------------+ +----COMP_in:N-N----+ | | +-------MOD_ATT:N-N-------+ | | +----------COMP_into:N-N----------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | | +--MOD_ATT:N-N--+ | +-COMP_of:N-N-+ +----SUBJ:V_PASS-N----+ | | +SUBJ:V_+ | | +MOD_+ | | | +MOD_AT+---APPOS---+ +COMP_to:V_PA+ +MOD_+ +----SUBJ:V-N---+ | | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:N-N (fragments,SPXXX) COMP_from:N-N (RNA,DNA) COMP_by:N-V (RNA,using) COMP_of:N-N (bank,DNA) OBJ:V-N (using,polymerase) SUBJ:V-N (lambda,fragments) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (polymerase,sigma) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-ADJ (DNA,total) SUBJ:V-N (been,fragments) OBJ:V-N (lambda,DNA) SUBJ:V_PASS-N (hybridized,RNA) Parse 210 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | +------------------------COMP_into:N-N-----------------------+ +--------------COMP_from:N-N--------------+ +------------OBJ:V-N------------+ | +------------------OBJ:V-N-----------------+ | | +MOD_ATT:N-+ +----OBJ:V-N----+ | | | +MOD_ATT:N-N+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | +MOD_ATT:N+ +MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,SPXXX) OBJ:V-N (using,29-containing) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (fragments,SPXXX) COMP_by:N-V (RNA,using) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,polymerase) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (cloned,bank) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 211 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | +------------------------COMP_into:N-N-----------------------+ | +--------COMP_from:V_PASS-N-------+ | +--------------OBJ:V-N--------------+ | | +----------SUBJ:V_PASS-N----------+ | | | +MOD_ATT:N-+ +----OBJ:V-N----+ +------SUBJ:V-N-----+ | | +----------SUBJ:V-N---------+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | +MOD_ATT:N+ +MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+SUBJ:V+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (using,29-containing) MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (lambda,SPXXX) COMP_by:N-V (RNA,using) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) SUBJ:V-N (fragments,DNA) SUBJ:V-N (been,SPXXX) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (hybridized,RNA) OBJ:V-N (was,29-containing) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (cloned,SPXXX) Parse 212 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | | | +------------OBJ:V-N------------+ | | +------------------------COMP_into:N-N-----------------------+ +--------------COMP_from:N-N--------------+ | +-------MOD_ATT:N-N-------+ | | +------------------OBJ:V-N-----------------+ | | +MOD_ATT:N-+ | | +--MOD_ATT:N-N--+ | | +-COMP_of:N-N-+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | | +MOD_AT+ | +COMP_to:V_PA+ +MOD_+ +-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_from:N-N (RNA,DNA) OBJ:V-N (using,polymerase) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (cloned,bank) MOD_ATT:N-N (DNA,total) APPOS (DNA,GENEXXX) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (DNA,SPXXX) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_in:V_PASS-N (transcribed,vitro) COMP_of:N-N (bank,DNA) SUBJ:V_PASS-N (hybridized,RNA) Parse 213 +------------------------COMP_into:N-N-----------------------+ +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +---------------SUBJ:V_PASS-N--------------+ | | +-------------COMP_by:V_PASS-V------------+ | +--------------SUBJ:V-N--------------+ | | | +--------COMP_from:V_PASS-N-------+ +------------OBJ:V-N------------+ | +-----COMP_of:N-N----+ | | | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | | +MOD_ATT:N-N+ | | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ | +MOD_AT+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (fragments,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) SUBJ:V-N (been,bank) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-V (transcribed,using) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (using,polymerase) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) COMP_of:N-N (bank,fragments) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 214 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-----------------------------------COMP_by:N-N-----------------------------------+ | +--------------COMP_from:N-N--------------+ | | +----COMP_in:N-N----+ | | +----------------------------COMP_into:V_PASS-N---------------------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +-------MOD_ATT:N-N-------+ | +-------------OBJ:V-N-------------+ | +SUBJ:V_+ | | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (RNA,polymerase) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (cloned,SPXXX) COMP_into:V_PASS-N (hybridized,lambda) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (polymerase,sigma) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (sigma,using) SUBJ:V_PASS-N (hybridized,RNA) Parse 215 +------------------------COMP_into:N-N-----------------------+ +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +---------------SUBJ:V_PASS-N--------------+ | | +--------COMP_from:V_PASS-N-------+ +---------OBJ:V-N--------+----------OBJ:V-N---------+ | +--------------SUBJ:V-N--------------+ | | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +-----COMP_of:N-N----+ | | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+ +MOD_+MOD_AT+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,fragments) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) SUBJ:V-N (been,bank) OBJ:V-N (using,RNA) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) OBJ:V-N (was,RNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 216 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | +--------------COMP_from:N-N--------------+ | | +----COMP_in:N-N----+ | +---------OBJ:V-N--------+----------OBJ:V-N---------+ | +------------------------COMP_into:N-N-----------------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +---------------SUBJ:V_PASS-N--------------+ | +SUBJ:V_+ | | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+SUBJ:V+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) COMP_by:N-V (RNA,using) SUBJ:V-N (was,polymerase) SUBJ:V-N (hybridized,RNA) SUBJ:V-N (fragments,DNA) COMP_in:N-N (RNA,vitro) COMP_into:N-N (bank,lambda) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-ADJ (DNA,total) OBJ:V-N (using,RNA) SUBJ:V_PASS-N (cloned,bank) OBJ:V-N (was,RNA) Parse 217 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-----------------------------------COMP_by:N-N-----------------------------------+ | +--------------COMP_from:N-N--------------+ | | +------------------------COMP_into:N-N-----------------------+ +----COMP_in:N-N----+ | +----------MOD_ATT:N-N----------+ | +---------------SUBJ:V_PASS-N--------------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | | +----------SUBJ:V-N---------+ | | +SUBJ:V_+ | | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+SUBJ:V+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (polymerase,using) COMP_by:N-N (RNA,polymerase) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) MOD_ATT:N-ADJ (RNA,29-containing) SUBJ:V-N (fragments,DNA) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (polymerase,sigma) SUBJ:V-N (been,SPXXX) COMP_into:N-N (bank,lambda) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) SUBJ:V_PASS-N (hybridized,RNA) Parse 218 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------------COMP_by:V_PASS-N----------------------------+ | +------------------------COMP_into:N-N-----------------------+ | +--------COMP_from:V_PASS-N-------+ +----------MOD_ATT:N-N----------+ | +------------------OBJ:V-N-----------------+ | | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | | +MOD_ATT:N-N+-------SUBJ:V-N------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+ +MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (fragments,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (RNA,29-containing) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (cloned,bank) COMP_by:V_PASS-N (transcribed,polymerase) MOD_ATT:N-N (polymerase,sigma) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (polymerase,using) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 219 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------------------------OBJ:V-N--------------------------+ | +--------------COMP_from:N-N--------------+-----------COMP_by:N-N----------+ | | +---------------SUBJ:V_PASS-N--------------+ +----COMP_in:N-N----+ | +-------MOD_ATT:N-N------+ | | +-----COMP_of:N-N----+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | | +MOD_ATT:N-N+ +COMP_into:V_PASS-+ +SUBJ:V_+ | | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+ | +MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) COMP_into:V_PASS-N (cloned,lambda) COMP_by:N-N (DNA,RNA) SUBJ:V-N (hybridized,RNA) COMP_in:N-N (RNA,vitro) COMP_of:N-N (bank,fragments) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (RNA,using) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) Parse 220 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+------------------------------COMP_into:V-N------------------------------+ | +-----------COMP_by:N-N----------+ | +---------------SUBJ:V_PASS-N--------------+ | +--------------COMP_from:N-N--------------+ +-------MOD_ATT:N-N------+----------OBJ:V-N---------+ | +-----COMP_of:N-N----+ | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | | +MOD_ATT:N-N+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+ | +MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) COMP_by:N-N (DNA,RNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (lambda,SPXXX) COMP_of:N-N (bank,fragments) MOD_ATT:N-N (RNA,using) COMP_to:V-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) COMP_into:V-N (hybridized,lambda) SUBJ:V_PASS-N (cloned,bank) OBJ:V-N (was,RNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 221 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------------COMP_by:V_PASS-N----------------------------+ +----------------------------COMP_into:V_PASS-N---------------------------+ | +--------COMP_from:V_PASS-N-------+ +-------MOD_ATT:N-N------+ | | +------------------OBJ:V-N-----------------+ | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | +-COMP_of:N-N-+ +-------SUBJ:V-N------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ +MOD_+ +----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (hybridized,lambda) COMP_of:N-N (bank,DNA) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (cloned,bank) COMP_by:V_PASS-N (transcribed,polymerase) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (RNA,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 222 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +--------------COMP_from:N-N--------------+ | +----COMP_in:N-N----+ +--------------COMP_by:N-N--------------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +----MOD_ATT:N-N---+ | | +MOD_ATT:N-N+ +-----OBJ:V-N-----+ +SUBJ:V_+ | | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+ +MOD_AT+-------SUBJ:V-N------+COMP_into:V+MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (cloned,lambda) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) COMP_in:N-N (RNA,vitro) MOD_POST:N-ADJ (RNA,vitro) COMP_to:V_PASS-N (hybridized,bank) COMP_by:N-N (DNA,polymerase) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (sigma,using) SUBJ:V_PASS-N (hybridized,RNA) Parse 223 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-----------------------------------COMP_by:N-N-----------------------------------+ | +------------------------COMP_into:N-N-----------------------+ | +--------COMP_from:V_PASS-N-------+ +----------MOD_ATT:N-N----------+ | +------------------OBJ:V-N-----------------+ | | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | | +MOD_ATT:N-N+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_by:N-N (RNA,polymerase) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (fragments,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (RNA,29-containing) OBJ:V-N (cloned,bank) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (polymerase,using) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 224 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ +----------------------------COMP_into:V_PASS-N---------------------------+ +--------------COMP_from:N-N--------------+--------------COMP_by:N-N--------------+ | | +------------------OBJ:V-N-----------------+ | | +MOD_ATT:N-+ +-------MOD_ATT:N-N-------+ | | | +MOD_ATT:N-N+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+ | +COMP_to:V_PA+COMP_of:+ +MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (hybridized,lambda) COMP_by:N-N (DNA,polymerase) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (cloned,bank) MOD_ATT:N-N (DNA,total) APPOS (DNA,GENEXXX) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (RNA,29-containing) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (sigma,using) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 225 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------COMP_from:N-N--------------+--------------------------OBJ:V-N--------------------------+ | +------------------------COMP_into:N-N-----------------------+ +----COMP_in:N-N----+ | +---------OBJ:V-N--------+ | | | +-----------OBJ:V-N----------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +----OBJ:V-N----+ | +------SUBJ:V-N-----+ | +-COMP_of:N-N-+ +-------SUBJ:V-N------+ | +SUBJ:V_+ | | +MOD_+COMP_by+ +MOD_ATT:N+ | +---APPOS---+ | +-COMP_to:V-N+ +MOD_+ +----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) COMP_from:N-N (RNA,DNA) SUBJ:V-N (was,polymerase) COMP_by:N-V (DNA,using) SUBJ:V-N (hybridized,RNA) COMP_in:N-N (RNA,vitro) COMP_into:N-N (bank,lambda) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (using,RNA) OBJ:V-N (using,29-containing) SUBJ:V-N (cloned,fragments) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (cloned,DNA) COMP_of:N-N (bank,DNA) Parse 226 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +---------------SUBJ:V_PASS-N--------------+ | +--------------------------OBJ:V-N--------------------------+ | +--------------SUBJ:V-N--------------+ | | +--------COMP_from:V_PASS-N-------+ +---------OBJ:V-N--------+ | | +-----COMP_of:N-N----+ | | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | | +MOD_ATT:N-N+ | +COMP_into:V_PASS-+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+ | +MOD_AT+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,fragments) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) COMP_into:V_PASS-N (cloned,lambda) SUBJ:V-N (been,bank) OBJ:V-N (using,RNA) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) COMP_to:V-N (hybridized,bank) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 227 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +---------------------------COMP_by:N-N---------------------------+ | +---------------SUBJ:V_PASS-N--------------+ +--------------COMP_from:N-N--------------+ +--------------OBJ:V-N--------------+ | +-----COMP_of:N-N----+ | | +MOD_ATT:N-+ | +------SUBJ:V-N-----+ | | +MOD_ATT:N-N+ +COMP_into:V_PASS-+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+MOD_ATT:N+ +MOD_AT+---APPOS---+ | +-COMP_to:V-N+ | +MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (RNA,29-containing) MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,fragments) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (sigma,using) COMP_into:V_PASS-N (cloned,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (lambda,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) SUBJ:V-N (hybridized,RNA) OBJ:V-N (was,29-containing) COMP_in:V_PASS-N (transcribed,vitro) Parse 228 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------------------------OBJ:V-N--------------------------+ | +------------------------COMP_into:N-N-----------------------+ | +--------COMP_from:V_PASS-N-------+ +-------MOD_ATT:N-N-------+ | | +---------------SUBJ:V_PASS-N--------------+ | | | +MOD_ATT:N-+ | +--MOD_ATT:N-N--+------SUBJ:V-N-----+ | +-----COMP_of:N-N----+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | | +MOD_AT+---APPOS---+ | +-COMP_to:V-N+ +MOD_+MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,fragments) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (lambda,SPXXX) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-ADJ (DNA,total) COMP_by:N-N (DNA,using) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) MOD_ATT:N-N (polymerase,sigma) Parse 229 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +-------------------------COMP_by:V_PASS-N-------------------------+ | +---------------SUBJ:V_PASS-N--------------+ | +--------COMP_from:V_PASS-N-------+ +-------MOD_ATT:N-N------+----------OBJ:V-N---------+ | +-----COMP_of:N-N----+ | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | | +MOD_ATT:N-N+ +COMP_into:V_PASS-+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+ | +MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,fragments) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) COMP_into:V_PASS-N (cloned,lambda) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (RNA,using) COMP_to:V-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) OBJ:V-N (was,RNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 230 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------COMP_from:N-N--------------+ +----------------------OBJ:V-N----------------------+ | +-------------------------COMP_of:N-N------------------------+ +----COMP_in:N-N----+ | | +-------MOD_ATT:N-N-------+ | | | +--------------------MOD_ATT:N-N--------------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | | +--MOD_ATT:N-N--+------SUBJ:V-N-----+ | | | +--------------MOD_ATT:N-N--------------+ +SUBJ:V_+ | | +MOD_+COMP_by+ | | +MOD_AT+---APPOS---+ | +-COMP_to:V-N+ | +MOD_AT+ +COMP_into:V+MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,lambda) COMP_into:V_PASS-N (cloned,SPXXX) COMP_by:N-N (DNA,using) MOD_ATT:N-N (lambda,fragments) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (hybridized,RNA) COMP_in:N-N (RNA,vitro) COMP_to:V-N (hybridized,bank) MOD_ATT:N-N (polymerase,sigma) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) Parse 231 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+------------------------------COMP_into:V-N------------------------------+ | +--------COMP_from:V_PASS-N-------+--------------------------OBJ:V-N--------------------------+ | +-------------OBJ:V-N-------------+ | | | +MOD_ATT:N-+------COMP_by:N-N------+ +------SUBJ:V-N-----+ | | +-------SUBJ:V-N------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+MOD_ATT:N+ +MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,SPXXX) OBJ:V-N (cloned,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (sigma,using) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (cloned,fragments) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_into:V-N (hybridized,lambda) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (hybridized,RNA) COMP_by:N-N (DNA,29-containing) COMP_in:V_PASS-N (transcribed,vitro) Parse 232 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | | +--------------COMP_by:N-N--------------+ | +----------------------------COMP_into:V_PASS-N---------------------------+ +--------------COMP_from:N-N--------------+ +----------MOD_ATT:N-N----------+ | | +------------------OBJ:V-N-----------------+ | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | | +-COMP_of:N-N-+ +-------SUBJ:V-N------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+ | +COMP_to:V_PA+ +MOD_+ +----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (hybridized,lambda) MOD_ATT:N-N (polymerase,using) COMP_by:N-N (DNA,polymerase) COMP_from:N-N (RNA,DNA) COMP_of:N-N (bank,DNA) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (cloned,bank) MOD_ATT:N-N (DNA,total) MOD_ATT:N-ADJ (RNA,29-containing) APPOS (DNA,GENEXXX) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 233 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | +--------------COMP_from:N-N--------------+ | | +------------------------COMP_into:N-N-----------------------+ +----COMP_in:N-N----+ | +---------OBJ:V-N--------+----------OBJ:V-N---------+ | +------------------OBJ:V-N-----------------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +----OBJ:V-N----+ | +------SUBJ:V-N-----+ | | +-------SUBJ:V-N------+ | +SUBJ:V_+ | | +MOD_+ | +MOD_ATT:N+ | +---APPOS---+ | +-COMP_to:V-N+COMP_of:+ +MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) COMP_by:N-V (RNA,using) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (cloned,bank) SUBJ:V-N (hybridized,RNA) COMP_in:N-N (RNA,vitro) COMP_into:N-N (bank,lambda) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) OBJ:V-N (using,RNA) OBJ:V-N (using,29-containing) SUBJ:V-N (cloned,fragments) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-ADJ (DNA,total) SUBJ:V-N (been,fragments) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (was,RNA) Parse 234 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | +------------------------COMP_into:N-N-----------------------+ | +--------COMP_from:V_PASS-N-------+ | +--------------OBJ:V-N--------------+ | +---------------SUBJ:V_PASS-N--------------+ | | | +MOD_ATT:N-+ +----OBJ:V-N----+ +------SUBJ:V-N-----+ | +--------------SUBJ:V-N--------------+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | +MOD_ATT:N+ +MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+SUBJ:V+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (using,29-containing) MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (lambda,SPXXX) COMP_by:N-V (RNA,using) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) SUBJ:V-N (been,bank) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (fragments,DNA) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) SUBJ:V-N (hybridized,RNA) OBJ:V-N (was,29-containing) COMP_in:V_PASS-N (transcribed,vitro) Parse 235 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +-------------COMP_by:V_PASS-N------------+----------------------OBJ:V-N----------------------+ +------------------------------COMP_into:V-N------------------------------+ | +--------COMP_from:V_PASS-N-------+ | +-------MOD_ATT:N-N-------+ | +-------------OBJ:V-N-------------+ | | | +MOD_ATT:N-+ | | +--MOD_ATT:N-N--+------SUBJ:V-N-----+ | +MOD_ATT:N-N+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | | +MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+ +MOD_AT+----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (hybridized,fragments) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) COMP_into:V-N (hybridized,lambda) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (hybridized,RNA) COMP_by:V_PASS-N (transcribed,using) COMP_in:V_PASS-N (transcribed,vitro) MOD_ATT:N-N (polymerase,sigma) Parse 236 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | | | +------------OBJ:V-N------------+ | | | +--------COMP_from:V_PASS-N-------+ | +-------MOD_ATT:N-N-------+ | | | | +MOD_ATT:N-+ | | +-MOD_ATT:N-ADJ-+ | | +-------SUBJ:V-N------+-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | | +MOD_AT+ | +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ +COMP_into:V+MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) OBJ:V-N (cloned,lambda) MOD_ATT:N-N (lambda,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) APPOS (DNA,GENEXXX) MOD_ATT:N-N (polymerase,sigma) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) COMP_into:V-N (cloned,SPXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-ADJ (polymerase,29-containing) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 237 +----------------------------COMP_into:V_PASS-N---------------------------+ +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +---------------SUBJ:V_PASS-N--------------+ | +-----------------------------------COMP_by:N-N-----------------------------------+ | +--------------SUBJ:V-N--------------+ | | | +--------COMP_from:V_PASS-N-------+ | | +-----COMP_of:N-N----+ | | | | | +MOD_ATT:N-+ +-------MOD_ATT:N-N-------+ | | +MOD_ATT:N-N+ | | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ | +MOD_AT+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (hybridized,lambda) COMP_by:N-N (RNA,polymerase) COMP_of:N-N (bank,fragments) MOD_ATT:N-N (fragments,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (sigma,using) SUBJ:V-N (been,bank) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 238 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | | +--------COMP_from:V_PASS-N-------+ +---------OBJ:V-N--------+----------OBJ:V-N---------+ | +------------------------COMP_into:N-N-----------------------+ | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +---------------SUBJ:V_PASS-N--------------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+SUBJ:V+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_by:N-V (RNA,using) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) OBJ:V-N (using,RNA) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (lambda,SPXXX) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) OBJ:V-N (was,RNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 239 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +-------------COMP_by:V_PASS-V------------+ | | +--------COMP_from:V_PASS-N-------+ +---------OBJ:V-N--------+----------OBJ:V-N---------+ +------------------------------COMP_into:V-N------------------------------+ | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +------------------OBJ:V-N-----------------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+ +MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,RNA) COMP_by:V_PASS-V (transcribed,using) OBJ:V-N (cloned,bank) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (lambda,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_into:V-N (hybridized,lambda) OBJ:V-N (was,RNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 240 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------------------------OBJ:V-N--------------------------+ | | +-----------COMP_by:N-N----------+ | | +--------------COMP_from:N-N--------------+ +-------MOD_ATT:N-N------+ | +------------------------------COMP_into:V-N------------------------------+ | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ +-------------OBJ:V-N-------------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (was,polymerase) COMP_by:N-N (DNA,RNA) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (hybridized,fragments) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) COMP_into:V-N (hybridized,lambda) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (RNA,using) COMP_to:V-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 241 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-----------------------------------COMP_by:N-N-----------------------------------+ | +--------------COMP_from:N-N--------------+ | +----------------------------COMP_into:V_PASS-N---------------------------+ +----COMP_in:N-N----+ | | | +---------------SUBJ:V_PASS-N--------------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +----MOD_ATT:N-N---+ | | +-----COMP_of:N-N----+ | | +SUBJ:V_+ | | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ +MOD_+MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (RNA,polymerase) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) COMP_into:V_PASS-N (hybridized,lambda) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (lambda,SPXXX) COMP_of:N-N (bank,fragments) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-ADJ (DNA,total) SUBJ:V_PASS-N (cloned,bank) MOD_ATT:N-N (sigma,using) SUBJ:V_PASS-N (hybridized,RNA) Parse 242 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +--------------COMP_by:N-N--------------+ | +--------------COMP_from:N-N--------------+ +----------MOD_ATT:N-N----------+ | +----------------SUBJ:V-N---------------+ | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | +----SUBJ:V_PASS-N----+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ +COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_into:V_PASS-N (cloned,SPXXX) COMP_by:N-N (DNA,polymerase) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (RNA,29-containing) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (polymerase,sigma) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (polymerase,using) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 243 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-----------------------------------COMP_by:N-N-----------------------------------+ +----------------------------COMP_into:V_PASS-N---------------------------+ | +--------COMP_from:V_PASS-N-------+ +----------MOD_ATT:N-N----------+ | +---------------SUBJ:V_PASS-N--------------+ | | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | +-----COMP_of:N-N----+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ +MOD_+MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (hybridized,lambda) COMP_by:N-N (RNA,polymerase) COMP_of:N-N (bank,fragments) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) MOD_ATT:N-N (polymerase,using) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 244 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-----------------------------------COMP_by:N-N-----------------------------------+ | +--------------COMP_from:N-N--------------+ +----------MOD_ATT:N-N----------+ | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | +MOD_ATT:N-N+ +-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+ +MOD_AT+-------SUBJ:V-N------+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (RNA,sigma) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (polymerase,using) COMP_by:N-N (RNA,polymerase) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,29-containing) OBJ:V-N (cloned,lambda) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 245 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+------------------------------COMP_into:V-N------------------------------+ +-------------------COMP_by:N-V-------------------+ | +---------------SUBJ:V_PASS-N--------------+ | +--------------COMP_from:N-N--------------+ | | +--------------SUBJ:V-N--------------+ | | +----COMP_in:N-N----+ | +---------OBJ:V-N--------+----------OBJ:V-N---------+ | +-----COMP_of:N-N----+ | | | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | | +MOD_ATT:N-N+ | | | +SUBJ:V_+ | | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+ | +MOD_AT+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) COMP_by:N-V (RNA,using) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) SUBJ:V-N (been,bank) SUBJ:V-N (hybridized,RNA) MOD_ATT:N-N (DNA,total) COMP_into:V-N (hybridized,lambda) COMP_in:N-N (RNA,vitro) COMP_of:N-N (bank,fragments) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) SUBJ:V_PASS-N (cloned,bank) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (using,RNA) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (was,RNA) Parse 246 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-----------------------------------COMP_by:N-N-----------------------------------+ | +--------------COMP_from:N-N--------------+ +----------MOD_ATT:N-N----------+ | +----COMP_in:N-N----+ | | +-------MOD_ATT:N-N-------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | | +--MOD_ATT:N-N--+ | +MOD_ATT:N-N+-------SUBJ:V-N------+-----OBJ:V-N-----+ +SUBJ:V_+ | | +MOD_+ | | | +MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ +COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (RNA,polymerase) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (polymerase,sigma) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (cloned,lambda) COMP_to:V_PASS-N (hybridized,bank) COMP_into:V-N (cloned,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-ADJ (DNA,total) SUBJ:V-N (been,fragments) MOD_ATT:N-N (polymerase,using) SUBJ:V_PASS-N (hybridized,RNA) Parse 247 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------COMP_from:V_PASS-N-------+ +--------------OBJ:V-N--------------+ | +----------------SUBJ:V-N---------------+ | | +MOD_ATT:N-+ +----OBJ:V-N----+ +------SUBJ:V-N-----+ | +MOD_ATT:N-N+----------COMP_into:N-N----------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ +MOD_ATT:N+ +MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+ +MOD_AT+----SUBJ:V_PASS-N----+ | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (using,29-containing) MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,SPXXX) COMP_into:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) COMP_to:V-N (hybridized,bank) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) SUBJ:V-N (hybridized,RNA) OBJ:V-N (was,29-containing) COMP_in:V_PASS-N (transcribed,vitro) Parse 248 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | +--------------COMP_from:N-N--------------+ +---------OBJ:V-N--------+----------OBJ:V-N---------+ | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +MOD_ATT:N-N+ +-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+ +MOD_AT+-------SUBJ:V-N------+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) COMP_by:N-V (RNA,using) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,RNA) MOD_ATT:N-N (RNA,sigma) OBJ:V-N (cloned,lambda) COMP_to:V-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (was,RNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 249 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | +--------------COMP_from:N-N--------------+ | | +----COMP_in:N-N----+ | +---------OBJ:V-N--------+----------OBJ:V-N---------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +----OBJ:V-N----+ | +------SUBJ:V-N-----+ | +-----OBJ:V-N-----+ +SUBJ:V_+ | | +MOD_+ | +MOD_ATT:N+ | +---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+-------SUBJ:V-N------+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) OBJ:V-N (cloned,lambda) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) COMP_by:N-V (RNA,using) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) SUBJ:V-N (hybridized,RNA) MOD_ATT:N-N (DNA,total) COMP_in:N-N (RNA,vitro) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (using,RNA) OBJ:V-N (using,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (was,RNA) Parse 250 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +---------------------------COMP_by:N-N---------------------------+ | +--------------COMP_from:N-N--------------+ | +------------------------------COMP_into:V-N------------------------------+ +----COMP_in:N-N----+ | +--------------OBJ:V-N--------------+ | +---------------SUBJ:V_PASS-N--------------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +--MOD_ATT:N-N--+ +------SUBJ:V-N-----+ | +-----COMP_of:N-N----+ | | +SUBJ:V_+ | | +MOD_+ | +MOD_ATT:N+ +MOD_AT+---APPOS---+ | +-COMP_to:V-N+ +MOD_+MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) COMP_by:N-N (RNA,29-containing) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (hybridized,RNA) COMP_into:V-N (hybridized,lambda) COMP_in:N-N (RNA,vitro) COMP_of:N-N (bank,fragments) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-ADJ (DNA,total) SUBJ:V_PASS-N (cloned,bank) OBJ:V-N (was,29-containing) MOD_ATT:N-N (29-containing,using) Parse 251 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+------------------------------COMP_into:V-N------------------------------+ | +--------------------------OBJ:V-N--------------------------+ | +---------------SUBJ:V_PASS-N--------------+ | +--------------COMP_from:N-N--------------+ +---------OBJ:V-N--------+ | | +-----COMP_of:N-N----+ | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | | +MOD_ATT:N-N+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+ | +MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,RNA) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (lambda,SPXXX) COMP_of:N-N (bank,fragments) COMP_to:V-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) COMP_into:V-N (hybridized,lambda) SUBJ:V_PASS-N (cloned,bank) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 252 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +-------------------------COMP_by:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N-------+ +----------OBJ:V-N---------+ | | | +MOD_ATT:N-+ +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +MOD_ATT:N-N+----------------SUBJ:V-N---------------+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+----SUBJ:V_PASS-N----+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (cloned,SPXXX) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (sigma,using) SUBJ:V-N (lambda,fragments) COMP_by:V_PASS-N (transcribed,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (was,RNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 253 +------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------+ | +------------------OBJ:V-N-----------------+ | +-------------------COMP_by:N-V-------------------+ | +-------------SUBJ:V-N------------+ | | +--------COMP_from:V_PASS-N-------+ | | +----------OBJ:V-N---------+ | | | | +MOD_ATT:N-+ +----OBJ:V-N----+ | +------SUBJ:V-N-----+ | +-------OBJ:V-N------+ +-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | +MOD_ATT:N+ | +---APPOS---+ | | +COMP_of:+MOD_+SUBJ:V+ +COMP_into:V+MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) OBJ:V-N (using,29-containing) MOD_ATT:N-N (29-containing,sigma) OBJ:V-N (cloned,lambda) SUBJ:V-N (hybridized,RNA) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (hybridized,29-containing) COMP_by:N-V (RNA,using) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) SUBJ:V-N (cloned,RNA) MOD_ATT:N-N (DNA,total) SUBJ:V-N (fragments,DNA) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (fragments,bank) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (was,RNA) MOD_ATT:N-N (DNA,SPXXX) COMP_in:V_PASS-N (transcribed,vitro) Parse 254 +------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------+ | +-------------------------------------------------COMP_to:V_PASS-N------------------------------------------------+ | | +-------------COMP_by:V_PASS-V------------+ +----------SUBJ:V_PASS-N----------+ | | | +--------COMP_from:V_PASS-N-------+ +---------OBJ:V-N--------+----------OBJ:V-N---------+ | | | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | | +-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | | +COMP_of:+MOD_+SUBJ:V+ +COMP_into:V+MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (cloned,lambda) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) SUBJ:V-N (cloned,RNA) COMP_by:V_PASS-V (transcribed,using) MOD_ATT:N-N (DNA,total) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (using,RNA) COMP_to:V_PASS-N (transcribed,bank) OBJ:V-N (was,RNA) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 255 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | +--------------COMP_from:N-N--------------+ +------------OBJ:V-N------------+ | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | | +-------SUBJ:V-N------+-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+ | +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ +COMP_into:V+MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) OBJ:V-N (cloned,lambda) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,polymerase) MOD_ATT:N-N (polymerase,RNA) APPOS (DNA,GENEXXX) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (RNA,29-containing) COMP_into:V-N (cloned,SPXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (DNA,SPXXX) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 256 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +--------------COMP_from:N-N--------------+ | +----COMP_in:N-N----+ +--------------COMP_by:N-N--------------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +----MOD_ATT:N-N---+ | | +-----COMP_of:N-N----+-------------COMP_into:N-N-------------+ +SUBJ:V_+ | | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ +MOD_+MOD_AT+----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,fragments) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,DNA) COMP_into:N-N (fragments,lambda) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (lambda,SPXXX) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_by:N-N (DNA,polymerase) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (sigma,using) SUBJ:V_PASS-N (hybridized,RNA) Parse 257 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +--------------COMP_from:N-N--------------+-----------------------APPOS-----------------------+ | +----COMP_in:N-N----+ | +------------OBJ:V-N------------+ | | +-----COMP_of:N-N----+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | | | +MOD_ATT:N-N+ +COMP_into:V_PASS-+ +SUBJ:V_+ | | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+ | +COMP_to:V_PA+ | +MOD_AT+----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . APPOS (DNA,GENEXXX) COMP_of:N-N (bank,fragments) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,DNA) COMP_into:V_PASS-N (cloned,lambda) MOD_ATT:N-N (polymerase,RNA) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (lambda,SPXXX) MOD_POST:N-ADJ (RNA,vitro) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (RNA,29-containing) OBJ:V-N (using,polymerase) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (hybridized,RNA) Parse 258 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +-----------COMP_by:N-N----------+ | | +--------COMP_from:V_PASS-N-------+ +-------MOD_ATT:N-N------+----------OBJ:V-N---------+ | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +MOD_ATT:N-N+ +-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+ +MOD_AT+-------SUBJ:V-N------+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) COMP_by:N-N (DNA,RNA) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (RNA,using) OBJ:V-N (cloned,lambda) COMP_to:V-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (was,RNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 259 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +--------------COMP_from:N-N--------------+-----------------------APPOS-----------------------+ | +----COMP_in:N-N----+ | +------------OBJ:V-N------------+ | | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | | +----------------SUBJ:V-N---------------+ +SUBJ:V_+ | | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+ | +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V_PASS-N----+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . APPOS (DNA,GENEXXX) COMP_into:V_PASS-N (cloned,SPXXX) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (cloned,fragments) COMP_in:N-N (RNA,vitro) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (RNA,29-containing) OBJ:V-N (using,polymerase) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) SUBJ:V_PASS-N (hybridized,RNA) Parse 260 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +--------------COMP_from:N-N--------------+ +------------OBJ:V-N------------+ | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | +---------------SUBJ:V_PASS-N--------------+COMP_into:V_PASS-+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+SUBJ:V+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) COMP_into:V_PASS-N (cloned,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (using,polymerase) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) MOD_ATT:N-N (DNA,SPXXX) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 261 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | | +--------COMP_from:V_PASS-N-------+--------------COMP_by:N-N--------------+ | | +-----COMP_of:N-N----+ | | +MOD_ATT:N-+ +-------MOD_ATT:N-N-------+ | | | +MOD_ATT:N-N+-------------COMP_into:N-N-------------+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+ | +COMP_to:V_PA+ | +MOD_AT+----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (DNA,polymerase) MOD_ATT:N-N (fragments,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) COMP_into:N-N (fragments,lambda) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) APPOS (DNA,GENEXXX) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_of:N-N (bank,fragments) MOD_ATT:N-N (sigma,using) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 262 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +--------------COMP_from:N-N--------------+--------------COMP_by:N-N--------------+ | +----COMP_in:N-N----+ | +-------MOD_ATT:N-N------+ | | +---------------SUBJ:V_PASS-N--------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | +-------OBJ:V-N------+ +COMP_into:V_PASS-+ +SUBJ:V_+ | | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+SUBJ:V+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) COMP_into:V_PASS-N (cloned,lambda) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (fragments,DNA) COMP_in:N-N (RNA,vitro) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (RNA,using) COMP_by:N-N (DNA,polymerase) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (fragments,bank) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) SUBJ:V_PASS-N (hybridized,RNA) Parse 263 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | +--------------COMP_from:N-N--------------+--------------COMP_by:N-N--------------+ | | +----COMP_in:N-N----+ | +-------MOD_ATT:N-N------+ | | | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | | +-----COMP_of:N-N----+-------------COMP_into:N-N-------------+ +SUBJ:V_+ | | +MOD_+ | | +MOD_ATT:+MOD_AT+ | +COMP_to:V_PA+ +MOD_+MOD_AT+----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . APPOS (DNA,GENEXXX) COMP_of:N-N (bank,fragments) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,DNA) COMP_into:N-N (fragments,lambda) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (lambda,SPXXX) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_by:N-N (DNA,polymerase) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-N (RNA,using) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (hybridized,RNA) Parse 264 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | | +--------COMP_from:V_PASS-N-------+ +------------OBJ:V-N------------+ | +----------------SUBJ:V-N---------------+ | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | +MOD_ATT:N-N+----------COMP_into:N-N----------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+ +MOD_AT+----SUBJ:V_PASS-N----+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_into:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,SPXXX) COMP_by:N-V (RNA,using) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (RNA,sigma) OBJ:V-N (using,polymerase) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) COMP_to:V_PASS-N (hybridized,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 265 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------COMP_from:V_PASS-N-------+--------------------------OBJ:V-N--------------------------+ | | | +MOD_ATT:N-+------COMP_by:N-N------+ +------SUBJ:V-N-----+ | +-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+MOD_ATT:N+ +MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+-------SUBJ:V-N------+COMP_into:V+MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) OBJ:V-N (cloned,lambda) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (sigma,using) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (hybridized,RNA) COMP_by:N-N (DNA,29-containing) COMP_in:V_PASS-N (transcribed,vitro) Parse 266 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +--------------COMP_from:N-N--------------+--------------COMP_by:N-N--------------+ | +----------------------OBJ:V-N----------------------+ +----COMP_in:N-N----+ | +-------MOD_ATT:N-N------+ | | | +----------------SUBJ:V-N---------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | | +----SUBJ:V_PASS-N----+ | +SUBJ:V_+ | | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+ +MOD_AT+----SUBJ:V-N---+ +COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (cloned,SPXXX) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,DNA) SUBJ:V-N (lambda,fragments) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) COMP_in:N-N (RNA,vitro) MOD_POST:N-ADJ (RNA,vitro) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (RNA,using) COMP_by:N-N (DNA,polymerase) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (lambda,SPXXX) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) SUBJ:V_PASS-N (hybridized,RNA) Parse 267 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-------------COMP_by:V_PASS-V------------+ | | +--------COMP_from:V_PASS-N-------+ +------------OBJ:V-N------------+ | +-------------------COMP_into:N-N-------------------+ | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | +-------------OBJ:V-N-------------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) OBJ:V-N (cloned,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-V (transcribed,using) COMP_into:N-N (SPXXX,lambda) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (using,polymerase) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 268 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +------------OBJ:V-N------------+ | +------------------------COMP_into:N-N-----------------------+ +--------------COMP_from:N-N--------------+ | +-------MOD_ATT:N-N-------+ | +------------------OBJ:V-N-----------------+ | | +MOD_ATT:N-+ | | +-MOD_ATT:N-ADJ-+ | | +-------SUBJ:V-N------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | | +MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (fragments,DNA) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (cloned,bank) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (polymerase,sigma) OBJ:V-N (using,polymerase) MOD_ATT:N-N (DNA,SPXXX) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-ADJ (polymerase,29-containing) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 269 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-----------------------------------COMP_by:N-N-----------------------------------+ | +--------------COMP_from:N-N--------------+ | | +----------------SUBJ:V-N---------------+ +----COMP_in:N-N----+ | +-------MOD_ATT:N-N-------+ | +----------COMP_into:N-N----------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +--MOD_ATT:N-N--+ | +MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +SUBJ:V_+ | | +MOD_+ +MOD_A+ | +MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ | | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (RNA,polymerase) SUBJ:V-N (lambda,fragments) COMP_of:N-N (bank,SPXXX) COMP_into:N-N (fragments,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (polymerase,sigma) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,fragments) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-ADJ (DNA,total) SUBJ:V-N (been,fragments) MOD_ATT:N-N (sigma,using) SUBJ:V_PASS-N (hybridized,RNA) Parse 270 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | | +--------COMP_from:V_PASS-N-------+ +------------OBJ:V-N------------+ | +------------------------COMP_into:N-N-----------------------+ | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | | +----------SUBJ:V_PASS-N----------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+SUBJ:V+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_by:N-V (RNA,using) COMP_from:V_PASS-N (transcribed,DNA) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (using,polymerase) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (cloned,SPXXX) SUBJ:V_PASS-N (hybridized,RNA) Parse 271 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-----------------------------------COMP_by:N-N-----------------------------------+ | +--------------COMP_from:N-N--------------+ +----------MOD_ATT:N-N----------+ | +---------------SUBJ:V_PASS-N--------------+ +----COMP_in:N-N----+ | | +-------MOD_ATT:N-N-------+ | +-----COMP_of:N-N----+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | | +-MOD_ATT:N-ADJ-+ | | +MOD_ATT:N-N+ +COMP_into:V_PASS-+ +SUBJ:V_+ | | +MOD_+ | | | +MOD_AT+---APPOS---+ +COMP_to:V_PA+ | +MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (RNA,polymerase) COMP_of:N-N (bank,fragments) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,DNA) COMP_into:V_PASS-N (cloned,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (polymerase,sigma) MOD_POST:N-ADJ (RNA,vitro) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) SUBJ:V_PASS-N (cloned,bank) MOD_ATT:N-N (polymerase,using) MOD_ATT:N-ADJ (polymerase,29-containing) SUBJ:V_PASS-N (hybridized,RNA) Parse 272 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | | +--------COMP_from:V_PASS-N-------+ +---------OBJ:V-N--------+----------OBJ:V-N---------+ +-------------OBJ:V-N-------------+ | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +MOD_ATT:N-N+ +COMP_into:V_PASS-+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+ +MOD_AT+----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (fragments,SPXXX) COMP_by:N-V (RNA,using) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (hybridized,fragments) COMP_into:V_PASS-N (cloned,lambda) OBJ:V-N (using,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) COMP_to:V-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (was,RNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 273 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | +--------------COMP_from:N-N--------------+ +---------OBJ:V-N--------+----------OBJ:V-N---------+ | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +-----COMP_of:N-N----+-------------COMP_into:N-N-------------+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+ +MOD_+MOD_AT+----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,fragments) COMP_from:N-N (RNA,DNA) COMP_by:N-V (RNA,using) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) COMP_into:N-N (fragments,lambda) OBJ:V-N (using,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (was,RNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 274 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +--------------COMP_from:N-N--------------+ | +------------------------COMP_into:N-N-----------------------+ +----COMP_in:N-N----+ | +------------OBJ:V-N------------+ | +------------------OBJ:V-N-----------------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | +-COMP_of:N-N-+ | | +SUBJ:V_+ | | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ +MOD_+ +-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_from:N-N (RNA,DNA) COMP_of:N-N (bank,DNA) OBJ:V-N (using,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (cloned,bank) COMP_by:N-V (DNA,using) MOD_ATT:N-N (DNA,total) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) COMP_into:N-N (bank,lambda) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (hybridized,RNA) Parse 275 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +--------------COMP_from:N-N--------------+ +------------OBJ:V-N------------+ | +----COMP_in:N-N----+ | | +-------MOD_ATT:N-N-------+ | +------------------------COMP_into:N-N-----------------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | | +-MOD_ATT:N-ADJ-+ | +------------------OBJ:V-N-----------------+ | +SUBJ:V_+ | | +MOD_+COMP_by+ | | +MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+ +MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (cloned,bank) COMP_by:N-V (DNA,using) MOD_ATT:N-N (DNA,total) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) COMP_into:N-N (bank,lambda) MOD_POST:N-ADJ (RNA,vitro) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-ADJ (polymerase,29-containing) SUBJ:V_PASS-N (hybridized,RNA) Parse 276 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | +--------------COMP_from:N-N--------------+--------------COMP_by:N-N--------------+ | | +------------------------COMP_into:N-N-----------------------+ | +MOD_ATT:N-+ +-------MOD_ATT:N-N-------+ | | | +-------------OBJ:V-N-------------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+ | +COMP_to:V_PA+COMP_of:+ +MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_by:N-N (DNA,polymerase) COMP_from:N-N (RNA,DNA) OBJ:V-N (cloned,SPXXX) MOD_ATT:N-N (fragments,DNA) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) APPOS (DNA,GENEXXX) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (RNA,29-containing) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (sigma,using) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 277 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +---------------SUBJ:V_PASS-N--------------+ | +-----------------------------COMP_by:V_PASS-N----------------------------+ | +--------------SUBJ:V-N--------------+ | | +--------COMP_from:V_PASS-N-------+ +-------MOD_ATT:N-N------+ | | +-----COMP_of:N-N----+ | | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | | +MOD_ATT:N-N+ | +COMP_into:V_PASS-+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ | +MOD_AT+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (fragments,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) COMP_into:V_PASS-N (cloned,lambda) SUBJ:V-N (been,bank) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-N (transcribed,polymerase) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (RNA,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) COMP_of:N-N (bank,fragments) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 278 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-----------------------------------COMP_by:N-N-----------------------------------+ | | +----------MOD_ATT:N-N----------+ | | +--------COMP_from:V_PASS-N-------+ | +-------MOD_ATT:N-N-------+ | +------------------OBJ:V-N-----------------+ | | +MOD_ATT:N-+ | | +-MOD_ATT:N-ADJ-+ | | +MOD_ATT:N-N+-------SUBJ:V-N------+--COMP_into:V-N--+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | | +MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+ +MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_by:N-N (RNA,polymerase) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (fragments,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (cloned,bank) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (polymerase,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-ADJ (polymerase,29-containing) COMP_in:V_PASS-N (transcribed,vitro) COMP_into:V-N (cloned,lambda) SUBJ:V_PASS-N (hybridized,RNA) Parse 279 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------COMP_from:N-N--------------+--------------------------OBJ:V-N--------------------------+ +-------------OBJ:V-N-------------+ | +MOD_ATT:N-+ +----OBJ:V-N----+ +------SUBJ:V-N-----+ | +MOD_ATT:N-N+-------------COMP_into:N-N-------------+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ +MOD_ATT:N+ +MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (using,29-containing) MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (hybridized,fragments) COMP_into:N-N (fragments,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,fragments) COMP_to:V-N (hybridized,bank) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 280 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------COMP_from:N-N--------------+ | +----COMP_in:N-N----+ +--------------------------OBJ:V-N--------------------------+ | +------------------------COMP_into:N-N-----------------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +-----COMP_of:N-N----+ | +SUBJ:V_+ | | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+ +MOD_+MOD_AT+----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (DNA,using) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) SUBJ:V-N (hybridized,RNA) MOD_ATT:N-N (RNA,sigma) COMP_in:N-N (RNA,vitro) COMP_into:N-N (bank,lambda) COMP_of:N-N (bank,fragments) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) Parse 281 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------------COMP_by:V_PASS-N----------------------------+ | | | +----------MOD_ATT:N-N----------+ | +------------------------COMP_into:N-N-----------------------+ | +--------COMP_from:V_PASS-N-------+ | +-------MOD_ATT:N-N-------+ | | +-----------OBJ:V-N----------+ | | | +MOD_ATT:N-+ | | +-MOD_ATT:N-ADJ-+ | +-COMP_of:N-N-+ +-------SUBJ:V-N------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | | +MOD_AT+---APPOS---+ +COMP_to:V_PA+ +MOD_+ +----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_from:V_PASS-N (transcribed,DNA) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-N (transcribed,polymerase) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (polymerase,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) OBJ:V-N (cloned,DNA) MOD_ATT:N-ADJ (polymerase,29-containing) COMP_in:V_PASS-N (transcribed,vitro) COMP_of:N-N (bank,DNA) SUBJ:V_PASS-N (hybridized,RNA) Parse 282 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +------------------------COMP_into:N-N-----------------------+ | +--------COMP_from:V_PASS-N-------+--------------COMP_by:N-N--------------+ | +---------------SUBJ:V_PASS-N--------------+ | | | +MOD_ATT:N-+ +-------MOD_ATT:N-N-------+ | +-----COMP_of:N-N----+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ +MOD_+MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (DNA,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (sigma,using) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) COMP_of:N-N (bank,fragments) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 283 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | | +--------COMP_from:V_PASS-N-------+ +---------OBJ:V-N--------+----------OBJ:V-N---------+ | +-----------------COMP_into:N-N----------------+ | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +-COMP_of:N-N-+-----------OBJ:V-N----------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+ +MOD_+ +-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:N-N (DNA,lambda) COMP_by:N-V (RNA,using) COMP_of:N-N (bank,DNA) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) OBJ:V-N (using,RNA) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (cloned,DNA) OBJ:V-N (was,RNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 284 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------COMP_from:N-N--------------+ +----------------------OBJ:V-N----------------------+ +------------------------------COMP_into:V-N------------------------------+ | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+------SUBJ:V-N-----+ | +----------SUBJ:V_PASS-N----------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+SUBJ:V+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (DNA,total) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_by:N-N (DNA,using) MOD_ATT:N-N (DNA,SPXXX) COMP_into:V-N (hybridized,lambda) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (cloned,SPXXX) Parse 285 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +--------------COMP_by:N-N--------------+ | | +--------COMP_from:V_PASS-N-------+ +----------MOD_ATT:N-N----------+ +----------------------------COMP_into:V_PASS-N---------------------------+ | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | +------------------OBJ:V-N-----------------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (RNA,sigma) COMP_into:V_PASS-N (hybridized,lambda) MOD_ATT:N-N (polymerase,using) COMP_by:N-N (DNA,polymerase) COMP_of:N-N (bank,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (cloned,bank) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 286 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------COMP_from:N-N--------------+--------------------------OBJ:V-N--------------------------+ | +----COMP_in:N-N----+ | +---------OBJ:V-N--------+ | | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ +-------------OBJ:V-N-------------+-------------COMP_into:N-N-------------+ +SUBJ:V_+ | | +MOD_+COMP_by+ | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+ +MOD_AT+----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) COMP_into:N-N (fragments,lambda) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (cloned,fragments) SUBJ:V-N (hybridized,RNA) MOD_ATT:N-N (DNA,total) COMP_in:N-N (RNA,vitro) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) OBJ:V-N (using,RNA) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (hybridized,fragments) Parse 287 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------COMP_from:N-N--------------+--------------------------OBJ:V-N--------------------------+ | +----COMP_in:N-N----+ +------COMP_by:N-N------+ | | +----------------SUBJ:V-N---------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +--MOD_ATT:N-N--+ +------SUBJ:V-N-----+ | +MOD_ATT:N-N+----------COMP_into:N-N----------+ | +SUBJ:V_+ | | +MOD_+ | +MOD_ATT:N+ +MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+ +MOD_AT+----SUBJ:V_PASS-N----+ | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,SPXXX) COMP_into:N-N (fragments,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) SUBJ:V-N (lambda,fragments) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) SUBJ:V-N (hybridized,RNA) MOD_ATT:N-N (DNA,total) COMP_in:N-N (RNA,vitro) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) COMP_by:N-N (DNA,29-containing) MOD_ATT:N-N (29-containing,using) Parse 288 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | +--------------COMP_from:N-N--------------+ +------------OBJ:V-N------------+ | +----------------------------COMP_into:V_PASS-N---------------------------+ +----COMP_in:N-N----+ | +---------OBJ:V-N--------+ | | | +----------SUBJ:V_PASS-N----------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | | +----------SUBJ:V-N---------+ | | +SUBJ:V_+ | | +MOD_+COMP_by+ | +MOD_ATT:+ | | +COMP_to:V_PA+COMP_of:+MOD_+SUBJ:V+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . APPOS (DNA,GENEXXX) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) COMP_into:V_PASS-N (hybridized,lambda) COMP_by:N-V (DNA,using) SUBJ:V-N (fragments,DNA) COMP_in:N-N (RNA,vitro) SUBJ:V-N (been,SPXXX) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (using,RNA) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (RNA,29-containing) OBJ:V-N (using,polymerase) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,SPXXX) SUBJ:V_PASS-N (hybridized,RNA) Parse 289 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------COMP_from:N-N--------------+--------------------------OBJ:V-N--------------------------+ | +----------------SUBJ:V-N---------------+ | +MOD_ATT:N-+ +----OBJ:V-N----+ +------SUBJ:V-N-----+ | +MOD_ATT:N-N+----------COMP_into:N-N----------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ +MOD_ATT:N+ +MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+----SUBJ:V_PASS-N----+ | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (using,29-containing) MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,SPXXX) COMP_into:N-N (fragments,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) SUBJ:V-N (lambda,fragments) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 290 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | +------------------------COMP_into:N-N-----------------------+ +--------------COMP_from:N-N--------------+ | +--------------OBJ:V-N--------------+ | +-----COMP_of:N-N----+ | | +MOD_ATT:N-+ +----OBJ:V-N----+ +------SUBJ:V-N-----+ | | +MOD_ATT:N-N+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | +MOD_ATT:N+ +MOD_AT+---APPOS---+ | +-COMP_to:V-N+ | +MOD_AT+----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (using,29-containing) MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,fragments) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) COMP_by:N-V (RNA,using) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (lambda,SPXXX) COMP_into:N-N (bank,lambda) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (hybridized,RNA) OBJ:V-N (was,29-containing) COMP_in:V_PASS-N (transcribed,vitro) Parse 291 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------------------------COMP_by:N-N-------------------------------+ | +--------------COMP_from:N-N--------------+ +----------OBJ:V-N---------+ | +------------------OBJ:V-N-----------------+ | +MOD_ATT:N-+ +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +-COMP_of:N-N-+ +-------SUBJ:V-N------+--COMP_into:V-N--+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+ +MOD_+ +----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (RNA,RNA) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) COMP_of:N-N (bank,DNA) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (sigma,using) OBJ:V-N (cloned,bank) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) OBJ:V-N (was,RNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) COMP_into:V-N (cloned,lambda) Parse 292 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | +------------------------COMP_into:N-N-----------------------+ +--------------COMP_from:N-N--------------+ +------------OBJ:V-N------------+ | +------------------OBJ:V-N-----------------+ | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | | +MOD_ATT:N-N+-------SUBJ:V-N------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) COMP_by:N-V (RNA,using) MOD_ATT:N-N (fragments,DNA) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (cloned,bank) MOD_ATT:N-N (DNA,total) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (polymerase,sigma) OBJ:V-N (using,polymerase) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (cloned,fragments) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (lambda,SPXXX) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 293 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | +--------------COMP_from:N-N--------------+ +------------OBJ:V-N------------+ +----------------------------COMP_into:V_PASS-N---------------------------+ +----COMP_in:N-N----+ | | +-------MOD_ATT:N-N-------+ | +----------SUBJ:V_PASS-N----------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | | +-MOD_ATT:N-ADJ-+ | +----------SUBJ:V-N---------+ | | +SUBJ:V_+ | | +MOD_+ | | | +MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+SUBJ:V+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) COMP_by:N-V (RNA,using) COMP_into:V_PASS-N (hybridized,lambda) OBJ:V-N (using,polymerase) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (fragments,DNA) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (polymerase,sigma) SUBJ:V-N (been,SPXXX) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-ADJ (polymerase,29-containing) SUBJ:V_PASS-N (cloned,SPXXX) SUBJ:V_PASS-N (hybridized,RNA) Parse 294 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------------------------OBJ:V-N--------------------------+ | | +--------COMP_from:V_PASS-N-------+------COMP_by:N-N------+ | | +---------------SUBJ:V_PASS-N--------------+ | | +MOD_ATT:N-+ +--MOD_ATT:N-N--+ +------SUBJ:V-N-----+ | +-------OBJ:V-N------+ +COMP_into:V_PASS-+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | +MOD_ATT:N+ +MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+SUBJ:V+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) COMP_into:V_PASS-N (cloned,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (29-containing,using) MOD_ATT:N-N (DNA,total) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (fragments,bank) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) SUBJ:V-N (hybridized,RNA) COMP_by:N-N (DNA,29-containing) COMP_in:V_PASS-N (transcribed,vitro) Parse 295 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------------------------COMP_by:N-N-------------------------------+ | +--------------COMP_from:N-N--------------+ | | +----COMP_in:N-N----+ | +----------OBJ:V-N---------+ | +------------------OBJ:V-N-----------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | | +MOD_ATT:N-N+-------SUBJ:V-N------+--COMP_into:V-N--+ +SUBJ:V_+ | | +MOD_+ +MOD_A+ +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (RNA,RNA) OBJ:V-N (cloned,bank) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) SUBJ:V-N (hybridized,RNA) MOD_ATT:N-N (DNA,total) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (lambda,SPXXX) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (cloned,fragments) SUBJ:V-N (been,fragments) OBJ:V-N (was,RNA) MOD_ATT:N-N (sigma,using) COMP_into:V-N (cloned,lambda) Parse 296 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +--------------COMP_from:N-N--------------+-----------------------APPOS-----------------------+ | +------------------------COMP_into:N-N-----------------------+ +----COMP_in:N-N----+ +--------------COMP_by:N-N--------------+ | | +---------------SUBJ:V_PASS-N--------------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +-------MOD_ATT:N-N-------+ | | +-------OBJ:V-N------+ | | +SUBJ:V_+ | | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+ | +COMP_to:V_PA+COMP_of:+MOD_+SUBJ:V+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . APPOS (DNA,GENEXXX) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) SUBJ:V-N (fragments,DNA) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (polymerase,sigma) COMP_into:N-N (bank,lambda) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_by:N-N (DNA,polymerase) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (fragments,bank) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) MOD_ATT:N-N (sigma,using) SUBJ:V_PASS-N (hybridized,RNA) Parse 297 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +--------------COMP_from:N-N--------------+-----------------------APPOS-----------------------+ | +----COMP_in:N-N----+ +--------------COMP_by:N-N--------------+ | | +------------------------COMP_into:N-N-----------------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +----MOD_ATT:N-N---+ | | | +---------------SUBJ:V_PASS-N--------------+ | +SUBJ:V_+ | | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+ | +COMP_to:V_PA+COMP_of:+MOD_+SUBJ:V+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . APPOS (DNA,GENEXXX) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (fragments,DNA) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (lambda,SPXXX) COMP_into:N-N (bank,lambda) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_by:N-N (DNA,polymerase) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) MOD_ATT:N-N (sigma,using) SUBJ:V_PASS-N (hybridized,RNA) Parse 298 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------COMP_from:N-N--------------+ +------------------------------COMP_into:V-N------------------------------+ +----COMP_in:N-N----+ +-----------COMP_by:N-N----------+----------OBJ:V-N---------+ | +------------------OBJ:V-N-----------------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +-COMP_of:N-N-+ +-------SUBJ:V-N------+ | +SUBJ:V_+ | | +MOD_+ +MOD_A+ +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+ +MOD_+ +----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) SUBJ:V-N (was,polymerase) COMP_by:N-N (DNA,RNA) OBJ:V-N (cloned,bank) SUBJ:V-N (hybridized,RNA) MOD_ATT:N-N (DNA,total) COMP_into:V-N (hybridized,lambda) COMP_in:N-N (RNA,vitro) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (was,RNA) COMP_of:N-N (bank,DNA) MOD_ATT:N-N (sigma,using) Parse 299 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +--------------COMP_from:N-N--------------+ | +----COMP_in:N-N----+ +--------------COMP_by:N-N--------------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +-------MOD_ATT:N-N-------+ | +MOD_ATT:N-N+ +-----OBJ:V-N-----+ +SUBJ:V_+ | | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+ +MOD_AT+-------SUBJ:V-N------+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (polymerase,sigma) MOD_POST:N-ADJ (RNA,vitro) COMP_to:V_PASS-N (hybridized,bank) COMP_by:N-N (DNA,polymerase) OBJ:V-N (cloned,lambda) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) COMP_into:V-N (cloned,SPXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (sigma,using) SUBJ:V_PASS-N (hybridized,RNA) Parse 300 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +---------------------------COMP_by:N-N---------------------------+ | +--------------COMP_from:N-N--------------+ +--------------OBJ:V-N--------------+ +------------------------------COMP_into:V-N------------------------------+ | +MOD_ATT:N-+ | +------SUBJ:V-N-----+ | +-COMP_of:N-N-+-----------OBJ:V-N----------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+MOD_ATT:N+ +MOD_AT+---APPOS---+ | +-COMP_to:V-N+ +MOD_+ +-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (RNA,29-containing) MOD_ATT:N-N (29-containing,sigma) COMP_from:N-N (RNA,DNA) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (sigma,using) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_into:V-N (hybridized,lambda) OBJ:V-N (cloned,DNA) COMP_of:N-N (bank,DNA) SUBJ:V-N (hybridized,RNA) OBJ:V-N (was,29-containing) COMP_in:V_PASS-N (transcribed,vitro) Parse 301 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+------------------------------COMP_into:V-N------------------------------+ +--------------COMP_from:N-N--------------+------COMP_by:N-N------+--------------OBJ:V-N--------------+ | +------------------OBJ:V-N-----------------+ | | +MOD_ATT:N-+ +--MOD_ATT:N-N--+ +------SUBJ:V-N-----+ | | +MOD_ATT:N-N+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | +MOD_ATT:N+ +MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (cloned,bank) MOD_ATT:N-N (29-containing,using) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (cloned,fragments) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) COMP_into:V-N (hybridized,lambda) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (hybridized,RNA) OBJ:V-N (was,29-containing) COMP_by:N-N (DNA,29-containing) COMP_in:V_PASS-N (transcribed,vitro) Parse 302 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------------------------COMP_by:N-N-------------------------------+ | +--------------COMP_from:N-N--------------+ | +------------------------------COMP_into:V-N------------------------------+ +----COMP_in:N-N----+ | +----------OBJ:V-N---------+ | +---------------SUBJ:V_PASS-N--------------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +-----COMP_of:N-N----+ | | +SUBJ:V_+ | | +MOD_+ +MOD_A+ +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+ +MOD_+MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (RNA,RNA) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) SUBJ:V-N (hybridized,RNA) MOD_ATT:N-N (DNA,total) COMP_into:V-N (hybridized,lambda) COMP_in:N-N (RNA,vitro) COMP_of:N-N (bank,fragments) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) OBJ:V-N (was,RNA) MOD_ATT:N-N (sigma,using) Parse 303 +------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------+ +-------------------COMP_by:N-V-------------------+ +----------SUBJ:V_PASS-N----------+ | | +--------COMP_from:V_PASS-N-------+ +---------OBJ:V-N--------+----------OBJ:V-N---------+ | | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +-------OBJ:V-N------+ +-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | +COMP_to:V_PA+COMP_of:+MOD_+SUBJ:V+ +COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (cloned,lambda) COMP_of:N-N (bank,SPXXX) COMP_by:N-V (RNA,using) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) SUBJ:V-N (cloned,RNA) OBJ:V-N (using,RNA) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (fragments,bank) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) MOD_ATT:N-ADJ (DNA,total) SUBJ:V_PASS-N (hybridized,RNA) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (was,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 304 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +--------------COMP_by:N-N--------------+ | | +--------COMP_from:V_PASS-N-------+ +----------MOD_ATT:N-N----------+ | +----------------SUBJ:V-N---------------+ | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | +MOD_ATT:N-N+----------COMP_into:N-N----------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+ +MOD_AT+----SUBJ:V_PASS-N----+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (RNA,sigma) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (polymerase,using) COMP_by:N-N (DNA,polymerase) COMP_into:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) MOD_ATT:N-ADJ (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) COMP_to:V_PASS-N (hybridized,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 305 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +------------------------COMP_into:N-N-----------------------+ +-----------------------------------COMP_by:N-N-----------------------------------+ | +---------------SUBJ:V_PASS-N--------------+ | | +----------MOD_ATT:N-N----------+ | +--------------SUBJ:V-N--------------+ | | +--------------COMP_from:N-N--------------+ | +-------MOD_ATT:N-N-------+ | +-----COMP_of:N-N----+ | | | | +MOD_ATT:N-+ | | +--MOD_ATT:N-N--+ | | +MOD_ATT:N-N+ | | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | | +MOD_AT+---APPOS---+ +COMP_to:V_PA+ | +MOD_AT+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (RNA,polymerase) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,DNA) SUBJ:V-N (been,bank) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (polymerase,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) COMP_of:N-N (bank,fragments) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 306 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------------------------OBJ:V-N--------------------------+ | | +--------COMP_from:V_PASS-N-------+-----------COMP_by:N-N----------+ | | +------------------------COMP_into:N-N-----------------------+ | | +MOD_ATT:N-+ +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +------------------OBJ:V-N-----------------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+ +MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) SUBJ:V-N (was,polymerase) COMP_by:N-N (DNA,RNA) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (sigma,using) OBJ:V-N (cloned,bank) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (lambda,SPXXX) COMP_into:N-N (bank,lambda) COMP_to:V-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 307 +------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------+ +-------------------COMP_by:N-V-------------------+ +----------SUBJ:V_PASS-N----------+ | | +--------COMP_from:V_PASS-N-------+ +---------OBJ:V-N--------+----------OBJ:V-N---------+ | | | | +MOD_ATT:N-+ +----OBJ:V-N----+ | +------SUBJ:V-N-----+ | +-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | +MOD_ATT:N+ | +---APPOS---+ | +COMP_to:V_PA+COMP_of:+MOD_+SUBJ:V+ +COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) OBJ:V-N (using,29-containing) COMP_of:N-N (bank,SPXXX) COMP_by:N-V (RNA,using) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) SUBJ:V-N (cloned,RNA) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) OBJ:V-N (cloned,lambda) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) MOD_ATT:N-ADJ (DNA,total) OBJ:V-N (using,RNA) SUBJ:V_PASS-N (hybridized,RNA) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (was,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 308 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +------------------------COMP_into:N-N-----------------------+ | +-------------------------COMP_by:V_PASS-N-------------------------+ | +---------------SUBJ:V_PASS-N--------------+ | | +--------COMP_from:V_PASS-N-------+ +----------OBJ:V-N---------+ | +-----COMP_of:N-N----+ | | | | +MOD_ATT:N-+ +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | | +MOD_ATT:N-N+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+ | +MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,fragments) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (sigma,using) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (lambda,SPXXX) COMP_into:N-N (bank,lambda) COMP_to:V-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) OBJ:V-N (was,RNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 309 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +-------------------COMP_by:N-N-------------------+ | | +--------COMP_from:V_PASS-N-------+ +----------------------OBJ:V-N----------------------+ +------------------------------COMP_into:V-N------------------------------+ | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+------SUBJ:V-N-----+ | +---------------SUBJ:V_PASS-N--------------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+SUBJ:V+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (RNA,29-containing) MOD_ATT:N-N (polymerase,RNA) COMP_by:N-N (RNA,using) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_into:V-N (hybridized,lambda) SUBJ:V_PASS-N (cloned,bank) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 310 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +-------------------COMP_by:N-N-------------------+ +------------------------------COMP_into:V-N------------------------------+ | +--------COMP_from:V_PASS-N-------+ +----------------------OBJ:V-N----------------------+ | +---------------SUBJ:V_PASS-N--------------+ | | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+------SUBJ:V-N-----+ | +--------------SUBJ:V-N--------------+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+SUBJ:V+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) COMP_from:V_PASS-N (transcribed,DNA) SUBJ:V-N (been,bank) MOD_ATT:N-N (RNA,29-containing) MOD_ATT:N-N (polymerase,RNA) COMP_by:N-N (RNA,using) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_into:V-N (hybridized,lambda) SUBJ:V_PASS-N (cloned,bank) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 311 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | | +--------------COMP_by:N-N--------------+ | | | | +----------MOD_ATT:N-N----------+ | | | +--------COMP_from:V_PASS-N-------+ | +-------MOD_ATT:N-N-------+ | | +----------------SUBJ:V-N---------------+ | | +MOD_ATT:N-+ | | +-MOD_ATT:N-ADJ-+ | | +----------COMP_into:N-N----------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | | +MOD_AT+ | +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V_PASS-N----+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_by:N-N (DNA,polymerase) COMP_into:N-N (fragments,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) APPOS (DNA,GENEXXX) MOD_ATT:N-N (polymerase,sigma) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (polymerase,using) MOD_ATT:N-ADJ (polymerase,29-containing) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 312 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | +----------------SUBJ:V-N---------------+ +--------------COMP_from:N-N--------------+--------------COMP_by:N-N--------------+ | | +----------COMP_into:N-N----------+ | | +MOD_ATT:N-+ +-------MOD_ATT:N-N-------+ | | +MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+ | +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ | | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_by:N-N (DNA,polymerase) COMP_into:N-N (fragments,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,DNA) SUBJ:V-N (lambda,fragments) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) APPOS (DNA,GENEXXX) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (sigma,using) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 313 +------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------+ | +------------------OBJ:V-N-----------------+ | | | +-------------SUBJ:V-N------------+ | +--------------COMP_from:N-N--------------+ | +----------OBJ:V-N---------+ | +--------------SUBJ:V-N--------------+ | | +MOD_ATT:N-+ +----OBJ:V-N----+ | +------SUBJ:V-N-----+ | +-----COMP_of:N-N----+ | +-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ +MOD_ATT:N+ | +---APPOS---+ | | | +MOD_+MOD_AT+ | +COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (using,29-containing) MOD_ATT:N-N (29-containing,sigma) SUBJ:V-N (hybridized,RNA) COMP_from:N-N (RNA,DNA) OBJ:V-N (hybridized,29-containing) SUBJ:V-N (was,polymerase) SUBJ:V-N (cloned,RNA) MOD_ATT:N-N (fragments,DNA) SUBJ:V-N (been,bank) MOD_ATT:N-N (DNA,total) OBJ:V-N (cloned,lambda) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (was,RNA) MOD_ATT:N-N (DNA,SPXXX) COMP_of:N-N (bank,fragments) COMP_in:V_PASS-N (transcribed,vitro) Parse 314 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-----------------------------------COMP_by:N-N-----------------------------------+ | +--------------COMP_from:N-N--------------+ +-------MOD_ATT:N-N-------+ | +----------------SUBJ:V-N---------------+ | +MOD_ATT:N-+ | +--MOD_ATT:N-N--+ | +MOD_ATT:N-N+----------COMP_into:N-N----------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ | +MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+ +MOD_AT+----SUBJ:V_PASS-N----+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_by:N-N (RNA,polymerase) COMP_into:N-N (fragments,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (sigma,using) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (polymerase,sigma) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) COMP_to:V_PASS-N (hybridized,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 315 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | | +--------------COMP_by:N-N--------------+ | | | +--------COMP_from:V_PASS-N-------+ +-------MOD_ATT:N-N-------+ | | | | +MOD_ATT:N-+ | +-MOD_ATT:N-ADJ-+ | | +-------SUBJ:V-N------+-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ | +MOD_AT+ | +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ +COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_by:N-N (DNA,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) APPOS (DNA,GENEXXX) MOD_ATT:N-N (polymerase,sigma) OBJ:V-N (cloned,lambda) SUBJ:V_PASS-N (transcribed,RNA) COMP_into:V-N (cloned,SPXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (sigma,using) MOD_ATT:N-ADJ (polymerase,29-containing) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 316 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | +--------------COMP_from:N-N--------------+--------------COMP_by:N-N--------------+ | | +-------------OBJ:V-N-------------+ | +MOD_ATT:N-+ +----MOD_ATT:N-N---+ | | | | +-------SUBJ:V-N------+--COMP_into:V-N--+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+ | +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_by:N-N (DNA,polymerase) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (cloned,SPXXX) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) APPOS (DNA,GENEXXX) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (RNA,29-containing) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (sigma,using) COMP_in:V_PASS-N (transcribed,vitro) COMP_into:V-N (cloned,lambda) SUBJ:V_PASS-N (hybridized,RNA) Parse 317 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +--------COMP_from:V_PASS-N-------+--------------COMP_by:N-N--------------+ | +------------------------COMP_into:N-N-----------------------+ | | +MOD_ATT:N-+ +----MOD_ATT:N-N---+ | | +-COMP_of:N-N-+-----------OBJ:V-N----------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ +MOD_+ +-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (DNA,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (sigma,using) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) OBJ:V-N (cloned,DNA) COMP_in:V_PASS-N (transcribed,vitro) COMP_of:N-N (bank,DNA) SUBJ:V_PASS-N (hybridized,RNA) Parse 318 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +--------------COMP_from:N-N--------------+--------------COMP_by:N-N--------------+ | +-------------------COMP_into:N-N-------------------+ | +MOD_ATT:N-+ +-------MOD_ATT:N-N-------+ | +----------SUBJ:V_PASS-N----------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+SUBJ:V+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_by:N-N (DNA,polymerase) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (sigma,using) MOD_ATT:N-N (polymerase,RNA) COMP_into:N-N (SPXXX,lambda) MOD_ATT:N-ADJ (RNA,29-containing) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (cloned,SPXXX) SUBJ:V_PASS-N (hybridized,RNA) Parse 319 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +--------------COMP_from:N-N--------------+--------------COMP_by:N-N--------------+ | +----COMP_in:N-N----+ | +-------MOD_ATT:N-N------+ | | +-------------------COMP_into:N-N-------------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | +-------------OBJ:V-N-------------+ | +SUBJ:V_+ | | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:N-N (SPXXX,lambda) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (cloned,SPXXX) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) COMP_in:N-N (RNA,vitro) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (RNA,using) COMP_by:N-N (DNA,polymerase) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (hybridized,RNA) Parse 320 +------------------------COMP_into:N-N-----------------------+ +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +---------------SUBJ:V_PASS-N--------------+ | +--------------COMP_from:N-N--------------+--------------COMP_by:N-N--------------+ | +-----COMP_of:N-N----+ | | | +MOD_ATT:N-+ +----MOD_ATT:N-N---+ | | | +MOD_ATT:N-N+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ | +MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (DNA,polymerase) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (sigma,using) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) COMP_of:N-N (bank,fragments) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 321 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------COMP_from:V_PASS-N-------+ +----------------------OBJ:V-N----------------------+ | +-------------OBJ:V-N-------------+ | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+------SUBJ:V-N-----+ | | +-------SUBJ:V-N------+--COMP_into:V-N--+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+ +MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (cloned,SPXXX) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (RNA,29-containing) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (polymerase,sigma) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) COMP_by:N-N (DNA,using) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) COMP_into:V-N (cloned,lambda) Parse 322 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------COMP_from:N-N--------------+-----------COMP_by:N-N----------+ | +----COMP_in:N-N----+ | +-------MOD_ATT:N-N------+----------OBJ:V-N---------+ | +----------SUBJ:V_PASS-N----------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +----------SUBJ:V-N---------+ +COMP_into:V_PASS-+ +SUBJ:V_+ | | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+SUBJ:V+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) SUBJ:V-N (was,polymerase) COMP_into:V_PASS-N (cloned,lambda) COMP_by:N-N (DNA,RNA) SUBJ:V-N (hybridized,RNA) SUBJ:V-N (fragments,DNA) COMP_in:N-N (RNA,vitro) SUBJ:V-N (been,SPXXX) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (RNA,using) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (was,RNA) SUBJ:V_PASS-N (cloned,SPXXX) Parse 323 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +--------------COMP_from:N-N--------------+ | +----COMP_in:N-N----+ +--------------COMP_by:N-N--------------+ | +----------------------OBJ:V-N----------------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +-------MOD_ATT:N-N-------+ | | +----------------SUBJ:V-N---------------+ +SUBJ:V_+ | | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V_PASS-N----+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (cloned,SPXXX) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,DNA) SUBJ:V-N (lambda,fragments) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (polymerase,sigma) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_by:N-N (DNA,polymerase) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (lambda,SPXXX) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (sigma,using) SUBJ:V_PASS-N (hybridized,RNA) Parse 324 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +--------------COMP_by:N-N--------------+ | | +--------COMP_from:V_PASS-N-------+ +----------MOD_ATT:N-N----------+ | +------------------------COMP_into:N-N-----------------------+ | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | | +-------------OBJ:V-N-------------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+ +MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (RNA,sigma) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (polymerase,using) COMP_by:N-N (DNA,polymerase) OBJ:V-N (cloned,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 325 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | +--------------COMP_from:N-N--------------+ +------------OBJ:V-N------------+ | +----------------SUBJ:V-N---------------+ +----COMP_in:N-N----+ | +---------OBJ:V-N--------+ | | +----------COMP_into:N-N----------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | +----SUBJ:V_PASS-N----+ | | +SUBJ:V_+ | | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ | | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (RNA,sigma) COMP_into:N-N (fragments,SPXXX) COMP_from:N-N (RNA,DNA) COMP_by:N-V (RNA,using) MOD_ATT:N-N (fragments,DNA) SUBJ:V-N (lambda,fragments) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) COMP_in:N-N (RNA,vitro) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) OBJ:V-N (using,polymerase) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (using,RNA) SUBJ:V-N (been,fragments) SUBJ:V_PASS-N (hybridized,RNA) Parse 326 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | +--------------COMP_from:N-N--------------+ | | +----COMP_in:N-N----+ | +---------OBJ:V-N--------+----------OBJ:V-N---------+ | +-----------OBJ:V-N----------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +-COMP_of:N-N-+ +-------SUBJ:V-N------+--COMP_into:V-N--+ +SUBJ:V_+ | | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+ +MOD_+ +----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) COMP_by:N-V (RNA,using) SUBJ:V-N (was,polymerase) SUBJ:V-N (hybridized,RNA) MOD_ATT:N-N (DNA,total) COMP_into:V-N (cloned,lambda) COMP_in:N-N (RNA,vitro) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (using,RNA) SUBJ:V-N (been,fragments) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (cloned,DNA) OBJ:V-N (was,RNA) COMP_of:N-N (bank,DNA) Parse 327 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +--------------COMP_from:N-N--------------+--------------COMP_by:N-N--------------+ | +----COMP_in:N-N----+ | +-------MOD_ATT:N-N-------+ | +------------------------COMP_into:N-N-----------------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +-MOD_ATT:N-ADJ-+ | +---------------SUBJ:V_PASS-N--------------+ | +SUBJ:V_+ | | +MOD_+ +MOD_A+ | +MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+SUBJ:V+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) SUBJ:V-N (fragments,DNA) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) COMP_into:N-N (bank,lambda) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_by:N-N (DNA,polymerase) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) MOD_ATT:N-N (sigma,using) MOD_ATT:N-ADJ (polymerase,29-containing) SUBJ:V_PASS-N (hybridized,RNA) Parse 328 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | | +--------------COMP_by:N-N--------------+ | | +--------------COMP_from:N-N--------------+ +----------MOD_ATT:N-N----------+ | | +------------------OBJ:V-N-----------------+ | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | | | +MOD_ATT:N-N+-------SUBJ:V-N------+--COMP_into:V-N--+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+ | +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (polymerase,using) COMP_by:N-N (DNA,polymerase) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (cloned,bank) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) COMP_into:V-N (cloned,lambda) APPOS (DNA,GENEXXX) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (RNA,29-containing) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (DNA,SPXXX) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 329 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------COMP_from:V_PASS-N-------+ +---------OBJ:V-N--------+----------OBJ:V-N---------+ | +------------------------COMP_into:N-N-----------------------+ | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | | +-------------OBJ:V-N-------------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+ +MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) OBJ:V-N (cloned,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,RNA) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (lambda,SPXXX) COMP_into:N-N (bank,lambda) COMP_to:V-N (hybridized,bank) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (was,RNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 330 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-----------------------------------COMP_by:N-N-----------------------------------+ | +--------------COMP_from:N-N--------------+ | | +-------------------COMP_into:N-N-------------------+ | +MOD_ATT:N-+ +-------MOD_ATT:N-N-------+ | +-------------OBJ:V-N-------------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+ +MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_by:N-N (RNA,polymerase) COMP_from:N-N (RNA,DNA) OBJ:V-N (cloned,SPXXX) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (sigma,using) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,29-containing) COMP_into:N-N (SPXXX,lambda) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 331 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-----------------------------------COMP_by:N-N-----------------------------------+ | +--------------COMP_from:N-N--------------+ | | +----COMP_in:N-N----+ | +-------MOD_ATT:N-N------+ | | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | +------------------OBJ:V-N-----------------+--COMP_into:V-N--+ +SUBJ:V_+ | | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+ +MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (RNA,polymerase) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (cloned,bank) MOD_ATT:N-N (DNA,total) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (lambda,SPXXX) MOD_POST:N-ADJ (RNA,vitro) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (RNA,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) COMP_into:V-N (cloned,lambda) SUBJ:V_PASS-N (hybridized,RNA) Parse 332 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | +--------------COMP_from:N-N--------------+--------------COMP_by:N-N--------------+ | | +----COMP_in:N-N----+ | +-------MOD_ATT:N-N-------+ | | +------------------OBJ:V-N-----------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +-MOD_ATT:N-ADJ-+ | | +-COMP_of:N-N-+ +--COMP_into:V-N--+ +SUBJ:V_+ | | +MOD_+ +MOD_A+ | +MOD_AT+ | +COMP_to:V_PA+ +MOD_+ +-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . APPOS (DNA,GENEXXX) COMP_from:N-N (RNA,DNA) COMP_of:N-N (bank,DNA) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (cloned,bank) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_by:N-N (DNA,polymerase) SUBJ:V_PASS-N (transcribed,RNA) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (sigma,using) MOD_ATT:N-ADJ (polymerase,29-containing) COMP_into:V-N (cloned,lambda) SUBJ:V_PASS-N (hybridized,RNA) Parse 333 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------COMP_from:N-N--------------+------COMP_by:N-N------+--------------OBJ:V-N--------------+ | +------------------------COMP_into:N-N-----------------------+ | +MOD_ATT:N-+ +--MOD_ATT:N-N--+ +------SUBJ:V-N-----+ | +-COMP_of:N-N-+-----------OBJ:V-N----------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | +MOD_ATT:N+ +MOD_AT+---APPOS---+ | +-COMP_to:V-N+ +MOD_+ +-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) COMP_from:N-N (RNA,DNA) COMP_of:N-N (bank,DNA) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (29-containing,using) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (lambda,SPXXX) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (cloned,DNA) SUBJ:V-N (hybridized,RNA) OBJ:V-N (was,29-containing) COMP_by:N-N (DNA,29-containing) COMP_in:V_PASS-N (transcribed,vitro) Parse 334 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+------------------------------COMP_into:V-N------------------------------+ +--------------COMP_from:N-N--------------+-----------COMP_by:N-N----------+----------OBJ:V-N---------+ | +-----COMP_of:N-N----+ | | +MOD_ATT:N-+ +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | | +MOD_ATT:N-N+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+ | +MOD_AT+----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) COMP_by:N-N (DNA,RNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (sigma,using) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (lambda,SPXXX) COMP_of:N-N (bank,fragments) COMP_to:V-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_into:V-N (hybridized,lambda) OBJ:V-N (was,RNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 335 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +--------------COMP_from:N-N--------------+ | +------------------------COMP_into:N-N-----------------------+ +----COMP_in:N-N----+ | +------------OBJ:V-N------------+ | +---------------SUBJ:V_PASS-N--------------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | +-----COMP_of:N-N----+ | | +SUBJ:V_+ | | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ +MOD_+MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,fragments) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,polymerase) MOD_ATT:N-N (polymerase,RNA) COMP_by:N-V (DNA,using) MOD_ATT:N-N (DNA,total) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (lambda,SPXXX) COMP_into:N-N (bank,lambda) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) SUBJ:V_PASS-N (hybridized,RNA) Parse 336 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | | +--------COMP_from:V_PASS-N-------+ | +--------------OBJ:V-N--------------+ | | | +MOD_ATT:N-+ +----OBJ:V-N----+ +------SUBJ:V-N-----+ +-------------OBJ:V-N-------------+-------------COMP_into:N-N-------------+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | +MOD_ATT:N+ +MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (using,29-containing) MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (lambda,SPXXX) COMP_by:N-V (RNA,using) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (hybridized,fragments) COMP_into:N-N (fragments,lambda) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (hybridized,RNA) OBJ:V-N (was,29-containing) COMP_in:V_PASS-N (transcribed,vitro) Parse 337 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +-------------------COMP_by:N-N-------------------+ | | +--------COMP_from:V_PASS-N-------+ +----------------------OBJ:V-N----------------------+ | +---------------SUBJ:V_PASS-N--------------+ | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+------SUBJ:V-N-----+ | +-----COMP_of:N-N----+ +COMP_into:V_PASS-+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+ +MOD_+MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,fragments) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) COMP_into:V_PASS-N (cloned,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (RNA,29-containing) COMP_by:N-N (RNA,using) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) SUBJ:V_PASS-N (cloned,bank) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 338 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +--------------COMP_from:N-N--------------+ | +------------------------COMP_into:N-N-----------------------+ +----COMP_in:N-N----+ +--------------COMP_by:N-N--------------+ | +---------------SUBJ:V_PASS-N--------------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +-------MOD_ATT:N-N-------+ | +-----COMP_of:N-N----+ | | +SUBJ:V_+ | | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ +MOD_+MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,fragments) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) COMP_into:N-N (bank,lambda) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_by:N-N (DNA,polymerase) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) MOD_ATT:N-N (sigma,using) SUBJ:V_PASS-N (hybridized,RNA) Parse 339 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | +--------------------OBJ:V-N-------------------+ | +--------------COMP_by:N-N--------------+ | | | +----------------SUBJ:V-N---------------+ +--------------COMP_from:N-N--------------+ +-------MOD_ATT:N-N-------+ | | | +----------COMP_into:N-N----------+ | | +MOD_ATT:N-+ | +--MOD_ATT:N-N--+ | | +-COMP_of:N-N-+ +----SUBJ:V_PASS-N----+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ | +MOD_AT+ | +COMP_to:V_PA+ +MOD_+ +----SUBJ:V-N---+ | | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (DNA,polymerase) COMP_into:N-N (fragments,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) APPOS (DNA,GENEXXX) MOD_ATT:N-N (polymerase,sigma) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) OBJ:V-N (lambda,DNA) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (sigma,using) COMP_in:V_PASS-N (transcribed,vitro) COMP_of:N-N (bank,DNA) SUBJ:V_PASS-N (hybridized,RNA) Parse 340 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | | +--------------COMP_by:N-N--------------+ | +----------------------------COMP_into:V_PASS-N---------------------------+ +--------------COMP_from:N-N--------------+ +-------MOD_ATT:N-N------+ | | | +-------------OBJ:V-N-------------+ | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | | | +-------SUBJ:V-N------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+ | +COMP_to:V_PA+COMP_of:+ +MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (hybridized,lambda) COMP_by:N-N (DNA,polymerase) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) OBJ:V-N (cloned,SPXXX) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) APPOS (DNA,GENEXXX) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (RNA,using) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (RNA,29-containing) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 341 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------COMP_from:N-N--------------+--------------------------OBJ:V-N--------------------------+ | +--------------------OBJ:V-N-------------------+ | +MOD_ATT:N-+ +-------MOD_ATT:N-N-------+------SUBJ:V-N-----+ | +-COMP_of:N-N-+ +----------------SUBJ:V-N---------------+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+ +MOD_+ +----SUBJ:V_PASS-N----+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (cloned,SPXXX) COMP_from:N-N (RNA,DNA) COMP_of:N-N (bank,DNA) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (RNA,29-containing) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) COMP_by:N-N (DNA,using) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) OBJ:V-N (lambda,DNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 342 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +------------------------COMP_into:N-N-----------------------+ +--------------COMP_from:N-N--------------+ +------------OBJ:V-N------------+ | +---------------SUBJ:V_PASS-N--------------+ | +----COMP_in:N-N----+ | | +-------MOD_ATT:N-N-------+ | +-----COMP_of:N-N----+ | | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | | +-MOD_ATT:N-ADJ-+ | | +MOD_ATT:N-N+ | | +SUBJ:V_+ | | +MOD_+COMP_by+ | | +MOD_AT+---APPOS---+ +COMP_to:V_PA+ | +MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,fragments) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,polymerase) MOD_ATT:N-N (polymerase,RNA) COMP_by:N-V (DNA,using) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) COMP_into:N-N (bank,lambda) MOD_POST:N-ADJ (RNA,vitro) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) MOD_ATT:N-ADJ (polymerase,29-containing) SUBJ:V_PASS-N (hybridized,RNA) Parse 343 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | +--------------COMP_from:N-N--------------+--------------COMP_by:N-N--------------+ | | +------------------------COMP_into:N-N-----------------------+ | +MOD_ATT:N-+ +-------MOD_ATT:N-N-------+ | | +------------------OBJ:V-N-----------------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+ | +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_by:N-N (DNA,polymerase) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,DNA) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (cloned,bank) APPOS (DNA,GENEXXX) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (sigma,using) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 344 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | +--------------COMP_from:N-N--------------+--------------COMP_by:N-N--------------+ | | +----COMP_in:N-N----+ | +-------MOD_ATT:N-N------+ | | | +------------------------COMP_into:N-N-----------------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | | +---------------SUBJ:V_PASS-N--------------+ | +SUBJ:V_+ | | +MOD_+ | | +MOD_ATT:+MOD_AT+ | +COMP_to:V_PA+COMP_of:+MOD_+SUBJ:V+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . APPOS (DNA,GENEXXX) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) SUBJ:V-N (fragments,DNA) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (lambda,SPXXX) COMP_into:N-N (bank,lambda) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_by:N-N (DNA,polymerase) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (RNA,using) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) SUBJ:V_PASS-N (hybridized,RNA) Parse 345 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-----------------------------------COMP_by:N-N-----------------------------------+ +----------------------------COMP_into:V_PASS-N---------------------------+ +--------------COMP_from:N-N--------------+ +-------MOD_ATT:N-N-------+ | +-------------OBJ:V-N-------------+ | | +MOD_ATT:N-+ | +-MOD_ATT:N-ADJ-+ | | +-------SUBJ:V-N------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ | +MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (hybridized,lambda) COMP_by:N-N (RNA,polymerase) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (cloned,SPXXX) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (sigma,using) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-ADJ (polymerase,29-containing) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 346 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------COMP_from:N-N--------------+ | +----------------------OBJ:V-N----------------------+ +----COMP_in:N-N----+ | +--------------OBJ:V-N--------------+ | | +----------------SUBJ:V-N---------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +----OBJ:V-N----+ +------SUBJ:V-N-----+ | | +----------COMP_into:N-N----------+ | +SUBJ:V_+ | | +MOD_+COMP_by+ +MOD_ATT:N+ +MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+----SUBJ:V_PASS-N----+ | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) SUBJ:V-N (lambda,fragments) COMP_of:N-N (bank,SPXXX) COMP_into:N-N (fragments,SPXXX) COMP_from:N-N (RNA,DNA) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (cloned,fragments) SUBJ:V-N (hybridized,RNA) MOD_ATT:N-N (DNA,total) COMP_in:N-N (RNA,vitro) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (using,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (lambda,SPXXX) OBJ:V-N (was,29-containing) Parse 347 +------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------+ +--------------COMP_from:N-N--------------+ +---------------SUBJ:V_PASS-N--------------+ | +----COMP_in:N-N----+ | +--------------OBJ:V-N--------------+ | +-----COMP_of:N-N----+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +----OBJ:V-N----+ +------SUBJ:V-N-----+ | | +MOD_ATT:N-N+ +-----OBJ:V-N-----+ +SUBJ:V_+ | | +MOD_+COMP_by+ +MOD_ATT:N+ +MOD_AT+---APPOS---+ | +COMP_to:V_PA+ | +MOD_AT+ +COMP_into:V+MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) OBJ:V-N (cloned,lambda) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) SUBJ:V-N (cloned,RNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) COMP_by:N-V (DNA,using) COMP_in:N-N (RNA,vitro) COMP_of:N-N (bank,fragments) MOD_POST:N-ADJ (RNA,vitro) OBJ:V-N (using,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) SUBJ:V_PASS-N (hybridized,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (was,29-containing) COMP_to:V_PASS-N (hybridized,bank) Parse 348 +------------------------COMP_into:N-N-----------------------+ +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +---------------SUBJ:V_PASS-N--------------+ | | +-----------------------------COMP_by:V_PASS-N----------------------------+ | +--------------SUBJ:V-N--------------+ | | | +--------COMP_from:V_PASS-N-------+ | | +-----COMP_of:N-N----+ | | | | | +MOD_ATT:N-+ +----MOD_ATT:N-N---+ | | | +MOD_ATT:N-N+ | | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ | +MOD_AT+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (fragments,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (sigma,using) SUBJ:V-N (been,bank) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) COMP_by:V_PASS-N (transcribed,polymerase) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) COMP_of:N-N (bank,fragments) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 349 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------------------------OBJ:V-N--------------------------+ | | +-----------COMP_by:N-N----------+ | | | +--------COMP_from:V_PASS-N-------+ +-------MOD_ATT:N-N------+ | | +----------------SUBJ:V-N---------------+ | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +----------COMP_into:N-N----------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+----SUBJ:V_PASS-N----+ | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_into:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) COMP_by:N-N (DNA,RNA) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (RNA,using) COMP_to:V-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 350 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-----------------------------------COMP_by:N-N-----------------------------------+ | +------------------------COMP_into:N-N-----------------------+ | +--------COMP_from:V_PASS-N-------+ +----------MOD_ATT:N-N----------+ | +------------------OBJ:V-N-----------------+ | | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | | +MOD_ATT:N-N+-------SUBJ:V-N------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_by:N-N (RNA,polymerase) MOD_ATT:N-N (fragments,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (RNA,29-containing) OBJ:V-N (cloned,bank) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (cloned,fragments) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,using) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 351 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------------------------COMP_by:N-N-------------------------------+ | +--------------COMP_from:N-N--------------+ | | +------------------------COMP_into:N-N-----------------------+ +----COMP_in:N-N----+ | +----------OBJ:V-N---------+ | | +-------------OBJ:V-N-------------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | | | +-------SUBJ:V-N------+ | +SUBJ:V_+ | | +MOD_+ +MOD_A+ +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+ +MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (RNA,RNA) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) OBJ:V-N (cloned,SPXXX) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) SUBJ:V-N (hybridized,RNA) MOD_ATT:N-N (DNA,total) COMP_in:N-N (RNA,vitro) COMP_into:N-N (bank,lambda) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (was,RNA) MOD_ATT:N-N (sigma,using) Parse 352 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------------------------COMP_by:N-N-------------------------------+ | +--------------COMP_from:N-N--------------+ +----------OBJ:V-N---------+ | +------------------------COMP_into:N-N-----------------------+ | +MOD_ATT:N-+ +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | | +-------------OBJ:V-N-------------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (RNA,RNA) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (cloned,SPXXX) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (sigma,using) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (was,RNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 353 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------------------------OBJ:V-N--------------------------+ | +--------------COMP_from:N-N--------------+-----------COMP_by:N-N----------+ | | +----COMP_in:N-N----+ | +-------MOD_ATT:N-N------+ | +------------------------------COMP_into:V-N------------------------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +-----COMP_of:N-N----+----SUBJ:V_PASS-N----+ | +SUBJ:V_+ | | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+ +MOD_+MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) COMP_by:N-N (DNA,RNA) SUBJ:V-N (hybridized,RNA) MOD_ATT:N-N (DNA,total) COMP_into:V-N (hybridized,lambda) COMP_in:N-N (RNA,vitro) COMP_of:N-N (bank,fragments) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (RNA,using) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) MOD_ATT:N-N (lambda,SPXXX) Parse 354 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | +--------------COMP_from:N-N--------------+ | +------------------------------COMP_into:V-N------------------------------+ +----COMP_in:N-N----+ | | +--------------OBJ:V-N--------------+ +-------------OBJ:V-N-------------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +----OBJ:V-N----+ +------SUBJ:V-N-----+ | +-COMP_of:N-N-+ | | +SUBJ:V_+ | | +MOD_+ | +MOD_ATT:N+ +MOD_AT+---APPOS---+ | +-COMP_to:V-N+ +MOD_+ +----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) COMP_by:N-V (RNA,using) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) SUBJ:V-N (hybridized,RNA) COMP_into:V-N (hybridized,lambda) COMP_in:N-N (RNA,vitro) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (using,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-ADJ (DNA,total) COMP_of:N-N (bank,DNA) OBJ:V-N (hybridized,fragments) OBJ:V-N (was,29-containing) Parse 355 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------------------------OBJ:V-N--------------------------+ | +--------------COMP_from:N-N--------------+ +---------OBJ:V-N--------+ | +------------------------------COMP_into:V-N------------------------------+ | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +-------------OBJ:V-N-------------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+ +MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) OBJ:V-N (cloned,SPXXX) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,RNA) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (lambda,SPXXX) COMP_to:V-N (hybridized,bank) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) COMP_into:V-N (hybridized,lambda) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 356 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-----------------------------------COMP_by:N-N-----------------------------------+ | +------------------------COMP_into:N-N-----------------------+ +--------------COMP_from:N-N--------------+ | | +---------------SUBJ:V_PASS-N--------------+ | +----COMP_in:N-N----+ | +----------MOD_ATT:N-N----------+ | +-----COMP_of:N-N----+ | | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | | +MOD_ATT:N-N+ | | +SUBJ:V_+ | | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ | +MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (polymerase,using) COMP_by:N-N (RNA,polymerase) COMP_of:N-N (bank,fragments) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (RNA,29-containing) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) COMP_into:N-N (bank,lambda) MOD_POST:N-ADJ (RNA,vitro) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-ADJ (DNA,total) SUBJ:V_PASS-N (cloned,bank) SUBJ:V_PASS-N (hybridized,RNA) Parse 357 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-----------------------------------COMP_by:N-N-----------------------------------+ | | +----------MOD_ATT:N-N----------+ | | +--------COMP_from:V_PASS-N-------+ | +-------MOD_ATT:N-N-------+ | | | +MOD_ATT:N-+ | | +-MOD_ATT:N-ADJ-+ | +-------SUBJ:V-N------+-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | | +MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ +COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_by:N-N (RNA,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (polymerase,using) OBJ:V-N (cloned,lambda) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-ADJ (polymerase,29-containing) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 358 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +-------------------COMP_by:N-N-------------------+ +------------------------------COMP_into:V-N------------------------------+ | +--------COMP_from:V_PASS-N-------+ +----------------------OBJ:V-N----------------------+ | +------------------OBJ:V-N-----------------+ | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | | +MOD_ATT:N-N+-------SUBJ:V-N------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (RNA,sigma) OBJ:V-N (cloned,bank) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,29-containing) MOD_ATT:N-N (DNA,total) COMP_by:N-N (RNA,using) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_into:V-N (hybridized,lambda) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 359 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | | +--------------COMP_by:N-N--------------+ | | | +--------COMP_from:V_PASS-N-------+ +----------MOD_ATT:N-N----------+ | | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | | +----------------SUBJ:V-N---------------+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+ | +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V_PASS-N----+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (polymerase,using) COMP_into:V_PASS-N (cloned,SPXXX) COMP_by:N-N (DNA,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (RNA,sigma) APPOS (DNA,GENEXXX) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (DNA,SPXXX) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 360 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +------------------------COMP_into:N-N-----------------------+ | +--------------------------OBJ:V-N--------------------------+ | +---------------SUBJ:V_PASS-N--------------+ | | +--------COMP_from:V_PASS-N-------+-----------COMP_by:N-N----------+ | | +-----COMP_of:N-N----+ | | | | +MOD_ATT:N-+ +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | | +MOD_ATT:N-N+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+ | +MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,fragments) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) COMP_by:N-N (DNA,RNA) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (sigma,using) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (lambda,SPXXX) COMP_into:N-N (bank,lambda) COMP_to:V-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 361 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | | | +------------OBJ:V-N------------+ | | +--------------COMP_from:N-N--------------+ | +-------MOD_ATT:N-N-------+ | | +----------------SUBJ:V-N---------------+ | +MOD_ATT:N-+ | | +-MOD_ATT:N-ADJ-+ | | +----------COMP_into:N-N----------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | | +MOD_AT+ | +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V_PASS-N----+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_into:N-N (fragments,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,polymerase) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) APPOS (DNA,GENEXXX) MOD_ATT:N-N (polymerase,sigma) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-ADJ (polymerase,29-containing) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 362 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+------------------------------COMP_into:V-N------------------------------+ +-------------------COMP_by:N-N-------------------+----------------------OBJ:V-N----------------------+ | +---------------SUBJ:V_PASS-N--------------+ | +--------------COMP_from:N-N--------------+ | +-------MOD_ATT:N-N-------+ | | +--------------SUBJ:V-N--------------+ | | | +MOD_ATT:N-+ | | +--MOD_ATT:N-N--+------SUBJ:V-N-----+ | +-----COMP_of:N-N----+ | | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | | +MOD_AT+---APPOS---+ | +-COMP_to:V-N+ +MOD_+MOD_AT+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) MOD_ATT:N-N (fragments,DNA) SUBJ:V-N (been,bank) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) COMP_by:N-N (RNA,using) COMP_of:N-N (bank,fragments) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-N (DNA,SPXXX) COMP_into:V-N (hybridized,lambda) SUBJ:V_PASS-N (cloned,bank) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) MOD_ATT:N-N (polymerase,sigma) Parse 363 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +--------------COMP_from:N-N--------------+ | +----COMP_in:N-N----+ | +------------OBJ:V-N------------+ | +-----------------COMP_into:N-N----------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | +-COMP_of:N-N-+-----------OBJ:V-N----------+ | +SUBJ:V_+ | | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ +MOD_+ +-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:N-N (DNA,lambda) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) COMP_of:N-N (bank,DNA) OBJ:V-N (using,polymerase) MOD_ATT:N-N (polymerase,RNA) COMP_by:N-V (DNA,using) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (lambda,SPXXX) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (cloned,DNA) SUBJ:V_PASS-N (hybridized,RNA) Parse 364 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +--------COMP_from:V_PASS-N-------+--------------COMP_by:N-N--------------+ | +----------------------OBJ:V-N----------------------+ | | +MOD_ATT:N-+ +----MOD_ATT:N-N---+ | | | +----------------SUBJ:V-N---------------+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V_PASS-N----+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_into:V_PASS-N (cloned,SPXXX) COMP_by:N-N (DNA,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (sigma,using) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (RNA,sigma) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (lambda,SPXXX) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (DNA,SPXXX) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 365 +------------------OBJ:V-N-----------------+ +-------------------------OBJ:V-N-------------------------+ +-------------SUBJ:V-N------------+ +----------COMP_from:V-N----------+ | +----------OBJ:V-N---------+ | +--------------------OBJ:V-N-------------------+ | +MOD_ATT:N-+ | | +------SUBJ:V-N-----+ | +-COMP_of:N-N-+ +----------------SUBJ:V-N---------------+ +SUBJ:V-+COMP_in:V-N+ | +MOD_+COMP_by+ +MOD_ATT:N+ | +---APPOS---+ | +-COMP_to:V-N+ +MOD_+ +----SUBJ:V_PASS-N----+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (transcribed,29-containing) COMP_into:V_PASS-N (cloned,SPXXX) MOD_ATT:N-N (29-containing,sigma) SUBJ:V-N (hybridized,RNA) COMP_by:N-N (DNA,using) OBJ:V-N (hybridized,29-containing) COMP_of:N-N (bank,DNA) SUBJ:V-N (was,polymerase) COMP_from:V-N (transcribed,DNA) SUBJ:V_PASS-N (cloned,fragments) SUBJ:V-N (transcribed,RNA) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) OBJ:V-N (lambda,DNA) OBJ:V-N (was,RNA) COMP_in:V-N (transcribed,vitro) Parse 366 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | +--------------COMP_from:N-N--------------+ | | +----COMP_in:N-N----+ | +---------OBJ:V-N--------+----------OBJ:V-N---------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +MOD_ATT:N-N+-------SUBJ:V-N------+-----OBJ:V-N-----+ +SUBJ:V_+ | | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+ +MOD_AT+----SUBJ:V-N---+ +COMP_into:V+MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) COMP_by:N-V (RNA,using) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) SUBJ:V-N (hybridized,RNA) MOD_ATT:N-N (DNA,total) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (lambda,SPXXX) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) COMP_into:V-N (cloned,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (using,RNA) OBJ:V-N (cloned,lambda) SUBJ:V-N (been,fragments) OBJ:V-N (was,RNA) Parse 367 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------COMP_from:N-N--------------+ +----------------------OBJ:V-N----------------------+ | +-------------OBJ:V-N-------------+ | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+------SUBJ:V-N-----+ | | +-------SUBJ:V-N------+--COMP_into:V-N--+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) OBJ:V-N (cloned,SPXXX) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (RNA,29-containing) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) COMP_into:V-N (cloned,lambda) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) COMP_by:N-N (DNA,using) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 368 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +--------------COMP_from:N-N--------------+ | +------------------------COMP_into:N-N-----------------------+ +----COMP_in:N-N----+ | +------------OBJ:V-N------------+ | +------------------OBJ:V-N-----------------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | | +-------SUBJ:V-N------+ | +SUBJ:V_+ | | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,polymerase) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (cloned,bank) COMP_by:N-V (DNA,using) COMP_in:N-N (RNA,vitro) COMP_into:N-N (bank,lambda) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V-N (cloned,fragments) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V_PASS-N (hybridized,RNA) Parse 369 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | | +--------------COMP_by:N-N--------------+ | | | | +----------MOD_ATT:N-N----------+ | | +------------------------COMP_into:N-N-----------------------+ | +--------COMP_from:V_PASS-N-------+ | +-------MOD_ATT:N-N-------+ | | +-----COMP_of:N-N----+ | | | +MOD_ATT:N-+ | | +-MOD_ATT:N-ADJ-+ | | | +MOD_ATT:N-N+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | | +MOD_AT+ | +COMP_to:V_PA+ | +MOD_AT+----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (DNA,polymerase) MOD_ATT:N-N (fragments,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) APPOS (DNA,GENEXXX) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_of:N-N (bank,fragments) MOD_ATT:N-N (polymerase,using) MOD_ATT:N-ADJ (polymerase,29-containing) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 370 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +------------------------COMP_into:N-N-----------------------+ +--------------COMP_from:N-N--------------+------COMP_by:N-N------+--------------OBJ:V-N--------------+ | | +----------SUBJ:V_PASS-N----------+ | | +MOD_ATT:N-+ +--MOD_ATT:N-N--+ +------SUBJ:V-N-----+ | | +----------SUBJ:V-N---------+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | +MOD_ATT:N+ +MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+SUBJ:V+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (29-containing,using) MOD_ATT:N-N (DNA,total) SUBJ:V-N (fragments,DNA) SUBJ:V-N (been,SPXXX) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (hybridized,RNA) OBJ:V-N (was,29-containing) COMP_by:N-N (DNA,29-containing) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (cloned,SPXXX) Parse 371 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-----------------------------------COMP_by:N-N-----------------------------------+ | +--------------COMP_from:N-N--------------+ | | +----------------------OBJ:V-N----------------------+ +----COMP_in:N-N----+ | | | | +----------------SUBJ:V-N---------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +----MOD_ATT:N-N---+ | | | +----------COMP_into:N-N----------+ | +SUBJ:V_+ | | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+ +MOD_AT+----SUBJ:V_PASS-N----+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (RNA,polymerase) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (RNA,sigma) COMP_into:N-N (fragments,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) COMP_in:N-N (RNA,vitro) MOD_POST:N-ADJ (RNA,vitro) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (lambda,SPXXX) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) MOD_ATT:N-N (sigma,using) SUBJ:V_PASS-N (hybridized,RNA) Parse 372 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------------------------OBJ:V-N--------------------------+ | +--------------COMP_from:N-N--------------+------COMP_by:N-N------+ | | +-----------OBJ:V-N----------+ | +MOD_ATT:N-+ +--MOD_ATT:N-N--+ +------SUBJ:V-N-----+ +----------OBJ:V-N---------+ +-------SUBJ:V-N------+--COMP_into:V-N--+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | +MOD_ATT:N+ +MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+ | +----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (29-containing,using) MOD_ATT:N-N (DNA,total) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) OBJ:V-N (hybridized,DNA) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) OBJ:V-N (cloned,DNA) SUBJ:V-N (hybridized,RNA) COMP_by:N-N (DNA,29-containing) COMP_in:V_PASS-N (transcribed,vitro) COMP_into:V-N (cloned,lambda) Parse 373 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +---------------------------COMP_by:N-N---------------------------+ | +--------------COMP_from:N-N--------------+ +--------------OBJ:V-N--------------+ | +----------------SUBJ:V-N---------------+ | +MOD_ATT:N-+ +--MOD_ATT:N-N--+ +------SUBJ:V-N-----+ | +----------COMP_into:N-N----------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | +MOD_ATT:N+ +MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+----SUBJ:V_PASS-N----+ | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (RNA,29-containing) MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,SPXXX) COMP_into:N-N (fragments,SPXXX) COMP_from:N-N (RNA,DNA) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (29-containing,using) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) SUBJ:V-N (hybridized,RNA) OBJ:V-N (was,29-containing) COMP_in:V_PASS-N (transcribed,vitro) Parse 374 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-----------------------------------COMP_by:N-N-----------------------------------+ +----------------------------COMP_into:V_PASS-N---------------------------+ +--------------COMP_from:N-N--------------+ +-------MOD_ATT:N-N------+ | | +----------SUBJ:V_PASS-N----------+ | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | +----------SUBJ:V-N---------+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+SUBJ:V+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (hybridized,lambda) COMP_by:N-N (RNA,polymerase) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (been,SPXXX) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (RNA,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (cloned,SPXXX) SUBJ:V_PASS-N (hybridized,RNA) Parse 375 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | +--------------COMP_from:N-N--------------+ | | +----COMP_in:N-N----+ | +---------OBJ:V-N--------+----------OBJ:V-N---------+ +-------------OBJ:V-N-------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +-COMP_of:N-N-+ +-------------COMP_into:N-N-------------+ +SUBJ:V_+ | | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+ +MOD_+ +----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) COMP_by:N-V (RNA,using) SUBJ:V-N (was,polymerase) COMP_into:N-N (fragments,lambda) SUBJ:V_PASS-N (cloned,fragments) SUBJ:V-N (hybridized,RNA) MOD_ATT:N-N (DNA,total) COMP_in:N-N (RNA,vitro) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (using,RNA) OBJ:V-N (was,RNA) COMP_of:N-N (bank,DNA) OBJ:V-N (hybridized,fragments) Parse 376 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------COMP_from:N-N--------------+ +------------------------------COMP_into:V-N------------------------------+ +----COMP_in:N-N----+ +-----------COMP_by:N-N----------+----------OBJ:V-N---------+ | +---------------SUBJ:V_PASS-N--------------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +-----COMP_of:N-N----+ | | +SUBJ:V_+ | | +MOD_+ +MOD_A+ +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+ +MOD_+MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) COMP_by:N-N (DNA,RNA) SUBJ:V-N (hybridized,RNA) MOD_ATT:N-N (DNA,total) COMP_into:V-N (hybridized,lambda) COMP_in:N-N (RNA,vitro) COMP_of:N-N (bank,fragments) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) OBJ:V-N (was,RNA) MOD_ATT:N-N (sigma,using) Parse 377 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------------------------OBJ:V-N--------------------------+ | +-------------------COMP_into:N-N-------------------+ | +--------COMP_from:V_PASS-N-------+------COMP_by:N-N------+ | | +-------------OBJ:V-N-------------+ | | | +MOD_ATT:N-+ +--MOD_ATT:N-N--+ +------SUBJ:V-N-----+ | | +-------SUBJ:V-N------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | +MOD_ATT:N+ +MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+ +MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:N-N (SPXXX,lambda) MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (cloned,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (29-containing,using) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) SUBJ:V-N (hybridized,RNA) COMP_by:N-N (DNA,29-containing) COMP_in:V_PASS-N (transcribed,vitro) Parse 378 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +-------------------------COMP_by:V_PASS-N-------------------------+ | | +--------COMP_from:V_PASS-N-------+ +----------OBJ:V-N---------+ | +------------------------COMP_into:N-N-----------------------+ | | +MOD_ATT:N-+ +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | | +-------------OBJ:V-N-------------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (cloned,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (sigma,using) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-N (RNA,sigma) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (was,RNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 379 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------------COMP_by:V_PASS-N----------------------------+ | | | +----------MOD_ATT:N-N----------+ | | +--------COMP_from:V_PASS-N-------+ | +-------MOD_ATT:N-N-------+ | +------------------------COMP_into:N-N-----------------------+ | | +MOD_ATT:N-+ | | +-MOD_ATT:N-ADJ-+ | +------------------OBJ:V-N-----------------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | | +MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+ +MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (cloned,bank) COMP_by:V_PASS-N (transcribed,polymerase) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (polymerase,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-ADJ (polymerase,29-containing) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 380 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +------------------------COMP_into:N-N-----------------------+ +-----------------------------------COMP_by:N-N-----------------------------------+ | +---------------SUBJ:V_PASS-N--------------+ | | +--------COMP_from:V_PASS-N-------+ +-------MOD_ATT:N-N-------+ | +--------------SUBJ:V-N--------------+ | | | | +MOD_ATT:N-+ | +-MOD_ATT:N-ADJ-+ | +-----COMP_of:N-N----+ | | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ | +MOD_AT+---APPOS---+ +COMP_to:V_PA+ +MOD_+MOD_AT+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (RNA,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (sigma,using) SUBJ:V-N (been,bank) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) COMP_of:N-N (bank,fragments) MOD_ATT:N-ADJ (polymerase,29-containing) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 381 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | +--------------COMP_from:N-N--------------+--------------COMP_by:N-N--------------+ | | +----------------------OBJ:V-N----------------------+ +----COMP_in:N-N----+ | +----------MOD_ATT:N-N----------+ | | | +----------------SUBJ:V-N---------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+ | | | +----------COMP_into:N-N----------+ | +SUBJ:V_+ | | +MOD_+ | | +MOD_ATT:+MOD_AT+ | +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V_PASS-N----+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . APPOS (DNA,GENEXXX) MOD_ATT:N-N (polymerase,using) COMP_of:N-N (bank,SPXXX) COMP_into:N-N (fragments,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,DNA) SUBJ:V-N (lambda,fragments) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (polymerase,sigma) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_by:N-N (DNA,polymerase) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (lambda,SPXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (hybridized,RNA) Parse 382 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------------------------OBJ:V-N--------------------------+ | | +--------COMP_from:V_PASS-N-------+ +---------OBJ:V-N--------+ | | +----------------------OBJ:V-N----------------------+ | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | | +----------------SUBJ:V-N---------------+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+ +MOD_AT+----SUBJ:V_PASS-N----+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (cloned,SPXXX) COMP_of:N-N (bank,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) COMP_to:V-N (hybridized,bank) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (lambda,SPXXX) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 383 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +---------------------------COMP_by:N-N---------------------------+ | +--------------------OBJ:V-N-------------------+ | +--------COMP_from:V_PASS-N-------+ +--------------OBJ:V-N--------------+ | | +----------------SUBJ:V-N---------------+ | | +MOD_ATT:N-+ | +------SUBJ:V-N-----+ | +-COMP_of:N-N-+ +----------COMP_into:N-N----------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+MOD_ATT:N+ +MOD_AT+---APPOS---+ | +-COMP_to:V-N+ +MOD_+ +----SUBJ:V_PASS-N----+ | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (RNA,29-containing) MOD_ATT:N-N (29-containing,sigma) COMP_into:N-N (fragments,SPXXX) COMP_of:N-N (bank,DNA) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (sigma,using) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) OBJ:V-N (lambda,DNA) SUBJ:V-N (hybridized,RNA) OBJ:V-N (was,29-containing) COMP_in:V_PASS-N (transcribed,vitro) Parse 384 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +------------------------COMP_into:N-N-----------------------+ +-------------------COMP_by:N-N-------------------+ | +---------------SUBJ:V_PASS-N--------------+ | +--------------COMP_from:N-N--------------+ +----------------------OBJ:V-N----------------------+ | +-----COMP_of:N-N----+ | | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+------SUBJ:V-N-----+ | | +MOD_ATT:N-N+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+ | +MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,fragments) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (RNA,29-containing) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) COMP_by:N-N (RNA,using) MOD_ATT:N-N (lambda,SPXXX) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,sigma) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 385 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +-------------------COMP_by:N-N-------------------+ | | +--------COMP_from:V_PASS-N-------+ +----------------------OBJ:V-N----------------------+ | +------------------------COMP_into:N-N-----------------------+ | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +------------------OBJ:V-N-----------------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (RNA,sigma) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,29-containing) OBJ:V-N (cloned,bank) MOD_ATT:N-N (DNA,total) COMP_by:N-N (RNA,using) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 386 +------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------+ | +----------------------COMP_to:N-N----------------------+ | | +------------------OBJ:V-N-----------------+ | | | | +-------------SUBJ:V-N------------+ | | | +--------COMP_from:V_PASS-N-------+ | +----------OBJ:V-N---------+ | | | | | +MOD_ATT:N-+ +----OBJ:V-N----+ | +------SUBJ:V-N-----+ | | +-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ +MOD_ATT:N+ | +---APPOS---+ | | +COMP_of:+MOD_+SUBJ:V+ +COMP_into:V+MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (using,29-containing) COMP_to:N-N (29-containing,bank) MOD_ATT:N-N (29-containing,sigma) OBJ:V-N (cloned,lambda) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (hybridized,29-containing) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) SUBJ:V-N (cloned,RNA) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (DNA,SPXXX) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) MOD_ATT:N-ADJ (DNA,total) SUBJ:V-N (hybridized,RNA) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (was,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 387 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------------------------OBJ:V-N--------------------------+ | +------------------------COMP_into:N-N-----------------------+ +--------------COMP_from:N-N--------------+ +---------OBJ:V-N--------+ | | +------------------OBJ:V-N-----------------+ | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | | +MOD_ATT:N-N+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+ +MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,RNA) OBJ:V-N (cloned,bank) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) COMP_into:N-N (bank,lambda) COMP_to:V-N (hybridized,bank) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 388 +------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------+ | +------------------OBJ:V-N-----------------+ | +--------------COMP_from:N-N--------------+ | +-------------SUBJ:V-N------------+ | +----COMP_in:N-N----+ | | +----------OBJ:V-N---------+ | +--------------SUBJ:V-N--------------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+------COMP_by:N-N------+ | +------SUBJ:V-N-----+ | +-----COMP_of:N-N----+ | +-----OBJ:V-N-----+ +SUBJ:V_+ | | +MOD_+ +MOD_A+MOD_ATT:N+ | +---APPOS---+ | +-COMP_to:V-N+ +MOD_+MOD_AT+ | +COMP_into:V+MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) COMP_from:N-N (RNA,DNA) OBJ:V-N (hybridized,29-containing) SUBJ:V-N (was,polymerase) SUBJ:V-N (cloned,RNA) MOD_ATT:N-N (fragments,DNA) SUBJ:V-N (been,bank) MOD_ATT:N-N (DNA,total) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (lambda,SPXXX) COMP_of:N-N (bank,fragments) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_into:V-N (cloned,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (hybridized,RNA) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (cloned,lambda) COMP_by:N-N (DNA,29-containing) OBJ:V-N (was,RNA) MOD_ATT:N-N (sigma,using) Parse 389 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +--------------COMP_by:N-N--------------+ | +----------------SUBJ:V-N---------------+ | +--------COMP_from:V_PASS-N-------+ +-------MOD_ATT:N-N------+ | | +----------COMP_into:N-N----------+ | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | +MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ | | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_by:N-N (DNA,polymerase) COMP_into:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,SPXXX) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) SUBJ:V-N (lambda,fragments) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (RNA,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (DNA,SPXXX) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 390 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | +--------------COMP_from:N-N--------------+--------------COMP_by:N-N--------------+ | | +----COMP_in:N-N----+ | +-------MOD_ATT:N-N-------+ | | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +-MOD_ATT:N-ADJ-+ | | +-----OBJ:V-N-----+ +SUBJ:V_+ | | +MOD_+ +MOD_A+ | +MOD_AT+ | +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+-------SUBJ:V-N------+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . APPOS (DNA,GENEXXX) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (polymerase,sigma) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_by:N-N (DNA,polymerase) OBJ:V-N (cloned,lambda) SUBJ:V_PASS-N (transcribed,RNA) COMP_into:V-N (cloned,SPXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (sigma,using) MOD_ATT:N-ADJ (polymerase,29-containing) SUBJ:V_PASS-N (hybridized,RNA) Parse 391 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------COMP_from:V_PASS-N-------+ +----------------------OBJ:V-N----------------------+ | | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+------SUBJ:V-N-----+ | +MOD_ATT:N-N+-------SUBJ:V-N------+-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ +COMP_into:V+MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (RNA,29-containing) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (DNA,SPXXX) COMP_into:V-N (cloned,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) COMP_by:N-N (DNA,using) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (cloned,lambda) SUBJ:V-N (been,fragments) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 392 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +------------------------COMP_into:N-N-----------------------+ +---------------------------COMP_by:N-N---------------------------+ | +---------------SUBJ:V_PASS-N--------------+ | +--------------COMP_from:N-N--------------+ +--------------OBJ:V-N--------------+ | +-----COMP_of:N-N----+ | | | +MOD_ATT:N-+ | +------SUBJ:V-N-----+ | | +MOD_ATT:N-N+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+MOD_ATT:N+ +MOD_AT+---APPOS---+ | +-COMP_to:V-N+ | +MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (RNA,29-containing) MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,fragments) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (sigma,using) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (lambda,SPXXX) COMP_into:N-N (bank,lambda) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) SUBJ:V-N (hybridized,RNA) OBJ:V-N (was,29-containing) COMP_in:V_PASS-N (transcribed,vitro) Parse 393 +------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------+ | +------------------COMP_to:N-N-----------------+ | +--------------COMP_from:N-N--------------+ +----------SUBJ:V_PASS-N----------+ | | +----COMP_in:N-N----+ | +---------OBJ:V-N--------+----------OBJ:V-N---------+ | | | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +-----COMP_of:N-N----+ +-----OBJ:V-N-----+ +SUBJ:V_+ | | +MOD_+COMP_by+ | +MOD_ATT:+ +---APPOS---+ | | | +MOD_+MOD_AT+ +COMP_into:V+MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (cloned,lambda) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) SUBJ:V-N (cloned,RNA) MOD_ATT:N-N (fragments,DNA) COMP_to:N-N (RNA,bank) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (hybridized,RNA) MOD_ATT:N-N (DNA,total) COMP_in:N-N (RNA,vitro) COMP_of:N-N (bank,fragments) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) OBJ:V-N (using,RNA) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (was,RNA) Parse 394 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +------------------------COMP_into:N-N-----------------------+ +--------------COMP_from:N-N--------------+--------------------------OBJ:V-N--------------------------+ | +---------------SUBJ:V_PASS-N--------------+ | +----COMP_in:N-N----+ +------COMP_by:N-N------+ | | +--------------SUBJ:V-N--------------+ | | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +--MOD_ATT:N-N--+ +------SUBJ:V-N-----+ | +-----COMP_of:N-N----+ | | | +SUBJ:V_+ | | +MOD_+ | +MOD_ATT:N+ +MOD_AT+---APPOS---+ | +-COMP_to:V-N+ +MOD_+MOD_AT+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) COMP_from:N-N (RNA,DNA) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) SUBJ:V-N (been,bank) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (hybridized,RNA) COMP_in:N-N (RNA,vitro) COMP_into:N-N (bank,lambda) COMP_of:N-N (bank,fragments) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (lambda,SPXXX) COMP_by:N-N (DNA,29-containing) MOD_ATT:N-N (29-containing,using) Parse 395 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-----------------------------------COMP_by:N-N-----------------------------------+ | +--------------COMP_from:N-N--------------+ +----------MOD_ATT:N-N----------+ | +----COMP_in:N-N----+ | | +-------MOD_ATT:N-N-------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | | +-MOD_ATT:N-ADJ-+ | +MOD_ATT:N-N+-------SUBJ:V-N------+-----OBJ:V-N-----+ +SUBJ:V_+ | | +MOD_+ | | | +MOD_AT+---APPOS---+ +COMP_to:V_PA+COMP_of:+ +MOD_AT+----SUBJ:V-N---+ +COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (cloned,lambda) COMP_by:N-N (RNA,polymerase) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (polymerase,sigma) MOD_POST:N-ADJ (RNA,vitro) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) MOD_ATT:N-N (polymerase,using) MOD_ATT:N-ADJ (polymerase,29-containing) SUBJ:V_PASS-N (hybridized,RNA) Parse 396 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +-------------------COMP_by:N-N-------------------+ | | +--------COMP_from:V_PASS-N-------+ +----------------------OBJ:V-N----------------------+ | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+-------SUBJ:V-N------+COMP_into:V+MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (RNA,sigma) OBJ:V-N (cloned,lambda) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,29-containing) COMP_by:N-N (RNA,using) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 397 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | +--------------COMP_from:N-N--------------+ +---------OBJ:V-N--------+----------OBJ:V-N---------+ | +----------------SUBJ:V-N---------------+ | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ +COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . SUBJ:V-N (lambda,fragments) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) COMP_by:N-V (RNA,using) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,SPXXX) COMP_into:V_PASS-N (cloned,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) OBJ:V-N (was,RNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 398 +------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------+ | +------------------OBJ:V-N-----------------+ | +---------------------------COMP_by:N-N---------------------------+ +-------------SUBJ:V-N------------+ | +--------------COMP_from:N-N--------------+ | +----------OBJ:V-N---------+ | +-----COMP_of:N-N----+ | | +MOD_ATT:N-+ +--MOD_ATT:N-N--+ | +------SUBJ:V-N-----+ | | +MOD_ATT:N-N+ +-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | +MOD_ATT:N+ | +---APPOS---+ | +-COMP_to:V-N+ | +MOD_AT+ +COMP_into:V+MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (RNA,29-containing) MOD_ATT:N-N (29-containing,sigma) OBJ:V-N (cloned,lambda) COMP_of:N-N (bank,fragments) SUBJ:V-N (hybridized,RNA) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (fragments,SPXXX) OBJ:V-N (hybridized,29-containing) SUBJ:V-N (was,polymerase) SUBJ:V-N (cloned,RNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (29-containing,using) MOD_ATT:N-N (DNA,total) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (was,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 399 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +--------------COMP_from:N-N--------------+-----------------------APPOS-----------------------+ | +----COMP_in:N-N----+ +--------------COMP_by:N-N--------------+ | | +-------------COMP_into:N-N-------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +----MOD_ATT:N-N---+ | | | +-----COMP_of:N-N----+----SUBJ:V_PASS-N----+ | +SUBJ:V_+ | | +MOD_+ +MOD_A+ +MOD_ATT:+MOD_AT+ | +COMP_to:V_PA+ +MOD_+MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . APPOS (DNA,GENEXXX) COMP_of:N-N (bank,fragments) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (fragments,DNA) COMP_into:N-N (fragments,lambda) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) COMP_in:N-N (RNA,vitro) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_by:N-N (DNA,polymerase) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) MOD_ATT:N-N (sigma,using) SUBJ:V_PASS-N (hybridized,RNA) Parse 400 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +--------------COMP_by:N-N--------------+ | +------------------------COMP_into:N-N-----------------------+ +--------------COMP_from:N-N--------------+ +-------MOD_ATT:N-N-------+ | +-----COMP_of:N-N----+ | | +MOD_ATT:N-+ | +-MOD_ATT:N-ADJ-+ | | +MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ | +MOD_AT+---APPOS---+ +COMP_to:V_PA+ | +MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (DNA,polymerase) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (sigma,using) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) COMP_of:N-N (bank,fragments) MOD_ATT:N-ADJ (polymerase,29-containing) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 401 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +--------------COMP_by:N-N--------------+ | | | +----------MOD_ATT:N-N----------+ | +-----------------COMP_into:N-N----------------+ | +--------COMP_from:V_PASS-N-------+ | +-------MOD_ATT:N-N-------+ | +-----------OBJ:V-N----------+ | | | +MOD_ATT:N-+ | | +-MOD_ATT:N-ADJ-+ | +-COMP_of:N-N-+ +-------SUBJ:V-N------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | | +MOD_AT+---APPOS---+ +COMP_to:V_PA+ +MOD_+ +----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:N-N (DNA,lambda) COMP_by:N-N (DNA,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (polymerase,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_to:V_PASS-N (hybridized,bank) OBJ:V-N (cloned,DNA) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-ADJ (polymerase,29-containing) COMP_in:V_PASS-N (transcribed,vitro) COMP_of:N-N (bank,DNA) SUBJ:V_PASS-N (hybridized,RNA) Parse 402 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------COMP_from:V_PASS-N-------+ +----------------------OBJ:V-N----------------------+ | +------------------------COMP_into:N-N-----------------------+ | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+------SUBJ:V-N-----+ | +-----COMP_of:N-N----+----SUBJ:V_PASS-N----+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+ +MOD_+MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,fragments) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (RNA,29-containing) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_by:N-N (DNA,using) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 403 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------COMP_from:N-N--------------+ | +----COMP_in:N-N----+ | +--------------OBJ:V-N--------------+ | +-------------------COMP_into:N-N-------------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+------COMP_by:N-N------+ +------SUBJ:V-N-----+ | +-------------OBJ:V-N-------------+ | +SUBJ:V_+ | | +MOD_+ +MOD_A+MOD_ATT:N+ +MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) COMP_into:N-N (SPXXX,lambda) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) OBJ:V-N (cloned,SPXXX) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (hybridized,RNA) MOD_ATT:N-N (DNA,total) COMP_in:N-N (RNA,vitro) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (cloned,fragments) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (lambda,SPXXX) COMP_by:N-N (DNA,29-containing) MOD_ATT:N-N (sigma,using) OBJ:V-N (was,29-containing) Parse 404 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ +-----------------------------------COMP_by:N-N-----------------------------------+ | +--------------COMP_from:N-N--------------+ | | +--------------------OBJ:V-N-------------------+ +----COMP_in:N-N----+ | +-------MOD_ATT:N-N------+ | | | +----------------SUBJ:V-N---------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | +-COMP_of:N-N-+ +----SUBJ:V_PASS-N----+ | +SUBJ:V_+ | | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ +MOD_+ +----SUBJ:V-N---+ +COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (RNA,polymerase) COMP_into:V_PASS-N (cloned,SPXXX) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) COMP_of:N-N (bank,DNA) SUBJ:V-N (lambda,fragments) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) COMP_in:N-N (RNA,vitro) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (RNA,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-ADJ (DNA,total) SUBJ:V-N (been,fragments) OBJ:V-N (lambda,DNA) SUBJ:V_PASS-N (hybridized,RNA) Parse 405 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------COMP_from:V_PASS-N-------+--------------------------OBJ:V-N--------------------------+ | +---------------SUBJ:V_PASS-N--------------+ | | +MOD_ATT:N-+ +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +-------OBJ:V-N------+ +COMP_into:V_PASS-+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+SUBJ:V+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (RNA,sigma) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) COMP_into:V_PASS-N (cloned,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (RNA,29-containing) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (fragments,bank) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) COMP_by:N-N (DNA,using) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 406 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------COMP_from:N-N--------------+ +----------------------OBJ:V-N----------------------+ | +---------------SUBJ:V_PASS-N--------------+ | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +-----COMP_of:N-N----+ +COMP_into:V_PASS-+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+ +MOD_+MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (RNA,sigma) COMP_of:N-N (bank,fragments) COMP_from:N-N (RNA,DNA) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) MOD_ATT:N-N (fragments,DNA) COMP_into:V_PASS-N (cloned,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,29-containing) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_by:N-N (DNA,using) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 407 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------COMP_from:N-N--------------+ | +----COMP_in:N-N----+ +-----------COMP_by:N-N----------+----------OBJ:V-N---------+ +------------------------------COMP_into:V-N------------------------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ +-------------OBJ:V-N-------------+----SUBJ:V_PASS-N----+ | +SUBJ:V_+ | | +MOD_+ +MOD_A+ +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+ +MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) COMP_by:N-N (DNA,RNA) SUBJ:V-N (hybridized,RNA) COMP_into:V-N (hybridized,lambda) COMP_in:N-N (RNA,vitro) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (was,RNA) OBJ:V-N (hybridized,fragments) MOD_ATT:N-N (sigma,using) Parse 408 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +--------------COMP_by:N-N--------------+ | +------------------------COMP_into:N-N-----------------------+ +--------------COMP_from:N-N--------------+ +----------MOD_ATT:N-N----------+ | +---------------SUBJ:V_PASS-N--------------+ | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ | | +-----COMP_of:N-N----+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ +COMP_to:V_PA+ +MOD_+MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (polymerase,using) COMP_by:N-N (DNA,polymerase) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,DNA) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (cloned,bank) COMP_of:N-N (bank,fragments) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 409 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------------------------OBJ:V-N--------------------------+ | | +--------COMP_from:V_PASS-N-------+-----------COMP_by:N-N----------+ | +-------------OBJ:V-N-------------+ | | +MOD_ATT:N-+ +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +MOD_ATT:N-N+-------------COMP_into:N-N-------------+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) COMP_by:N-N (DNA,RNA) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (hybridized,fragments) MOD_ATT:N-N (sigma,using) COMP_into:N-N (fragments,lambda) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,fragments) COMP_to:V-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 410 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +-------------COMP_by:V_PASS-N------------+ | | +--------COMP_from:V_PASS-N-------+ +----------------------OBJ:V-N----------------------+ | +-------------------COMP_into:N-N-------------------+ | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +-------------OBJ:V-N-------------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (RNA,sigma) COMP_into:N-N (SPXXX,lambda) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (cloned,SPXXX) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,29-containing) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (hybridized,RNA) COMP_by:V_PASS-N (transcribed,using) COMP_in:V_PASS-N (transcribed,vitro) Parse 411 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------------------------OBJ:V-N--------------------------+ | +--------------COMP_from:N-N--------------+-----------COMP_by:N-N----------+ | | | +MOD_ATT:N-+ +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +------------------OBJ:V-N-----------------+--COMP_into:V-N--+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+ +MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) SUBJ:V-N (was,polymerase) COMP_by:N-N (DNA,RNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (sigma,using) OBJ:V-N (cloned,bank) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (lambda,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) COMP_into:V-N (cloned,lambda) Parse 412 +-------------------------OBJ:V-N-------------------------+------------------OBJ:V-N-----------------+ +---------------COMP_by:V-N---------------+ | +-------------SUBJ:V-N------------+ +----------COMP_from:V-N----------+ | | +----------OBJ:V-N---------+ +------------------------------COMP_into:V-N------------------------------+ | +MOD_ATT:N-+ | | | +------SUBJ:V-N-----+ | +-------------OBJ:V-N-------------+ | +SUBJ:V-+COMP_in:V-N+ | +MOD_+ | +MOD_ATT:N+ | +---APPOS---+ | +-COMP_to:V-N+COMP_of:+ +MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (transcribed,29-containing) MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,SPXXX) SUBJ:V-N (hybridized,RNA) OBJ:V-N (cloned,SPXXX) OBJ:V-N (hybridized,29-containing) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) COMP_from:V-N (transcribed,DNA) SUBJ:V-N (transcribed,RNA) MOD_ATT:N-N (lambda,SPXXX) COMP_to:V-N (hybridized,bank) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-ADJ (DNA,total) COMP_by:V-N (transcribed,using) COMP_into:V-N (hybridized,lambda) OBJ:V-N (was,RNA) COMP_in:V-N (transcribed,vitro) Parse 413 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +----------------------OBJ:V-N----------------------+ | +------------------------COMP_into:N-N-----------------------+ | +--------COMP_from:V_PASS-N-------+ | +-------MOD_ATT:N-N-------+ | | +---------------SUBJ:V_PASS-N--------------+ | | | +MOD_ATT:N-+ | | +--MOD_ATT:N-N--+------SUBJ:V-N-----+ | +--------------SUBJ:V-N--------------+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | | +MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+SUBJ:V+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) COMP_from:V_PASS-N (transcribed,DNA) SUBJ:V-N (been,bank) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (fragments,DNA) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-ADJ (DNA,total) COMP_by:N-N (DNA,using) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) MOD_ATT:N-N (polymerase,sigma) Parse 414 +------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------+ | +---------------SUBJ:V_PASS-N--------------+ | +--------------COMP_from:N-N--------------+------COMP_by:N-N------+--------------OBJ:V-N--------------+ | +--------------SUBJ:V-N--------------+ | | +MOD_ATT:N-+ +--MOD_ATT:N-N--+ +------SUBJ:V-N-----+ | +-----COMP_of:N-N----+ | +-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | +MOD_ATT:N+ +MOD_AT+---APPOS---+ | +COMP_to:V_PA+ +MOD_+MOD_AT+ | +COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (cloned,lambda) MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,fragments) COMP_from:N-N (RNA,DNA) SUBJ:V-N (was,polymerase) SUBJ:V-N (cloned,RNA) MOD_ATT:N-N (fragments,DNA) SUBJ:V-N (been,bank) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (29-containing,using) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (hybridized,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (was,29-containing) COMP_by:N-N (DNA,29-containing) COMP_in:V_PASS-N (transcribed,vitro) Parse 415 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +---------------------------COMP_by:N-N---------------------------+ | +--------------COMP_from:N-N--------------+ | | +----COMP_in:N-N----+ | +--------------OBJ:V-N--------------+ | +------------------------COMP_into:N-N-----------------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +------SUBJ:V-N-----+ | +------------------OBJ:V-N-----------------+ | +SUBJ:V_+ | | +MOD_+ +MOD_A+MOD_ATT:N+ +MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) COMP_by:N-N (RNA,29-containing) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (cloned,bank) SUBJ:V-N (hybridized,RNA) MOD_ATT:N-N (DNA,total) COMP_in:N-N (RNA,vitro) COMP_into:N-N (bank,lambda) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (cloned,fragments) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (sigma,using) OBJ:V-N (was,29-containing) Parse 416 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +-------------------COMP_by:N-N-------------------+ +------------------------------COMP_into:V-N------------------------------+ +--------------COMP_from:N-N--------------+ +----------------------OBJ:V-N----------------------+ | +-----------OBJ:V-N----------+ | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+------SUBJ:V-N-----+ | +-COMP_of:N-N-+ +-------SUBJ:V-N------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+ +MOD_+ +----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (RNA,29-containing) COMP_by:N-N (RNA,using) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_into:V-N (hybridized,lambda) OBJ:V-N (cloned,DNA) COMP_of:N-N (bank,DNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 417 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +-------------COMP_by:V_PASS-N------------+----------------------OBJ:V-N----------------------+ | +--------------------OBJ:V-N-------------------+ | +--------COMP_from:V_PASS-N-------+ | +-------MOD_ATT:N-N-------+ | | | +----------------SUBJ:V-N---------------+ | | +MOD_ATT:N-+ | | +--MOD_ATT:N-N--+------SUBJ:V-N-----+ +----------OBJ:V-N---------+ +----------COMP_into:N-N----------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | | +MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+ | +----SUBJ:V_PASS-N----+ | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_into:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-ADJ (DNA,total) OBJ:V-N (hybridized,DNA) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) OBJ:V-N (lambda,DNA) SUBJ:V-N (hybridized,RNA) COMP_by:V_PASS-N (transcribed,using) COMP_in:V_PASS-N (transcribed,vitro) MOD_ATT:N-N (polymerase,sigma) Parse 418 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------------------------OBJ:V-N--------------------------+ | +--------------------OBJ:V-N-------------------+ +--------------COMP_from:N-N--------------+-----------COMP_by:N-N----------+ | | | +----------------SUBJ:V-N---------------+ | +MOD_ATT:N-+ +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +-COMP_of:N-N-+ +----------COMP_into:N-N----------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+ +MOD_+ +----SUBJ:V_PASS-N----+ | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:N-N (fragments,SPXXX) COMP_from:N-N (RNA,DNA) COMP_of:N-N (bank,DNA) SUBJ:V-N (was,polymerase) COMP_by:N-N (DNA,RNA) MOD_ATT:N-N (sigma,using) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) OBJ:V-N (lambda,DNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 419 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +-------------COMP_by:V_PASS-N------------+ | +------------------------COMP_into:N-N-----------------------+ | +--------COMP_from:V_PASS-N-------+ +----------------------OBJ:V-N----------------------+ | +------------------OBJ:V-N-----------------+ | | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+------SUBJ:V-N-----+ | +-COMP_of:N-N-+ +-------SUBJ:V-N------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+ +MOD_+ +----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (lambda,SPXXX) COMP_of:N-N (bank,DNA) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (RNA,29-containing) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (cloned,bank) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) SUBJ:V-N (hybridized,RNA) COMP_by:V_PASS-N (transcribed,using) COMP_in:V_PASS-N (transcribed,vitro) Parse 420 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------------------------OBJ:V-N--------------------------+ +------------------------------COMP_into:V-N------------------------------+ +--------------COMP_from:N-N--------------+------COMP_by:N-N------+ | +-------------OBJ:V-N-------------+ | | +MOD_ATT:N-+ +--MOD_ATT:N-N--+ +------SUBJ:V-N-----+ | +MOD_ATT:N-N+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | +MOD_ATT:N+ +MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (hybridized,fragments) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (29-containing,using) MOD_ATT:N-N (DNA,total) COMP_into:V-N (hybridized,lambda) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,fragments) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (hybridized,RNA) COMP_by:N-N (DNA,29-containing) COMP_in:V_PASS-N (transcribed,vitro) Parse 421 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------------------------OBJ:V-N--------------------------+ | | +-----------COMP_by:N-N----------+ | | | +--------COMP_from:V_PASS-N-------+ +-------MOD_ATT:N-N------+ | | +--------------------OBJ:V-N-------------------+ | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ +----------OBJ:V-N---------+ +----------------SUBJ:V-N---------------+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+ +----SUBJ:V_PASS-N----+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (cloned,SPXXX) COMP_of:N-N (bank,SPXXX) SUBJ:V-N (was,polymerase) COMP_by:N-N (DNA,RNA) COMP_from:V_PASS-N (transcribed,DNA) SUBJ:V-N (lambda,fragments) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (RNA,using) COMP_to:V-N (hybridized,bank) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) OBJ:V-N (hybridized,DNA) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (lambda,DNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 422 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------------------------OBJ:V-N--------------------------+ | +----------------------OBJ:V-N----------------------+ +--------------COMP_from:N-N--------------+-----------COMP_by:N-N----------+ | | | +----------------SUBJ:V-N---------------+ +----COMP_in:N-N----+ | +-------MOD_ATT:N-N------+ | | | +----------COMP_into:N-N----------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | | +----SUBJ:V_PASS-N----+ | | +SUBJ:V_+ | | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+ +MOD_AT+----SUBJ:V-N---+ | | | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . SUBJ:V-N (lambda,fragments) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (RNA,sigma) COMP_into:N-N (fragments,SPXXX) COMP_from:N-N (RNA,DNA) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) COMP_by:N-N (DNA,RNA) SUBJ:V_PASS-N (cloned,fragments) SUBJ:V-N (hybridized,RNA) COMP_in:N-N (RNA,vitro) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (RNA,using) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) OBJ:V-N (lambda,SPXXX) Parse 423 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +-------------------COMP_by:N-N-------------------+ | | +--------COMP_from:V_PASS-N-------+ +----------------------OBJ:V-N----------------------+ +------------------------------COMP_into:V-N------------------------------+ | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+------SUBJ:V-N-----+ +----------OBJ:V-N---------+-----------OBJ:V-N----------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+ +-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (RNA,29-containing) MOD_ATT:N-N (polymerase,RNA) COMP_into:V-N (hybridized,lambda) COMP_by:N-N (RNA,using) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) OBJ:V-N (hybridized,DNA) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (cloned,DNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 424 +------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------+ | +------------------COMP_to:N-N-----------------+ | | +-------------COMP_by:V_PASS-V------------+ +----------SUBJ:V_PASS-N----------+ | | | +--------COMP_from:V_PASS-N-------+ +---------OBJ:V-N--------+----------OBJ:V-N---------+ | | | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +--------------SUBJ:V-N--------------+ +-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | | +COMP_of:+MOD_+SUBJ:V+ | +COMP_into:V+MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (cloned,lambda) COMP_of:N-N (bank,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) SUBJ:V-N (cloned,RNA) SUBJ:V-N (been,bank) COMP_to:N-N (RNA,bank) OBJ:V-N (using,RNA) COMP_by:V_PASS-V (transcribed,using) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) COMP_into:V-N (cloned,SPXXX) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (was,RNA) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 425 +------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------+ | +------------------COMP_to:N-N-----------------+ | +--------------------------------COMP_by:N-N-------------------------------+----------SUBJ:V_PASS-N----------+ | | | +--------COMP_from:V_PASS-N-------+ +-------MOD_ATT:N-N------+----------OBJ:V-N---------+ | | | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | | +-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | | +COMP_of:+MOD_+SUBJ:V+ +COMP_into:V+MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (RNA,RNA) OBJ:V-N (cloned,lambda) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) SUBJ:V-N (cloned,RNA) COMP_to:N-N (RNA,bank) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (RNA,using) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (was,RNA) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 426 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------COMP_from:V_PASS-N-------+ +----------------------OBJ:V-N----------------------+ | +----------------SUBJ:V-N---------------+ | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +MOD_ATT:N-N+----------COMP_into:N-N----------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+----SUBJ:V_PASS-N----+ | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (RNA,sigma) COMP_of:N-N (bank,SPXXX) COMP_into:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) SUBJ:V-N (lambda,fragments) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) COMP_by:N-N (DNA,using) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 427 +------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------+ | +--------------------------OBJ:V-N-------------------------+ | +-------------------COMP_by:N-N-------------------+ +-------------SUBJ:V-N------------+ | | +--------COMP_from:V_PASS-N-------+ | +----------OBJ:V-N---------+ | +-----COMP_of:N-N----+ | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | | +MOD_ATT:N-N+ +-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+ | +MOD_AT+ +COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (RNA,sigma) COMP_of:N-N (bank,fragments) SUBJ:V-N (hybridized,RNA) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) SUBJ:V-N (cloned,RNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (RNA,29-containing) MOD_ATT:N-N (DNA,total) COMP_by:N-N (RNA,using) OBJ:V-N (cloned,lambda) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (was,RNA) COMP_in:V_PASS-N (transcribed,vitro) OBJ:V-N (hybridized,using) Parse 428 +------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------+ | +------------------COMP_to:N-N-----------------+ | +--------------------------------COMP_by:N-N-------------------------------+----------SUBJ:V_PASS-N----------+ +--------------SUBJ:V-N--------------+ | | +--------COMP_from:V_PASS-N-------+ +-------MOD_ATT:N-N------+----------OBJ:V-N---------+ | +-----COMP_of:N-N----+ | | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | | +MOD_ATT:N-N+ | +-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | | | | +MOD_AT+ | +COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (cloned,lambda) COMP_by:N-N (RNA,RNA) COMP_of:N-N (bank,fragments) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) SUBJ:V-N (cloned,RNA) MOD_ATT:N-N (fragments,DNA) SUBJ:V-N (been,bank) COMP_to:N-N (RNA,bank) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (RNA,using) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (was,RNA) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 429 +------------------------------------------------SUBJ:V_PASS-N-----------------------------------------------+ | +-----------------------APPOS-----------------------+ | | +--------------COMP_by:N-N--------------+ | | +--------------COMP_from:N-N--------------+ +----------MOD_ATT:N-N----------+ | | +----------------SUBJ:V-N---------------+ +----COMP_in:N-N----+ | | +-------MOD_ATT:N-N-------+ | | +----------COMP_into:N-N----------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | | +-MOD_ATT:N-ADJ-+ | | +----SUBJ:V_PASS-N----+ | | +SUBJ:V_+ | | +MOD_+ | | | +MOD_AT+ | +COMP_to:V_PA+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ | | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . APPOS (DNA,GENEXXX) MOD_ATT:N-N (polymerase,using) COMP_of:N-N (bank,SPXXX) COMP_into:N-N (fragments,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,DNA) SUBJ:V-N (lambda,fragments) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (polymerase,sigma) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) COMP_by:N-N (DNA,polymerase) SUBJ:V_PASS-N (transcribed,RNA) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) MOD_ATT:N-ADJ (polymerase,29-containing) SUBJ:V_PASS-N (hybridized,RNA) Parse 430 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------------------------OBJ:V-N--------------------------+ | +--------------COMP_from:N-N--------------+-----------COMP_by:N-N----------+ | | +----------------SUBJ:V-N---------------+ | +MOD_ATT:N-+ +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +----------COMP_into:N-N----------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+----SUBJ:V_PASS-N----+ | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_into:N-N (fragments,SPXXX) COMP_from:N-N (RNA,DNA) SUBJ:V-N (was,polymerase) COMP_by:N-N (DNA,RNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (sigma,using) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 431 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +-------------------COMP_by:N-N-------------------+ | +--------------COMP_from:N-N--------------+ +----------------------OBJ:V-N----------------------+ | +----COMP_in:N-N----+ | | +-------MOD_ATT:N-N-------+ | | +----------------SUBJ:V-N---------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | | +--MOD_ATT:N-N--+------SUBJ:V-N-----+ | +MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +SUBJ:V_+ | | +MOD_+ | | | +MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+ +MOD_AT+----SUBJ:V-N---+ +COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . SUBJ:V-N (lambda,fragments) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) SUBJ:V-N (hybridized,RNA) MOD_ATT:N-N (DNA,total) COMP_by:N-N (RNA,using) COMP_in:N-N (RNA,vitro) COMP_to:V-N (hybridized,bank) MOD_ATT:N-N (polymerase,sigma) MOD_POST:N-ADJ (RNA,vitro) COMP_into:V_PASS-N (cloned,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) Parse 432 +------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------+ | +-------------------------------------------------COMP_to:V_PASS-N------------------------------------------------+ | | +-------------COMP_by:V_PASS-N------------+-----------------------SUBJ:V_PASS-N----------------------+ | | | +--------COMP_from:V_PASS-N-------+ +----------------------OBJ:V-N----------------------+ | | | | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+------SUBJ:V-N-----+ | +-----COMP_of:N-N----+ +-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ | | | +MOD_+MOD_AT+ +COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,fragments) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) COMP_from:V_PASS-N (transcribed,DNA) SUBJ:V-N (cloned,RNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,29-containing) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (cloned,lambda) SUBJ:V_PASS-N (hybridized,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (transcribed,bank) COMP_by:V_PASS-N (transcribed,using) COMP_in:V_PASS-N (transcribed,vitro) Parse 433 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------COMP_from:N-N--------------+ | +----COMP_in:N-N----+ +-----------COMP_by:N-N----------+----------OBJ:V-N---------+ | +-----COMP_of:N-N----+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | | +MOD_ATT:N-N+----SUBJ:V_PASS-N----+COMP_into:V_PASS-+ +SUBJ:V_+ | | +MOD_+ +MOD_A+ +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+ | +MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) COMP_into:V_PASS-N (cloned,lambda) COMP_by:N-N (DNA,RNA) SUBJ:V_PASS-N (cloned,fragments) SUBJ:V-N (hybridized,RNA) MOD_ATT:N-N (DNA,total) COMP_in:N-N (RNA,vitro) COMP_of:N-N (bank,fragments) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (was,RNA) MOD_ATT:N-N (sigma,using) Parse 434 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +-----------COMP_by:N-N----------+ | | +--------COMP_from:V_PASS-N-------+ +-------MOD_ATT:N-N------+----------OBJ:V-N---------+ +-------------OBJ:V-N-------------+ | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +-COMP_of:N-N-+ +-------------COMP_into:N-N-------------+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+ +MOD_+ +----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . SUBJ:V-N (was,polymerase) COMP_by:N-N (DNA,RNA) COMP_from:V_PASS-N (transcribed,DNA) OBJ:V-N (hybridized,fragments) COMP_into:N-N (fragments,lambda) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (RNA,using) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (was,RNA) COMP_of:N-N (bank,DNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 435 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------COMP_from:V_PASS-N-------+ +----------------------OBJ:V-N----------------------+ +-------------OBJ:V-N-------------+ | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+------SUBJ:V-N-----+ | +MOD_ATT:N-N+----SUBJ:V_PASS-N----+COMP_into:V_PASS-+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+ +MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (hybridized,fragments) COMP_into:V_PASS-N (cloned,lambda) MOD_ATT:N-N (RNA,29-containing) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (polymerase,sigma) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_by:N-N (DNA,using) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 436 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------COMP_from:N-N--------------+--------------------------OBJ:V-N--------------------------+ | | +MOD_ATT:N-+ +-------MOD_ATT:N-N-------+------SUBJ:V-N-----+ | +-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+-------SUBJ:V-N------+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (cloned,lambda) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) COMP_by:N-N (DNA,using) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 437 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------COMP_from:N-N--------------+ +----------------------OBJ:V-N----------------------+ | +-----COMP_of:N-N----+ | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | | +MOD_ATT:N-N+-------------COMP_into:N-N-------------+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+ | +MOD_AT+----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (RNA,sigma) COMP_of:N-N (bank,fragments) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) MOD_ATT:N-N (fragments,DNA) COMP_into:N-N (fragments,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (lambda,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_by:N-N (DNA,using) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 438 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------------------------COMP_by:N-N-------------------------------+ | +--------------COMP_from:N-N--------------+ +----------OBJ:V-N---------+ | | +MOD_ATT:N-+ +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +MOD_ATT:N-N+----------------SUBJ:V-N---------------+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+ +MOD_AT+----SUBJ:V_PASS-N----+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (RNA,RNA) COMP_into:V_PASS-N (cloned,SPXXX) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (sigma,using) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (RNA,sigma) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) OBJ:V-N (was,RNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 439 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +----------------------OBJ:V-N----------------------+ | | +--------COMP_from:V_PASS-N-------+ | +-------MOD_ATT:N-N-------+ | | +------------------OBJ:V-N-----------------+ | | +MOD_ATT:N-+ | | +-MOD_ATT:N-ADJ-+------SUBJ:V-N-----+ | | +-------SUBJ:V-N------+--COMP_into:V-N--+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | | +MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (cloned,bank) MOD_ATT:N-N (DNA,total) COMP_into:V-N (cloned,lambda) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) MOD_ATT:N-ADJ (polymerase,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) COMP_by:N-N (DNA,using) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) MOD_ATT:N-N (polymerase,sigma) Parse 440 +------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------+ | +----------SUBJ:V_PASS-N----------+ | +--------------COMP_from:N-N--------------+ +---------OBJ:V-N--------+----------OBJ:V-N---------+ | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +-----COMP_of:N-N----+ +-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+ +---APPOS---+ | +COMP_to:V_PA+ +MOD_+MOD_AT+ +COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,fragments) COMP_from:N-N (RNA,DNA) SUBJ:V-N (was,polymerase) SUBJ:V-N (cloned,RNA) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,RNA) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) OBJ:V-N (cloned,lambda) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) COMP_into:V-N (cloned,SPXXX) SUBJ:V_PASS-N (hybridized,RNA) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (was,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 441 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +-------------------COMP_by:N-N-------------------+----------------------OBJ:V-N----------------------+ | | +--------COMP_from:V_PASS-N-------+ | +-------MOD_ATT:N-N-------+ | +-------------OBJ:V-N-------------+ | | +MOD_ATT:N-+ | | +--MOD_ATT:N-N--+------SUBJ:V-N-----+ | +-COMP_of:N-N-+ +----SUBJ:V_PASS-N----+COMP_into:V_PASS-+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | | +MOD_AT+---APPOS---+ | +-COMP_to:V-N+ +MOD_+ +----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) COMP_from:V_PASS-N (transcribed,DNA) OBJ:V-N (hybridized,fragments) COMP_into:V_PASS-N (cloned,lambda) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) COMP_by:N-N (RNA,using) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_of:N-N (bank,DNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) MOD_ATT:N-N (polymerase,sigma) Parse 442 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +-------------------COMP_by:N-N-------------------+ | +--------------COMP_from:N-N--------------+ | | +----COMP_in:N-N----+ | +----------------------OBJ:V-N----------------------+ | +---------------SUBJ:V_PASS-N--------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +-----COMP_of:N-N----+ +COMP_into:V_PASS-+ +SUBJ:V_+ | | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+ +MOD_+MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) MOD_ATT:N-N (fragments,DNA) COMP_into:V_PASS-N (cloned,lambda) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (hybridized,RNA) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) COMP_by:N-N (RNA,using) COMP_in:N-N (RNA,vitro) COMP_of:N-N (bank,fragments) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) Parse 443 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +------------------------COMP_into:N-N-----------------------+ | +--------COMP_from:V_PASS-N-------+-----------COMP_by:N-N----------+----------OBJ:V-N---------+ | +---------------SUBJ:V_PASS-N--------------+ | | | +MOD_ATT:N-+ +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +--------------SUBJ:V-N--------------+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+SUBJ:V+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (was,polymerase) COMP_by:N-N (DNA,RNA) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (sigma,using) SUBJ:V-N (been,bank) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (fragments,DNA) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) OBJ:V-N (was,RNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 444 +---------------SUBJ:V_PASS-N--------------+ +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------SUBJ:V-N--------------+ | +--------------COMP_from:N-N--------------+ +----------------------OBJ:V-N----------------------+ | +-----COMP_of:N-N----+ | | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+------SUBJ:V-N-----+ | | +MOD_ATT:N-N+ | +COMP_into:V_PASS-+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+ | +MOD_AT+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,fragments) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) MOD_ATT:N-N (fragments,DNA) COMP_into:V_PASS-N (cloned,lambda) SUBJ:V-N (been,bank) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (polymerase,sigma) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_by:N-N (DNA,using) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 445 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------------------------OBJ:V-N--------------------------+ | | +--------COMP_from:V_PASS-N-------+ +-------MOD_ATT:N-N-------+ | | +------------------OBJ:V-N-----------------+ | | +MOD_ATT:N-+ | +-MOD_ATT:N-ADJ-+------SUBJ:V-N-----+ | | +MOD_ATT:N-N+ +--COMP_into:V-N--+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | | +MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+ +MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (cloned,bank) COMP_to:V-N (hybridized,bank) MOD_ATT:N-ADJ (polymerase,29-containing) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) COMP_by:N-N (DNA,using) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) COMP_into:V-N (cloned,lambda) MOD_ATT:N-N (polymerase,sigma) Parse 446 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +-------------COMP_by:V_PASS-N------------+ | +------------------------COMP_into:N-N-----------------------+ | +--------COMP_from:V_PASS-N-------+ +----------------------OBJ:V-N----------------------+ | | +-----------OBJ:V-N----------+ | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +-COMP_of:N-N-+ +-------SUBJ:V-N------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+ +MOD_+ +----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (lambda,SPXXX) COMP_of:N-N (bank,DNA) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) MOD_ATT:N-ADJ (RNA,29-containing) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) OBJ:V-N (cloned,DNA) SUBJ:V-N (hybridized,RNA) COMP_by:V_PASS-N (transcribed,using) COMP_in:V_PASS-N (transcribed,vitro) Parse 447 +------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------+ +-------------------COMP_by:N-V-------------------+ +----------SUBJ:V_PASS-N----------+ | +--------------COMP_from:N-N--------------+ +---------OBJ:V-N--------+----------OBJ:V-N---------+ | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +-----COMP_of:N-N----+ +-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | +COMP_to:V_PA+ +MOD_+MOD_AT+----SUBJ:V-N---+ +COMP_into:V+MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (cloned,lambda) COMP_of:N-N (bank,fragments) COMP_from:N-N (RNA,DNA) COMP_by:N-V (RNA,using) SUBJ:V-N (was,polymerase) SUBJ:V-N (cloned,RNA) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (using,RNA) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) COMP_into:V-N (cloned,SPXXX) MOD_ATT:N-ADJ (DNA,total) SUBJ:V_PASS-N (hybridized,RNA) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (was,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 448 +------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------+ | +-------------------------COMP_by:V_PASS-N-------------------------+----------SUBJ:V_PASS-N----------+ | | +--------COMP_from:V_PASS-N-------+ +-------MOD_ATT:N-N------+----------OBJ:V-N---------+ | | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +-----COMP_of:N-N----+ +-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | +COMP_to:V_PA+ +MOD_+MOD_AT+----SUBJ:V-N---+ +COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (cloned,lambda) COMP_of:N-N (bank,fragments) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) SUBJ:V-N (cloned,RNA) MOD_ATT:N-N (fragments,DNA) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-N (RNA,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) COMP_into:V-N (cloned,SPXXX) SUBJ:V_PASS-N (hybridized,RNA) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) OBJ:V-N (was,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 449 +------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------+ | +------------------COMP_to:N-N-----------------+ | | +----------SUBJ:V_PASS-N----------+ | | +--------------COMP_from:N-N--------------+-----------COMP_by:N-N----------+----------OBJ:V-N---------+ | +-----COMP_of:N-N----+ | | +MOD_ATT:N-+ +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | | +MOD_ATT:N-N+ +-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+ +---APPOS---+ | | | | +MOD_AT+----SUBJ:V-N---+ +COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (cloned,lambda) COMP_of:N-N (bank,fragments) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) COMP_by:N-N (DNA,RNA) SUBJ:V-N (cloned,RNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (sigma,using) COMP_to:N-N (RNA,bank) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) OBJ:V-N (was,RNA) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 450 +---------------------------------------------------COMP_to:V-N---------------------------------------------------+ +-------------------------OBJ:V-N-------------------------+ | +---------------COMP_by:V-N---------------+ +---------------SUBJ:V_PASS-N--------------+ | +----------COMP_from:V-N----------+ | +--------------OBJ:V-N--------------+ | | | +MOD_ATT:N-+ | | +------SUBJ:V-N-----+ | +-COMP_of:N-N-+-----------OBJ:V-N----------+--COMP_into:V-N--+ +SUBJ:V-+COMP_in:V-N+ | +MOD_+ | +MOD_ATT:N+ +MOD_AT+---APPOS---+ | | | +MOD_+ +-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) OBJ:V-N (transcribed,29-containing) COMP_to:V-N (transcribed,bank) MOD_ATT:N-N (DNA,SPXXX) COMP_of:N-N (bank,DNA) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (polymerase,RNA) COMP_from:V-N (transcribed,DNA) SUBJ:V-N (transcribed,RNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (DNA,SPXXX) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) SUBJ:V_PASS-N (hybridized,29-containing) COMP_by:V-N (transcribed,using) OBJ:V-N (cloned,DNA) MOD_ATT:N-ADJ (DNA,total) COMP_in:V-N (transcribed,vitro) OBJ:V-N (was,29-containing) COMP_into:V-N (cloned,lambda) Parse 451 +-------------------------OBJ:V-N-------------------------+------------------OBJ:V-N-----------------+ +---------------COMP_by:V-N---------------+ | +-------------SUBJ:V-N------------+ +------------------------COMP_into:N-N-----------------------+ +----------COMP_from:V-N----------+ | | +----------OBJ:V-N---------+ | +------------------OBJ:V-N-----------------+ | | +MOD_ATT:N-+ | | | +------SUBJ:V-N-----+ | +-COMP_of:N-N-+ | | +SUBJ:V-+COMP_in:V-N+ | +MOD_+ | +MOD_ATT:N+ | +---APPOS---+ | +-COMP_to:V-N+ +MOD_+ +-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (transcribed,29-containing) MOD_ATT:N-N (29-containing,sigma) SUBJ:V-N (hybridized,RNA) OBJ:V-N (hybridized,29-containing) COMP_of:N-N (bank,DNA) SUBJ:V-N (was,polymerase) COMP_from:V-N (transcribed,DNA) OBJ:V-N (cloned,bank) SUBJ:V-N (transcribed,RNA) MOD_ATT:N-N (lambda,SPXXX) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-ADJ (DNA,total) COMP_by:V-N (transcribed,using) OBJ:V-N (was,RNA) COMP_in:V-N (transcribed,vitro) Parse 452 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------------------------OBJ:V-N--------------------------+ | +--------------COMP_from:N-N--------------+ +-------MOD_ATT:N-N-------+ | | +----------------------OBJ:V-N----------------------+ | +MOD_ATT:N-+ | +--MOD_ATT:N-N--+------SUBJ:V-N-----+ | | +----------------SUBJ:V-N---------------+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | | +MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+----SUBJ:V_PASS-N----+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (cloned,SPXXX) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) SUBJ:V-N (lambda,fragments) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (lambda,SPXXX) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-ADJ (DNA,total) COMP_by:N-N (DNA,using) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) MOD_ATT:N-N (polymerase,sigma) Parse 453 +------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------+ +-------------------COMP_by:N-V-------------------+ +----------SUBJ:V_PASS-N----------+ | +--------------COMP_from:N-N--------------+ +---------OBJ:V-N--------+----------OBJ:V-N---------+ | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +----------SUBJ:V-N---------+ +-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | +COMP_to:V_PA+COMP_of:+MOD_+SUBJ:V+ | +COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (cloned,lambda) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) COMP_by:N-V (RNA,using) SUBJ:V-N (was,polymerase) SUBJ:V-N (cloned,RNA) OBJ:V-N (using,RNA) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (fragments,DNA) SUBJ:V-N (been,SPXXX) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) COMP_into:V-N (cloned,SPXXX) MOD_ATT:N-ADJ (DNA,total) SUBJ:V_PASS-N (hybridized,RNA) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (was,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 454 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------------------------COMP_by:N-N-------------------------------+ | +---------------SUBJ:V_PASS-N--------------+ +--------------COMP_from:N-N--------------+ +-------MOD_ATT:N-N------+----------OBJ:V-N---------+ | +-----COMP_of:N-N----+ | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | | +MOD_ATT:N-N+ +COMP_into:V_PASS-+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+ | +MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (RNA,RNA) COMP_of:N-N (bank,fragments) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) COMP_into:V_PASS-N (cloned,lambda) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (RNA,using) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) OBJ:V-N (was,RNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 455 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +---------------------------COMP_by:N-N---------------------------+ | +--------------COMP_from:N-N--------------+ | | +----COMP_in:N-N----+ | +--------------OBJ:V-N--------------+ | +--------------------OBJ:V-N-------------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +------SUBJ:V-N-----+ +----------OBJ:V-N---------+ +----------------SUBJ:V-N---------------+ +SUBJ:V_+ | | +MOD_+ +MOD_A+MOD_ATT:N+ +MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+ +----SUBJ:V_PASS-N----+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) COMP_by:N-N (RNA,29-containing) COMP_into:V_PASS-N (cloned,SPXXX) SUBJ:V-N (lambda,fragments) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) SUBJ:V-N (hybridized,RNA) MOD_ATT:N-N (DNA,total) COMP_in:N-N (RNA,vitro) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (hybridized,DNA) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (sigma,using) OBJ:V-N (lambda,DNA) OBJ:V-N (was,29-containing) Parse 456 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +-------------------COMP_by:N-N-------------------+ | +--------------COMP_from:N-N--------------+ | | +----COMP_in:N-N----+ | +----------------------OBJ:V-N----------------------+ | +----------------------OBJ:V-N----------------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | | +----------------SUBJ:V-N---------------+ +SUBJ:V_+ | | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+----SUBJ:V_PASS-N----+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (cloned,SPXXX) SUBJ:V-N (lambda,fragments) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) SUBJ:V-N (hybridized,RNA) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) COMP_by:N-N (RNA,using) COMP_in:N-N (RNA,vitro) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (lambda,SPXXX) Parse 457 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------------------------OBJ:V-N--------------------------+ | +------------------------COMP_into:N-N-----------------------+ +--------------COMP_from:N-N--------------+-----------COMP_by:N-N----------+ | | +------------------OBJ:V-N-----------------+ | | +MOD_ATT:N-+ +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | | +MOD_ATT:N-N+-------SUBJ:V-N------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (cloned,bank) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) COMP_by:N-N (DNA,RNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (sigma,using) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (lambda,SPXXX) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-ADJ (DNA,total) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 458 +------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------+ +-------------------COMP_by:N-V-------------------+ | +--------------COMP_from:N-N--------------+ | +----------SUBJ:V_PASS-N----------+ | +----COMP_in:N-N----+ | +---------OBJ:V-N--------+----------OBJ:V-N---------+ | | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +--------------SUBJ:V-N--------------+ +-----OBJ:V-N-----+ +SUBJ:V_+ | | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | +COMP_to:V_PA+COMP_of:+MOD_+SUBJ:V+ | +COMP_into:V+MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) COMP_by:N-V (RNA,using) SUBJ:V-N (was,polymerase) SUBJ:V-N (cloned,RNA) SUBJ:V-N (been,bank) SUBJ:V-N (fragments,DNA) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (lambda,SPXXX) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_into:V-N (cloned,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-ADJ (DNA,total) OBJ:V-N (using,RNA) OBJ:V-N (cloned,lambda) OBJ:V-N (was,RNA) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (hybridized,RNA) Parse 459 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------COMP_from:N-N--------------+ | +------------------------COMP_into:N-N-----------------------+ +----COMP_in:N-N----+ +--------------------------OBJ:V-N--------------------------+ | +---------------SUBJ:V_PASS-N--------------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +-----COMP_of:N-N----+ | | +SUBJ:V_+ | | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+ +MOD_+MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (DNA,using) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (hybridized,RNA) MOD_ATT:N-N (RNA,sigma) COMP_in:N-N (RNA,vitro) COMP_into:N-N (bank,lambda) COMP_of:N-N (bank,fragments) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) Parse 460 +------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------+ | +------------------COMP_to:N-N-----------------+ | | +----------SUBJ:V_PASS-N----------+ | | +--------------COMP_from:N-N--------------+-----------COMP_by:N-N----------+----------OBJ:V-N---------+ | | | | +MOD_ATT:N-+ +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +-----COMP_of:N-N----+ +-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+ +---APPOS---+ | | | +MOD_+MOD_AT+ +COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,fragments) COMP_from:N-N (RNA,DNA) SUBJ:V-N (was,polymerase) COMP_by:N-N (DNA,RNA) SUBJ:V-N (cloned,RNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (sigma,using) COMP_to:N-N (RNA,bank) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (cloned,lambda) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (was,RNA) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 461 +------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------+ | +----------------------COMP_to:N-N----------------------+ | | +------------------OBJ:V-N-----------------+ | | +---------------------------COMP_by:N-N---------------------------+ +-------------SUBJ:V-N------------+ | | | +--------COMP_from:V_PASS-N-------+ | +----------OBJ:V-N---------+ | | | | | +MOD_ATT:N-+ +--MOD_ATT:N-N--+ | +------SUBJ:V-N-----+ | +-----COMP_of:N-N----+ +-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | +MOD_ATT:N+ | +---APPOS---+ | | | +MOD_+MOD_AT+----SUBJ:V-N---+ +COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (cloned,lambda) COMP_by:N-N (RNA,29-containing) COMP_to:N-N (29-containing,bank) MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,fragments) OBJ:V-N (hybridized,29-containing) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) SUBJ:V-N (cloned,RNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (29-containing,using) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) MOD_ATT:N-ADJ (DNA,total) SUBJ:V-N (hybridized,RNA) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) OBJ:V-N (was,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 462 +------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------+ | +-------------------------------------------------COMP_to:V_PASS-N------------------------------------------------+ | | +-------------------------COMP_by:V_PASS-N-------------------------+----------SUBJ:V_PASS-N----------+ | | | +--------COMP_from:V_PASS-N-------+ +----------OBJ:V-N---------+ | | | | | +MOD_ATT:N-+ +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +-----COMP_of:N-N----+ +-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+ +---APPOS---+ | | | +MOD_+MOD_AT+----SUBJ:V-N---+ +COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (cloned,lambda) COMP_of:N-N (bank,fragments) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) SUBJ:V-N (cloned,RNA) MOD_ATT:N-N (fragments,DNA) COMP_by:V_PASS-N (transcribed,RNA) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) COMP_into:V-N (cloned,SPXXX) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (transcribed,bank) SUBJ:V-N (been,fragments) OBJ:V-N (was,RNA) MOD_ATT:N-N (sigma,using) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 463 +------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------+ | +----------------------------COMP_of:N-N----------------------------+ | | +------------------COMP_to:N-N-----------------+ | | +--------------------------------COMP_by:N-N-------------------------------+----------SUBJ:V_PASS-N----------+ | | | +--------------COMP_from:N-N--------------+ +-------MOD_ATT:N-N------+----------OBJ:V-N---------+ | | | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | | | +-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | | | +MOD_+MOD_AT+----SUBJ:V-N---+ +COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (cloned,lambda) SUBJ:V-N (was,polymerase) COMP_by:N-N (RNA,RNA) COMP_from:N-N (RNA,DNA) SUBJ:V-N (cloned,RNA) MOD_ATT:N-N (fragments,DNA) COMP_to:N-N (RNA,bank) SUBJ:V_PASS-N (hybridized,RNA) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (RNA,using) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) OBJ:V-N (was,RNA) COMP_in:V_PASS-N (transcribed,vitro) COMP_of:N-N (RNA,fragments) Parse 464 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------COMP_from:V_PASS-N-------+ +----------------------OBJ:V-N----------------------+ | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +MOD_ATT:N-N+ +-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+-------SUBJ:V-N------+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (RNA,sigma) OBJ:V-N (cloned,lambda) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) COMP_by:N-N (DNA,using) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 465 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +----------------------OBJ:V-N----------------------+ | +--------------COMP_from:N-N--------------+ | +-------MOD_ATT:N-N-------+ | | | +MOD_ATT:N-+ | | +-MOD_ATT:N-ADJ-+------SUBJ:V-N-----+ | +-----COMP_of:N-N----+-------------COMP_into:N-N-------------+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | | +MOD_AT+---APPOS---+ | +-COMP_to:V-N+ +MOD_+MOD_AT+----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,fragments) COMP_from:N-N (RNA,DNA) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) MOD_ATT:N-N (fragments,DNA) COMP_into:N-N (fragments,lambda) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) MOD_ATT:N-ADJ (polymerase,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) COMP_by:N-N (DNA,using) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) MOD_ATT:N-N (polymerase,sigma) Parse 466 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------COMP_from:N-N--------------+ +----------------------OBJ:V-N----------------------+ | +----------------SUBJ:V-N---------------+ | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +MOD_ATT:N-N+----------COMP_into:N-N----------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+ +MOD_AT+----SUBJ:V_PASS-N----+ | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (RNA,sigma) COMP_of:N-N (bank,SPXXX) COMP_into:N-N (fragments,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) MOD_ATT:N-ADJ (RNA,29-containing) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_by:N-N (DNA,using) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 467 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +-------------------COMP_by:N-N-------------------+----------------------OBJ:V-N----------------------+ | | +--------COMP_from:V_PASS-N-------+ | +-------MOD_ATT:N-N-------+ | | | | +MOD_ATT:N-+ | | +-MOD_ATT:N-ADJ-+------SUBJ:V-N-----+ | +MOD_ATT:N-N+----------------SUBJ:V-N---------------+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | | +MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+----SUBJ:V_PASS-N----+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (cloned,SPXXX) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) SUBJ:V-N (lambda,fragments) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) COMP_by:N-N (RNA,using) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) MOD_ATT:N-ADJ (polymerase,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) MOD_ATT:N-N (polymerase,sigma) Parse 468 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +-------------COMP_by:V_PASS-N------------+ | | +--------COMP_from:V_PASS-N-------+ +----------------------OBJ:V-N----------------------+ +-------------OBJ:V-N-------------+-------------COMP_into:N-N-------------+ | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+------SUBJ:V-N-----+ | +MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (hybridized,fragments) COMP_into:N-N (fragments,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (RNA,29-containing) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) SUBJ:V-N (hybridized,RNA) COMP_by:V_PASS-N (transcribed,using) COMP_in:V_PASS-N (transcribed,vitro) Parse 469 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +-------------------COMP_by:N-N-------------------+ | +------------------------COMP_into:N-N-----------------------+ | +--------COMP_from:V_PASS-N-------+ +----------------------OBJ:V-N----------------------+ | | +-----------OBJ:V-N----------+ | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +-COMP_of:N-N-+ +-------SUBJ:V-N------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+ +MOD_+ +----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (lambda,SPXXX) COMP_of:N-N (bank,DNA) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) MOD_ATT:N-ADJ (RNA,29-containing) COMP_by:N-N (RNA,using) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) OBJ:V-N (cloned,DNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 470 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------COMP_from:N-N--------------+--------------------------OBJ:V-N--------------------------+ +------------------------------COMP_into:V-N------------------------------+ | +MOD_ATT:N-+ +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +-------------OBJ:V-N-------------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+ +MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (RNA,sigma) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) OBJ:V-N (cloned,SPXXX) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (lambda,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) COMP_by:N-N (DNA,using) MOD_ATT:N-N (DNA,SPXXX) COMP_into:V-N (hybridized,lambda) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 471 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------COMP_from:N-N--------------+ +----------------------OBJ:V-N----------------------+ +------------------------------COMP_into:V-N------------------------------+ +----COMP_in:N-N----+ | | +-------MOD_ATT:N-N-------+ | +-------------OBJ:V-N-------------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | | +--MOD_ATT:N-N--+------SUBJ:V-N-----+ | +MOD_ATT:N-N+ | +SUBJ:V_+ | | +MOD_+COMP_by+ | | +MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_by:N-N (DNA,using) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (hybridized,RNA) MOD_ATT:N-N (DNA,total) SUBJ:V_PASS-N (cloned,fragments) COMP_into:V-N (hybridized,lambda) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (lambda,SPXXX) COMP_to:V-N (hybridized,bank) MOD_ATT:N-N (polymerase,sigma) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (hybridized,fragments) Parse 472 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+------------------------------COMP_into:V-N------------------------------+ +--------------COMP_from:N-N--------------+ +----------------------OBJ:V-N----------------------+ | +------------------OBJ:V-N-----------------+ | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +-COMP_of:N-N-+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+ +MOD_+ +-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (cloned,bank) MOD_ATT:N-N (DNA,total) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) COMP_by:N-N (DNA,using) MOD_ATT:N-N (DNA,SPXXX) COMP_into:V-N (hybridized,lambda) COMP_of:N-N (bank,DNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 473 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +----------------------OBJ:V-N----------------------+ | +--------------------------OBJ:V-N--------------------------+ | | +----------------SUBJ:V-N---------------+ +--------------COMP_from:N-N--------------+ +-------MOD_ATT:N-N-------+ | | | +----------COMP_into:N-N----------+ | | +MOD_ATT:N-+ | +--MOD_ATT:N-N--+------SUBJ:V-N-----+ | | +----SUBJ:V_PASS-N----+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | | +MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ | | | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . SUBJ:V-N (lambda,fragments) COMP_of:N-N (bank,SPXXX) COMP_into:N-N (fragments,SPXXX) COMP_from:N-N (RNA,DNA) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-ADJ (DNA,total) COMP_by:N-N (DNA,using) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) OBJ:V-N (lambda,SPXXX) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) MOD_ATT:N-N (polymerase,sigma) Parse 474 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------COMP_from:N-N--------------+--------------------------OBJ:V-N--------------------------+ +------------------------------COMP_into:V-N------------------------------+ +----COMP_in:N-N----+ | +-------MOD_ATT:N-N-------+ | +-------------OBJ:V-N-------------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +--MOD_ATT:N-N--+------SUBJ:V-N-----+ | +-COMP_of:N-N-+ +----SUBJ:V_PASS-N----+ | +SUBJ:V_+ | | +MOD_+COMP_by+ | | +MOD_AT+---APPOS---+ | +-COMP_to:V-N+ +MOD_+ +----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_by:N-N (DNA,using) COMP_from:N-N (RNA,DNA) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (hybridized,RNA) MOD_ATT:N-N (DNA,total) COMP_into:V-N (hybridized,lambda) COMP_in:N-N (RNA,vitro) COMP_to:V-N (hybridized,bank) MOD_ATT:N-N (polymerase,sigma) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,fragments) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) MOD_ATT:N-N (lambda,SPXXX) COMP_of:N-N (bank,DNA) OBJ:V-N (hybridized,fragments) Parse 475 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +----------------------OBJ:V-N----------------------+ +------------------------------COMP_into:V-N------------------------------+ | +--------COMP_from:V_PASS-N-------+ | +-------MOD_ATT:N-N-------+ | | +---------------SUBJ:V_PASS-N--------------+ | | | +MOD_ATT:N-+ | | +-MOD_ATT:N-ADJ-+------SUBJ:V-N-----+ | +-----COMP_of:N-N----+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | | +MOD_AT+---APPOS---+ | +-COMP_to:V-N+ +MOD_+MOD_AT+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (lambda,SPXXX) COMP_of:N-N (bank,fragments) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) MOD_ATT:N-ADJ (polymerase,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) COMP_by:N-N (DNA,using) MOD_ATT:N-N (DNA,SPXXX) COMP_into:V-N (hybridized,lambda) SUBJ:V_PASS-N (cloned,bank) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) MOD_ATT:N-N (polymerase,sigma) Parse 476 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +-------------------COMP_by:N-N-------------------+ | +--------------COMP_from:N-N--------------+ +----------------------OBJ:V-N----------------------+ | +----COMP_in:N-N----+ | | +-------MOD_ATT:N-N-------+ | | +------------------------COMP_into:N-N-----------------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | | +--MOD_ATT:N-N--+------SUBJ:V-N-----+ | +------------------OBJ:V-N-----------------+ | +SUBJ:V_+ | | +MOD_+ | | | +MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) OBJ:V-N (cloned,bank) SUBJ:V-N (hybridized,RNA) MOD_ATT:N-N (DNA,total) COMP_by:N-N (RNA,using) COMP_in:N-N (RNA,vitro) COMP_into:N-N (bank,lambda) COMP_to:V-N (hybridized,bank) MOD_ATT:N-N (polymerase,sigma) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (cloned,fragments) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (polymerase,29-containing) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (lambda,SPXXX) Parse 477 +------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------+ +-------------------COMP_by:N-N-------------------+-----------------------SUBJ:V_PASS-N----------------------+ | +--------------COMP_from:N-N--------------+ +----------------------OBJ:V-N----------------------+ | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ | +COMP_to:V_PA+COMP_of:+MOD_+SUBJ:V+ +COMP_into:V+MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (RNA,sigma) OBJ:V-N (cloned,lambda) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) SUBJ:V-N (cloned,RNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,29-containing) COMP_by:N-N (RNA,using) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (hybridized,using) COMP_in:V_PASS-N (transcribed,vitro) Parse 478 +---------------------------------------------------------------------------------COMP_into:V-N--------------------------------------------------------------------------------+ +-------------------------OBJ:V-N-------------------------+ | +---------------COMP_by:V-N---------------+ +---------------SUBJ:V_PASS-N--------------+ | +----------COMP_from:V-N----------+ | +--------------OBJ:V-N--------------+ | +-----COMP_of:N-N----+ | | +MOD_ATT:N-+ | | +------SUBJ:V-N-----+ | | +MOD_ATT:N-N+ | +SUBJ:V-+COMP_in:V-N+ | +MOD_+ | +MOD_ATT:N+ +MOD_AT+---APPOS---+ | +COMP_to:V_PA+ | +MOD_AT+----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) MOD_ATT:N-N (DNA,total) OBJ:V-N (transcribed,29-containing) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) COMP_from:V-N (transcribed,DNA) SUBJ:V_PASS-N (cloned,fragments) SUBJ:V-N (transcribed,RNA) MOD_ATT:N-N (lambda,SPXXX) COMP_of:N-N (bank,fragments) COMP_into:V-N (transcribed,lambda) APPOS (polymerase,GENEXXX) SUBJ:V_PASS-N (hybridized,29-containing) COMP_by:V-N (transcribed,using) COMP_in:V-N (transcribed,vitro) OBJ:V-N (was,29-containing) COMP_to:V_PASS-N (hybridized,bank) Parse 479 +------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------+ | +------------------------------COMP_to:N-N------------------------------+ | | +-----------------------SUBJ:V_PASS-N----------------------+ | | | +--------COMP_from:V_PASS-N-------+ +----------------------OBJ:V-N----------------------+ | | | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +--------------SUBJ:V-N--------------+ +-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ | | +COMP_of:+MOD_+SUBJ:V+ | +COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (cloned,lambda) COMP_of:N-N (bank,SPXXX) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) COMP_from:V_PASS-N (transcribed,DNA) SUBJ:V-N (cloned,RNA) SUBJ:V-N (been,bank) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (hybridized,using) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) COMP_to:N-N (using,bank) COMP_by:N-N (DNA,using) MOD_ATT:N-N (DNA,SPXXX) COMP_in:V_PASS-N (transcribed,vitro) Parse 480 +------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------+ | +------------------------------COMP_to:N-N------------------------------+ | | +--------------------------OBJ:V-N-------------------------+ | | | +-------------COMP_by:V_PASS-N------------+ +-------------SUBJ:V-N------------+ | | | +--------COMP_from:V_PASS-N-------+ | +----------OBJ:V-N---------+ | | | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +--------------SUBJ:V-N--------------+ +-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | | +COMP_of:+MOD_+SUBJ:V+ | +COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (cloned,lambda) COMP_of:N-N (bank,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) SUBJ:V-N (cloned,RNA) SUBJ:V-N (been,bank) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) SUBJ:V-N (hybridized,RNA) COMP_to:N-N (using,bank) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (was,RNA) COMP_by:V_PASS-N (transcribed,using) COMP_in:V_PASS-N (transcribed,vitro) OBJ:V-N (hybridized,using) Parse 481 +------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------+ | +-------------------------------------------------COMP_to:V_PASS-N------------------------------------------------+ | | | +--------------------------OBJ:V-N-------------------------+ | | | +-------------COMP_by:V_PASS-N------------+ +-------------SUBJ:V-N------------+ | | | +--------COMP_from:V_PASS-N-------+ | +----------OBJ:V-N---------+ | | | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | | +-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | | +COMP_of:+MOD_+SUBJ:V+ +COMP_into:V+MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (cloned,lambda) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) SUBJ:V-N (cloned,RNA) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) COMP_into:V-N (cloned,SPXXX) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-ADJ (DNA,total) COMP_to:V_PASS-N (transcribed,bank) SUBJ:V-N (hybridized,RNA) OBJ:V-N (was,RNA) COMP_by:V_PASS-N (transcribed,using) COMP_in:V_PASS-N (transcribed,vitro) OBJ:V-N (hybridized,using) Parse 482 +----------------------COMP_to:N-N----------------------+ +-------------------------OBJ:V-N-------------------------+---------------SUBJ:V_PASS-N--------------+ | +----------COMP_from:V-N----------+ +--------------OBJ:V-N--------------+ | | +-----------OBJ:V-N----------+ | +MOD_ATT:N-+ | +------SUBJ:V-N-----+ | +-COMP_of:N-N-+ +-------SUBJ:V-N------+--COMP_into:V-N--+ +SUBJ:V-+COMP_in:V-N+ | +MOD_+COMP_by+ +MOD_ATT:N+ +MOD_AT+---APPOS---+ | | | +MOD_+ +----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_to:N-N (29-containing,bank) OBJ:V-N (transcribed,29-containing) MOD_ATT:N-N (29-containing,sigma) COMP_by:N-N (DNA,using) MOD_ATT:N-N (lambda,SPXXX) COMP_of:N-N (bank,DNA) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (polymerase,RNA) COMP_from:V-N (transcribed,DNA) MOD_ATT:N-N (DNA,total) SUBJ:V-N (transcribed,RNA) MOD_ATT:N-N (DNA,SPXXX) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) SUBJ:V_PASS-N (hybridized,29-containing) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) OBJ:V-N (cloned,DNA) COMP_in:V-N (transcribed,vitro) OBJ:V-N (was,29-containing) COMP_into:V-N (cloned,lambda) Parse 483 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------COMP_from:N-N--------------+ | +----COMP_in:N-N----+ +-----------COMP_by:N-N----------+----------OBJ:V-N---------+ +-------------OBJ:V-N-------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +MOD_ATT:N-N+ +COMP_into:V_PASS-+ +SUBJ:V_+ | | +MOD_+ +MOD_A+ +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+ +MOD_AT+----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) COMP_into:V_PASS-N (cloned,lambda) COMP_by:N-N (DNA,RNA) SUBJ:V_PASS-N (cloned,fragments) SUBJ:V-N (hybridized,RNA) COMP_in:N-N (RNA,vitro) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (was,RNA) OBJ:V-N (hybridized,fragments) MOD_ATT:N-N (sigma,using) Parse 484 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------COMP_from:N-N--------------+--------------------------OBJ:V-N--------------------------+ | | +MOD_ATT:N-+ +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +MOD_ATT:N-N+-------SUBJ:V-N------+-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ +COMP_into:V+MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (RNA,sigma) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (DNA,SPXXX) COMP_into:V-N (cloned,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) COMP_by:N-N (DNA,using) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (cloned,lambda) SUBJ:V-N (been,fragments) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 485 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------COMP_from:N-N--------------+ +---------OBJ:V-N--------+----------OBJ:V-N---------+ | +-----------------COMP_into:N-N----------------+ | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ +----------OBJ:V-N---------+-----------OBJ:V-N----------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+ +-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:N-N (DNA,lambda) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (was,polymerase) OBJ:V-N (using,RNA) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) COMP_by:N-V (DNA,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) OBJ:V-N (hybridized,DNA) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (cloned,DNA) OBJ:V-N (was,RNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 486 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +------------------------COMP_into:N-N-----------------------+ | +--------COMP_from:V_PASS-N-------+ +----------------------OBJ:V-N----------------------+ | | +----------SUBJ:V_PASS-N----------+ | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | | +----------SUBJ:V-N---------+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+SUBJ:V+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (RNA,sigma) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) MOD_ATT:N-ADJ (RNA,29-containing) SUBJ:V-N (fragments,DNA) SUBJ:V-N (been,SPXXX) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_by:N-N (DNA,using) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (cloned,SPXXX) Parse 487 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------COMP_from:N-N--------------+--------------------------OBJ:V-N--------------------------+ | +-------------COMP_into:N-N-------------+ | +MOD_ATT:N-+ +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ +-------------OBJ:V-N-------------+----SUBJ:V_PASS-N----+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+ +MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (RNA,sigma) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (hybridized,fragments) COMP_into:N-N (fragments,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) COMP_by:N-N (DNA,using) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 488 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------COMP_from:N-N--------------+ | +------------------------COMP_into:N-N-----------------------+ +----COMP_in:N-N----+ +-----------COMP_by:N-N----------+----------OBJ:V-N---------+ | +------------------OBJ:V-N-----------------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | | +MOD_ATT:N-N+-------SUBJ:V-N------+ | +SUBJ:V_+ | | +MOD_+ +MOD_A+ +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) COMP_by:N-N (DNA,RNA) SUBJ:V-N (hybridized,RNA) MOD_ATT:N-N (DNA,total) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (cloned,bank) COMP_into:N-N (bank,lambda) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) OBJ:V-N (was,RNA) MOD_ATT:N-N (sigma,using) Parse 489 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------COMP_from:N-N--------------+ +------------------------------COMP_into:V-N------------------------------+ +----COMP_in:N-N----+ | +----------------------OBJ:V-N----------------------+ | +----------SUBJ:V_PASS-N----------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +----------SUBJ:V-N---------+ | | +SUBJ:V_+ | | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+SUBJ:V+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_by:N-N (DNA,using) COMP_from:N-N (RNA,DNA) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,SPXXX) SUBJ:V-N (hybridized,RNA) MOD_ATT:N-N (RNA,sigma) COMP_into:V-N (hybridized,lambda) SUBJ:V-N (fragments,DNA) COMP_in:N-N (RNA,vitro) SUBJ:V-N (been,SPXXX) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (lambda,SPXXX) Parse 490 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +-------------------COMP_by:N-N-------------------+----------------------OBJ:V-N----------------------+ | | +--------COMP_from:V_PASS-N-------+ | +-------MOD_ATT:N-N-------+ | | +--------------------OBJ:V-N-------------------+ | | +MOD_ATT:N-+ | | +-MOD_ATT:N-ADJ-+------SUBJ:V-N-----+ | +-COMP_of:N-N-+ +----------------SUBJ:V-N---------------+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | | +MOD_AT+---APPOS---+ | +-COMP_to:V-N+ +MOD_+ +----SUBJ:V_PASS-N----+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (cloned,SPXXX) COMP_of:N-N (bank,DNA) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) COMP_by:N-N (RNA,using) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) MOD_ATT:N-ADJ (polymerase,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) OBJ:V-N (lambda,DNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) MOD_ATT:N-N (polymerase,sigma) Parse 491 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +-------------------COMP_by:N-N-------------------+ | +------------------------COMP_into:N-N-----------------------+ +--------------COMP_from:N-N--------------+ +----------------------OBJ:V-N----------------------+ | +------------------OBJ:V-N-----------------+ | | +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+------SUBJ:V-N-----+ | | +-------SUBJ:V-N------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (RNA,29-containing) OBJ:V-N (cloned,bank) MOD_ATT:N-N (DNA,total) COMP_by:N-N (RNA,using) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (polymerase,sigma) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (cloned,fragments) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 492 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------------------------OBJ:V-N--------------------------+ | +--------------COMP_from:N-N--------------+-----------COMP_by:N-N----------+ | | +------------------------COMP_into:N-N-----------------------+ | +MOD_ATT:N-+ +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +------------------OBJ:V-N-----------------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ +MOD_A+ +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+ +MOD_AT+-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) SUBJ:V-N (was,polymerase) COMP_by:N-N (DNA,RNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (sigma,using) OBJ:V-N (cloned,bank) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (lambda,SPXXX) COMP_into:N-N (bank,lambda) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 493 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------------------------OBJ:V-N--------------------------+ | +--------------------OBJ:V-N-------------------+ | +--------COMP_from:V_PASS-N-------+ +-------MOD_ATT:N-N-------+ | | | +----------------SUBJ:V-N---------------+ | | +MOD_ATT:N-+ | +--MOD_ATT:N-N--+------SUBJ:V-N-----+ +----------OBJ:V-N---------+ +----------COMP_into:N-N----------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | | +MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+ +----SUBJ:V_PASS-N----+ | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_into:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) SUBJ:V-N (lambda,fragments) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (polymerase,29-containing) OBJ:V-N (hybridized,DNA) COMP_by:N-N (DNA,using) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (lambda,DNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) MOD_ATT:N-N (polymerase,sigma) Parse 494 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------------------------OBJ:V-N--------------------------+ | +--------------COMP_from:N-N--------------+-----------COMP_by:N-N----------+ | +------------------------------COMP_into:V-N------------------------------+ +----COMP_in:N-N----+ | +-------MOD_ATT:N-N------+ | +-------------OBJ:V-N-------------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | +SUBJ:V_+ | | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) COMP_by:N-N (DNA,RNA) SUBJ:V_PASS-N (cloned,fragments) SUBJ:V-N (hybridized,RNA) MOD_ATT:N-N (DNA,total) COMP_into:V-N (hybridized,lambda) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (lambda,SPXXX) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (RNA,using) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (fragments,DNA) SUBJ:V-N (been,fragments) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (hybridized,fragments) Parse 495 +------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------+ | +-----------------------SUBJ:V_PASS-N----------------------+ | | +-------------COMP_by:V_PASS-N------------+----------------------OBJ:V-N----------------------+ | | | +--------COMP_from:V_PASS-N-------+ | +-------MOD_ATT:N-N-------+ | | +-----COMP_of:N-N----+ | | | +MOD_ATT:N-+ | | +-MOD_ATT:N-ADJ-+------SUBJ:V-N-----+ | | +MOD_ATT:N-N+ +-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | | +MOD_AT+---APPOS---+ | +COMP_to:V_PA+ | +MOD_AT+ +COMP_into:V+MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (cloned,lambda) COMP_of:N-N (bank,fragments) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) COMP_from:V_PASS-N (transcribed,DNA) SUBJ:V-N (cloned,RNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) COMP_to:V_PASS-N (hybridized,bank) MOD_ATT:N-ADJ (polymerase,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (hybridized,using) COMP_by:V_PASS-N (transcribed,using) COMP_in:V_PASS-N (transcribed,vitro) MOD_ATT:N-N (polymerase,sigma) Parse 496 +------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------+ | +----------------------COMP_of:N-N----------------------+ | | +------------------COMP_to:N-N-----------------+ | | | +-----------COMP_by:N-N----------+----------SUBJ:V_PASS-N----------+ | | | | +--------COMP_from:V_PASS-N-------+ +-------MOD_ATT:N-N------+----------OBJ:V-N---------+ | | | | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | | | +-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | | | +MOD_+SUBJ:V+ +COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . SUBJ:V-N (was,polymerase) COMP_by:N-N (DNA,RNA) COMP_from:V_PASS-N (transcribed,DNA) SUBJ:V-N (cloned,RNA) COMP_of:N-N (RNA,SPXXX) COMP_to:N-N (RNA,bank) SUBJ:V_PASS-N (hybridized,RNA) MOD_ATT:N-N (RNA,sigma) SUBJ:V-N (fragments,DNA) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (RNA,using) OBJ:V-N (cloned,lambda) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) COMP_into:V-N (cloned,SPXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (was,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 497 +-------------------------OBJ:V-N-------------------------+ +---------------COMP_by:V-N---------------+ +---------------SUBJ:V_PASS-N--------------+ +----------------SUBJ:V-N---------------+ +----------COMP_from:V-N----------+ | +--------------OBJ:V-N--------------+ | +----------COMP_into:N-N----------+ | | +MOD_ATT:N-+ | | +------SUBJ:V-N-----+ | +MOD_ATT:N-N+----SUBJ:V_PASS-N----+ | | +SUBJ:V-+COMP_in:V-N+ | +MOD_+ | +MOD_ATT:N+ +MOD_AT+---APPOS---+ | +COMP_to:V_PA+COMP_of:+ +MOD_AT+----SUBJ:V-N---+ | | | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (transcribed,29-containing) MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,SPXXX) COMP_into:N-N (fragments,SPXXX) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) SUBJ:V-N (lambda,fragments) MOD_ATT:N-N (polymerase,RNA) COMP_from:V-N (transcribed,DNA) SUBJ:V_PASS-N (cloned,fragments) SUBJ:V-N (transcribed,RNA) COMP_to:V_PASS-N (hybridized,bank) SUBJ:V_PASS-N (hybridized,29-containing) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-ADJ (DNA,total) COMP_by:V-N (transcribed,using) SUBJ:V-N (been,fragments) COMP_in:V-N (transcribed,vitro) OBJ:V-N (was,29-containing) Parse 498 +------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------+ | +------------------------------COMP_to:N-N------------------------------+ | | +--------------------------OBJ:V-N-------------------------+ | | +-------------------COMP_by:N-N-------------------+ +-------------SUBJ:V-N------------+ | | | +--------COMP_from:V_PASS-N-------+ | +----------OBJ:V-N---------+ | | | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +-----COMP_of:N-N----+ +-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | | | +MOD_+MOD_AT+----SUBJ:V-N---+ +COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (cloned,lambda) COMP_of:N-N (bank,fragments) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) SUBJ:V-N (cloned,RNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (RNA,sigma) COMP_by:N-N (RNA,using) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (RNA,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) MOD_ATT:N-ADJ (DNA,total) SUBJ:V-N (hybridized,RNA) COMP_to:N-N (using,bank) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) OBJ:V-N (was,RNA) COMP_in:V_PASS-N (transcribed,vitro) OBJ:V-N (hybridized,using) Parse 499 +------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------+ | +------------------COMP_to:N-N-----------------+ | +--------------------------------COMP_by:N-N-------------------------------+----------SUBJ:V_PASS-N----------+ | | | +--------COMP_from:V_PASS-N-------+ +-------MOD_ATT:N-N------+----------OBJ:V-N---------+ | +--------------SUBJ:V-N--------------+ | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +-----COMP_of:N-N----+ | +-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+ +---APPOS---+ | | | +MOD_+MOD_AT+ | +COMP_into:V+MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (cloned,lambda) COMP_by:N-N (RNA,RNA) COMP_of:N-N (bank,fragments) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) SUBJ:V-N (cloned,RNA) MOD_ATT:N-N (fragments,DNA) SUBJ:V-N (been,bank) COMP_to:N-N (RNA,bank) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (RNA,using) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) COMP_into:V-N (cloned,SPXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (lambda,SPXXX) OBJ:V-N (was,RNA) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (hybridized,RNA) Parse 500 +------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------+ | +------------------------------COMP_to:N-N------------------------------+ | | +--------------------------OBJ:V-N-------------------------+ | | | | +-----------------SUBJ:V-N-----------------+ +--------------SUBJ:V-N--------------+ | | +--------COMP_from:V_PASS-N-------+ | +--------------OBJ:V-N--------------+ | +-----COMP_of:N-N----+ | | | | +MOD_ATT:N-+ | | +------SUBJ:V-N-----+ | | +MOD_ATT:N-N+ | +-----OBJ:V-N-----+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ +MOD_ATT:N+ +MOD_AT+---APPOS---+ | | | | +MOD_AT+ | +COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . OBJ:V-N (cloned,lambda) MOD_ATT:N-N (29-containing,sigma) COMP_of:N-N (bank,fragments) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) SUBJ:V-N (cloned,RNA) MOD_ATT:N-N (fragments,DNA) SUBJ:V-N (been,bank) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (hybridized,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) COMP_into:V-N (cloned,SPXXX) MOD_ATT:N-ADJ (DNA,total) COMP_to:N-N (using,bank) COMP_by:N-N (DNA,using) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (was,29-containing) COMP_in:V_PASS-N (transcribed,vitro) OBJ:V-N (hybridized,using) Parse 501 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +-------------------COMP_by:N-N-------------------+----------------------OBJ:V-N----------------------+ | +--------------COMP_from:N-N--------------+ | +-------MOD_ATT:N-N-------+ | | +----------------SUBJ:V-N---------------+ | +MOD_ATT:N-+ | | +-MOD_ATT:N-ADJ-+------SUBJ:V-N-----+ | +----SUBJ:V_PASS-N----+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | | +MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ +COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (cloned,SPXXX) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) MOD_ATT:N-N (fragments,DNA) SUBJ:V-N (lambda,fragments) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) COMP_by:N-N (RNA,using) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) MOD_ATT:N-ADJ (polymerase,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) MOD_ATT:N-N (polymerase,sigma) Parse 502 +---------------------------------------------------------------------------------COMP_into:V-N--------------------------------------------------------------------------------+ | +----------------------COMP_to:N-N----------------------+ | +-------------------------OBJ:V-N-------------------------+------------------OBJ:V-N-----------------+ | | +---------------COMP_by:V-N---------------+ | +-------------SUBJ:V-N------------+ | | +----------COMP_from:V-N----------+ | | +----------OBJ:V-N---------+ | +------------------OBJ:V-N-----------------+ | | +MOD_ATT:N-+ | | | +------SUBJ:V-N-----+ | +-COMP_of:N-N-+ +-------SUBJ:V-N------+ | +SUBJ:V-+COMP_in:V-N+ | +MOD_+ | +MOD_ATT:N+ | +---APPOS---+ | | | +MOD_+ +----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) COMP_to:N-N (29-containing,bank) OBJ:V-N (transcribed,29-containing) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V-N (transcribed,DNA) OBJ:V-N (cloned,bank) SUBJ:V-N (transcribed,RNA) MOD_ATT:N-N (DNA,SPXXX) COMP_into:V-N (transcribed,lambda) SUBJ:V-N (hybridized,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) COMP_by:V-N (transcribed,using) SUBJ:V-N (been,fragments) MOD_ATT:N-ADJ (DNA,total) OBJ:V-N (hybridized,29-containing) OBJ:V-N (was,RNA) COMP_of:N-N (bank,DNA) COMP_in:V-N (transcribed,vitro) Parse 503 +---------------------------------------------------COMP_to:V-N---------------------------------------------------+ | +------------------OBJ:V-N-----------------+ | +-------------------------OBJ:V-N-------------------------+ +-------------SUBJ:V-N------------+ | +----------COMP_from:V-N----------+ | +----------OBJ:V-N---------+ | | +----------------SUBJ:V-N---------------+ | +MOD_ATT:N-+ | | +------SUBJ:V-N-----+ | | +----------COMP_into:N-N----------+ | +SUBJ:V-+COMP_in:V-N+ | +MOD_+COMP_by+ +MOD_ATT:N+ | +---APPOS---+ | | +COMP_of:+MOD_+MOD_AT+----SUBJ:V_PASS-N----+ | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) OBJ:V-N (transcribed,29-containing) COMP_to:V-N (transcribed,bank) COMP_of:N-N (bank,SPXXX) COMP_into:N-N (fragments,SPXXX) OBJ:V-N (hybridized,29-containing) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) COMP_from:V-N (transcribed,DNA) SUBJ:V_PASS-N (cloned,fragments) SUBJ:V-N (transcribed,RNA) COMP_by:N-N (DNA,using) MOD_ATT:N-N (DNA,SPXXX) APPOS (polymerase,GENEXXX) MOD_ATT:N-N (DNA,SPXXX) MOD_ATT:N-ADJ (DNA,total) SUBJ:V-N (hybridized,RNA) SUBJ:V-N (lambda,fragments) OBJ:V-N (was,RNA) COMP_in:V-N (transcribed,vitro) Parse 504 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------COMP_from:N-N--------------+ +----------------------OBJ:V-N----------------------+ | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ +----------OBJ:V-N---------+-----------OBJ:V-N----------+--COMP_into:V-N--+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+ | +-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (RNA,sigma) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (lambda,SPXXX) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) OBJ:V-N (hybridized,DNA) COMP_by:N-N (DNA,using) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (cloned,DNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) COMP_into:V-N (cloned,lambda) Parse 505 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +----------------------OBJ:V-N----------------------+ | +-------------------COMP_into:N-N-------------------+ +--------------COMP_from:N-N--------------+ | +-------MOD_ATT:N-N-------+ | | +----------SUBJ:V_PASS-N----------+ | | +MOD_ATT:N-+ | | +-MOD_ATT:N-ADJ-+------SUBJ:V-N-----+ | +----------SUBJ:V-N---------+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | | +MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+SUBJ:V+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:N-N (SPXXX,lambda) COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (fragments,DNA) SUBJ:V-N (been,SPXXX) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) MOD_ATT:N-ADJ (polymerase,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) COMP_by:N-N (DNA,using) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) SUBJ:V_PASS-N (cloned,SPXXX) MOD_ATT:N-N (polymerase,sigma) Parse 506 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------COMP_from:N-N--------------+ | +-----------------COMP_into:N-N----------------+ +----COMP_in:N-N----+ | +----------------------OBJ:V-N----------------------+ | +-----------OBJ:V-N----------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +-------MOD_ATT:N-N-------+------SUBJ:V-N-----+ +----------OBJ:V-N---------+ +-------SUBJ:V-N------+ | +SUBJ:V_+ | | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+ +----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:N-N (DNA,lambda) COMP_of:N-N (bank,SPXXX) COMP_by:N-N (DNA,using) COMP_from:N-N (RNA,DNA) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (RNA,29-containing) OBJ:V-N (cloned,DNA) SUBJ:V-N (hybridized,RNA) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (hybridized,DNA) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) SUBJ:V-N (cloned,fragments) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) Parse 507 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------COMP_from:N-N--------------+--------------------------OBJ:V-N--------------------------+ | | +MOD_ATT:N-+ +-------MOD_ATT:N-N-------+------SUBJ:V-N-----+ +-------------OBJ:V-N-------------+-------------COMP_into:N-N-------------+ +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+ +MOD_AT+----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) SUBJ:V-N (was,polymerase) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (hybridized,fragments) COMP_into:N-N (fragments,lambda) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (RNA,29-containing) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) COMP_by:N-N (DNA,using) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 508 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +--------COMP_from:V_PASS-N-------+--------------------------OBJ:V-N--------------------------+ | +-----------------COMP_into:N-N----------------+ | | +MOD_ATT:N-+ +-------MOD_ATT:N-N-------+------SUBJ:V-N-----+ +----------OBJ:V-N---------+-----------OBJ:V-N----------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+ | +-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:N-N (DNA,lambda) COMP_of:N-N (bank,SPXXX) SUBJ:V-N (was,polymerase) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (polymerase,sigma) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) MOD_ATT:N-ADJ (DNA,total) OBJ:V-N (hybridized,DNA) COMP_by:N-N (DNA,using) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (cloned,DNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 509 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ | +----------------------OBJ:V-N----------------------+ | +------------------------COMP_into:N-N-----------------------+ +--------------COMP_from:N-N--------------+ | +-------MOD_ATT:N-N-------+ | | +---------------SUBJ:V_PASS-N--------------+ | | +MOD_ATT:N-+ | | +-MOD_ATT:N-ADJ-+------SUBJ:V-N-----+ | +--------------SUBJ:V-N--------------+ | | +SUBJ:V_+COMP_in:V_P+ | +MOD_+COMP_by+ | | +MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+SUBJ:V+ | | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (lambda,SPXXX) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) SUBJ:V-N (been,bank) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (fragments,DNA) COMP_into:N-N (bank,lambda) MOD_ATT:N-N (DNA,SPXXX) COMP_to:V-N (hybridized,bank) MOD_ATT:N-ADJ (polymerase,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) COMP_by:N-N (DNA,using) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (cloned,bank) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) MOD_ATT:N-N (polymerase,sigma) Parse 510 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +-------------------COMP_by:N-N-------------------+ +------------------------------COMP_into:V-N------------------------------+ | +--------COMP_from:V_PASS-N-------+ +----------------------OBJ:V-N----------------------+ +-------------OBJ:V-N-------------+ | | | +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +MOD_ATT:N-N+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+ +MOD_AT+----SUBJ:V_PASS-N----+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (RNA,sigma) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) COMP_from:V_PASS-N (transcribed,DNA) MOD_ATT:N-N (fragments,DNA) OBJ:V-N (hybridized,fragments) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) COMP_into:V-N (hybridized,lambda) MOD_ATT:N-ADJ (RNA,29-containing) COMP_by:N-N (RNA,using) COMP_to:V-N (hybridized,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) Parse 511 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------COMP_from:N-N--------------+--------------------------OBJ:V-N--------------------------+ | +----COMP_in:N-N----+ +-----------COMP_by:N-N----------+ | | +--------------------OBJ:V-N-------------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ +----------OBJ:V-N---------+ +----------------SUBJ:V-N---------------+ +SUBJ:V_+ | | +MOD_+ +MOD_A+ +MOD_ATT:+ +---APPOS---+ | +-COMP_to:V-N+COMP_of:+ | +----SUBJ:V_PASS-N----+COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:V_PASS-N (cloned,SPXXX) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (RNA,sigma) COMP_from:N-N (RNA,DNA) SUBJ:V-N (was,polymerase) SUBJ:V-N (lambda,fragments) COMP_by:N-N (DNA,RNA) SUBJ:V_PASS-N (cloned,fragments) SUBJ:V-N (hybridized,RNA) COMP_in:N-N (RNA,vitro) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) OBJ:V-N (hybridized,DNA) SUBJ:V_PASS-N (transcribed,RNA) OBJ:V-N (was,DNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (lambda,DNA) MOD_ATT:N-N (sigma,using) Parse 512 +------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------+ | +------------------------------COMP_to:N-N------------------------------+ | | +--------------------------OBJ:V-N-------------------------+ | | +--------------COMP_from:N-N--------------+ | +-----------------SUBJ:V-N-----------------+ | | +----COMP_in:N-N----+ | | +--------------OBJ:V-N--------------+ | +-----COMP_of:N-N----+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | | +------SUBJ:V-N-----+ | | +MOD_ATT:N-N+ +-----OBJ:V-N-----+ +SUBJ:V_+ | | +MOD_+COMP_by+ +MOD_ATT:N+ +MOD_AT+---APPOS---+ | | | | +MOD_AT+----SUBJ:V-N---+ +COMP_into:V+ | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . MOD_ATT:N-N (29-containing,sigma) COMP_by:N-N (DNA,using) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) SUBJ:V-N (cloned,RNA) MOD_ATT:N-N (fragments,DNA) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (hybridized,29-containing) COMP_in:N-N (RNA,vitro) COMP_of:N-N (bank,fragments) MOD_POST:N-ADJ (RNA,vitro) OBJ:V-N (cloned,lambda) COMP_into:V-N (cloned,SPXXX) COMP_to:N-N (using,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) OBJ:V-N (was,29-containing) OBJ:V-N (hybridized,using) Parse 513 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------COMP_from:N-N--------------+ | +----COMP_in:N-N----+ | +----------------------OBJ:V-N----------------------+ +-------------OBJ:V-N-------------+ +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +MOD_ATT:N-N+----SUBJ:V_PASS-N----+COMP_into:V_PASS-+ +SUBJ:V_+ | | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+MOD_+MOD_AT+----SUBJ:V-N---+ | +MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_by:N-N (DNA,using) COMP_from:N-N (RNA,DNA) MOD_ATT:N-N (fragments,SPXXX) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) MOD_ATT:N-N (fragments,DNA) COMP_into:V_PASS-N (cloned,lambda) MOD_ATT:N-N (polymerase,RNA) SUBJ:V-N (hybridized,RNA) MOD_ATT:N-N (RNA,sigma) SUBJ:V_PASS-N (cloned,fragments) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (lambda,SPXXX) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-ADJ (DNA,total) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) OBJ:V-N (hybridized,fragments) Parse 514 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +--------------------OBJ:V-N-------------------+ +--------------COMP_from:N-N--------------+ | | +----------------SUBJ:V-N---------------+ +----COMP_in:N-N----+ | +----------------------OBJ:V-N----------------------+ | | +----------COMP_into:N-N----------+ | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +-COMP_of:N-N-+ +----SUBJ:V_PASS-N----+ | | +SUBJ:V_+ | | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ | +-COMP_to:V-N+ +MOD_+ +----SUBJ:V-N---+ | | | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . SUBJ:V-N (lambda,fragments) COMP_by:N-N (DNA,using) COMP_into:N-N (fragments,SPXXX) COMP_from:N-N (RNA,DNA) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) SUBJ:V-N (hybridized,RNA) MOD_ATT:N-N (RNA,sigma) MOD_ATT:N-N (DNA,total) COMP_in:N-N (RNA,vitro) COMP_to:V-N (hybridized,bank) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (been,fragments) COMP_of:N-N (bank,DNA) OBJ:V-N (lambda,DNA) Parse 515 +------------------------------------------------------------------------------SUBJ:V-N------------------------------------------------------------------------------+ | +------------------------------COMP_to:N-N------------------------------+ | +--------------COMP_from:N-N--------------+ +-----------------------SUBJ:V_PASS-N----------------------+ | | +----COMP_in:N-N----+ | +----------------------OBJ:V-N----------------------+ | | | +---MOD_POST:N-ADJ--+ +MOD_ATT:N-+ | +----MOD_ATT:N-N---+ +------SUBJ:V-N-----+ | +--------------SUBJ:V-N--------------+ +-----OBJ:V-N-----+ +SUBJ:V_+ | | +MOD_+COMP_by+ | +MOD_ATT:+MOD_AT+---APPOS---+ | | +COMP_of:+MOD_+SUBJ:V+ | +COMP_into:V+MOD_A+ | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . SUBJ:V-N (was,polymerase) COMP_of:N-N (bank,SPXXX) MOD_ATT:N-N (RNA,sigma) COMP_by:N-N (DNA,using) COMP_from:N-N (RNA,DNA) OBJ:V-N (was,using) SUBJ:V-N (cloned,RNA) SUBJ:V_PASS-N (hybridized,using) SUBJ:V-N (been,bank) MOD_ATT:N-N (polymerase,RNA) MOD_ATT:N-N (DNA,total) SUBJ:V-N (fragments,DNA) COMP_in:N-N (RNA,vitro) MOD_ATT:N-N (lambda,SPXXX) MOD_POST:N-ADJ (RNA,vitro) MOD_ATT:N-N (DNA,SPXXX) COMP_into:V-N (cloned,SPXXX) COMP_to:N-N (using,bank) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) MOD_ATT:N-ADJ (RNA,29-containing) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (cloned,lambda) Parse 516 +----------------------COMP_to:N-N----------------------+ +------------------OBJ:V-N-----------------+ | +-------------------------OBJ:V-N-------------------------+ +-------------SUBJ:V-N------------+ | +----------COMP_from:V-N----------+ | +----------OBJ:V-N---------+ | | +-----------------COMP_into:N-N----------------+ | +MOD_ATT:N-+ | | +------SUBJ:V-N-----+ | +-COMP_of:N-N-+-----------OBJ:V-N----------+ | +SUBJ:V-+COMP_in:V-N+ | +MOD_+COMP_by+ +MOD_ATT:N+ | +---APPOS---+ | | | +MOD_+ +-------SUBJ:V-N------+ +MOD_A+ | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_into:N-N (DNA,lambda) COMP_to:N-N (29-containing,bank) OBJ:V-N (transcribed,29-containing) MOD_ATT:N-N (29-containing,sigma) COMP_by:N-N (DNA,using) OBJ:V-N (hybridized,29-containing) COMP_of:N-N (bank,DNA) SUBJ:V-N (was,polymerase) COMP_from:V-N (transcribed,DNA) MOD_ATT:N-N (DNA,total) SUBJ:V-N (transcribed,RNA) MOD_ATT:N-N (lambda,SPXXX) MOD_ATT:N-N (DNA,SPXXX) APPOS (polymerase,GENEXXX) SUBJ:V-N (cloned,fragments) SUBJ:V-N (hybridized,RNA) MOD_ATT:N-N (DNA,SPXXX) OBJ:V-N (cloned,DNA) OBJ:V-N (was,RNA) COMP_in:V-N (transcribed,vitro) Parse 517 +--------------------------------------------------SUBJ:V-N--------------------------------------------------+ +-------------------COMP_by:N-N-------------------+----------------------OBJ:V-N----------------------+ | +--------------------OBJ:V-N-------------------+ +--------------COMP_from:N-N--------------+ | +-------MOD_ATT:N-N-------+ | | | +----------------SUBJ:V-N---------------+ | +MOD_ATT:N-+ | | +-MOD_ATT:N-ADJ-+------SUBJ:V-N-----+ +----------OBJ:V-N---------+ +----------COMP_into:N-N----------+ | +SUBJ:V_+COMP_in:V_P+ | +MOD_+ | | | +MOD_AT+---APPOS---+ | +-COMP_to:V-N+COMP_of:+ | +----SUBJ:V_PASS-N----+ | | | | | | | | | | | | | | | | | | | | | | | RNA transcribed in vitro from total SPXXX DNA by using sigma 29-containing RNA polymerase ( GENEXXX ) was hybridized to a bank of SPXXX DNA fragments that had been cloned into SPXXX lambda . COMP_of:N-N (bank,SPXXX) COMP_into:N-N (fragments,SPXXX) COMP_from:N-N (RNA,DNA) SUBJ:V-N (was,polymerase) OBJ:V-N (was,using) MOD_ATT:N-N (polymerase,RNA) SUBJ:V_PASS-N (cloned,fragments) MOD_ATT:N-N (DNA,total) COMP_by:N-N (RNA,using) COMP_to:V-N (hybridized,bank) MOD_ATT:N-ADJ (polymerase,29-containing) SUBJ:V_PASS-N (transcribed,RNA) APPOS (polymerase,GENEXXX) OBJ:V-N (hybridized,DNA) MOD_ATT:N-N (DNA,SPXXX) SUBJ:V-N (lambda,fragments) OBJ:V-N (lambda,DNA) SUBJ:V-N (hybridized,RNA) COMP_in:V_PASS-N (transcribed,vitro) MOD_ATT:N-N (polymerase,sigma) PMID: 3134591-1 Sentence 9 Nuclease S1 mapping was used to identify the transcription start points of the GENEXXX and GENEXXX operons of SPXXX . Parse 0 +------------COMP_of:N-N-----------+ +MOD_ATT:N-N+---SUBJ:V_PASS-N---+------------OBJ:V-N------------+ +----MOD_ATT:N-N----+ | +MOD_A+SUBJ:V_PA+ | +MOD_ATT:N+MOD_A+ | +MOD_ATT+COMP_of:N+ | | | | | | | | | | | | Nuclease S1 mapping was used to identify the transcription start points of the GENEXXX and GENEXXX operons of SPXXX . SUBJ:V_PASS-N (identify,mapping) MOD_ATT:N-N (mapping,Nuclease) MOD_ATT:N-N (start,transcription) MOD_ATT:N-N (points,start) OBJ:V-N (identify,points) COMP_of:N-N (points,operons) COMP_of:N-N (operons,SPXXX) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (operons,GENEXXX) MOD_ATT:N-N (operons,GENEXXX) SUBJ:V_PASS-N (used,mapping) Parse 1 +------------OBJ:V-N------------+------------COMP_of:N-N-----------+ +MOD_ATT:N-N+---SUBJ:V_PASS-N---+ +--MOD_ATT:N-N--+ +----MOD_ATT:N-N----+ | +MOD_A+SUBJ:V_PA+ | | +MOD_A+ | +MOD_ATT+COMP_of:N+ | | | | | | | | | | | | Nuclease S1 mapping was used to identify the transcription start points of the GENEXXX and GENEXXX operons of SPXXX . SUBJ:V_PASS-N (identify,mapping) MOD_ATT:N-N (mapping,Nuclease) MOD_ATT:N-N (points,transcription) MOD_ATT:N-N (points,start) OBJ:V-N (identify,points) COMP_of:N-N (points,operons) COMP_of:N-N (operons,SPXXX) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (operons,GENEXXX) MOD_ATT:N-N (operons,GENEXXX) SUBJ:V_PASS-N (used,mapping) Parse 2 +-----------------COMP_of:N-N----------------+ +------------COMP_of:N-N-----------+ | +MOD_ATT:N-N+---SUBJ:V_PASS-N---+------------OBJ:V-N------------+ +----MOD_ATT:N-N----+ | | +MOD_A+SUBJ:V_PA+ | +MOD_ATT:N+MOD_A+ | +MOD_ATT+ | | | | | | | | | | | | | Nuclease S1 mapping was used to identify the transcription start points of the GENEXXX and GENEXXX operons of SPXXX . SUBJ:V_PASS-N (identify,mapping) MOD_ATT:N-N (mapping,Nuclease) MOD_ATT:N-N (start,transcription) MOD_ATT:N-N (points,start) OBJ:V-N (identify,points) COMP_of:N-N (points,operons) COMP_of:N-N (points,SPXXX) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (operons,GENEXXX) SUBJ:V_PASS-N (used,mapping) MOD_ATT:N-N (operons,GENEXXX) Parse 3 +-----------------COMP_of:N-N----------------+ +------------OBJ:V-N------------+------------COMP_of:N-N-----------+ | +MOD_ATT:N-N+---SUBJ:V_PASS-N---+ +--MOD_ATT:N-N--+ +----MOD_ATT:N-N----+ | | +MOD_A+SUBJ:V_PA+ | | +MOD_A+ | +MOD_ATT+ | | | | | | | | | | | | | Nuclease S1 mapping was used to identify the transcription start points of the GENEXXX and GENEXXX operons of SPXXX . SUBJ:V_PASS-N (identify,mapping) MOD_ATT:N-N (mapping,Nuclease) MOD_ATT:N-N (points,transcription) MOD_ATT:N-N (points,start) OBJ:V-N (identify,points) COMP_of:N-N (points,operons) COMP_of:N-N (points,SPXXX) MOD_ATT:N-N (mapping,S1) MOD_ATT:N-N (operons,GENEXXX) SUBJ:V_PASS-N (used,mapping) MOD_ATT:N-N (operons,GENEXXX) Parse 4 +------------COMP_of:N-N-----------+ +MOD_ATT:N-N+ +------------OBJ:V-N------------+ +----MOD_ATT:N-N----+ | +MOD_A+ +COMP_to:V+ +MOD_ATT:N+MOD_A+ | +MOD_ATT+COMP_of:N+ | | | | | | | | | | | | Nuclease S1 mapping was used to identify the transcription start points of the GENEXXX and GENEXXX operons of SPXXX . MOD_ATT:N-N (mapping,Nuclease) MOD_ATT:N-N (start,transcription) OBJ:V-N (identify,points) COMP_of:N-N (operons,SPXXX) MOD_ATT:N-N (mapping,S1) COMP_to:V_PASS-V (used,identify) COMP_of:N-N (points,operons) MOD_ATT:N-N (operons,GENEXXX) MOD_ATT:N-N (points,start) MOD_ATT:N-N (operons,GENEXXX) Parse 5 +------------OBJ:V-N------------+------------COMP_of:N-N-----------+ +MOD_ATT:N-N+ | +--MOD_ATT:N-N--+ +----MOD_ATT:N-N----+ | +MOD_A+ +COMP_to:V+ | +MOD_A+ | +MOD_ATT+COMP_of:N+ | | | | | | | | | | | | Nuclease S1 mapping was used to identify the transcription start points of the GENEXXX and GENEXXX operons of SPXXX . MOD_ATT:N-N (mapping,Nuclease) MOD_ATT:N-N (points,transcription) OBJ:V-N (identify,points) COMP_of:N-N (operons,SPXXX) MOD_ATT:N-N (mapping,S1) COMP_to:V_PASS-V (used,identify) COMP_of:N-N (points,operons) MOD_ATT:N-N (operons,GENEXXX) MOD_ATT:N-N (points,start) MOD_ATT:N-N (operons,GENEXXX) Parse 6 +-----------------COMP_of:N-N----------------+ +------------COMP_of:N-N-----------+ | +MOD_ATT:N-N+ +------------OBJ:V-N------------+ +----MOD_ATT:N-N----+ | | +MOD_A+ +COMP_to:V+ +MOD_ATT:N+MOD_A+ | +MOD_ATT+ | | | | | | | | | | | | | Nuclease S1 mapping was used to identify the transcription start points of the GENEXXX and GENEXXX operons of SPXXX . MOD_ATT:N-N (mapping,Nuclease) MOD_ATT:N-N (start,transcription) OBJ:V-N (identify,points) MOD_ATT:N-N (mapping,S1) COMP_to:V_PASS-V (used,identify) COMP_of:N-N (points,SPXXX) COMP_of:N-N (points,operons) MOD_ATT:N-N (operons,GENEXXX) MOD_ATT:N-N (points,start) MOD_ATT:N-N (operons,GENEXXX) Parse 7 +-----------------COMP_of:N-N----------------+ +------------OBJ:V-N------------+------------COMP_of:N-N-----------+ | +MOD_ATT:N-N+ | +--MOD_ATT:N-N--+ +----MOD_ATT:N-N----+ | | +MOD_A+ +COMP_to:V+ | +MOD_A+ | +MOD_ATT+ | | | | | | | | | | | | | Nuclease S1 mapping was used to identify the transcription start points of the GENEXXX and GENEXXX operons of SPXXX . MOD_ATT:N-N (mapping,Nuclease) MOD_ATT:N-N (points,transcription) OBJ:V-N (identify,points) MOD_ATT:N-N (mapping,S1) COMP_to:V_PASS-V (used,identify) COMP_of:N-N (points,SPXXX) COMP_of:N-N (points,operons) MOD_ATT:N-N (operons,GENEXXX) MOD_ATT:N-N (points,start) MOD_ATT:N-N (operons,GENEXXX) Parse 8 +---------SUBJ:V-N--------+ +------------COMP_of:N-N-----------+ +--OBJ:V-N--+ +------------OBJ:V-N------------+ +----MOD_ATT:N-N----+ +MOD_A+ +SUBJ:+ +COMP_to:V+ +MOD_ATT:N+MOD_A+ | +MOD_ATT+COMP_of:N+ | | | | | | | | | | | | | Nuclease S1 mapping was used to identify the transcription start points of the GENEXXX and GENEXXX operons of SPXXX . COMP_of:N-N (points,operons) COMP_to:V-V (used,identify) MOD_ATT:N-N (start,transcription) SUBJ:V-N (identify,S1) OBJ:V-N (identify,points) COMP_of:N-N (operons,SPXXX) MOD_ATT:N-N (S1,Nuclease) SUBJ:V-N (was,mapping) MOD_ATT:N-N (operons,GENEXXX) MOD_ATT:N-N (operons,GENEXXX) MOD_ATT:N-N (points,start) OBJ:V-N (was,S1) Parse 9 +---------SUBJ:V-N--------+------------OBJ:V-N------------+------------COMP_of:N-N-----------+ +--OBJ:V-N--+ | +--MOD_ATT:N-N--+ +----MOD_ATT:N-N----+ +MOD_A+ +SUBJ:+ +COMP_to:V+ | +MOD_A+ | +MOD_ATT+COMP_of:N+ | | | | | | | | | | | | | Nuclease S1 mapping was used to identify the transcription start points of the GENEXXX and GENEXXX operons of SPXXX . COMP_of:N-N (points,operons) COMP_to:V-V (used,identify) SUBJ:V-N (identify,S1) OBJ:V-N (identify,points) MOD_ATT:N-N (points,transcription) COMP_of:N-N (operons,SPXXX) MOD_ATT:N-N (S1,Nuclease) SUBJ:V-N (was,mapping) MOD_ATT:N-N (operons,GENEXXX) MOD_ATT:N-N (operons,GENEXXX) MOD_ATT:N-N (points,start) OBJ:V-N (was,S1) Parse 10 +-----------------COMP_of:N-N----------------+ +---------SUBJ:V-N--------+ +------------COMP_of:N-N-----------+ | +--OBJ:V-N--+ +------------OBJ:V-N------------+ +----MOD_ATT:N-N----+ | +MOD_A+ +SUBJ:+ +COMP_to:V+ +MOD_ATT:N+MOD_A+ | +MOD_ATT+ | | | | | | | | | | | | | | Nuclease S1 mapping was used to identify the transcription start points of the GENEXXX and GENEXXX operons of SPXXX . COMP_of:N-N (points,operons) COMP_to:V-V (used,identify) MOD_ATT:N-N (start,transcription) SUBJ:V-N (identify,S1) OBJ:V-N (identify,points) COMP_of:N-N (points,SPXXX) MOD_ATT:N-N (S1,Nuclease) SUBJ:V-N (was,mapping) MOD_ATT:N-N (operons,GENEXXX) MOD_ATT:N-N (points,start) OBJ:V-N (was,S1) MOD_ATT:N-N (operons,GENEXXX) Parse 11 +-----------------COMP_of:N-N----------------+ +---------SUBJ:V-N--------+------------OBJ:V-N------------+------------COMP_of:N-N-----------+ | +--OBJ:V-N--+ | +--MOD_ATT:N-N--+ +----MOD_ATT:N-N----+ | +MOD_A+ +SUBJ:+ +COMP_to:V+ | +MOD_A+ | +MOD_ATT+ | | | | | | | | | | | | | | Nuclease S1 mapping was used to identify the transcription start points of the GENEXXX and GENEXXX operons of SPXXX . COMP_of:N-N (points,operons) COMP_to:V-V (used,identify) SUBJ:V-N (identify,S1) OBJ:V-N (identify,points) MOD_ATT:N-N (points,transcription) COMP_of:N-N (points,SPXXX) MOD_ATT:N-N (S1,Nuclease) SUBJ:V-N (was,mapping) MOD_ATT:N-N (operons,GENEXXX) MOD_ATT:N-N (points,start) OBJ:V-N (was,S1) MOD_ATT:N-N (operons,GENEXXX) Parse 12 +----SUBJ:V-N---+ +------------COMP_of:N-N-----------+ +--OBJ:V-N--+ +-----------------OBJ:V-N-----------------+ +----MOD_ATT:N-N----+ +MOD_A+ +SUBJ:+ +COMP_to:V+----OBJ:V-N----+ +MOD_A+ | +MOD_ATT+COMP_of:N+ | | | | | | | | | | | | | Nuclease S1 mapping was used to identify the transcription start points of the GENEXXX and GENEXXX operons of SPXXX . COMP_of:N-N (points,operons) COMP_to:V-V (used,identify) SUBJ:V-N (used,S1) COMP_of:N-N (operons,SPXXX) MOD_ATT:N-N (S1,Nuclease) OBJ:V-N (identify,transcription) SUBJ:V-N (was,mapping) MOD_ATT:N-N (operons,GENEXXX) MOD_ATT:N-N (operons,GENEXXX) MOD_ATT:N-N (points,start) OBJ:V-N (was,S1) OBJ:V-N (used,points) Parse 13 +----SUBJ:V-N---+-----------------OBJ:V-N-----------------+------------COMP_of:N-N-----------+ +--OBJ:V-N--+ | +---------OBJ:V-N---------+ | +----MOD_ATT:N-N----+ +MOD_A+ +SUBJ:+ +COMP_to:V+ +MOD_ATT:N+ | | +MOD_ATT+COMP_of:N+ | | | | | | | | | | | | | Nuclease S1 mapping was used to identify the transcription start points of the GENEXXX and GENEXXX operons of SPXXX . COMP_of:N-N (points,operons) COMP_to:V-V (used,identify) MOD_ATT:N-N (start,transcription) SUBJ:V-N (used,S1) COMP_of:N-N (operons,SPXXX) MOD_ATT:N-N (S1,Nuclease) SUBJ:V-N (was,mapping) MOD_ATT:N-N (operons,GENEXXX) MOD_ATT:N-N (operons,GENEXXX) OBJ:V-N (identify,start) OBJ:V-N (was,S1) OBJ:V-N (used,points) Parse 14 +-----------------COMP_of:N-N----------------+ +----SUBJ:V-N---+ +------------COMP_of:N-N-----------+ | +--OBJ:V-N--+ +-----------------OBJ:V-N-----------------+ +----MOD_ATT:N-N----+ | +MOD_A+ +SUBJ:+ +COMP_to:V+----OBJ:V-N----+ +MOD_A+ | +MOD_ATT+ | | | | | | | | | | | | | | Nuclease S1 mapping was used to identify the transcription start points of the GENEXXX and GENEXXX operons of SPXXX . COMP_of:N-N (points,operons) COMP_to:V-V (used,identify) SUBJ:V-N (used,S1) COMP_of:N-N (points,SPXXX) MOD_ATT:N-N (S1,Nuclease) OBJ:V-N (identify,transcription) SUBJ:V-N (was,mapping) MOD_ATT:N-N (operons,GENEXXX) MOD_ATT:N-N (points,start) OBJ:V-N (was,S1) OBJ:V-N (used,points) MOD_ATT:N-N (operons,GENEXXX) Parse 15 +-----------------COMP_of:N-N----------------+ +----SUBJ:V-N---+-----------------OBJ:V-N-----------------+------------COMP_of:N-N-----------+ | +--OBJ:V-N--+ | +---------OBJ:V-N---------+ | +----MOD_ATT:N-N----+ | +MOD_A+ +SUBJ:+ +COMP_to:V+ +MOD_ATT:N+ | | +MOD_ATT+ | | | | | | | | | | | | | | Nuclease S1 mapping was used to identify the transcription start points of the GENEXXX and GENEXXX operons of SPXXX . COMP_of:N-N (points,operons) COMP_to:V-V (used,identify) MOD_ATT:N-N (start,transcription) SUBJ:V-N (used,S1) COMP_of:N-N (points,SPXXX) MOD_ATT:N-N (S1,Nuclease) SUBJ:V-N (was,mapping) MOD_ATT:N-N (operons,GENEXXX) OBJ:V-N (identify,start) OBJ:V-N (was,S1) OBJ:V-N (used,points) MOD_ATT:N-N (operons,GENEXXX) PMID: 3919021-3 Sentence 10 We have now determined the 1809-base pair sequence of the GENEXXX coding region , which precedes GENEXXX and is transcribed in the same counterclockwise direction on the chromosome . Parse 0 +---------COMP_of:N-N---------+ +--------------------COMP_on:V_PASS-N--------------------+ +----SUBJ:V-N---+-----------OBJ:V-N----------+ +-MOD_ATT:N-N-+--------------SUBJ:V_PASS-N--------------+------------COMP_in:V_PASS-N-----------+ | | +MOD:V-+ +MOD_AT+MOD_AT+ | +MOD_AT+----SUBJ:V-N---+-OBJ:V-N+ | +MOD_ATT:N-ADJ+ | | | | | | | | | | | | | | | | We have now determined the 1809-base pair sequence of the GENEXXX coding region , which precedes GENEXXX and is transcribed in the same counterclockwise direction on the chromosome . MOD_ATT:N-N (region,GENEXXX) MOD_ATT:N-ADJ (direction,counterclockwise) MOD_ATT:N-N (pair,1809-base) SUBJ:V-N (precedes,region) COMP_of:N-N (sequence,region) OBJ:V-N (determined,sequence) COMP_on:V_PASS-N (transcribed,chromosome) MOD_ATT:N-ADJ (region,coding) SUBJ:V_PASS-N (transcribed,region) MOD_ATT:N-N (sequence,pair) MOD:V-ADV (determined,now) COMP_in:V_PASS-N (transcribed,direction) OBJ:V-N (precedes,GENEXXX) SUBJ:V-N (determined,We) Parse 1 +-----------OBJ:V-N----------+---------COMP_of:N-N---------+ +--------------------COMP_on:V_PASS-N--------------------+ +----SUBJ:V-N---+ +-MOD_ATT:N-N-+ +-MOD_ATT:N-N-+--------------SUBJ:V_PASS-N--------------+------------COMP_in:V_PASS-N-----------+ | | +MOD:V-+ | +MOD_AT+ | +MOD_AT+----SUBJ:V-N---+-OBJ:V-N+ | +MOD_ATT:N-ADJ+ | | | | | | | | | | | | | | | | We have now determined the 1809-base pair sequence of the GENEXXX coding region , which precedes GENEXXX and is transcribed in the same counterclockwise direction on the chromosome . MOD_ATT:N-N (region,GENEXXX) MOD_ATT:N-ADJ (direction,counterclockwise) SUBJ:V-N (precedes,region) COMP_of:N-N (sequence,region) OBJ:V-N (determined,sequence) COMP_on:V_PASS-N (transcribed,chromosome) MOD_ATT:N-N (sequence,1809-base) MOD_ATT:N-ADJ (region,coding) SUBJ:V_PASS-N (transcribed,region) MOD_ATT:N-N (sequence,pair) MOD:V-ADV (determined,now) COMP_in:V_PASS-N (transcribed,direction) OBJ:V-N (precedes,GENEXXX) SUBJ:V-N (determined,We) Parse 2 +-----------------------------SUBJ:V_PASS-N-----------------------------+ +-------------------SUBJ:V-N------------------+ | +---------COMP_of:N-N---------+ | +--------------------COMP_on:V_PASS-N--------------------+ +----SUBJ:V-N---+-----------OBJ:V-N----------+ +-MOD_ATT:N-N-+ | +------------COMP_in:V_PASS-N-----------+ | | +MOD:V-+ +MOD_AT+MOD_AT+ | +MOD_AT+ +-OBJ:V-N+ | +MOD_ATT:N-ADJ+ | | | | | | | | | | | | | | | | We have now determined the 1809-base pair sequence of the GENEXXX coding region , which precedes GENEXXX and is transcribed in the same counterclockwise direction on the chromosome . MOD_ATT:N-N (region,GENEXXX) MOD_ATT:N-ADJ (direction,counterclockwise) SUBJ:V_PASS-N (transcribed,sequence) MOD_ATT:N-N (pair,1809-base) SUBJ:V-N (precedes,sequence) COMP_of:N-N (sequence,region) OBJ:V-N (determined,sequence) COMP_on:V_PASS-N (transcribed,chromosome) MOD_ATT:N-ADJ (region,coding) MOD_ATT:N-N (sequence,pair) MOD:V-ADV (determined,now) COMP_in:V_PASS-N (transcribed,direction) OBJ:V-N (precedes,GENEXXX) SUBJ:V-N (determined,We) Parse 3 +-----------------------------SUBJ:V_PASS-N-----------------------------+ +-------------------SUBJ:V-N------------------+ | +-----------OBJ:V-N----------+---------COMP_of:N-N---------+ | +--------------------COMP_on:V_PASS-N--------------------+ +----SUBJ:V-N---+ +-MOD_ATT:N-N-+ +-MOD_ATT:N-N-+ | +------------COMP_in:V_PASS-N-----------+ | | +MOD:V-+ | +MOD_AT+ | +MOD_AT+ +-OBJ:V-N+ | +MOD_ATT:N-ADJ+ | | | | | | | | | | | | | | | | We have now determined the 1809-base pair sequence of the GENEXXX coding region , which precedes GENEXXX and is transcribed in the same counterclockwise direction on the chromosome . MOD_ATT:N-N (region,GENEXXX) MOD_ATT:N-ADJ (direction,counterclockwise) SUBJ:V_PASS-N (transcribed,sequence) SUBJ:V-N (precedes,sequence) COMP_of:N-N (sequence,region) OBJ:V-N (determined,sequence) COMP_on:V_PASS-N (transcribed,chromosome) MOD_ATT:N-N (sequence,1809-base) MOD_ATT:N-ADJ (region,coding) MOD_ATT:N-N (sequence,pair) MOD:V-ADV (determined,now) COMP_in:V_PASS-N (transcribed,direction) OBJ:V-N (precedes,GENEXXX) SUBJ:V-N (determined,We) Parse 4 +---------COMP_of:N-N---------+ +----SUBJ:V-N---+-----------OBJ:V-N----------+ +-MOD_ATT:N-N-+--------------SUBJ:V_PASS-N--------------+------------COMP_in:V_PASS-N-----------+ | +MOD:V-+ +MOD_AT+MOD_AT+ | +MOD_AT+----SUBJ:V-N---+-OBJ:V-N+ | +MOD_ATT:N-ADJ+---COMP_on:N-N--+ | | | | | | | | | | | | | | | We have now determined the 1809-base pair sequence of the GENEXXX coding region , which precedes GENEXXX and is transcribed in the same counterclockwise direction on the chromosome . MOD_ATT:N-N (region,GENEXXX) MOD_ATT:N-ADJ (direction,counterclockwise) MOD_ATT:N-N (pair,1809-base) SUBJ:V-N (precedes,region) COMP_of:N-N (sequence,region) OBJ:V-N (determined,sequence) COMP_on:N-N (direction,chromosome) MOD_ATT:N-ADJ (region,coding) SUBJ:V_PASS-N (transcribed,region) MOD_ATT:N-N (sequence,pair) MOD:V-ADV (determined,now) COMP_in:V_PASS-N (transcribed,direction) OBJ:V-N (precedes,GENEXXX) SUBJ:V-N (determined,We) Parse 5 +-----------OBJ:V-N----------+---------COMP_of:N-N---------+ +----SUBJ:V-N---+ +-MOD_ATT:N-N-+ +-MOD_ATT:N-N-+--------------SUBJ:V_PASS-N--------------+------------COMP_in:V_PASS-N-----------+ | +MOD:V-+ | +MOD_AT+ | +MOD_AT+----SUBJ:V-N---+-OBJ:V-N+ | +MOD_ATT:N-ADJ+---COMP_on:N-N--+ | | | | | | | | | | | | | | | We have now determined the 1809-base pair sequence of the GENEXXX coding region , which precedes GENEXXX and is transcribed in the same counterclockwise direction on the chromosome . MOD_ATT:N-N (region,GENEXXX) MOD_ATT:N-ADJ (direction,counterclockwise) SUBJ:V-N (precedes,region) COMP_of:N-N (sequence,region) OBJ:V-N (determined,sequence) COMP_on:N-N (direction,chromosome) MOD_ATT:N-N (sequence,1809-base) MOD_ATT:N-ADJ (region,coding) SUBJ:V_PASS-N (transcribed,region) MOD_ATT:N-N (sequence,pair) MOD:V-ADV (determined,now) COMP_in:V_PASS-N (transcribed,direction) OBJ:V-N (precedes,GENEXXX) SUBJ:V-N (determined,We) Parse 6 +-----------------------------SUBJ:V_PASS-N-----------------------------+ +-------------------SUBJ:V-N------------------+ | +---------COMP_of:N-N---------+ | | +----SUBJ:V-N---+-----------OBJ:V-N----------+ +-MOD_ATT:N-N-+ | +------------COMP_in:V_PASS-N-----------+ | +MOD:V-+ +MOD_AT+MOD_AT+ | +MOD_AT+ +-OBJ:V-N+ | +MOD_ATT:N-ADJ+---COMP_on:N-N--+ | | | | | | | | | | | | | | | We have now determined the 1809-base pair sequence of the GENEXXX coding region , which precedes GENEXXX and is transcribed in the same counterclockwise direction on the chromosome . MOD_ATT:N-N (region,GENEXXX) MOD_ATT:N-ADJ (direction,counterclockwise) SUBJ:V_PASS-N (transcribed,sequence) MOD_ATT:N-N (pair,1809-base) SUBJ:V-N (precedes,sequence) COMP_of:N-N (sequence,region) OBJ:V-N (determined,sequence) COMP_on:N-N (direction,chromosome) MOD_ATT:N-ADJ (region,coding) MOD_ATT:N-N (sequence,pair) MOD:V-ADV (determined,now) COMP_in:V_PASS-N (transcribed,direction) OBJ:V-N (precedes,GENEXXX) SUBJ:V-N (determined,We) Parse 7 +-----------------------------SUBJ:V_PASS-N-----------------------------+ +-------------------SUBJ:V-N------------------+ | +-----------OBJ:V-N----------+---------COMP_of:N-N---------+ | | +----SUBJ:V-N---+ +-MOD_ATT:N-N-+ +-MOD_ATT:N-N-+ | +------------COMP_in:V_PASS-N-----------+ | +MOD:V-+ | +MOD_AT+ | +MOD_AT+ +-OBJ:V-N+ | +MOD_ATT:N-ADJ+---COMP_on:N-N--+ | | | | | | | | | | | | | | | We have now determined the 1809-base pair sequence of the GENEXXX coding region , which precedes GENEXXX and is transcribed in the same counterclockwise direction on the chromosome . MOD_ATT:N-N (region,GENEXXX) MOD_ATT:N-ADJ (direction,counterclockwise) SUBJ:V_PASS-N (transcribed,sequence) SUBJ:V-N (precedes,sequence) COMP_of:N-N (sequence,region) OBJ:V-N (determined,sequence) COMP_on:N-N (direction,chromosome) MOD_ATT:N-N (sequence,1809-base) MOD_ATT:N-ADJ (region,coding) MOD_ATT:N-N (sequence,pair) MOD:V-ADV (determined,now) COMP_in:V_PASS-N (transcribed,direction) OBJ:V-N (precedes,GENEXXX) SUBJ:V-N (determined,We) PMID: 3919021-4 Sentence 11 Features of the coding and flanking regions that may modulate GENEXXX expression include a relatively weak ribosomal binding site ( delta G' = -13.8 kcal ) , the use of uncommon codons in the reading frame , and no obvious promoter sequence for either GENEXXX or GENEXXX . Parse 0 +--------------------------COMP_for:N-N-------------------------+ +------------------------------------SUBJ:V-N------------------------------------+ +----------------APPOS---------------+ +----------------------COMP_in:N-N---------------------+ | +------------COMP_of:N-N------------+ +-----------------OBJ:V-N-----------------+-----APPOS----+ | | +--------------------COMP_for:N-N--------------------+ | | +----MOD_ATT:N-ADJ---+ +-----OBJ:V-N-----+ | +-----MOD_ATT:N-ADJ----+ +MOD_AT+ +---COMP_of:N-N--+-----COMP_in:N-N-----+ +--MOD_ATT:N-ADJ-+---------COMP_for:N-N---------+ | | +MOD_ATT:+----SUBJ:V-N----+ +MOD_ATT:+ | +MOD:ADJ+ +MOD_ATT:+MOD_A+ | +MO+ | +MOD_ATT+ +MOD_AT+ | +MOD_ATT:+----COMP_for:N-N---+ | | | | | | | | | | | | | | | | | | | | | | | | | | | Features of the coding and flanking regions that may modulate GENEXXX expression include a relatively weak ribosomal binding site ( delta G' = -13.8 kcal ) , the use of uncommon codons in the reading frame , and no obvious promoter sequence for either GENEXXX or GENEXXX . APPOS (site,=) MOD_ATT:N-N (expression,GENEXXX) MOD_ATT:N-ADJ (codons,uncommon) MOD_ATT:N-N (frame,reading) MOD_ATT:N-N (sequence,promoter) COMP_of:N-N (use,codons) OBJ:V-N (include,site) SUBJ:V-N (include,Features) COMP_for:N-N (sequence,GENEXXX) MOD_ATT:N-ADJ (sequence,obvious) COMP_in:N-N (codons,frame) MOD_ATT:N-N (=,G') MOD_ATT:N-ADJ (regions,flanking) COMP_in:N-N (codons,sequence) MOD_ATT:N-ADJ (regions,coding) APPOS (site,use) MOD_ATT:N-N (site,binding) OBJ:V-N (modulate,expression) MOD_ATT:N-N (=,delta) MOD:ADJ-ADV (weak,relatively) COMP_for:N-N (sequence,GENEXXX) COMP_for:N-N (frame,GENEXXX) SUBJ:V-N (modulate,regions) MOD_ATT:N-ADJ (site,weak) COMP_for:N-N (frame,GENEXXX) MOD_ATT:N-ADJ (binding,ribosomal) COMP_of:N-N (Features,regions) Parse 1 +------------------------------COMP_in:N-N------------------------------+ +------------------------------------SUBJ:V-N------------------------------------+ +----------------APPOS---------------+ +--------------------------COMP_for:N-N-------------------------+ +------------COMP_of:N-N------------+ +-----------------OBJ:V-N-----------------+-----APPOS----+ +--------------COMP_in:N-N-------------+--------------------COMP_for:N-N--------------------+ | | +----MOD_ATT:N-ADJ---+ +-----OBJ:V-N-----+ | +-----MOD_ATT:N-ADJ----+ +MOD_AT+ +---COMP_of:N-N--+ | +---------COMP_for:N-N---------+ | | +MOD_ATT:+----SUBJ:V-N----+ +MOD_ATT:+ | +MOD:ADJ+ +MOD_ATT:+MOD_A+ | +MO+ | +MOD_ATT+ +MOD_AT+ +MOD_ATT+MOD_ATT:+----COMP_for:N-N---+ | | | | | | | | | | | | | | | | | | | | | | | | | | | Features of the coding and flanking regions that may modulate GENEXXX expression include a relatively weak ribosomal binding site ( delta G' = -13.8 kcal ) , the use of uncommon codons in the reading frame , and no obvious promoter sequence for either GENEXXX or GENEXXX . APPOS (site,=) MOD_ATT:N-N (expression,GENEXXX) MOD_ATT:N-ADJ (codons,uncommon) MOD_ATT:N-N (frame,reading) MOD_ATT:N-N (sequence,promoter) COMP_of:N-N (use,codons) OBJ:V-N (include,site) SUBJ:V-N (include,Features) COMP_for:N-N (sequence,GENEXXX) MOD_ATT:N-N (=,G') COMP_in:N-N (use,frame) MOD_ATT:N-ADJ (regions,flanking) MOD_ATT:N-ADJ (regions,coding) APPOS (site,use) MOD_ATT:N-N (site,binding) OBJ:V-N (modulate,expression) MOD_ATT:N-N (=,delta) MOD:ADJ-ADV (weak,relatively) COMP_for:N-N (sequence,GENEXXX) COMP_for:N-N (frame,GENEXXX) SUBJ:V-N (modulate,regions) MOD_ATT:N-ADJ (promoter,obvious) COMP_in:N-N (use,sequence) MOD_ATT:N-ADJ (site,weak) COMP_for:N-N (frame,GENEXXX) MOD_ATT:N-ADJ (binding,ribosomal) COMP_of:N-N (Features,regions) Parse 2 +------------------------------------SUBJ:V-N------------------------------------+ +------------------------------COMP_in:N-N------------------------------+ +----------------------SUBJ:V-N----------------------+ +-----------------OBJ:V-N-----------------+----------------APPOS---------------+ +--------------------------COMP_for:N-N-------------------------+ +------------COMP_of:N-N------------+ | | +-----MOD_ATT:N-ADJ----+-----APPOS----+ +--------------COMP_in:N-N-------------+--------------------COMP_for:N-N--------------------+ | | +----MOD_ATT:N-ADJ---+ +-----OBJ:V-N-----+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+ +---COMP_of:N-N--+ | +---------COMP_for:N-N---------+ | | +MOD_ATT:+ | +MOD_ATT:+ | +MOD:ADJ+ | +MOD_A+ | +MO+ | +MOD_ATT+ +MOD_AT+ +MOD_ATT+MOD_ATT:+----COMP_for:N-N---+ | | | | | | | | | | | | | | | | | | | | | | | | | | | Features of the coding and flanking regions that may modulate GENEXXX expression include a relatively weak ribosomal binding site ( delta G' = -13.8 kcal ) , the use of uncommon codons in the reading frame , and no obvious promoter sequence for either GENEXXX or GENEXXX . APPOS (site,=) MOD_ATT:N-N (expression,GENEXXX) MOD_ATT:N-ADJ (codons,uncommon) MOD_ATT:N-N (frame,reading) MOD_ATT:N-N (sequence,promoter) COMP_of:N-N (use,codons) OBJ:V-N (include,site) SUBJ:V-N (include,Features) COMP_for:N-N (sequence,GENEXXX) MOD_ATT:N-N (=,G') COMP_in:N-N (use,frame) MOD_ATT:N-ADJ (regions,flanking) MOD_ATT:N-ADJ (regions,coding) APPOS (site,use) OBJ:V-N (modulate,expression) MOD_ATT:N-N (=,delta) MOD:ADJ-ADV (weak,relatively) SUBJ:V-N (modulate,Features) COMP_for:N-N (sequence,GENEXXX) COMP_for:N-N (frame,GENEXXX) MOD_ATT:N-ADJ (promoter,obvious) MOD_ATT:N-ADJ (site,binding) COMP_in:N-N (use,sequence) MOD_ATT:N-ADJ (site,weak) COMP_for:N-N (frame,GENEXXX) MOD_ATT:N-ADJ (site,ribosomal) COMP_of:N-N (Features,regions) Parse 3 +------------------------------------SUBJ:V-N------------------------------------+ +------------------------------COMP_in:N-N------------------------------+ +----------------------SUBJ:V-N----------------------+ +-----------------OBJ:V-N-----------------+----------------APPOS---------------+ +--------------------------COMP_for:N-N-------------------------+ +------------COMP_of:N-N------------+ | | +-----MOD_ATT:N-ADJ----+-----APPOS----+ +--------------COMP_in:N-N-------------+--------------------COMP_for:N-N--------------------+ | | +----MOD_ATT:N-ADJ---+ +-----OBJ:V-N-----+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+ +---COMP_of:N-N--+ | +---------COMP_for:N-N---------+ | | +MOD_ATT:+ | +MOD_ATT:+ | +MOD:ADJ+ | +MOD_A+ | +MO+ | +MOD_ATT+ +MOD_AT+ +MOD_ATT+MOD_ATT:+----COMP_for:N-N---+ | | | | | | | | | | | | | | | | | | | | | | | | | | | Features of the coding and flanking regions that may modulate GENEXXX expression include a relatively weak ribosomal binding site ( delta G' = -13.8 kcal ) , the use of uncommon codons in the reading frame , and no obvious promoter sequence for either GENEXXX or GENEXXX . APPOS (site,=) MOD_ATT:N-N (expression,GENEXXX) MOD_ATT:N-ADJ (codons,uncommon) MOD_ATT:N-N (frame,reading) MOD_ATT:N-N (sequence,promoter) COMP_of:N-N (use,codons) OBJ:V-N (include,site) SUBJ:V-N (include,Features) COMP_for:N-N (sequence,GENEXXX) MOD_ATT:N-N (=,G') COMP_in:N-N (use,frame) MOD_ATT:N-ADJ (regions,flanking) MOD_ATT:N-ADJ (regions,coding) APPOS (site,use) MOD_ATT:N-N (site,binding) OBJ:V-N (modulate,expression) MOD_ATT:N-N (=,delta) MOD:ADJ-ADV (weak,relatively) SUBJ:V-N (modulate,Features) COMP_for:N-N (sequence,GENEXXX) COMP_for:N-N (frame,GENEXXX) MOD_ATT:N-ADJ (promoter,obvious) COMP_in:N-N (use,sequence) MOD_ATT:N-ADJ (site,weak) COMP_for:N-N (frame,GENEXXX) MOD_ATT:N-ADJ (site,ribosomal) COMP_of:N-N (Features,regions) Parse 4 +------------------------------------SUBJ:V-N------------------------------------+ +------------------------------COMP_in:N-N------------------------------+ +----------------------SUBJ:V-N----------------------+ +-----------------OBJ:V-N-----------------+----------------APPOS---------------+ +--------------------------COMP_for:N-N-------------------------+ +------------COMP_of:N-N------------+ | | +-----MOD_ATT:N-ADJ----+-----APPOS----+ +--------------COMP_in:N-N-------------+--------------------COMP_for:N-N--------------------+ | | +----MOD_ATT:N-ADJ---+ +-----OBJ:V-N-----+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+ +---COMP_of:N-N--+ | +--MOD_ATT:N-ADJ-+---------COMP_for:N-N---------+ | | +MOD_ATT:+ | +MOD_ATT:+ | +MOD:ADJ+ | +MOD_A+ | +MO+ | +MOD_ATT+ +MOD_AT+ | +MOD_ATT:+----COMP_for:N-N---+ | | | | | | | | | | | | | | | | | | | | | | | | | | | Features of the coding and flanking regions that may modulate GENEXXX expression include a relatively weak ribosomal binding site ( delta G' = -13.8 kcal ) , the use of uncommon codons in the reading frame , and no obvious promoter sequence for either GENEXXX or GENEXXX . APPOS (site,=) MOD_ATT:N-N (expression,GENEXXX) MOD_ATT:N-ADJ (codons,uncommon) MOD_ATT:N-N (frame,reading) MOD_ATT:N-N (sequence,promoter) COMP_of:N-N (use,codons) OBJ:V-N (include,site) SUBJ:V-N (include,Features) COMP_for:N-N (sequence,GENEXXX) MOD_ATT:N-ADJ (sequence,obvious) MOD_ATT:N-N (=,G') COMP_in:N-N (use,frame) MOD_ATT:N-ADJ (regions,flanking) MOD_ATT:N-ADJ (regions,coding) APPOS (site,use) MOD_ATT:N-N (site,binding) OBJ:V-N (modulate,expression) MOD_ATT:N-N (=,delta) MOD:ADJ-ADV (weak,relatively) SUBJ:V-N (modulate,Features) COMP_for:N-N (sequence,GENEXXX) COMP_for:N-N (frame,GENEXXX) COMP_in:N-N (use,sequence) MOD_ATT:N-ADJ (site,weak) COMP_for:N-N (frame,GENEXXX) MOD_ATT:N-ADJ (site,ribosomal) COMP_of:N-N (Features,regions) Parse 5 +------------------------------------SUBJ:V-N------------------------------------+ +----------------APPOS---------------+ +------------COMP_of:N-N------------+ +-----------------OBJ:V-N-----------------+-----APPOS----+ +------------------------------COMP_of:N-N------------------------------+ | +----MOD_ATT:N-ADJ---+ +-----OBJ:V-N-----+ | +-----MOD_ATT:N-ADJ----+ +MOD_AT+ +---COMP_of:N-N--+-----COMP_in:N-N-----+ +--MOD_ATT:N-ADJ-+---------COMP_for:N-N---------+ | | +MOD_ATT:+----SUBJ:V-N----+ +MOD_ATT:+ | +MOD:ADJ+ +MOD_ATT:+MOD_A+ | +MO+ | +MOD_ATT+ +MOD_AT+ | +MOD_ATT:+----COMP_for:N-N---+ | | | | | | | | | | | | | | | | | | | | | | | | | | | Features of the coding and flanking regions that may modulate GENEXXX expression include a relatively weak ribosomal binding site ( delta G' = -13.8 kcal ) , the use of uncommon codons in the reading frame , and no obvious promoter sequence for either GENEXXX or GENEXXX . APPOS (site,=) MOD_ATT:N-N (expression,GENEXXX) MOD_ATT:N-ADJ (codons,uncommon) MOD_ATT:N-N (frame,reading) MOD_ATT:N-N (sequence,promoter) COMP_of:N-N (use,codons) OBJ:V-N (include,site) SUBJ:V-N (include,Features) COMP_for:N-N (sequence,GENEXXX) MOD_ATT:N-ADJ (sequence,obvious) COMP_in:N-N (codons,frame) MOD_ATT:N-N (=,G') MOD_ATT:N-ADJ (regions,flanking) COMP_of:N-N (use,sequence) MOD_ATT:N-ADJ (regions,coding) APPOS (site,use) MOD_ATT:N-N (site,binding) OBJ:V-N (modulate,expression) MOD_ATT:N-N (=,delta) MOD:ADJ-ADV (weak,relatively) COMP_for:N-N (sequence,GENEXXX) SUBJ:V-N (modulate,regions) MOD_ATT:N-ADJ (site,weak) MOD_ATT:N-ADJ (binding,ribosomal) COMP_of:N-N (Features,regions) Parse 6 +------------------------------------SUBJ:V-N------------------------------------+ +----------------------SUBJ:V-N----------------------+ | +----------------APPOS---------------+ +------------COMP_of:N-N------------+ | +-----------------OBJ:V-N-----------------+-----APPOS----+ +------------------------------COMP_of:N-N------------------------------+ | +----MOD_ATT:N-ADJ---+ +-----OBJ:V-N-----+ | +-----MOD_ATT:N-ADJ----+ +MOD_AT+ +---COMP_of:N-N--+-----COMP_in:N-N-----+ +---------COMP_for:N-N---------+ | | +MOD_ATT:+ | +MOD_ATT:+ | +MOD:ADJ+ +MOD_ATT:+MOD_A+ | +MO+ | +MOD_ATT+ +MOD_AT+ +MOD_ATT+MOD_ATT:+----COMP_for:N-N---+ | | | | | | | | | | | | | | | | | | | | | | | | | | | Features of the coding and flanking regions that may modulate GENEXXX expression include a relatively weak ribosomal binding site ( delta G' = -13.8 kcal ) , the use of uncommon codons in the reading frame , and no obvious promoter sequence for either GENEXXX or GENEXXX . APPOS (site,=) MOD_ATT:N-N (expression,GENEXXX) MOD_ATT:N-ADJ (codons,uncommon) MOD_ATT:N-N (frame,reading) MOD_ATT:N-N (sequence,promoter) COMP_of:N-N (use,codons) OBJ:V-N (include,site) SUBJ:V-N (include,Features) COMP_for:N-N (sequence,GENEXXX) COMP_in:N-N (codons,frame) MOD_ATT:N-N (=,G') MOD_ATT:N-ADJ (regions,flanking) COMP_of:N-N (use,sequence) MOD_ATT:N-ADJ (regions,coding) APPOS (site,use) MOD_ATT:N-N (site,binding) OBJ:V-N (modulate,expression) MOD_ATT:N-N (=,delta) MOD:ADJ-ADV (weak,relatively) SUBJ:V-N (modulate,Features) COMP_for:N-N (sequence,GENEXXX) MOD_ATT:N-ADJ (promoter,obvious) MOD_ATT:N-ADJ (site,weak) MOD_ATT:N-ADJ (binding,ribosomal) COMP_of:N-N (Features,regions) Parse 7 +------------------------------------SUBJ:V-N------------------------------------+ +----------------APPOS---------------+ +------------COMP_of:N-N------------+ +-----------------OBJ:V-N-----------------+-----APPOS----+ | +----------------------COMP_in:N-N---------------------+ | +----MOD_ATT:N-ADJ---+ +-----OBJ:V-N-----+ | +-----MOD_ATT:N-ADJ----+ +MOD_AT+ +---COMP_of:N-N--+-----COMP_in:N-N-----+ +---------COMP_for:N-N---------+ | | +MOD_ATT:+----SUBJ:V-N----+ +MOD_ATT:+ | +MOD:ADJ+ +MOD_ATT:+MOD_A+ | +MO+ | +MOD_ATT+ +MOD_AT+ +MOD_ATT+MOD_ATT:+----COMP_for:N-N---+ | | | | | | | | | | | | | | | | | | | | | | | | | | | Features of the coding and flanking regions that may modulate GENEXXX expression include a relatively weak ribosomal binding site ( delta G' = -13.8 kcal ) , the use of uncommon codons in the reading frame , and no obvious promoter sequence for either GENEXXX or GENEXXX . APPOS (site,=) MOD_ATT:N-N (expression,GENEXXX) MOD_ATT:N-ADJ (codons,uncommon) MOD_ATT:N-N (frame,reading) MOD_ATT:N-N (sequence,promoter) COMP_of:N-N (use,codons) OBJ:V-N (include,site) SUBJ:V-N (include,Features) COMP_for:N-N (sequence,GENEXXX) COMP_in:N-N (codons,frame) MOD_ATT:N-N (=,G') MOD_ATT:N-ADJ (regions,flanking) COMP_in:N-N (codons,sequence) MOD_ATT:N-ADJ (regions,coding) APPOS (site,use) MOD_ATT:N-N (site,binding) OBJ:V-N (modulate,expression) MOD_ATT:N-N (=,delta) MOD:ADJ-ADV (weak,relatively) COMP_for:N-N (sequence,GENEXXX) SUBJ:V-N (modulate,regions) MOD_ATT:N-ADJ (promoter,obvious) MOD_ATT:N-ADJ (site,weak) MOD_ATT:N-ADJ (binding,ribosomal) COMP_of:N-N (Features,regions) Parse 8 +------------------------------------SUBJ:V-N------------------------------------+ +----------------APPOS---------------+------------------------------COMP_in:N-N------------------------------+ +------------COMP_of:N-N------------+ +-----------------OBJ:V-N-----------------+-----APPOS----+ +--------------COMP_in:N-N-------------+ | | +----MOD_ATT:N-ADJ---+ +-----OBJ:V-N-----+ | +-----MOD_ATT:N-ADJ----+ +MOD_AT+ +---COMP_of:N-N--+ | +---------COMP_for:N-N---------+ | | +MOD_ATT:+----SUBJ:V-N----+ +MOD_ATT:+ | +MOD:ADJ+ +MOD_ATT:+MOD_A+ | +MO+ | +MOD_ATT+ +MOD_AT+ +MOD_ATT+MOD_ATT:+----COMP_for:N-N---+ | | | | | | | | | | | | | | | | | | | | | | | | | | | Features of the coding and flanking regions that may modulate GENEXXX expression include a relatively weak ribosomal binding site ( delta G' = -13.8 kcal ) , the use of uncommon codons in the reading frame , and no obvious promoter sequence for either GENEXXX or GENEXXX . APPOS (site,=) MOD_ATT:N-N (expression,GENEXXX) MOD_ATT:N-ADJ (codons,uncommon) MOD_ATT:N-N (frame,reading) MOD_ATT:N-N (sequence,promoter) COMP_of:N-N (use,codons) OBJ:V-N (include,site) SUBJ:V-N (include,Features) COMP_for:N-N (sequence,GENEXXX) MOD_ATT:N-N (=,G') COMP_in:N-N (use,frame) MOD_ATT:N-ADJ (regions,flanking) MOD_ATT:N-ADJ (regions,coding) APPOS (site,use) MOD_ATT:N-N (site,binding) OBJ:V-N (modulate,expression) MOD_ATT:N-N (=,delta) MOD:ADJ-ADV (weak,relatively) COMP_for:N-N (sequence,GENEXXX) SUBJ:V-N (modulate,regions) COMP_in:N-N (use,sequence) MOD_ATT:N-ADJ (promoter,obvious) MOD_ATT:N-ADJ (site,weak) MOD_ATT:N-ADJ (binding,ribosomal) COMP_of:N-N (Features,regions) Parse 9 +------------------------------------SUBJ:V-N------------------------------------+ +----------------------SUBJ:V-N----------------------+ | +----------------APPOS---------------+ +------------COMP_of:N-N------------+ | +-----------------OBJ:V-N-----------------+-----APPOS----+ | +----------------------COMP_in:N-N---------------------+ | +----MOD_ATT:N-ADJ---+ +-----OBJ:V-N-----+ | +--MOD_ATT:N-ADJ-+ | +MOD_AT+ +---COMP_of:N-N--+-----COMP_in:N-N-----+ +--MOD_ATT:N-ADJ-+---------COMP_for:N-N---------+ | | +MOD_ATT:+ | +MOD_ATT:+ | +MOD:ADJ+ +MOD_ATT:+MOD_A+ | +MO+ | +MOD_ATT+ +MOD_AT+ | +MOD_ATT:+----COMP_for:N-N---+ | | | | | | | | | | | | | | | | | | | | | | | | | | | Features of the coding and flanking regions that may modulate GENEXXX expression include a relatively weak ribosomal binding site ( delta G' = -13.8 kcal ) , the use of uncommon codons in the reading frame , and no obvious promoter sequence for either GENEXXX or GENEXXX . APPOS (site,=) MOD_ATT:N-N (expression,GENEXXX) MOD_ATT:N-ADJ (codons,uncommon) MOD_ATT:N-N (frame,reading) MOD_ATT:N-ADJ (binding,weak) MOD_ATT:N-N (sequence,promoter) COMP_of:N-N (use,codons) OBJ:V-N (include,site) SUBJ:V-N (include,Features) COMP_for:N-N (sequence,GENEXXX) MOD_ATT:N-ADJ (sequence,obvious) COMP_in:N-N (codons,frame) MOD_ATT:N-N (=,G') MOD_ATT:N-ADJ (regions,flanking) COMP_in:N-N (codons,sequence) MOD_ATT:N-ADJ (regions,coding) APPOS (site,use) MOD_ATT:N-N (site,binding) OBJ:V-N (modulate,expression) MOD_ATT:N-N (=,delta) MOD:ADJ-ADV (weak,relatively) SUBJ:V-N (modulate,Features) COMP_for:N-N (sequence,GENEXXX) MOD_ATT:N-ADJ (binding,ribosomal) COMP_of:N-N (Features,regions) Parse 10 +------------------------------------SUBJ:V-N------------------------------------+ +----------------------SUBJ:V-N----------------------+ +-----------------OBJ:V-N-----------------+----------------APPOS---------------+------------------------------COMP_in:N-N------------------------------+ +------------COMP_of:N-N------------+ | | +-----MOD_ATT:N-ADJ----+-----APPOS----+ +--------------COMP_in:N-N-------------+ | | +----MOD_ATT:N-ADJ---+ +-----OBJ:V-N-----+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+ +---COMP_of:N-N--+ | +---------COMP_for:N-N---------+ | | +MOD_ATT:+ | +MOD_ATT:+ | +MOD:ADJ+ | +MOD_A+ | +MO+ | +MOD_ATT+ +MOD_AT+ +MOD_ATT+MOD_ATT:+----COMP_for:N-N---+ | | | | | | | | | | | | | | | | | | | | | | | | | | | Features of the coding and flanking regions that may modulate GENEXXX expression include a relatively weak ribosomal binding site ( delta G' = -13.8 kcal ) , the use of uncommon codons in the reading frame , and no obvious promoter sequence for either GENEXXX or GENEXXX . APPOS (site,=) MOD_ATT:N-N (expression,GENEXXX) MOD_ATT:N-ADJ (codons,uncommon) MOD_ATT:N-N (frame,reading) MOD_ATT:N-N (sequence,promoter) COMP_of:N-N (use,codons) OBJ:V-N (include,site) SUBJ:V-N (include,Features) COMP_for:N-N (sequence,GENEXXX) MOD_ATT:N-N (=,G') COMP_in:N-N (use,frame) MOD_ATT:N-ADJ (regions,flanking) MOD_ATT:N-ADJ (regions,coding) APPOS (site,use) MOD_ATT:N-N (site,binding) OBJ:V-N (modulate,expression) MOD_ATT:N-N (=,delta) MOD:ADJ-ADV (weak,relatively) SUBJ:V-N (modulate,Features) COMP_for:N-N (sequence,GENEXXX) COMP_in:N-N (use,sequence) MOD_ATT:N-ADJ (promoter,obvious) MOD_ATT:N-ADJ (site,weak) MOD_ATT:N-ADJ (site,ribosomal) COMP_of:N-N (Features,regions) Parse 11 +--------------------------COMP_for:N-N-------------------------+ +------------------------------------SUBJ:V-N------------------------------------+ +----------------APPOS---------------+ +----------------------COMP_in:N-N---------------------+ | +------------COMP_of:N-N------------+ +-----------------OBJ:V-N-----------------+-----APPOS----+ | | +--------------------COMP_for:N-N--------------------+ | | +----MOD_ATT:N-ADJ---+ +-----OBJ:V-N-----+ | +-----MOD_ATT:N-ADJ----+ +MOD_AT+ +---COMP_of:N-N--+-----COMP_in:N-N-----+ +---------COMP_for:N-N---------+ | | +MOD_ATT:+----SUBJ:V-N----+ +MOD_ATT:+ | +MOD:ADJ+ +MOD_ATT:+MOD_A+ | +MO+ | +MOD_ATT+ +MOD_AT+ +MOD_ATT+MOD_ATT:+----COMP_for:N-N---+ | | | | | | | | | | | | | | | | | | | | | | | | | | | Features of the coding and flanking regions that may modulate GENEXXX expression include a relatively weak ribosomal binding site ( delta G' = -13.8 kcal ) , the use of uncommon codons in the reading frame , and no obvious promoter sequence for either GENEXXX or GENEXXX . APPOS (site,=) MOD_ATT:N-N (expression,GENEXXX) MOD_ATT:N-ADJ (codons,uncommon) MOD_ATT:N-N (frame,reading) MOD_ATT:N-N (sequence,promoter) COMP_of:N-N (use,codons) OBJ:V-N (include,site) SUBJ:V-N (include,Features) COMP_for:N-N (sequence,GENEXXX) COMP_in:N-N (codons,frame) MOD_ATT:N-N (=,G') MOD_ATT:N-ADJ (regions,flanking) COMP_in:N-N (codons,sequence) MOD_ATT:N-ADJ (regions,coding) APPOS (site,use) MOD_ATT:N-N (site,binding) OBJ:V-N (modulate,expression) MOD_ATT:N-N (=,delta) MOD:ADJ-ADV (weak,relatively) COMP_for:N-N (sequence,GENEXXX) COMP_for:N-N (frame,GENEXXX) SUBJ:V-N (modulate,regions) MOD_ATT:N-ADJ (promoter,obvious) MOD_ATT:N-ADJ (site,weak) COMP_for:N-N (frame,GENEXXX) MOD_ATT:N-ADJ (binding,ribosomal) COMP_of:N-N (Features,regions) Parse 12 +------------------------------COMP_in:N-N------------------------------+ +------------------------------------SUBJ:V-N------------------------------------+ +----------------APPOS---------------+ +--------------------------COMP_for:N-N-------------------------+ +------------COMP_of:N-N------------+ +-----------------OBJ:V-N-----------------+-----APPOS----+ +--------------COMP_in:N-N-------------+--------------------COMP_for:N-N--------------------+ | | +----MOD_ATT:N-ADJ---+ +-----OBJ:V-N-----+ | +--MOD_ATT:N-ADJ-+ | +MOD_AT+ +---COMP_of:N-N--+ | +---------COMP_for:N-N---------+ | | +MOD_ATT:+----SUBJ:V-N----+ +MOD_ATT:+ | +MOD:ADJ+ +MOD_ATT:+MOD_A+ | +MO+ | +MOD_ATT+ +MOD_AT+ +MOD_ATT+MOD_ATT:+----COMP_for:N-N---+ | | | | | | | | | | | | | | | | | | | | | | | | | | | Features of the coding and flanking regions that may modulate GENEXXX expression include a relatively weak ribosomal binding site ( delta G' = -13.8 kcal ) , the use of uncommon codons in the reading frame , and no obvious promoter sequence for either GENEXXX or GENEXXX . APPOS (site,=) MOD_ATT:N-N (expression,GENEXXX) MOD_ATT:N-ADJ (codons,uncommon) MOD_ATT:N-N (frame,reading) MOD_ATT:N-ADJ (binding,weak) MOD_ATT:N-N (sequence,promoter) COMP_of:N-N (use,codons) OBJ:V-N (include,site) SUBJ:V-N (include,Features) COMP_for:N-N (sequence,GENEXXX) MOD_ATT:N-N (=,G') COMP_in:N-N (use,frame) MOD_ATT:N-ADJ (regions,flanking) MOD_ATT:N-ADJ (regions,coding) APPOS (site,use) MOD_ATT:N-N (site,binding) OBJ:V-N (modulate,expression) MOD_ATT:N-N (=,delta) MOD:ADJ-ADV (weak,relatively) COMP_for:N-N (sequence,GENEXXX) COMP_for:N-N (frame,GENEXXX) SUBJ:V-N (modulate,regions) MOD_ATT:N-ADJ (promoter,obvious) COMP_in:N-N (use,sequence) COMP_for:N-N (frame,GENEXXX) MOD_ATT:N-ADJ (binding,ribosomal) COMP_of:N-N (Features,regions) Parse 13 +--------------------------COMP_for:N-N-------------------------+ +------------------------------------SUBJ:V-N------------------------------------+-----------------OBJ:V-N-----------------+----------------APPOS---------------+ +----------------------COMP_in:N-N---------------------+ | +------------COMP_of:N-N------------+ | +-----MOD_ATT:N-ADJ----+-----APPOS----+ | | +--------------------COMP_for:N-N--------------------+ | | +----MOD_ATT:N-ADJ---+ +-----OBJ:V-N-----+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+ +---COMP_of:N-N--+-----COMP_in:N-N-----+ +--MOD_ATT:N-ADJ-+---------COMP_for:N-N---------+ | | +MOD_ATT:+----SUBJ:V-N----+ +MOD_ATT:+ | +MOD:ADJ+ | +MOD_A+ | +MO+ | +MOD_ATT+ +MOD_AT+ | +MOD_ATT:+----COMP_for:N-N---+ | | | | | | | | | | | | | | | | | | | | | | | | | | | Features of the coding and flanking regions that may modulate GENEXXX expression include a relatively weak ribosomal binding site ( delta G' = -13.8 kcal ) , the use of uncommon codons in the reading frame , and no obvious promoter sequence for either GENEXXX or GENEXXX . APPOS (site,=) MOD_ATT:N-N (expression,GENEXXX) MOD_ATT:N-ADJ (codons,uncommon) MOD_ATT:N-N (frame,reading) MOD_ATT:N-N (sequence,promoter) COMP_of:N-N (use,codons) OBJ:V-N (include,site) SUBJ:V-N (include,Features) COMP_for:N-N (sequence,GENEXXX) MOD_ATT:N-ADJ (sequence,obvious) COMP_in:N-N (codons,frame) MOD_ATT:N-N (=,G') MOD_ATT:N-ADJ (regions,flanking) COMP_in:N-N (codons,sequence) MOD_ATT:N-ADJ (regions,coding) APPOS (site,use) MOD_ATT:N-N (site,binding) OBJ:V-N (modulate,expression) MOD_ATT:N-N (=,delta) MOD:ADJ-ADV (weak,relatively) COMP_for:N-N (sequence,GENEXXX) COMP_for:N-N (frame,GENEXXX) SUBJ:V-N (modulate,regions) MOD_ATT:N-ADJ (site,weak) COMP_for:N-N (frame,GENEXXX) MOD_ATT:N-ADJ (site,ribosomal) COMP_of:N-N (Features,regions) Parse 14 +------------------------------COMP_in:N-N------------------------------+ +------------------------------------SUBJ:V-N------------------------------------+-----------------OBJ:V-N-----------------+----------------APPOS---------------+ +--------------------------COMP_for:N-N-------------------------+ +------------COMP_of:N-N------------+ | +-----MOD_ATT:N-ADJ----+-----APPOS----+ +--------------COMP_in:N-N-------------+--------------------COMP_for:N-N--------------------+ | | +----MOD_ATT:N-ADJ---+ +-----OBJ:V-N-----+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+ +---COMP_of:N-N--+ | +---------COMP_for:N-N---------+ | | +MOD_ATT:+----SUBJ:V-N----+ +MOD_ATT:+ | +MOD:ADJ+ | +MOD_A+ | +MO+ | +MOD_ATT+ +MOD_AT+ +MOD_ATT+MOD_ATT:+----COMP_for:N-N---+ | | | | | | | | | | | | | | | | | | | | | | | | | | | Features of the coding and flanking regions that may modulate GENEXXX expression include a relatively weak ribosomal binding site ( delta G' = -13.8 kcal ) , the use of uncommon codons in the reading frame , and no obvious promoter sequence for either GENEXXX or GENEXXX . APPOS (site,=) MOD_ATT:N-N (expression,GENEXXX) MOD_ATT:N-ADJ (codons,uncommon) MOD_ATT:N-N (frame,reading) MOD_ATT:N-N (sequence,promoter) COMP_of:N-N (use,codons) OBJ:V-N (include,site) SUBJ:V-N (include,Features) COMP_for:N-N (sequence,GENEXXX) MOD_ATT:N-N (=,G') COMP_in:N-N (use,frame) MOD_ATT:N-ADJ (regions,flanking) MOD_ATT:N-ADJ (regions,coding) APPOS (site,use) OBJ:V-N (modulate,expression) MOD_ATT:N-N (=,delta) MOD:ADJ-ADV (weak,relatively) COMP_for:N-N (sequence,GENEXXX) COMP_for:N-N (frame,GENEXXX) SUBJ:V-N (modulate,regions) MOD_ATT:N-ADJ (promoter,obvious) MOD_ATT:N-ADJ (site,binding) COMP_in:N-N (use,sequence) MOD_ATT:N-ADJ (site,weak) COMP_for:N-N (frame,GENEXXX) MOD_ATT:N-ADJ (site,ribosomal) COMP_of:N-N (Features,regions) Parse 15 +------------------------------COMP_in:N-N------------------------------+ +------------------------------------SUBJ:V-N------------------------------------+ +----------------APPOS---------------+ +--------------------------COMP_for:N-N-------------------------+ +------------COMP_of:N-N------------+ +-----------------OBJ:V-N-----------------+-----APPOS----+ +--------------COMP_in:N-N-------------+--------------------COMP_for:N-N--------------------+ | | +----MOD_ATT:N-ADJ---+ +-----OBJ:V-N-----+ | +-----MOD_ATT:N-ADJ----+ +MOD_AT+ +---COMP_of:N-N--+ | +--MOD_ATT:N-ADJ-+---------COMP_for:N-N---------+ | | +MOD_ATT:+----SUBJ:V-N----+ +MOD_ATT:+ | +MOD:ADJ+ +MOD_ATT:+MOD_A+ | +MO+ | +MOD_ATT+ +MOD_AT+ | +MOD_ATT:+----COMP_for:N-N---+ | | | | | | | | | | | | | | | | | | | | | | | | | | | Features of the coding and flanking regions that may modulate GENEXXX expression include a relatively weak ribosomal binding site ( delta G' = -13.8 kcal ) , the use of uncommon codons in the reading frame , and no obvious promoter sequence for either GENEXXX or GENEXXX . APPOS (site,=) MOD_ATT:N-N (expression,GENEXXX) MOD_ATT:N-ADJ (codons,uncommon) MOD_ATT:N-N (frame,reading) MOD_ATT:N-N (sequence,promoter) COMP_of:N-N (use,codons) OBJ:V-N (include,site) SUBJ:V-N (include,Features) COMP_for:N-N (sequence,GENEXXX) MOD_ATT:N-ADJ (sequence,obvious) MOD_ATT:N-N (=,G') COMP_in:N-N (use,frame) MOD_ATT:N-ADJ (regions,flanking) MOD_ATT:N-ADJ (regions,coding) APPOS (site,use) MOD_ATT:N-N (site,binding) OBJ:V-N (modulate,expression) MOD_ATT:N-N (=,delta) MOD:ADJ-ADV (weak,relatively) COMP_for:N-N (sequence,GENEXXX) COMP_for:N-N (frame,GENEXXX) SUBJ:V-N (modulate,regions) COMP_in:N-N (use,sequence) MOD_ATT:N-ADJ (site,weak) COMP_for:N-N (frame,GENEXXX) MOD_ATT:N-ADJ (binding,ribosomal) COMP_of:N-N (Features,regions) Parse 16 +------------------------------------SUBJ:V-N------------------------------------+ +--------------------------COMP_for:N-N-------------------------+ +----------------------SUBJ:V-N----------------------+ +-----------------OBJ:V-N-----------------+----------------APPOS---------------+ +----------------------COMP_in:N-N---------------------+ | +------------COMP_of:N-N------------+ | | +-----MOD_ATT:N-ADJ----+-----APPOS----+ | | +--------------------COMP_for:N-N--------------------+ | | +----MOD_ATT:N-ADJ---+ +-----OBJ:V-N-----+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+ +---COMP_of:N-N--+-----COMP_in:N-N-----+ +---------COMP_for:N-N---------+ | | +MOD_ATT:+ | +MOD_ATT:+ | +MOD:ADJ+ | +MOD_A+ | +MO+ | +MOD_ATT+ +MOD_AT+ +MOD_ATT+MOD_ATT:+----COMP_for:N-N---+ | | | | | | | | | | | | | | | | | | | | | | | | | | | Features of the coding and flanking regions that may modulate GENEXXX expression include a relatively weak ribosomal binding site ( delta G' = -13.8 kcal ) , the use of uncommon codons in the reading frame , and no obvious promoter sequence for either GENEXXX or GENEXXX . APPOS (site,=) MOD_ATT:N-N (expression,GENEXXX) MOD_ATT:N-ADJ (codons,uncommon) MOD_ATT:N-N (frame,reading) MOD_ATT:N-N (sequence,promoter) COMP_of:N-N (use,codons) OBJ:V-N (include,site) SUBJ:V-N (include,Features) COMP_for:N-N (sequence,GENEXXX) COMP_in:N-N (codons,frame) MOD_ATT:N-N (=,G') MOD_ATT:N-ADJ (regions,flanking) COMP_in:N-N (codons,sequence) MOD_ATT:N-ADJ (regions,coding) APPOS (site,use) OBJ:V-N (modulate,expression) MOD_ATT:N-N (=,delta) MOD:ADJ-ADV (weak,relatively) SUBJ:V-N (modulate,Features) COMP_for:N-N (sequence,GENEXXX) COMP_for:N-N (frame,GENEXXX) MOD_ATT:N-ADJ (promoter,obvious) MOD_ATT:N-ADJ (site,binding) MOD_ATT:N-ADJ (site,weak) COMP_for:N-N (frame,GENEXXX) MOD_ATT:N-ADJ (site,ribosomal) COMP_of:N-N (Features,regions) Parse 17 +------------------------------------SUBJ:V-N------------------------------------+ +--------------------------COMP_for:N-N-------------------------+ +----------------------SUBJ:V-N----------------------+ | +----------------APPOS---------------+ +----------------------COMP_in:N-N---------------------+ | +------------COMP_of:N-N------------+ | +-----------------OBJ:V-N-----------------+-----APPOS----+ | | +--------------------COMP_for:N-N--------------------+ | | +----MOD_ATT:N-ADJ---+ +-----OBJ:V-N-----+ | +-----MOD_ATT:N-ADJ----+ +MOD_AT+ +---COMP_of:N-N--+-----COMP_in:N-N-----+ +--MOD_ATT:N-ADJ-+---------COMP_for:N-N---------+ | | +MOD_ATT:+ | +MOD_ATT:+ | +MOD:ADJ+ +MOD_ATT:+MOD_A+ | +MO+ | +MOD_ATT+ +MOD_AT+ | +MOD_ATT:+----COMP_for:N-N---+ | | | | | | | | | | | | | | | | | | | | | | | | | | | Features of the coding and flanking regions that may modulate GENEXXX expression include a relatively weak ribosomal binding site ( delta G' = -13.8 kcal ) , the use of uncommon codons in the reading frame , and no obvious promoter sequence for either GENEXXX or GENEXXX . APPOS (site,=) MOD_ATT:N-N (expression,GENEXXX) MOD_ATT:N-ADJ (codons,uncommon) MOD_ATT:N-N (frame,reading) MOD_ATT:N-N (sequence,promoter) COMP_of:N-N (use,codons) OBJ:V-N (include,site) SUBJ:V-N (include,Features) COMP_for:N-N (sequence,GENEXXX) MOD_ATT:N-ADJ (sequence,obvious) COMP_in:N-N (codons,frame) MOD_ATT:N-N (=,G') MOD_ATT:N-ADJ (regions,flanking) COMP_in:N-N (codons,sequence) MOD_ATT:N-ADJ (regions,coding) APPOS (site,use) MOD_ATT:N-N (site,binding) OBJ:V-N (modulate,expression) MOD_ATT:N-N (=,delta) MOD:ADJ-ADV (weak,relatively) SUBJ:V-N (modulate,Features) COMP_for:N-N (sequence,GENEXXX) COMP_for:N-N (frame,GENEXXX) MOD_ATT:N-ADJ (site,weak) COMP_for:N-N (frame,GENEXXX) MOD_ATT:N-ADJ (binding,ribosomal) COMP_of:N-N (Features,regions) Parse 18 +------------------------------------SUBJ:V-N------------------------------------+-----------------OBJ:V-N-----------------+----------------APPOS---------------+ +------------COMP_of:N-N------------+ | +-----MOD_ATT:N-ADJ----+-----APPOS----+ | +----------------------COMP_in:N-N---------------------+ | +----MOD_ATT:N-ADJ---+ +-----OBJ:V-N-----+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+ +---COMP_of:N-N--+-----COMP_in:N-N-----+ +---------COMP_for:N-N---------+ | | +MOD_ATT:+----SUBJ:V-N----+ +MOD_ATT:+ | +MOD:ADJ+ | +MOD_A+ | +MO+ | +MOD_ATT+ +MOD_AT+ +MOD_ATT+MOD_ATT:+----COMP_for:N-N---+ | | | | | | | | | | | | | | | | | | | | | | | | | | | Features of the coding and flanking regions that may modulate GENEXXX expression include a relatively weak ribosomal binding site ( delta G' = -13.8 kcal ) , the use of uncommon codons in the reading frame , and no obvious promoter sequence for either GENEXXX or GENEXXX . APPOS (site,=) MOD_ATT:N-N (expression,GENEXXX) MOD_ATT:N-ADJ (codons,uncommon) MOD_ATT:N-N (frame,reading) MOD_ATT:N-N (sequence,promoter) COMP_of:N-N (use,codons) OBJ:V-N (include,site) SUBJ:V-N (include,Features) COMP_for:N-N (sequence,GENEXXX) COMP_in:N-N (codons,frame) MOD_ATT:N-N (=,G') MOD_ATT:N-ADJ (regions,flanking) COMP_in:N-N (codons,sequence) MOD_ATT:N-ADJ (regions,coding) APPOS (site,use) OBJ:V-N (modulate,expression) MOD_ATT:N-N (=,delta) MOD:ADJ-ADV (weak,relatively) COMP_for:N-N (sequence,GENEXXX) SUBJ:V-N (modulate,regions) MOD_ATT:N-ADJ (site,binding) MOD_ATT:N-ADJ (promoter,obvious) MOD_ATT:N-ADJ (site,weak) MOD_ATT:N-ADJ (site,ribosomal) COMP_of:N-N (Features,regions) Parse 19 +------------------------------COMP_in:N-N------------------------------+ +------------------------------------SUBJ:V-N------------------------------------+-----------------OBJ:V-N-----------------+----------------APPOS---------------+ +--------------------------COMP_for:N-N-------------------------+ +------------COMP_of:N-N------------+ | +-----MOD_ATT:N-ADJ----+-----APPOS----+ +--------------COMP_in:N-N-------------+--------------------COMP_for:N-N--------------------+ | | +----MOD_ATT:N-ADJ---+ +-----OBJ:V-N-----+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+ +---COMP_of:N-N--+ | +--MOD_ATT:N-ADJ-+---------COMP_for:N-N---------+ | | +MOD_ATT:+----SUBJ:V-N----+ +MOD_ATT:+ | +MOD:ADJ+ | +MOD_A+ | +MO+ | +MOD_ATT+ +MOD_AT+ | +MOD_ATT:+----COMP_for:N-N---+ | | | | | | | | | | | | | | | | | | | | | | | | | | | Features of the coding and flanking regions that may modulate GENEXXX expression include a relatively weak ribosomal binding site ( delta G' = -13.8 kcal ) , the use of uncommon codons in the reading frame , and no obvious promoter sequence for either GENEXXX or GENEXXX . APPOS (site,=) MOD_ATT:N-N (expression,GENEXXX) MOD_ATT:N-ADJ (codons,uncommon) MOD_ATT:N-N (frame,reading) MOD_ATT:N-N (sequence,promoter) COMP_of:N-N (use,codons) OBJ:V-N (include,site) SUBJ:V-N (include,Features) COMP_for:N-N (sequence,GENEXXX) MOD_ATT:N-ADJ (sequence,obvious) MOD_ATT:N-N (=,G') COMP_in:N-N (use,frame) MOD_ATT:N-ADJ (regions,flanking) MOD_ATT:N-ADJ (regions,coding) APPOS (site,use) MOD_ATT:N-N (site,binding) OBJ:V-N (modulate,expression) MOD_ATT:N-N (=,delta) MOD:ADJ-ADV (weak,relatively) COMP_for:N-N (sequence,GENEXXX) COMP_for:N-N (frame,GENEXXX) SUBJ:V-N (modulate,regions) COMP_in:N-N (use,sequence) MOD_ATT:N-ADJ (site,weak) COMP_for:N-N (frame,GENEXXX) MOD_ATT:N-ADJ (site,ribosomal) COMP_of:N-N (Features,regions) Parse 20 +------------------------------------SUBJ:V-N------------------------------------+ +--------------------------COMP_for:N-N-------------------------+ +----------------------SUBJ:V-N----------------------+ +-----------------OBJ:V-N-----------------+----------------APPOS---------------+ +----------------------COMP_in:N-N---------------------+ | +------------COMP_of:N-N------------+ | | +-----MOD_ATT:N-ADJ----+-----APPOS----+ | | +--------------------COMP_for:N-N--------------------+ | | +----MOD_ATT:N-ADJ---+ +-----OBJ:V-N-----+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+ +---COMP_of:N-N--+-----COMP_in:N-N-----+ +---------COMP_for:N-N---------+ | | +MOD_ATT:+ | +MOD_ATT:+ | +MOD:ADJ+ | +MOD_A+ | +MO+ | +MOD_ATT+ +MOD_AT+ +MOD_ATT+MOD_ATT:+----COMP_for:N-N---+ | | | | | | | | | | | | | | | | | | | | | | | | | | | Features of the coding and flanking regions that may modulate GENEXXX expression include a relatively weak ribosomal binding site ( delta G' = -13.8 kcal ) , the use of uncommon codons in the reading frame , and no obvious promoter sequence for either GENEXXX or GENEXXX . APPOS (site,=) MOD_ATT:N-N (expression,GENEXXX) MOD_ATT:N-ADJ (codons,uncommon) MOD_ATT:N-N (frame,reading) MOD_ATT:N-N (sequence,promoter) COMP_of:N-N (use,codons) OBJ:V-N (include,site) SUBJ:V-N (include,Features) COMP_for:N-N (sequence,GENEXXX) COMP_in:N-N (codons,frame) MOD_ATT:N-N (=,G') MOD_ATT:N-ADJ (regions,flanking) COMP_in:N-N (codons,sequence) MOD_ATT:N-ADJ (regions,coding) APPOS (site,use) MOD_ATT:N-N (site,binding) OBJ:V-N (modulate,expression) MOD_ATT:N-N (=,delta) MOD:ADJ-ADV (weak,relatively) SUBJ:V-N (modulate,Features) COMP_for:N-N (sequence,GENEXXX) COMP_for:N-N (frame,GENEXXX) MOD_ATT:N-ADJ (promoter,obvious) MOD_ATT:N-ADJ (site,weak) COMP_for:N-N (frame,GENEXXX) MOD_ATT:N-ADJ (site,ribosomal) COMP_of:N-N (Features,regions) Parse 21 +------------------------------------SUBJ:V-N------------------------------------+-----------------OBJ:V-N-----------------+----------------APPOS---------------+ +------------COMP_of:N-N------------+ | +-----MOD_ATT:N-ADJ----+-----APPOS----+ +------------------------------COMP_of:N-N------------------------------+ | +----MOD_ATT:N-ADJ---+ +-----OBJ:V-N-----+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+ +---COMP_of:N-N--+-----COMP_in:N-N-----+ +--MOD_ATT:N-ADJ-+---------COMP_for:N-N---------+ | | +MOD_ATT:+----SUBJ:V-N----+ +MOD_ATT:+ | +MOD:ADJ+ | +MOD_A+ | +MO+ | +MOD_ATT+ +MOD_AT+ | +MOD_ATT:+----COMP_for:N-N---+ | | | | | | | | | | | | | | | | | | | | | | | | | | | Features of the coding and flanking regions that may modulate GENEXXX expression include a relatively weak ribosomal binding site ( delta G' = -13.8 kcal ) , the use of uncommon codons in the reading frame , and no obvious promoter sequence for either GENEXXX or GENEXXX . APPOS (site,=) MOD_ATT:N-N (expression,GENEXXX) MOD_ATT:N-ADJ (codons,uncommon) MOD_ATT:N-N (frame,reading) MOD_ATT:N-N (sequence,promoter) COMP_of:N-N (use,codons) OBJ:V-N (include,site) SUBJ:V-N (include,Features) COMP_for:N-N (sequence,GENEXXX) MOD_ATT:N-ADJ (sequence,obvious) COMP_in:N-N (codons,frame) MOD_ATT:N-N (=,G') MOD_ATT:N-ADJ (regions,flanking) COMP_of:N-N (use,sequence) MOD_ATT:N-ADJ (regions,coding) APPOS (site,use) MOD_ATT:N-N (site,binding) OBJ:V-N (modulate,expression) MOD_ATT:N-N (=,delta) MOD:ADJ-ADV (weak,relatively) COMP_for:N-N (sequence,GENEXXX) SUBJ:V-N (modulate,regions) MOD_ATT:N-ADJ (site,weak) MOD_ATT:N-ADJ (site,ribosomal) COMP_of:N-N (Features,regions) Parse 22 +------------------------------------SUBJ:V-N------------------------------------+-----------------OBJ:V-N-----------------+----------------APPOS---------------+------------------------------COMP_in:N-N------------------------------+ +------------COMP_of:N-N------------+ | +-----MOD_ATT:N-ADJ----+-----APPOS----+ +--------------COMP_in:N-N-------------+ | | +----MOD_ATT:N-ADJ---+ +-----OBJ:V-N-----+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+ +---COMP_of:N-N--+ | +---------COMP_for:N-N---------+ | | +MOD_ATT:+----SUBJ:V-N----+ +MOD_ATT:+ | +MOD:ADJ+ | +MOD_A+ | +MO+ | +MOD_ATT+ +MOD_AT+ +MOD_ATT+MOD_ATT:+----COMP_for:N-N---+ | | | | | | | | | | | | | | | | | | | | | | | | | | | Features of the coding and flanking regions that may modulate GENEXXX expression include a relatively weak ribosomal binding site ( delta G' = -13.8 kcal ) , the use of uncommon codons in the reading frame , and no obvious promoter sequence for either GENEXXX or GENEXXX . APPOS (site,=) MOD_ATT:N-N (expression,GENEXXX) MOD_ATT:N-ADJ (codons,uncommon) MOD_ATT:N-N (frame,reading) MOD_ATT:N-N (sequence,promoter) COMP_of:N-N (use,codons) OBJ:V-N (include,site) SUBJ:V-N (include,Features) COMP_for:N-N (sequence,GENEXXX) MOD_ATT:N-N (=,G') COMP_in:N-N (use,frame) MOD_ATT:N-ADJ (regions,flanking) MOD_ATT:N-ADJ (regions,coding) APPOS (site,use) MOD_ATT:N-N (site,binding) OBJ:V-N (modulate,expression) MOD_ATT:N-N (=,delta) MOD:ADJ-ADV (weak,relatively) COMP_for:N-N (sequence,GENEXXX) SUBJ:V-N (modulate,regions) COMP_in:N-N (use,sequence) MOD_ATT:N-ADJ (promoter,obvious) MOD_ATT:N-ADJ (site,weak) MOD_ATT:N-ADJ (site,ribosomal) COMP_of:N-N (Features,regions) Parse 23 +------------------------------------SUBJ:V-N------------------------------------+ +----------------------SUBJ:V-N----------------------+ +-----------------OBJ:V-N-----------------+----------------APPOS---------------+ +------------COMP_of:N-N------------+ | | +-----MOD_ATT:N-ADJ----+-----APPOS----+ | +----------------------COMP_in:N-N---------------------+ | +----MOD_ATT:N-ADJ---+ +-----OBJ:V-N-----+ | | +-MOD_ATT:N-ADJ+ +MOD_AT+ +---COMP_of:N-N--+-----COMP_in:N-N-----+ +---------COMP_for:N-N---------+ | | +MOD_ATT:+ | +MOD_ATT:+ | +MOD:ADJ+ | +MOD_A+ | +MO+ | +MOD_ATT+ +MOD_AT+ +MOD_ATT+MOD_ATT:+----COMP_for:N-N---+ | | | | | | | | | | | | | | | | | | | | | | | | | | | Features of the coding and flanking regions that may modulate GENEXXX expression include a relatively weak ribosomal binding site ( delta G' = -13.8 kcal ) , the use of uncommon codons in the reading frame , and no obvious promoter sequence for either GENEXXX or GENEXXX . APPOS (site,=) MOD_ATT:N-N (expression,GENEXXX) MOD_ATT:N-ADJ (codons,uncommon) MOD_ATT:N-N (frame,reading) MOD_ATT:N-N (sequence,promoter) COMP_of:N-N (use,codons) OBJ:V-N (include,site) SUBJ:V-N (include,Features) COMP_for:N-N (sequence,GENEXXX) COMP_in:N-N (codons,frame) MOD_ATT:N-N (=,G') MOD_ATT:N-ADJ (regions,flanking) COMP_in:N-N (codons,sequence) MOD_ATT:N-ADJ (regions,coding) APPOS (site,use) MOD_ATT:N-N (site,binding) OBJ:V-N (modulate,expression) MOD_ATT:N-N (=,delta) MOD:ADJ-ADV (weak,relatively) SUBJ:V-N (modulate,Features) COMP_for:N-N (sequence,GENEXXX) MOD_ATT:N-ADJ (promoter,obvious) MOD_ATT:N-ADJ (site,weak) MOD_ATT:N-ADJ (site,ribosomal) COMP_of:N-N (Features,regions) PMID: 8021191-1 Sentence 12 In this study , the regulation of GENEXXX GENEXXX transcription has been analyzed . Parse 0 +----------------------COMP_in:V-N---------------------+ | +-------------------SUBJ:V_PASS-N-------------------+ | +----------COMP_of:N-N----------+ | | | | +----MOD_ATT:N-N---+ | | | | | +MOD_ATT:N-+ | | | | | | | | | In this study , the regulation of GENEXXX GENEXXX transcription has been analyzed . SUBJ:V_PASS-N (analyzed,regulation) COMP_in:V-N (has,study) MOD_ATT:N-N (transcription,GENEXXX) MOD_ATT:N-N (transcription,GENEXXX) COMP_of:N-N (regulation,transcription) PMID: 8169223-3 Sentence 13 The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . Parse 0 +-------------------OBJ:V-N------------------+ +-------------------------MOD:V_PASS-ADV------------------------+ +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+ +-------COMP_to:V_PASS-N-------+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . COMP_of:N-N (both,functions) SUBJ:V_PASS-N (linked,domain) SUBJ:V_PASS-N (duplicated,either) MOD:V_PASS-ADV (linked,suggesting) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) Parse 1 +-------------------------MOD:V_PASS-ADV------------------------+ +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+ | +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+ | +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . COMP_of:N-N (both,functions) SUBJ:V_PASS-N (linked,domain) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) MOD:V_PASS-ADV (linked,suggesting) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,response) Parse 2 +-------------------OBJ:V-N------------------+ +-------------------------MOD:V_PASS-ADV------------------------+ +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+ +-------COMP_to:V_PASS-N-------+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . COMP_of:N-N (both,functions) SUBJ:V_PASS-N (linked,domain) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) MOD:V_PASS-ADV (linked,suggesting) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (domain,GENEXXX) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) Parse 3 +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ +-------------------------MOD:V_PASS-ADV------------------------+ +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +--------MOD_ATT:N-ADJ--------+ +-------COMP_to:V_PASS-N-------+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . COMP_of:N-N (both,functions) SUBJ:V_PASS-N (linked,domain) SUBJ:V_PASS-N (duplicated,either) MOD:V_PASS-ADV (linked,suggesting) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) Parse 4 +-------------------------MOD:V_PASS-ADV------------------------+ +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+ | +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+ | +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . COMP_of:N-N (both,functions) SUBJ:V_PASS-N (linked,domain) SUBJ:V_PASS-N (duplicated,either) MOD:V_PASS-ADV (linked,suggesting) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,response) Parse 5 +-------------------------MOD:V_PASS-ADV------------------------+ +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+ | +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+ | +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . COMP_of:N-N (both,functions) SUBJ:V_PASS-N (linked,domain) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) MOD:V_PASS-ADV (linked,suggesting) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (domain,GENEXXX) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,response) Parse 6 +-------------------------MOD:V_PASS-ADV------------------------+ +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+ | +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +--------MOD_ATT:N-ADJ--------+ | +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . COMP_of:N-N (both,functions) SUBJ:V_PASS-N (linked,domain) SUBJ:V_PASS-N (duplicated,either) MOD:V_PASS-ADV (linked,suggesting) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,response) Parse 7 +-------------------------MOD:V_PASS-ADV------------------------+ +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+ | +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+ | +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . COMP_of:N-N (both,functions) SUBJ:V_PASS-N (linked,domain) SUBJ:V_PASS-N (duplicated,either) MOD:V_PASS-ADV (linked,suggesting) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (domain,GENEXXX) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,response) Parse 8 +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ +-------------------------MOD:V_PASS-ADV------------------------+ +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +--------MOD_ATT:N-ADJ--------+ +-------COMP_to:V_PASS-N-------+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . COMP_of:N-N (both,functions) SUBJ:V_PASS-N (linked,domain) SUBJ:V_PASS-N (duplicated,either) MOD:V_PASS-ADV (linked,suggesting) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (domain,GENEXXX) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) Parse 9 +-------------------------MOD:V_PASS-ADV------------------------+ +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+ | +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +--------MOD_ATT:N-ADJ--------+ | +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . COMP_of:N-N (both,functions) SUBJ:V_PASS-N (linked,domain) SUBJ:V_PASS-N (duplicated,either) MOD:V_PASS-ADV (linked,suggesting) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (domain,GENEXXX) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,response) Parse 10 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +-------------------OBJ:V-N------------------+ | +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+ +-------COMP_to:V_PASS-N-------+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) COMP_of:N-N (both,functions) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) MOD:V-ADV (contains,suggesting) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) Parse 11 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+ | +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+ | +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) COMP_of:N-N (both,functions) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) MOD:V-ADV (contains,suggesting) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,response) Parse 12 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ | +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +--------MOD_ATT:N-ADJ--------+ +-------COMP_to:V_PASS-N-------+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-ADJ (domain,homologous) MOD:V-ADV (contains,suggesting) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) Parse 13 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +-------------------OBJ:V-N------------------+ | +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+ +-------COMP_to:V_PASS-N-------+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (contains,suggesting) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) Parse 14 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+ | +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+ | +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) MOD:V-ADV (contains,suggesting) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,response) Parse 15 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+ | +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+ | +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (contains,suggesting) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,response) Parse 16 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+ | +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +--------MOD_ATT:N-ADJ--------+ | +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-ADJ (domain,homologous) MOD:V-ADV (contains,suggesting) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,response) Parse 17 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ | +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +--------MOD_ATT:N-ADJ--------+ +-------COMP_to:V_PASS-N-------+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD:V-ADV (contains,suggesting) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) Parse 18 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+ | +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+ | +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (contains,suggesting) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,response) Parse 19 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+ | +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +--------MOD_ATT:N-ADJ--------+ | +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD:V-ADV (contains,suggesting) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,response) Parse 20 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +-------------------OBJ:V-N------------------+------------------------COMP_of:N-N------------------------+ | +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+ +-------COMP_to:V_PASS-N-------+ | | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) COMP_of:N-N (both,functions) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) MOD:V-ADV (contains,suggesting) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) COMP_of:N-N (domain,family) Parse 21 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +------------------------------------COMP_to:V-N-----------------------------------+ | +-------------------OBJ:V-N------------------+ | | +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+ +-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD:V-ADV (contains,suggesting) COMP_of:N-N (both,functions) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) COMP_to:V-N (contains,domain) Parse 22 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +-------------------OBJ:V-N------------------+------------------------COMP_of:N-N------------------------+ | +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+ +-------COMP_to:V_PASS-N-------+ | | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) MOD:V-ADV (contains,suggesting) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) COMP_of:N-N (domain,family) Parse 23 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +------------------------------------COMP_to:V-N-----------------------------------+ | +-------------------OBJ:V-N------------------+ | | +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+ +-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD:V-ADV (contains,suggesting) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) COMP_to:V-N (contains,domain) Parse 24 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +-------------------OBJ:V-N------------------+------------------------COMP_of:N-N------------------------+ | +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+ +-------COMP_to:V_PASS-N-------+ | | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (contains,suggesting) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) COMP_of:N-N (domain,family) Parse 25 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ | +------------------------COMP_of:N-N------------------------+ | +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+ | | +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+ | +---MOD_ATT:N-N---+ | | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) COMP_of:N-N (both,functions) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) MOD:V-ADV (contains,suggesting) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,response) COMP_of:N-N (domain,family) Parse 26 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +------------------------------------COMP_to:V-N-----------------------------------+ | +-------------------OBJ:V-N------------------+ | | +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+ +-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD:V-ADV (contains,suggesting) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) COMP_to:V-N (contains,domain) Parse 27 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +------------------------------------COMP_to:V-N-----------------------------------+ | +-------------------OBJ:V-N------------------+ | | +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD:V-ADV (contains,suggesting) COMP_of:N-N (both,functions) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,response) COMP_to:V-N (contains,domain) Parse 28 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+------------------------COMP_of:N-N------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +--------MOD_ATT:N-ADJ--------+ +-------COMP_to:V_PASS-N-------+ | | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-ADJ (domain,homologous) MOD:V-ADV (contains,suggesting) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) COMP_of:N-N (domain,family) Parse 29 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ | +------------------------COMP_of:N-N------------------------+ | +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+ | | +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+ | +---MOD_ATT:N-N---+ | | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) MOD:V-ADV (contains,suggesting) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,response) COMP_of:N-N (domain,family) Parse 30 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +-------------------OBJ:V-N------------------+------------------------COMP_of:N-N------------------------+ | +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+ +-------COMP_to:V_PASS-N-------+ | | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (contains,suggesting) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) COMP_of:N-N (domain,family) Parse 31 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +------------------------------------COMP_to:V-N-----------------------------------+ | +-------------------OBJ:V-N------------------+ | | +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD:V-ADV (contains,suggesting) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,response) COMP_to:V-N (contains,domain) Parse 32 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +------------------------------------COMP_to:V-N-----------------------------------+ | +-------------------OBJ:V-N------------------+ | | +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+ +-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD:V-ADV (contains,suggesting) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) COMP_to:V-N (contains,domain) Parse 33 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +------------------------------------COMP_to:V-N-----------------------------------+ | +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ | | +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +--------MOD_ATT:N-ADJ--------+ +-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD:V-ADV (contains,suggesting) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) SUBJ:V-N (contains,product) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-ADJ (domain,homologous) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) COMP_to:V-N (contains,domain) Parse 34 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ | +------------------------COMP_of:N-N------------------------+ | +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+ | | +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+ | +---MOD_ATT:N-N---+ | | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (contains,suggesting) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,response) COMP_of:N-N (domain,family) Parse 35 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +------------------------------------COMP_to:V-N-----------------------------------+ | +-------------------OBJ:V-N------------------+ | | +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD:V-ADV (contains,suggesting) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,response) COMP_to:V-N (contains,domain) Parse 36 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ | +------------------------COMP_of:N-N------------------------+ | +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+ | | +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+ | +---MOD_ATT:N-N---+ | | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (contains,suggesting) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,response) COMP_of:N-N (domain,family) Parse 37 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ | +------------------------COMP_of:N-N------------------------+ | +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+ | | +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +--------MOD_ATT:N-ADJ--------+ | +---MOD_ATT:N-N---+ | | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-ADJ (domain,homologous) MOD:V-ADV (contains,suggesting) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,response) COMP_of:N-N (domain,family) Parse 38 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +------------------------------------COMP_to:V-N-----------------------------------+ | +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ | | +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +--------MOD_ATT:N-ADJ--------+ +-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD:V-ADV (contains,suggesting) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) SUBJ:V-N (contains,product) MOD_ATT:N-ADJ (domain,amino-terminal) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) COMP_to:V-N (contains,domain) Parse 39 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +------------------------------------COMP_to:V-N-----------------------------------+ | +-------------------OBJ:V-N------------------+ | | +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD:V-ADV (contains,suggesting) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,response) COMP_to:V-N (contains,domain) Parse 40 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +------------------------------------COMP_to:V-N-----------------------------------+ | +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ | | +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +--------MOD_ATT:N-ADJ--------+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD:V-ADV (contains,suggesting) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) SUBJ:V-N (contains,product) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-ADJ (domain,homologous) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,response) COMP_to:V-N (contains,domain) Parse 41 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ | +------------------------COMP_of:N-N------------------------+ | +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+ | | +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +--------MOD_ATT:N-ADJ--------+ | +---MOD_ATT:N-N---+ | | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD:V-ADV (contains,suggesting) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,response) COMP_of:N-N (domain,family) Parse 42 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +------------------------------------COMP_to:V-N-----------------------------------+ | +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ | | +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +--------MOD_ATT:N-ADJ--------+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD:V-ADV (contains,suggesting) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) SUBJ:V-N (contains,product) MOD_ATT:N-ADJ (domain,amino-terminal) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,response) COMP_to:V-N (contains,domain) Parse 43 +-------------------OBJ:V-N------------------+ +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+ +-------COMP_to:V_PASS-N-------+-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (linked,domain) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) Parse 44 +-------------------OBJ:V-N------------------+ +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+ +-------COMP_to:V_PASS-N-------+-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (linked,domain) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) Parse 45 +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+ +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+ | +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (linked,domain) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,response) Parse 46 +-------------------OBJ:V-N------------------+ +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+ +-------COMP_to:V_PASS-N-------+-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (linked,domain) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (domain,GENEXXX) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,regulator) Parse 47 +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +--------MOD_ATT:N-ADJ--------+ +-------COMP_to:V_PASS-N-------+-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (linked,domain) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) Parse 48 +-------------------OBJ:V-N------------------+ +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+ +-------COMP_to:V_PASS-N-------+-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (linked,domain) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (domain,GENEXXX) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) Parse 49 +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+ +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+ | +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ | +MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (linked,domain) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (domain,GENEXXX) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (domain,response) Parse 50 +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+ +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +--------MOD_ATT:N-ADJ--------+ | +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (linked,domain) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,response) Parse 51 +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+ +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+ | +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ | +MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (linked,domain) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (domain,GENEXXX) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (domain,response) Parse 52 +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +--------MOD_ATT:N-ADJ--------+ +-------COMP_to:V_PASS-N-------+-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (linked,domain) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (domain,GENEXXX) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) Parse 53 +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+ +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +--------MOD_ATT:N-ADJ--------+ | +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ | +MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (linked,domain) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (domain,GENEXXX) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (domain,response) Parse 54 +-------------------OBJ:V-N------------------+ +------------SUBJ:V-N------------+ +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+ +-------COMP_to:V_PASS-N-------+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,domain) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (linked,domain) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) Parse 55 +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+------------SUBJ:V-N------------+ +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+ | +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,domain) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (linked,domain) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,response) Parse 56 +-------------------OBJ:V-N------------------+ +------------SUBJ:V-N------------+ +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+ +-------COMP_to:V_PASS-N-------+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,domain) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (linked,domain) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (domain,GENEXXX) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,regulator) Parse 57 +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+------------SUBJ:V-N------------+ +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+ | +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,domain) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (linked,domain) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,response) Parse 58 +-------------------OBJ:V-N------------------+ +------------SUBJ:V-N------------+ +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+ +-------COMP_to:V_PASS-N-------+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,domain) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (linked,domain) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (domain,GENEXXX) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) Parse 59 +------------------------------------COMP_to:V-N-----------------------------------+ +-------------------OBJ:V-N------------------+ | +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+ +-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,regulator) COMP_to:V-N (contains,domain) Parse 60 +-------------------OBJ:V-N------------------+------------------------COMP_of:N-N------------------------+ +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+ +-------COMP_to:V_PASS-N-------+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) COMP_of:N-N (domain,family) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) Parse 61 +-------------------OBJ:V-N------------------+------------------------COMP_of:N-N------------------------+ +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+ +-------COMP_to:V_PASS-N-------+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) COMP_of:N-N (domain,family) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) Parse 62 +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+------------SUBJ:V-N------------+ +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +--------MOD_ATT:N-ADJ--------+ | +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,domain) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (linked,domain) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,response) Parse 63 +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ +------------SUBJ:V-N------------+ +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +--------MOD_ATT:N-ADJ--------+ +-------COMP_to:V_PASS-N-------+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,domain) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (linked,domain) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (domain,GENEXXX) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) Parse 64 +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+------------SUBJ:V-N------------+ +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+ | +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,domain) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (linked,domain) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (domain,GENEXXX) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (domain,response) Parse 65 +------------------------------------COMP_to:V-N-----------------------------------+ +-------------------OBJ:V-N------------------+ | +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (domain,response) COMP_to:V-N (contains,domain) Parse 66 +------------------------COMP_of:N-N------------------------+ +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+ | +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+ | +---MOD_ATT:N-N---+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) COMP_of:N-N (domain,family) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,response) Parse 67 +------------------------------------COMP_to:V-N-----------------------------------+ +-------------------OBJ:V-N------------------+ | +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (domain,response) COMP_to:V-N (contains,domain) Parse 68 +------------------------------------COMP_to:V-N-----------------------------------+ +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ | +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +--------MOD_ATT:N-ADJ--------+ +-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) SUBJ:V-N (contains,product) MOD_ATT:N-ADJ (domain,homologous) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) COMP_to:V-N (contains,domain) Parse 69 +------------------------COMP_of:N-N------------------------+ +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+ | +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+ | +---MOD_ATT:N-N---+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) COMP_of:N-N (domain,family) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,response) Parse 70 +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+------------------------COMP_of:N-N------------------------+ +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +--------MOD_ATT:N-ADJ--------+ +-------COMP_to:V_PASS-N-------+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) COMP_to:V_PASS-N (linked,domain) COMP_of:N-N (domain,family) SUBJ:V-N (contains,product) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) Parse 71 +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+------------SUBJ:V-N------------+ +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +--------MOD_ATT:N-ADJ--------+ | +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,domain) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (linked,domain) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (domain,GENEXXX) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (domain,response) Parse 72 +------------------------------------COMP_to:V-N-----------------------------------+ +-------------------OBJ:V-N------------------+ | +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ | +MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (domain,response) COMP_to:V-N (contains,domain) Parse 73 +------------------------COMP_of:N-N------------------------+ +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+ | +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+ | +---MOD_ATT:N-N---+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ | +MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) COMP_of:N-N (domain,family) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (domain,response) Parse 74 +------------------------------------COMP_to:V-N-----------------------------------+ +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ | +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +--------MOD_ATT:N-ADJ--------+ +-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) SUBJ:V-N (contains,product) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) COMP_to:V-N (contains,domain) Parse 75 +------------------------------------COMP_to:V-N-----------------------------------+ +-------------------OBJ:V-N------------------+ | +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ | +MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (domain,response) COMP_to:V-N (contains,domain) Parse 76 +------------------------------------COMP_to:V-N-----------------------------------+ +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ | +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +--------MOD_ATT:N-ADJ--------+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) SUBJ:V-N (contains,product) MOD_ATT:N-ADJ (domain,homologous) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (domain,response) COMP_to:V-N (contains,domain) Parse 77 +------------------------COMP_of:N-N------------------------+ +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+ | +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +--------MOD_ATT:N-ADJ--------+ | +---MOD_ATT:N-N---+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) COMP_to:V_PASS-N (linked,domain) COMP_of:N-N (domain,family) SUBJ:V-N (contains,product) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,response) Parse 78 +------------------------COMP_of:N-N------------------------+ +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+ | +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+ | +---MOD_ATT:N-N---+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ | +MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) COMP_of:N-N (domain,family) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (domain,response) Parse 79 +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+------------------------COMP_of:N-N------------------------+ +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +--------MOD_ATT:N-ADJ--------+ +-------COMP_to:V_PASS-N-------+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) COMP_to:V_PASS-N (linked,domain) COMP_of:N-N (domain,family) SUBJ:V-N (contains,product) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) Parse 80 +------------------------------------COMP_to:V-N-----------------------------------+ +-------------------OBJ:V-N------------------+ +------------SUBJ:V-N------------+ +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+ +-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) SUBJ:V-N (suggesting,domain) COMP_of:N-N (both,functions) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,regulator) COMP_to:V-N (contains,domain) Parse 81 +------------------------------------COMP_to:V-N-----------------------------------+ +-------------------OBJ:V-N------------------+ +------------SUBJ:V-N------------+ +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) SUBJ:V-N (suggesting,domain) COMP_of:N-N (both,functions) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (domain,response) COMP_to:V-N (contains,domain) Parse 82 +------------------------------------COMP_to:V-N-----------------------------------+ +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ +------------SUBJ:V-N------------+ +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +--------MOD_ATT:N-ADJ--------+ +-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) SUBJ:V-N (suggesting,domain) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) SUBJ:V-N (contains,product) MOD_ATT:N-ADJ (domain,homologous) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) COMP_to:V-N (contains,domain) Parse 83 +------------------------------------COMP_to:V-N-----------------------------------+ +-------------------OBJ:V-N------------------+ +------------SUBJ:V-N------------+ +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+ +-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) SUBJ:V-N (suggesting,domain) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) COMP_to:V-N (contains,domain) Parse 84 +------------------------------------COMP_to:V-N-----------------------------------+ +-------------------OBJ:V-N------------------+ +------------SUBJ:V-N------------+ +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) SUBJ:V-N (suggesting,domain) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (domain,response) COMP_to:V-N (contains,domain) Parse 85 +------------------------------------COMP_to:V-N-----------------------------------+ +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ +------------SUBJ:V-N------------+ +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +--------MOD_ATT:N-ADJ--------+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) SUBJ:V-N (suggesting,domain) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) SUBJ:V-N (contains,product) MOD_ATT:N-ADJ (domain,homologous) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (domain,response) COMP_to:V-N (contains,domain) Parse 86 +------------------------------------COMP_to:V-N-----------------------------------+ +-------------------OBJ:V-N------------------+ +------------SUBJ:V-N------------+ +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) SUBJ:V-N (suggesting,domain) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (domain,response) COMP_to:V-N (contains,domain) Parse 87 +------------------------------------COMP_to:V-N-----------------------------------+ +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ +------------SUBJ:V-N------------+ +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +--------MOD_ATT:N-ADJ--------+ +-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) SUBJ:V-N (suggesting,domain) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) SUBJ:V-N (contains,product) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) COMP_to:V-N (contains,domain) Parse 88 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +-------------------OBJ:V-N------------------+ | +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+-------------COMP_to:N-N-------------+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) COMP_of:N-N (both,functions) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) MOD:V-ADV (contains,suggesting) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) Parse 89 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +-------------------OBJ:V-N------------------+ | +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+-------------COMP_to:N-N-------------+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) MOD:V-ADV (contains,suggesting) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) Parse 90 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +-------------------OBJ:V-N------------------+-------------COMP_to:N-N-------------+ | +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) COMP_of:N-N (both,functions) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) MOD:V-ADV (contains,suggesting) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,response) Parse 91 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +-------------------OBJ:V-N------------------+ | +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+-------------COMP_to:N-N-------------+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (contains,suggesting) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) Parse 92 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ | +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +--------MOD_ATT:N-ADJ--------+-------------COMP_to:N-N-------------+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) SUBJ:V-N (contains,product) MOD_ATT:N-ADJ (domain,homologous) MOD:V-ADV (contains,suggesting) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) Parse 93 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +-------------------OBJ:V-N------------------+-------------COMP_to:N-N-------------+ | +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) MOD:V-ADV (contains,suggesting) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,response) Parse 94 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +-------------------OBJ:V-N------------------+ | +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+-------------COMP_to:N-N-------------+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (contains,suggesting) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) Parse 95 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +-------------------OBJ:V-N------------------+-------------COMP_to:N-N-------------+ | +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (contains,suggesting) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,response) Parse 96 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+-------------COMP_to:N-N-------------+ | +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +--------MOD_ATT:N-ADJ--------+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) SUBJ:V-N (contains,product) MOD_ATT:N-ADJ (domain,homologous) MOD:V-ADV (contains,suggesting) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,response) Parse 97 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +-------------------OBJ:V-N------------------+-------------COMP_to:N-N-------------+ | +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (contains,suggesting) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,response) Parse 98 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ | +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +--------MOD_ATT:N-ADJ--------+-------------COMP_to:N-N-------------+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) SUBJ:V-N (contains,product) MOD:V-ADV (contains,suggesting) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) Parse 99 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+-------------COMP_to:N-N-------------+ | +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +--------MOD_ATT:N-ADJ--------+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) SUBJ:V-N (contains,product) MOD:V-ADV (contains,suggesting) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,response) Parse 100 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +-------------------OBJ:V-N------------------+------------------------COMP_of:N-N------------------------+ | +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+-------------COMP_to:N-N-------------+ | | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) MOD:V-ADV (contains,suggesting) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) COMP_of:N-N (domain,family) Parse 101 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ | +------------------------COMP_of:N-N------------------------+ | +-------------------OBJ:V-N------------------+-------------COMP_to:N-N-------------+ | | +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+ +---MOD_ATT:N-N---+ | | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) COMP_of:N-N (both,functions) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) MOD:V-ADV (contains,suggesting) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,response) COMP_of:N-N (domain,family) Parse 102 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +-------------------OBJ:V-N------------------+------------------------COMP_of:N-N------------------------+ | +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+-------------COMP_to:N-N-------------+ | | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (contains,suggesting) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) COMP_of:N-N (domain,family) Parse 103 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +-------------------OBJ:V-N------------------+------------------------COMP_of:N-N------------------------+ | +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+-------------COMP_to:N-N-------------+ | | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (contains,suggesting) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) COMP_of:N-N (domain,family) Parse 104 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ | +------------------------COMP_of:N-N------------------------+ | +-------------------OBJ:V-N------------------+-------------COMP_to:N-N-------------+ | | +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+ +---MOD_ATT:N-N---+ | | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) MOD:V-ADV (contains,suggesting) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,response) COMP_of:N-N (domain,family) Parse 105 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ | +------------------------COMP_of:N-N------------------------+ | +-------------------OBJ:V-N------------------+-------------COMP_to:N-N-------------+ | | +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+ +---MOD_ATT:N-N---+ | | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (contains,suggesting) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,response) COMP_of:N-N (domain,family) Parse 106 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ | +------------------------COMP_of:N-N------------------------+ | +-------------------OBJ:V-N------------------+-------------COMP_to:N-N-------------+ | | +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+ +---MOD_ATT:N-N---+ | | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD:V-ADV (contains,suggesting) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,response) COMP_of:N-N (domain,family) Parse 107 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ | +------------------------COMP_of:N-N------------------------+ | +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+-------------COMP_to:N-N-------------+ | | +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +--------MOD_ATT:N-ADJ--------+ +---MOD_ATT:N-N---+ | | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD_ATT:N-ADJ (domain,amino-terminal) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) SUBJ:V-N (contains,product) MOD_ATT:N-ADJ (domain,homologous) MOD:V-ADV (contains,suggesting) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,response) COMP_of:N-N (domain,family) Parse 108 +-------------------OBJ:V-N------------------+ +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+-------------COMP_to:N-N-------------+-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) Parse 109 +-------------------OBJ:V-N------------------+ +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+-------------COMP_to:N-N-------------+-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) Parse 110 +-------------------OBJ:V-N------------------+-------------COMP_to:N-N-------------+ +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,response) Parse 111 +-------------------OBJ:V-N------------------+ +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+-------------COMP_to:N-N-------------+-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (domain,GENEXXX) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,regulator) Parse 112 +-------------------OBJ:V-N------------------+-------------COMP_to:N-N-------------+ +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,response) Parse 113 +-------------------OBJ:V-N------------------+ +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+-------------COMP_to:N-N-------------+-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (domain,GENEXXX) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) Parse 114 +-------------------OBJ:V-N------------------+-------------COMP_to:N-N-------------+ +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ | +MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (domain,GENEXXX) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (domain,response) Parse 115 +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+-------------COMP_to:N-N-------------+ +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +--------MOD_ATT:N-ADJ--------+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) SUBJ:V-N (contains,product) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,response) Parse 116 +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +--------MOD_ATT:N-ADJ--------+-------------COMP_to:N-N-------------+-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) SUBJ:V-N (contains,product) MOD_ATT:N-N (domain,GENEXXX) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) Parse 117 +-------------------OBJ:V-N------------------+-------------COMP_to:N-N-------------+ +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ | +MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (domain,GENEXXX) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (domain,response) Parse 118 +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+-------------COMP_to:N-N-------------+ +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +--------MOD_ATT:N-ADJ--------+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ | +MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) SUBJ:V-N (contains,product) MOD_ATT:N-N (domain,GENEXXX) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (domain,response) Parse 119 +-------------------OBJ:V-N------------------+ +------------SUBJ:V-N------------+ +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+-------------COMP_to:N-N-------------+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,domain) COMP_of:N-N (both,functions) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) Parse 120 +-------------------OBJ:V-N------------------+ +------------SUBJ:V-N------------+ +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+-------------COMP_to:N-N-------------+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,domain) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) Parse 121 +-------------------OBJ:V-N------------------+-------------COMP_to:N-N-------------+------------SUBJ:V-N------------+ +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,domain) COMP_of:N-N (both,functions) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,response) Parse 122 +-------------------OBJ:V-N------------------+ +------------SUBJ:V-N------------+ +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+-------------COMP_to:N-N-------------+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,domain) COMP_of:N-N (both,functions) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (domain,GENEXXX) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,regulator) Parse 123 +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ +------------SUBJ:V-N------------+ +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +--------MOD_ATT:N-ADJ--------+-------------COMP_to:N-N-------------+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,domain) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) SUBJ:V-N (contains,product) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) Parse 124 +-------------------OBJ:V-N------------------+-------------COMP_to:N-N-------------+------------SUBJ:V-N------------+ +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,domain) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,response) Parse 125 +-------------------OBJ:V-N------------------+ +------------SUBJ:V-N------------+ +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+-------------COMP_to:N-N-------------+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,domain) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (domain,GENEXXX) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) Parse 126 +-------------------OBJ:V-N------------------+------------------------COMP_of:N-N------------------------+ +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+-------------COMP_to:N-N-------------+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) COMP_of:N-N (domain,family) Parse 127 +-------------------OBJ:V-N------------------+-------------COMP_to:N-N-------------+------------SUBJ:V-N------------+ +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,domain) COMP_of:N-N (both,functions) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (domain,GENEXXX) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (domain,response) Parse 128 +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+-------------COMP_to:N-N-------------+------------SUBJ:V-N------------+ +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +--------MOD_ATT:N-ADJ--------+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,domain) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) SUBJ:V-N (contains,product) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,response) Parse 129 +-------------------OBJ:V-N------------------+------------------------COMP_of:N-N------------------------+ +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+-------------COMP_to:N-N-------------+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) COMP_of:N-N (domain,family) Parse 130 +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ +------------SUBJ:V-N------------+ +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +--------MOD_ATT:N-ADJ--------+-------------COMP_to:N-N-------------+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,domain) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) SUBJ:V-N (contains,product) MOD_ATT:N-N (domain,GENEXXX) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) Parse 131 +-------------------OBJ:V-N------------------+-------------COMP_to:N-N-------------+------------SUBJ:V-N------------+ +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,domain) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (domain,GENEXXX) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (domain,response) Parse 132 +-------------------OBJ:V-N------------------+------------------------COMP_of:N-N------------------------+ +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +--------MOD_ATT:N-ADJ--------+-------------COMP_to:N-N-------------+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (domain,GENEXXX) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,regulator) COMP_of:N-N (domain,family) Parse 133 +------------------------COMP_of:N-N------------------------+ +-------------------OBJ:V-N------------------+-------------COMP_to:N-N-------------+ | +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+ +---MOD_ATT:N-N---+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,response) COMP_of:N-N (domain,family) Parse 134 +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+------------------------COMP_of:N-N------------------------+ +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +--------MOD_ATT:N-ADJ--------+-------------COMP_to:N-N-------------+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) SUBJ:V-N (contains,product) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) COMP_of:N-N (domain,family) Parse 135 +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+-------------COMP_to:N-N-------------+------------SUBJ:V-N------------+ +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +--------MOD_ATT:N-ADJ--------+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,domain) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) SUBJ:V-N (contains,product) MOD_ATT:N-N (domain,GENEXXX) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (domain,response) Parse 136 +-------------------OBJ:V-N------------------+------------------------COMP_of:N-N------------------------+ +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+-------------COMP_to:N-N-------------+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (domain,GENEXXX) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) COMP_of:N-N (domain,family) Parse 137 +-------------------OBJ:V-N------------------+ +-------------------------MOD:V_PASS-ADV------------------------+ +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ +-------COMP_to:V_PASS-N-------+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (linked,domain) SUBJ:V_PASS-N (duplicated,either) MOD:V_PASS-ADV (linked,suggesting) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) Parse 138 +-------------------------MOD:V_PASS-ADV------------------------+ +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+ | +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +---MOD_ATT:N-N---+ | +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (linked,domain) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) MOD:V_PASS-ADV (linked,suggesting) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,response) Parse 139 +------------------------COMP_of:N-N------------------------+ +-------------------OBJ:V-N------------------+-------------COMP_to:N-N-------------+ | +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +--------MOD_ATT:N-ADJ--------+ +---MOD_ATT:N-N---+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ | +MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-N (domain,GENEXXX) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (domain,response) COMP_of:N-N (domain,family) Parse 140 +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+------------------------COMP_of:N-N------------------------+ +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +--------MOD_ATT:N-ADJ--------+-------------COMP_to:N-N-------------+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +---MOD_ATT:N-N---+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-ADJ (domain,amino-terminal) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) SUBJ:V-N (contains,product) MOD_ATT:N-N (domain,GENEXXX) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) COMP_of:N-N (domain,family) Parse 141 +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ +-------------------------MOD:V_PASS-ADV------------------------+ +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +---MOD_ATT:N-N---+ +-------COMP_to:V_PASS-N-------+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (linked,domain) SUBJ:V_PASS-N (duplicated,either) MOD:V_PASS-ADV (linked,suggesting) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) Parse 142 +-------------------------MOD:V_PASS-ADV------------------------+ +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+ | +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (linked,domain) SUBJ:V_PASS-N (duplicated,either) MOD:V_PASS-ADV (linked,suggesting) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,response) Parse 143 +-------------------------MOD:V_PASS-ADV------------------------+ +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+ | +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +---MOD_ATT:N-N---+ | +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (linked,domain) SUBJ:V_PASS-N (duplicated,either) MOD:V_PASS-ADV (linked,suggesting) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,response) Parse 144 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +-------------------OBJ:V-N------------------+ | +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +---MOD_ATT:N-N---+ +-------COMP_to:V_PASS-N-------+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . COMP_of:N-N (both,functions) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,GENEXXX) MOD:V-ADV (contains,suggesting) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) Parse 145 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +-------------------OBJ:V-N------------------+ | +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ +-------COMP_to:V_PASS-N-------+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,GENEXXX) MOD:V-ADV (contains,suggesting) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) Parse 146 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+ | +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +---MOD_ATT:N-N---+ | +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . COMP_of:N-N (both,functions) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,GENEXXX) MOD:V-ADV (contains,suggesting) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,response) Parse 147 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ | +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +---MOD_ATT:N-N---+ +-------COMP_to:V_PASS-N-------+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,GENEXXX) MOD:V-ADV (contains,suggesting) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) Parse 148 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+ | +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,GENEXXX) MOD:V-ADV (contains,suggesting) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,response) Parse 149 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+ | +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +---MOD_ATT:N-N---+ | +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,GENEXXX) MOD:V-ADV (contains,suggesting) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,response) Parse 150 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +-------------------OBJ:V-N------------------+------------------------COMP_of:N-N------------------------+ | +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +---MOD_ATT:N-N---+ +-------COMP_to:V_PASS-N-------+ | | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . COMP_of:N-N (both,functions) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,GENEXXX) MOD:V-ADV (contains,suggesting) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) COMP_of:N-N (domain,family) Parse 151 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +-------------------OBJ:V-N------------------+------------------------COMP_of:N-N------------------------+ | +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ +-------COMP_to:V_PASS-N-------+ | | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,GENEXXX) MOD:V-ADV (contains,suggesting) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) COMP_of:N-N (domain,family) Parse 152 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +------------------------------------COMP_to:V-N-----------------------------------+ | +-------------------OBJ:V-N------------------+ | | +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ +-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD:V-ADV (contains,suggesting) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) COMP_to:V-N (contains,domain) Parse 153 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ | +------------------------COMP_of:N-N------------------------+ | +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+ | | +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +---MOD_ATT:N-N---+ | +---MOD_ATT:N-N---+ | | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . COMP_of:N-N (both,functions) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,GENEXXX) MOD:V-ADV (contains,suggesting) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,response) COMP_of:N-N (domain,family) Parse 154 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +------------------------------------COMP_to:V-N-----------------------------------+ | +-------------------OBJ:V-N------------------+ | | +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +---MOD_ATT:N-N---+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD:V-ADV (contains,suggesting) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,response) COMP_to:V-N (contains,domain) Parse 155 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ | +------------------------COMP_of:N-N------------------------+ | +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+ | | +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | +---MOD_ATT:N-N---+ | | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,GENEXXX) MOD:V-ADV (contains,suggesting) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,response) COMP_of:N-N (domain,family) Parse 156 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+------------------------COMP_of:N-N------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +---MOD_ATT:N-N---+ +-------COMP_to:V_PASS-N-------+ | | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,GENEXXX) MOD:V-ADV (contains,suggesting) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) COMP_of:N-N (domain,family) Parse 157 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +------------------------------------COMP_to:V-N-----------------------------------+ | +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ | | +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +---MOD_ATT:N-N---+ +-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD:V-ADV (contains,suggesting) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) SUBJ:V-N (contains,product) MOD_ATT:N-ADJ (domain,homologous) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) COMP_to:V-N (contains,domain) Parse 158 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +------------------------------------COMP_to:V-N-----------------------------------+ | +-------------------OBJ:V-N------------------+ | | +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD:V-ADV (contains,suggesting) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,response) COMP_to:V-N (contains,domain) Parse 159 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ | +------------------------COMP_of:N-N------------------------+ | +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+ | | +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +---MOD_ATT:N-N---+ | +---MOD_ATT:N-N---+ | | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,GENEXXX) MOD:V-ADV (contains,suggesting) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,response) COMP_of:N-N (domain,family) Parse 160 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +------------------------------------COMP_to:V-N-----------------------------------+ | +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ | | +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +---MOD_ATT:N-N---+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . MOD:V-ADV (contains,suggesting) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) SUBJ:V-N (contains,product) MOD_ATT:N-ADJ (domain,homologous) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,response) COMP_to:V-N (contains,domain) Parse 161 +-------------------OBJ:V-N------------------+ +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +---MOD_ATT:N-N---+ +-------COMP_to:V_PASS-N-------+-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (linked,domain) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) Parse 162 +-------------------OBJ:V-N------------------+ +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ +-------COMP_to:V_PASS-N-------+-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (linked,domain) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) Parse 163 +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+ +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +---MOD_ATT:N-N---+ | +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (linked,domain) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,response) Parse 164 +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+ +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (linked,domain) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,response) Parse 165 +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+ +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +---MOD_ATT:N-N---+ | +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (linked,domain) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,response) Parse 166 +-------------------OBJ:V-N------------------+ +------------SUBJ:V-N------------+ +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +---MOD_ATT:N-N---+ +-------COMP_to:V_PASS-N-------+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,domain) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (linked,domain) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) Parse 167 +-------------------OBJ:V-N------------------+ +------------SUBJ:V-N------------+ +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ +-------COMP_to:V_PASS-N-------+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,domain) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (linked,domain) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) Parse 168 +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+------------SUBJ:V-N------------+ +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +---MOD_ATT:N-N---+ | +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,domain) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (linked,domain) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,response) Parse 169 +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+------------SUBJ:V-N------------+ +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,domain) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (linked,domain) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,response) Parse 170 +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ +------------SUBJ:V-N------------+ +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +---MOD_ATT:N-N---+ +-------COMP_to:V_PASS-N-------+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,domain) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (linked,domain) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) Parse 171 +------------------------------------COMP_to:V-N-----------------------------------+ +-------------------OBJ:V-N------------------+ | +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +---MOD_ATT:N-N---+ +-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,GENEXXX) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,regulator) COMP_to:V-N (contains,domain) Parse 172 +-------------------OBJ:V-N------------------+------------------------COMP_of:N-N------------------------+ +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +---MOD_ATT:N-N---+ +-------COMP_to:V_PASS-N-------+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) COMP_of:N-N (domain,family) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) Parse 173 +------------------------------------COMP_to:V-N-----------------------------------+ +-------------------OBJ:V-N------------------+ | +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ +-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,GENEXXX) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) COMP_to:V-N (contains,domain) Parse 174 +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+------------SUBJ:V-N------------+ +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +---MOD_ATT:N-N---+ | +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,domain) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (linked,domain) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) COMP_to:V_PASS-N (linked,domain) SUBJ:V-N (contains,product) COMP_of:N-N (domain,family) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,response) Parse 175 +------------------------------------COMP_to:V-N-----------------------------------+ +-------------------OBJ:V-N------------------+ | +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +---MOD_ATT:N-N---+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,GENEXXX) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (domain,response) COMP_to:V-N (contains,domain) Parse 176 +------------------------COMP_of:N-N------------------------+ +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+ | +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +---MOD_ATT:N-N---+ | +---MOD_ATT:N-N---+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) COMP_of:N-N (domain,family) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,response) Parse 177 +------------------------------------COMP_to:V-N-----------------------------------+ +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ | +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +---MOD_ATT:N-N---+ +-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) SUBJ:V-N (contains,product) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,GENEXXX) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) COMP_to:V-N (contains,domain) Parse 178 +------------------------------------COMP_to:V-N-----------------------------------+ +-------------------OBJ:V-N------------------+ | +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,GENEXXX) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (domain,response) COMP_to:V-N (contains,domain) Parse 179 +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+------------------------COMP_of:N-N------------------------+ +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +---MOD_ATT:N-N---+ +-------COMP_to:V_PASS-N-------+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) COMP_to:V_PASS-N (linked,domain) COMP_of:N-N (domain,family) SUBJ:V-N (contains,product) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) Parse 180 +------------------------COMP_of:N-N------------------------+ +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+ | +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ | +---MOD_ATT:N-N---+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) COMP_to:V_PASS-N (linked,domain) COMP_of:N-N (domain,family) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,response) Parse 181 +------------------------------------COMP_to:V-N-----------------------------------+ +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ | +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +---MOD_ATT:N-N---+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) SUBJ:V-N (contains,product) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,GENEXXX) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (domain,response) COMP_to:V-N (contains,domain) Parse 182 +------------------------COMP_of:N-N------------------------+ +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ +-------COMP_to:V_PASS-N-------+ | +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +---MOD_ATT:N-N---+ | +---MOD_ATT:N-N---+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) COMP_to:V_PASS-N (linked,domain) COMP_of:N-N (domain,family) SUBJ:V-N (contains,product) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,response) Parse 183 +------------------------------------COMP_to:V-N-----------------------------------+ +-------------------OBJ:V-N------------------+ +------------SUBJ:V-N------------+ +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +---MOD_ATT:N-N---+ +-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,domain) COMP_of:N-N (both,functions) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,GENEXXX) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,regulator) COMP_to:V-N (contains,domain) Parse 184 +------------------------------------COMP_to:V-N-----------------------------------+ +-------------------OBJ:V-N------------------+ +------------SUBJ:V-N------------+ +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ +-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,domain) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,GENEXXX) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) COMP_to:V-N (contains,domain) Parse 185 +------------------------------------COMP_to:V-N-----------------------------------+ +-------------------OBJ:V-N------------------+ +------------SUBJ:V-N------------+ +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,domain) COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,GENEXXX) COMP_of:N-N (domain,family) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (domain,response) COMP_to:V-N (contains,domain) Parse 186 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +-------------------OBJ:V-N------------------+ | +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +---MOD_ATT:N-N---+-------------COMP_to:N-N-------------+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . COMP_of:N-N (both,functions) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,GENEXXX) MOD:V-ADV (contains,suggesting) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) Parse 187 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +-------------------OBJ:V-N------------------+ | +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+-------------COMP_to:N-N-------------+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,GENEXXX) MOD:V-ADV (contains,suggesting) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) Parse 188 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +-------------------OBJ:V-N------------------+-------------COMP_to:N-N-------------+ | +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,GENEXXX) MOD:V-ADV (contains,suggesting) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,response) Parse 189 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ | +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +---MOD_ATT:N-N---+-------------COMP_to:N-N-------------+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) SUBJ:V-N (contains,product) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,GENEXXX) MOD:V-ADV (contains,suggesting) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) Parse 190 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+-------------COMP_to:N-N-------------+ | +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +---MOD_ATT:N-N---+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) SUBJ:V-N (contains,product) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,GENEXXX) MOD:V-ADV (contains,suggesting) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,response) Parse 191 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +-------------------OBJ:V-N------------------+------------------------COMP_of:N-N------------------------+ | +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +---MOD_ATT:N-N---+-------------COMP_to:N-N-------------+ | | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . COMP_of:N-N (both,functions) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,GENEXXX) MOD:V-ADV (contains,suggesting) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) COMP_of:N-N (domain,family) Parse 192 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ | +------------------------COMP_of:N-N------------------------+ | +-------------------OBJ:V-N------------------+-------------COMP_to:N-N-------------+ | | +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +---MOD_ATT:N-N---+ +---MOD_ATT:N-N---+ | | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . COMP_of:N-N (both,functions) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,GENEXXX) MOD:V-ADV (contains,suggesting) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,response) COMP_of:N-N (domain,family) Parse 193 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+------------------------COMP_of:N-N------------------------+ | +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +---MOD_ATT:N-N---+-------------COMP_to:N-N-------------+ | | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) SUBJ:V-N (contains,product) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,GENEXXX) MOD:V-ADV (contains,suggesting) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) COMP_of:N-N (domain,family) Parse 194 +-----------------------------------------------------MOD:V-ADV-----------------------------------------------------+ | +------------------------COMP_of:N-N------------------------+ | +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+-------------COMP_to:N-N-------------+ | | +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +---MOD_ATT:N-N---+ +---MOD_ATT:N-N---+ | | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . COMP_of:N-N (both,functions) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) SUBJ:V-N (contains,product) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,GENEXXX) MOD:V-ADV (contains,suggesting) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,response) COMP_of:N-N (domain,family) Parse 195 +-------------------OBJ:V-N------------------+ +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +---MOD_ATT:N-N---+-------------COMP_to:N-N-------------+-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) Parse 196 +-------------------OBJ:V-N------------------+ +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+-------------COMP_to:N-N-------------+-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) Parse 197 +-------------------OBJ:V-N------------------+-------------COMP_to:N-N-------------+ +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +---MOD_ATT:N-N---+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,response) Parse 198 +-------------------OBJ:V-N------------------+-------------COMP_to:N-N-------------+ +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,response) Parse 199 +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +---MOD_ATT:N-N---+-------------COMP_to:N-N-------------+-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) SUBJ:V-N (contains,product) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) Parse 200 +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+-------------COMP_to:N-N-------------+ +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +---MOD_ATT:N-N---+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) SUBJ:V-N (contains,product) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,response) Parse 201 +-------------------OBJ:V-N------------------+ +------------SUBJ:V-N------------+ +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +---MOD_ATT:N-N---+-------------COMP_to:N-N-------------+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,domain) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) Parse 202 +-------------------OBJ:V-N------------------+ +------------SUBJ:V-N------------+ +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+-------------COMP_to:N-N-------------+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,domain) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) Parse 203 +-------------------OBJ:V-N------------------+-------------COMP_to:N-N-------------+------------SUBJ:V-N------------+ +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +---MOD_ATT:N-N---+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,domain) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,response) Parse 204 +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+ +------------SUBJ:V-N------------+ +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +---MOD_ATT:N-N---+-------------COMP_to:N-N-------------+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,domain) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) SUBJ:V-N (contains,product) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) Parse 205 +-------------------OBJ:V-N------------------+-------------COMP_to:N-N-------------+------------SUBJ:V-N------------+ +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,domain) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,response) Parse 206 +-------------------OBJ:V-N------------------+------------------------COMP_of:N-N------------------------+ +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +---MOD_ATT:N-N---+-------------COMP_to:N-N-------------+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) COMP_of:N-N (domain,family) Parse 207 +-------------------OBJ:V-N------------------+------------------------COMP_of:N-N------------------------+ +-------------SUBJ:V_PASS-N-------------+ +----MOD_ATT:N-ADJ----+ | +---MOD_ATT:N-N---+-------------COMP_to:N-N-------------+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) COMP_of:N-N (domain,family) Parse 208 +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+-------------COMP_to:N-N-------------+------------SUBJ:V-N------------+ +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +---MOD_ATT:N-N---+ +---MOD_ATT:N-N---+-----COMP_of:N-N-----+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+ | | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,domain) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) SUBJ:V-N (contains,product) COMP_of:N-N (domain,family) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,response) Parse 209 +------------------------COMP_of:N-N------------------------+ +-------------------OBJ:V-N------------------+-------------COMP_to:N-N-------------+ | +-------------SUBJ:V_PASS-N-------------+ +-MOD_ATT:N-ADJ+ | +---MOD_ATT:N-N---+ +---MOD_ATT:N-N---+ | | +---------SUBJ:V_PASS-N--------+ | +MOD_A+MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) MOD_ATT:N-ADJ (gene,predicted) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) SUBJ:V-N (contains,product) MOD_ATT:N-N (gene,GENEXXX) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,response) COMP_of:N-N (domain,family) Parse 210 +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+------------------------COMP_of:N-N------------------------+ +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +---MOD_ATT:N-N---+-------------COMP_to:N-N-------------+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ +MOD_ATT:N+MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (regulator,response) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) SUBJ:V-N (contains,product) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) COMP_of:N-N (domain,family) Parse 211 +------------------------COMP_of:N-N------------------------+ +----MOD_ATT:N-ADJ----+ +-------------------OBJ:V-N------------------+-------------COMP_to:N-N-------------+ | +-------------SUBJ:V_PASS-N-------------+ | +-MOD_ATT:N-N+ | +---MOD_ATT:N-N---+ +---MOD_ATT:N-N---+ | | +---------SUBJ:V_PASS-N--------+ | | +MOD_AT+SUBJ:V-+ | +MOD_ATT:+SUBJ:V+ | +MOD_ATT+ +MOD_AT+-SUBJ:V-N-+ | +---COMP_of:N-N--+ | | | | | | | | | | | | | | | | | | | | The predicted GENEXXX gene product contains an amino-terminal GENEXXX homologous domain linked to a response regulator domain of the GENEXXX family , suggesting that either or both of these functions are duplicated . SUBJ:V-N (suggesting,family) COMP_of:N-N (both,functions) MOD_ATT:N-N (domain,GENEXXX) SUBJ:V_PASS-N (duplicated,either) SUBJ:V_PASS-N (duplicated,both) MOD_ATT:N-N (product,gene) MOD_ATT:N-N (product,GENEXXX) SUBJ:V-N (contains,product) COMP_to:N-N (domain,domain) SUBJ:V_PASS-N (linked,domain) OBJ:V-N (contains,domain) MOD_ATT:N-N (family,GENEXXX) MOD_ATT:N-ADJ (product,predicted) MOD_ATT:N-N (domain,regulator) MOD_ATT:N-ADJ (domain,homologous) MOD_ATT:N-N (domain,response) COMP_of:N-N (domain,family) PMID: 8550479-2 Sentence 14 Pro GENEXXX and GENEXXX are activated by the removal of 27 and 20 amino acids , respectively , from their amino termini . Parse 0 +--------------------------------COMP_from:V_PASS-N--------------------------------+ +-------------------MOD:V_PASS-ADV-------------------+ | | +-------COMP_of:N-N-------+ | | | | +--MOD_ATT:N-ADJ--+ | | +------SUBJ:V_PASS-N-----+ | | +MOD_ATT:N-+ | | +MOD_A+ +SUBJ:V_PASS-+COMP_by:V_PASS-+ | | +MOD_A+ | +MOD_AT+ | | | | | | | | | | | | Pro GENEXXX and GENEXXX are activated by the removal of 27 and 20 amino acids , respectively , from their amino termini . SUBJ:V_PASS-N (activated,GENEXXX) COMP_by:V_PASS-N (activated,removal) COMP_of:N-N (removal,acids) MOD_ATT:N-ADJ (termini,amino) MOD_ATT:N-ADJ (acids,amino) MOD_ATT:N-ADJ (acids,20) SUBJ:V_PASS-N (activated,GENEXXX) MOD_ATT:N-ADJ (acids,27) MOD:V_PASS-ADV (activated,respectively) MOD_ATT:N-N (GENEXXX,Pro) COMP_from:V_PASS-N (activated,termini) Parse 1 +--------------------------------COMP_from:V_PASS-N--------------------------------+ +-------------------MOD:V_PASS-ADV-------------------+ | +-------------COMP_by:V_PASS-N------------+ | | +------SUBJ:V_PASS-N-----+ +MOD_ATT:N-+ | | +MOD_A+ +SUBJ:V_PASS-+COMP_by:V_PASS-+COMP_of+ | +MOD_A+ | +MOD_AT+ | | | | | | | | | | | | Pro GENEXXX and GENEXXX are activated by the removal of 27 and 20 amino acids , respectively , from their amino termini . COMP_of:N-N (removal,27) COMP_by:V_PASS-N (activated,acids) SUBJ:V_PASS-N (activated,GENEXXX) COMP_by:V_PASS-N (activated,removal) MOD_ATT:N-ADJ (termini,amino) MOD_ATT:N-ADJ (acids,amino) MOD_ATT:N-ADJ (acids,20) SUBJ:V_PASS-N (activated,GENEXXX) MOD:V_PASS-ADV (activated,respectively) MOD_ATT:N-N (GENEXXX,Pro) COMP_from:V_PASS-N (activated,termini) Parse 2 +--------------------------------COMP_from:V_PASS-N--------------------------------+ +-------------------MOD:V_PASS-ADV-------------------+ | | +-------COMP_of:N-N-------+ | | +------SUBJ:V_PASS-N-----+ | +MOD_ATT:N-+ | | +MOD_A+ +SUBJ:V_PASS-+COMP_by:V_PASS-+COMP_of+ | +MOD_A+ | +MOD_AT+ | | | | | | | | | | | | Pro GENEXXX and GENEXXX are activated by the removal of 27 and 20 amino acids , respectively , from their amino termini . SUBJ:V_PASS-N (activated,GENEXXX) COMP_of:N-N (removal,27) COMP_by:V_PASS-N (activated,removal) MOD_ATT:N-ADJ (termini,amino) MOD_ATT:N-ADJ (acids,amino) MOD_ATT:N-ADJ (acids,20) SUBJ:V_PASS-N (activated,GENEXXX) MOD:V_PASS-ADV (activated,respectively) MOD_ATT:N-N (GENEXXX,Pro) COMP_from:V_PASS-N (activated,termini) COMP_of:N-N (removal,acids) Parse 3 +--------------------------------COMP_from:V_PASS-N--------------------------------+ +-------------------MOD:V_PASS-ADV-------------------+ | | +-------COMP_of:N-N-------+ | | +------SUBJ:V_PASS-N-----+ | +--MOD_ATT:N-ADJ--+ | | +---MOD_ATT:N-N---+ | | | +MOD_ATT:N-+ | | +MOD_A+ +SUBJ:V_PASS-+COMP_by:V_PASS-+ | | +MOD_A+ | +MOD_AT+ | | | | | | | | | | | | Pro GENEXXX and GENEXXX are activated by the removal of 27 and 20 amino acids , respectively , from their amino termini . SUBJ:V_PASS-N (activated,GENEXXX) COMP_by:V_PASS-N (activated,removal) MOD_ATT:N-ADJ (termini,amino) MOD_ATT:N-N (GENEXXX,Pro) MOD_ATT:N-ADJ (acids,amino) MOD_ATT:N-ADJ (acids,20) SUBJ:V_PASS-N (activated,GENEXXX) MOD:V_PASS-ADV (activated,respectively) MOD_ATT:N-N (GENEXXX,Pro) MOD_ATT:N-ADJ (acids,27) COMP_of:N-N (removal,acids) COMP_from:V_PASS-N (activated,termini) Parse 4 +--------------------------------COMP_from:V_PASS-N--------------------------------+ +-------------------MOD:V_PASS-ADV-------------------+ | +------SUBJ:V_PASS-N-----+-------------COMP_by:V_PASS-N------------+ | | +---MOD_ATT:N-N---+ | +MOD_ATT:N-+ | | +MOD_A+ +SUBJ:V_PASS-+COMP_by:V_PASS-+COMP_of+ | +MOD_A+ | +MOD_AT+ | | | | | | | | | | | | Pro GENEXXX and GENEXXX are activated by the removal of 27 and 20 amino acids , respectively , from their amino termini . MOD:V_PASS-ADV (activated,respectively) COMP_by:V_PASS-N (activated,acids) COMP_from:V_PASS-N (activated,termini) SUBJ:V_PASS-N (activated,GENEXXX) COMP_by:V_PASS-N (activated,removal) MOD_ATT:N-ADJ (termini,amino) MOD_ATT:N-N (GENEXXX,Pro) MOD_ATT:N-ADJ (acids,amino) MOD_ATT:N-ADJ (acids,20) SUBJ:V_PASS-N (activated,GENEXXX) MOD_ATT:N-N (GENEXXX,Pro) COMP_of:N-N (removal,27) Parse 5 +--------------------------------COMP_from:V_PASS-N--------------------------------+ +-------------------MOD:V_PASS-ADV-------------------+ | +------SUBJ:V_PASS-N-----+ +-------COMP_of:N-N-------+ | | +---MOD_ATT:N-N---+ | | +MOD_ATT:N-+ | | +MOD_A+ +SUBJ:V_PASS-+COMP_by:V_PASS-+COMP_of+ | +MOD_A+ | +MOD_AT+ | | | | | | | | | | | | Pro GENEXXX and GENEXXX are activated by the removal of 27 and 20 amino acids , respectively , from their amino termini . COMP_of:N-N (removal,27) COMP_of:N-N (removal,acids) SUBJ:V_PASS-N (activated,GENEXXX) COMP_by:V_PASS-N (activated,removal) MOD_ATT:N-ADJ (termini,amino) MOD_ATT:N-N (GENEXXX,Pro) MOD_ATT:N-ADJ (acids,amino) MOD_ATT:N-ADJ (acids,20) SUBJ:V_PASS-N (activated,GENEXXX) MOD:V_PASS-ADV (activated,respectively) MOD_ATT:N-N (GENEXXX,Pro) COMP_from:V_PASS-N (activated,termini) PMID: 9190807-2 Sentence 15 GENEXXX and GENEXXX were barely detectable at t0 , but their concentrations increased in parallel to reach maxima at about t1.5 . Parse 0 +------------------------------------COMP_about:ADJ-N-----------------------------------+ +---------MOD_PRED:N-ADJ---------+---------------------COMP_at:ADJ-N---------------------+ | | +---MOD_PRED:N-ADJ---+ +-------MOD_ATT:N-N------+ +-MOD:V-ADV+ | | | +MOD:ADJ-+COMP_at:A+ | +MOD_ATT:N-A+ +OBJ:V+ | | | | | | | | | | | | | | GENEXXX and GENEXXX were barely detectable at t0 , but their concentrations increased in parallel to reach maxima at about t1.5 . OBJ:V-N (reach,maxima) MOD_ATT:N-ADJ (parallel,increased) COMP_about:ADJ-N (detectable,t1.5) COMP_at:ADJ-N (detectable,t0) MOD:V-ADV (reach,at) MOD:ADJ-ADV (detectable,barely) MOD_ATT:N-N (parallel,concentrations) COMP_at:ADJ-N (detectable,parallel) MOD_PRED:N-ADJ (GENEXXX,detectable) MOD_PRED:N-ADJ (GENEXXX,detectable) Parse 1 +--------------------------------COMP_about:N-N-------------------------------+ +---------MOD_PRED:N-ADJ---------+---------------------COMP_at:ADJ-N---------------------+---------COMP_about:N-N--------+ | +---MOD_PRED:N-ADJ---+ | +-------MOD_ATT:N-N------+ +-MOD:V-ADV+ | | | +MOD:ADJ-+COMP_at:A+ | +MOD_ATT:N-A+ +OBJ:V+ | | | | | | | | | | | | | | GENEXXX and GENEXXX were barely detectable at t0 , but their concentrations increased in parallel to reach maxima at about t1.5 . OBJ:V-N (reach,maxima) MOD_ATT:N-ADJ (parallel,increased) COMP_about:N-N (t0,t1.5) COMP_at:ADJ-N (detectable,t0) MOD:V-ADV (reach,at) MOD:ADJ-ADV (detectable,barely) COMP_about:N-N (parallel,t1.5) MOD_ATT:N-N (parallel,concentrations) COMP_at:ADJ-N (detectable,parallel) MOD_PRED:N-ADJ (GENEXXX,detectable) MOD_PRED:N-ADJ (GENEXXX,detectable) Parse 2 +---------MOD_PRED:N-ADJ---------+---------------------COMP_at:ADJ-N---------------------+---------COMP_about:N-N--------+ | +---MOD_PRED:N-ADJ---+ +-------MOD_ATT:N-N------+ +-MOD:V-ADV+ | | | +MOD:ADJ-+COMP_at:A+ | +MOD_ATT:N-A+ +OBJ:V+ | | | | | | | | | | | | | | GENEXXX and GENEXXX were barely detectable at t0 , but their concentrations increased in parallel to reach maxima at about t1.5 . OBJ:V-N (reach,maxima) COMP_about:N-N (parallel,t1.5) COMP_at:ADJ-N (detectable,t0) MOD:V-ADV (reach,at) MOD:ADJ-ADV (detectable,barely) COMP_at:ADJ-N (detectable,parallel) MOD_ATT:N-N (parallel,concentrations) MOD_ATT:N-ADJ (parallel,increased) MOD_PRED:N-ADJ (GENEXXX,detectable) MOD_PRED:N-ADJ (GENEXXX,detectable) PMID: 9324264-1 Sentence 16 Among them are two sigma factors , GENEXXX and GENEXXX , and a DNA-binding protein , GENEXXX . Parse 0 +---------------------------APPOS---------------------------+ +----------------------APPOS----------------------+ | +--------APPOS--------+ | | +MOD_AT+--APPOS--+ | +MOD_ATT:N+ | | | | | | | | Among them are two sigma factors , GENEXXX and GENEXXX , and a DNA-binding protein , GENEXXX . APPOS (factors,GENEXXX) MOD_ATT:N-N (factors,sigma) MOD_ATT:N-N (protein,DNA-binding) APPOS (factors,GENEXXX) APPOS (factors,GENEXXX) APPOS (factors,protein) Parse 1 +MOD_AT+ +MOD_ATT:N+--APPOS--+ | | | | | Among them are two sigma factors , GENEXXX and GENEXXX , and a DNA-binding protein , GENEXXX . MOD_ATT:N-N (factors,sigma) MOD_ATT:N-N (protein,DNA-binding) APPOS (protein,GENEXXX) Parse 2 +--------APPOS--------+ +MOD_AT+--APPOS--+ | +MOD_ATT:N+--APPOS--+ | | | | | | | Among them are two sigma factors , GENEXXX and GENEXXX , and a DNA-binding protein , GENEXXX . MOD_ATT:N-N (factors,sigma) MOD_ATT:N-N (protein,DNA-binding) APPOS (factors,GENEXXX) APPOS (protein,GENEXXX) APPOS (factors,GENEXXX) Parse 3 +----------------------APPOS----------------------+ +--------APPOS--------+ | +MOD_AT+--APPOS--+ | +MOD_ATT:N+--APPOS--+ | | | | | | | Among them are two sigma factors , GENEXXX and GENEXXX , and a DNA-binding protein , GENEXXX . MOD_ATT:N-N (factors,sigma) MOD_ATT:N-N (protein,DNA-binding) APPOS (factors,GENEXXX) APPOS (protein,GENEXXX) APPOS (factors,GENEXXX) APPOS (factors,protein) PMID: 9537360-4 Sentence 17 These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . Parse 0 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ +--------------------------------------------------COMP_as:V-N--------------------------------------------------+ | +--------------------------COMP_as:V-N-------------------------+ | | +------COMP_as:V-N------+ | | | +SUBJ:V-+ | +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD_ATT:N-ADJ (protein,membrane-associated) COMP_as:V-N (function,need) COMP_of:N-N (extrusion,arsenite) MOD_ATT:N-N (need,protein) MOD_ATT:N-N (regulator,negative) MOD:V-ADV (function,respectively) COMP_for:N-N (need,extrusion) COMP_as:V-N (function,regulator) SUBJ:V-N (suggest,results) MOD_ATT:N-ADJ (reductase,arsenate) COMP_as:V-N (function,reductase) Parse 1 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ +--------------------------------------------------COMP_as:V-N--------------------------------------------------+ | +--------------------------COMP_as:V-N-------------------------+ | | +------COMP_as:V-N------+ +---MOD_ATT:N-ADJ---+ | | +SUBJ:V-+ | +MOD_ATT:N+ | +MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . COMP_as:V-N (function,need) COMP_of:N-N (extrusion,arsenite) MOD_ATT:N-N (need,protein) MOD:V-ADV (function,respectively) COMP_for:N-N (need,extrusion) MOD_ATT:N-ADJ (regulator,negative) COMP_as:V-N (function,regulator) SUBJ:V-N (suggest,results) MOD_ATT:N-ADJ (need,membrane-associated) MOD_ATT:N-ADJ (reductase,arsenate) COMP_as:V-N (function,reductase) Parse 2 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ +--------------------------------------------------COMP_as:V-N--------------------------------------------------+ | +--------------------------COMP_as:V-N-------------------------+ | | +------COMP_as:V-N------+ +------COMP_of:N-N------+ | | +SUBJ:V-+ | +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD_ATT:N-ADJ (protein,membrane-associated) COMP_as:V-N (function,need) MOD_ATT:N-N (need,protein) MOD:V-ADV (function,respectively) COMP_for:N-N (need,extrusion) COMP_of:N-N (need,arsenite) MOD_ATT:N-ADJ (regulator,negative) COMP_as:V-N (function,regulator) SUBJ:V-N (suggest,results) MOD_ATT:N-ADJ (reductase,arsenate) COMP_as:V-N (function,reductase) Parse 3 +------------SUBJ:V-N-----------+----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ | +-------SUBJ:V-N------+------COMP_as:V-N------+-----------------APPOS----------------+------------------COMP_for:N-N------------------+ | +SUBJ:V-+ | | +SUBJ:V-+ +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD_ATT:N-N (regulator,negative) COMP_for:N-N (need,reductase) COMP_of:N-N (extrusion,arsenite) MOD:V-ADV (function,respectively) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-N (need,protein) COMP_for:N-N (need,extrusion) COMP_as:V-N (function,regulator) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-ADJ (protein,membrane-associated) SUBJ:V-N (function,GENEXXX) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-ADJ (reductase,arsenate) Parse 4 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ +------------SUBJ:V-N-----------+ +-----------------APPOS----------------+ | | +-------SUBJ:V-N------+------COMP_as:V-N------+ +---MOD_ATT:N-ADJ---+------------------COMP_for:N-N------------------+ | +SUBJ:V-+ | | +SUBJ:V-+ +MOD_ATT:N+ | +MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD_ATT:N-ADJ (regulator,negative) COMP_for:N-N (need,reductase) COMP_of:N-N (extrusion,arsenite) MOD_ATT:N-ADJ (need,membrane-associated) MOD:V-ADV (function,respectively) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-N (need,protein) COMP_for:N-N (need,extrusion) COMP_as:V-N (function,regulator) SUBJ:V-N (suggest,results) APPOS (regulator,need) SUBJ:V-N (function,GENEXXX) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-ADJ (reductase,arsenate) Parse 5 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ | +-----------------APPOS----------------+ | +------COMP_as:V-N------+ +---MOD_ATT:N-ADJ---+ +-------------COMP_of:N-N------------+ | +SUBJ:V-+ | +MOD_ATT:N+ | +MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . COMP_of:N-N (extrusion,arsenite) MOD_ATT:N-ADJ (need,membrane-associated) MOD_ATT:N-N (regulator,negative) MOD:V-ADV (function,respectively) COMP_as:V-N (function,regulator) COMP_of:N-N (extrusion,reductase) SUBJ:V-N (suggest,results) APPOS (regulator,need) COMP_for:N-N (need,extrusion) MOD_ATT:N-ADJ (reductase,arsenate) MOD_ATT:N-N (need,protein) Parse 6 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ | +-----------------APPOS----------------+-------------------COMP_of:N-N------------------+ | +------COMP_as:V-N------+ +---MOD_ATT:N-ADJ---+------COMP_of:N-N------+ | | +SUBJ:V-+ | +MOD_ATT:N+ | +MOD_A+COMP_for:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD_ATT:N-ADJ (need,membrane-associated) MOD_ATT:N-N (regulator,negative) MOD:V-ADV (function,respectively) COMP_of:N-N (need,arsenite) COMP_as:V-N (function,regulator) SUBJ:V-N (suggest,results) APPOS (regulator,need) COMP_for:N-N (need,extrusion) MOD_ATT:N-ADJ (reductase,arsenate) MOD_ATT:N-N (need,protein) COMP_of:N-N (need,reductase) Parse 7 +------------SUBJ:V-N-----------+----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ | +-------SUBJ:V-N------+------COMP_as:V-N------+-----------------APPOS----------------+ +-------------COMP_of:N-N------------+ | +SUBJ:V-+ | | +SUBJ:V-+ +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD_ATT:N-N (regulator,negative) COMP_of:N-N (extrusion,arsenite) MOD:V-ADV (function,respectively) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-N (need,protein) COMP_for:N-N (need,extrusion) COMP_as:V-N (function,regulator) COMP_of:N-N (extrusion,reductase) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-ADJ (protein,membrane-associated) SUBJ:V-N (function,GENEXXX) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-ADJ (reductase,arsenate) Parse 8 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ +------------SUBJ:V-N-----------+ +-------------------COMP_of:N-N------------------+ | | +-------SUBJ:V-N------+------COMP_as:V-N------+-----------------APPOS----------------+------COMP_of:N-N------+ | | +SUBJ:V-+ | | +SUBJ:V-+ +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD_ATT:N-N (regulator,negative) MOD:V-ADV (function,respectively) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-N (need,protein) COMP_for:N-N (need,extrusion) COMP_of:N-N (need,arsenite) COMP_as:V-N (function,regulator) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-ADJ (protein,membrane-associated) SUBJ:V-N (function,GENEXXX) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-ADJ (reductase,arsenate) COMP_of:N-N (need,reductase) Parse 9 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ +------------SUBJ:V-N-----------+ +-----------------APPOS----------------+-------------------COMP_of:N-N------------------+ | | +-------SUBJ:V-N------+------COMP_as:V-N------+ +---MOD_ATT:N-ADJ---+------COMP_of:N-N------+ | | +SUBJ:V-+ | | +SUBJ:V-+ +MOD_ATT:N+ | +MOD_A+COMP_for:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD_ATT:N-ADJ (regulator,negative) MOD_ATT:N-ADJ (need,membrane-associated) MOD:V-ADV (function,respectively) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-N (need,protein) COMP_for:N-N (need,extrusion) COMP_of:N-N (need,arsenite) COMP_as:V-N (function,regulator) SUBJ:V-N (suggest,results) APPOS (regulator,need) SUBJ:V-N (function,GENEXXX) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-ADJ (reductase,arsenate) COMP_of:N-N (need,reductase) Parse 10 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ +------COMP_as:V-N------+-----------------APPOS----------------+ +-------------COMP_of:N-N------------+ | +SUBJ:V-+ | +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . COMP_of:N-N (extrusion,arsenite) MOD:V-ADV (function,respectively) MOD_ATT:N-ADJ (regulator,negative) COMP_as:V-N (function,regulator) COMP_of:N-N (extrusion,reductase) SUBJ:V-N (suggest,results) APPOS (regulator,need) COMP_for:N-N (need,extrusion) MOD_ATT:N-ADJ (protein,membrane-associated) MOD_ATT:N-ADJ (reductase,arsenate) MOD_ATT:N-N (need,protein) Parse 11 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ | +-----------------APPOS----------------+ | +------COMP_as:V-N------+ +---MOD_ATT:N-ADJ---+ +-------------COMP_of:N-N------------+ | +SUBJ:V-+ | +MOD_ATT:N+ | +MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . COMP_of:N-N (extrusion,arsenite) MOD_ATT:N-ADJ (need,membrane-associated) MOD:V-ADV (function,respectively) MOD_ATT:N-ADJ (regulator,negative) COMP_as:V-N (function,regulator) COMP_of:N-N (extrusion,reductase) SUBJ:V-N (suggest,results) APPOS (regulator,need) COMP_for:N-N (need,extrusion) MOD_ATT:N-ADJ (reductase,arsenate) MOD_ATT:N-N (need,protein) Parse 12 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ | +-------------------COMP_of:N-N------------------+ | +------COMP_as:V-N------+-----------------APPOS----------------+------COMP_of:N-N------+ | | +SUBJ:V-+ | +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD_ATT:N-N (regulator,negative) MOD:V-ADV (function,respectively) COMP_of:N-N (need,arsenite) COMP_as:V-N (function,regulator) SUBJ:V-N (suggest,results) APPOS (regulator,need) COMP_for:N-N (need,extrusion) MOD_ATT:N-ADJ (protein,membrane-associated) MOD_ATT:N-ADJ (reductase,arsenate) MOD_ATT:N-N (need,protein) COMP_of:N-N (need,reductase) Parse 13 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ | +-------------------COMP_of:N-N------------------+ | +------COMP_as:V-N------+-----------------APPOS----------------+------COMP_of:N-N------+ | | +SUBJ:V-+ | +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD:V-ADV (function,respectively) COMP_of:N-N (need,arsenite) MOD_ATT:N-ADJ (regulator,negative) COMP_as:V-N (function,regulator) SUBJ:V-N (suggest,results) APPOS (regulator,need) COMP_for:N-N (need,extrusion) MOD_ATT:N-ADJ (protein,membrane-associated) MOD_ATT:N-ADJ (reductase,arsenate) MOD_ATT:N-N (need,protein) COMP_of:N-N (need,reductase) Parse 14 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ | +-----------------APPOS----------------+ | +------COMP_as:V-N------+ +---MOD_ATT:N-ADJ---+------------------COMP_for:N-N------------------+ | +SUBJ:V-+ | +MOD_ATT:N+ | +MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . COMP_for:N-N (need,reductase) COMP_of:N-N (extrusion,arsenite) MOD_ATT:N-ADJ (need,membrane-associated) MOD_ATT:N-N (regulator,negative) MOD:V-ADV (function,respectively) COMP_as:V-N (function,regulator) SUBJ:V-N (suggest,results) APPOS (regulator,need) COMP_for:N-N (need,extrusion) MOD_ATT:N-ADJ (reductase,arsenate) MOD_ATT:N-N (need,protein) Parse 15 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ +------------SUBJ:V-N-----------+ +-----------------------------------------APPOS-----------------------------------------+ | | +-------SUBJ:V-N------+------COMP_as:V-N------+-----------------APPOS----------------+ | | +SUBJ:V-+ | | +SUBJ:V-+ +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . APPOS (regulator,reductase) MOD_ATT:N-N (regulator,negative) COMP_of:N-N (extrusion,arsenite) MOD:V-ADV (function,respectively) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-N (need,protein) COMP_for:N-N (need,extrusion) COMP_as:V-N (function,regulator) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-ADJ (protein,membrane-associated) SUBJ:V-N (function,GENEXXX) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-ADJ (reductase,arsenate) Parse 16 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ +------------SUBJ:V-N-----------+ +-----------------------------------------APPOS-----------------------------------------+ | | +-------SUBJ:V-N------+------COMP_as:V-N------+-----------------APPOS----------------+------COMP_of:N-N------+ | | +SUBJ:V-+ | | +SUBJ:V-+ +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD_ATT:N-ADJ (regulator,negative) APPOS (regulator,reductase) MOD:V-ADV (function,respectively) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-N (need,protein) COMP_for:N-N (need,extrusion) COMP_of:N-N (need,arsenite) COMP_as:V-N (function,regulator) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-ADJ (protein,membrane-associated) SUBJ:V-N (function,GENEXXX) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-ADJ (reductase,arsenate) Parse 17 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ | +-----------------------------------------APPOS-----------------------------------------+ | +------------SUBJ:V-N-----------+ +-----------------APPOS----------------+ | | | +-------SUBJ:V-N------+------COMP_as:V-N------+ +---MOD_ATT:N-ADJ---+------COMP_of:N-N------+ | | +SUBJ:V-+ | | +SUBJ:V-+ +MOD_ATT:N+ | +MOD_A+COMP_for:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . APPOS (regulator,reductase) MOD_ATT:N-N (regulator,negative) MOD_ATT:N-ADJ (need,membrane-associated) MOD:V-ADV (function,respectively) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-N (need,protein) COMP_for:N-N (need,extrusion) COMP_of:N-N (need,arsenite) COMP_as:V-N (function,regulator) SUBJ:V-N (suggest,results) APPOS (regulator,need) SUBJ:V-N (function,GENEXXX) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-ADJ (reductase,arsenate) Parse 18 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ | +-----------------------------------------APPOS-----------------------------------------+ | +------COMP_as:V-N------+-----------------APPOS----------------+ | | +SUBJ:V-+ | +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD_ATT:N-ADJ (protein,membrane-associated) APPOS (regulator,reductase) COMP_of:N-N (extrusion,arsenite) MOD_ATT:N-N (need,protein) MOD_ATT:N-N (regulator,negative) MOD:V-ADV (function,respectively) COMP_for:N-N (need,extrusion) COMP_as:V-N (function,regulator) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-ADJ (reductase,arsenate) Parse 19 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ | +-----------------------------------------APPOS-----------------------------------------+ | +------COMP_as:V-N------+-----------------APPOS----------------+------COMP_of:N-N------+ | | +SUBJ:V-+ | +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD_ATT:N-ADJ (protein,membrane-associated) APPOS (regulator,reductase) MOD_ATT:N-N (need,protein) MOD:V-ADV (function,respectively) COMP_for:N-N (need,extrusion) COMP_of:N-N (need,arsenite) MOD_ATT:N-ADJ (regulator,negative) COMP_as:V-N (function,regulator) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-ADJ (reductase,arsenate) Parse 20 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ +------------SUBJ:V-N-----------+ +-----------------------------------------APPOS-----------------------------------------+ | | +-------SUBJ:V-N------+------COMP_as:V-N------+-----------------APPOS----------------+ | | +SUBJ:V-+ | | +SUBJ:V-+ +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD_ATT:N-ADJ (regulator,negative) APPOS (regulator,reductase) COMP_of:N-N (extrusion,arsenite) MOD:V-ADV (function,respectively) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-N (need,protein) COMP_for:N-N (need,extrusion) COMP_as:V-N (function,regulator) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-ADJ (protein,membrane-associated) SUBJ:V-N (function,GENEXXX) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-ADJ (reductase,arsenate) Parse 21 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ | +-----------------------------------------APPOS-----------------------------------------+ | +------COMP_as:V-N------+-----------------APPOS----------------+ | | +SUBJ:V-+ | +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD_ATT:N-ADJ (protein,membrane-associated) APPOS (regulator,reductase) COMP_of:N-N (extrusion,arsenite) MOD_ATT:N-N (need,protein) MOD:V-ADV (function,respectively) COMP_for:N-N (need,extrusion) MOD_ATT:N-ADJ (regulator,negative) COMP_as:V-N (function,regulator) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-ADJ (reductase,arsenate) Parse 22 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ | +-----------------------------------------APPOS-----------------------------------------+ | | +-----------------APPOS----------------+ | | +------COMP_as:V-N------+ +---MOD_ATT:N-ADJ---+ | | +SUBJ:V-+ | +MOD_ATT:N+ | +MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . APPOS (regulator,reductase) COMP_of:N-N (extrusion,arsenite) MOD_ATT:N-N (need,protein) MOD_ATT:N-N (regulator,negative) MOD:V-ADV (function,respectively) COMP_for:N-N (need,extrusion) COMP_as:V-N (function,regulator) SUBJ:V-N (suggest,results) MOD_ATT:N-ADJ (need,membrane-associated) APPOS (regulator,need) MOD_ATT:N-ADJ (reductase,arsenate) Parse 23 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ | +-----------------------------------------APPOS-----------------------------------------+ | | +-----------------APPOS----------------+ | | +------COMP_as:V-N------+ +---MOD_ATT:N-ADJ---+ | | +SUBJ:V-+ | +MOD_ATT:N+ | +MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . APPOS (regulator,reductase) COMP_of:N-N (extrusion,arsenite) MOD_ATT:N-N (need,protein) MOD:V-ADV (function,respectively) COMP_for:N-N (need,extrusion) MOD_ATT:N-ADJ (regulator,negative) COMP_as:V-N (function,regulator) SUBJ:V-N (suggest,results) MOD_ATT:N-ADJ (need,membrane-associated) APPOS (regulator,need) MOD_ATT:N-ADJ (reductase,arsenate) Parse 24 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ | +-----------------------------------------APPOS-----------------------------------------+ | | +-----------------APPOS----------------+ | | +------COMP_as:V-N------+ +---MOD_ATT:N-ADJ---+------COMP_of:N-N------+ | | +SUBJ:V-+ | +MOD_ATT:N+ | +MOD_A+COMP_for:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . APPOS (regulator,reductase) MOD_ATT:N-N (need,protein) MOD_ATT:N-N (regulator,negative) MOD:V-ADV (function,respectively) COMP_for:N-N (need,extrusion) COMP_of:N-N (need,arsenite) COMP_as:V-N (function,regulator) SUBJ:V-N (suggest,results) MOD_ATT:N-ADJ (need,membrane-associated) APPOS (regulator,need) MOD_ATT:N-ADJ (reductase,arsenate) Parse 25 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ +------------SUBJ:V-N-----------+ +-----------------------------------------APPOS-----------------------------------------+ | | +-------SUBJ:V-N------+------COMP_as:V-N------+-----------------APPOS----------------+------COMP_of:N-N------+ | | +SUBJ:V-+ | | +SUBJ:V-+ +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . APPOS (regulator,reductase) MOD_ATT:N-N (regulator,negative) MOD:V-ADV (function,respectively) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-N (need,protein) COMP_for:N-N (need,extrusion) COMP_of:N-N (need,arsenite) COMP_as:V-N (function,regulator) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-ADJ (protein,membrane-associated) SUBJ:V-N (function,GENEXXX) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-ADJ (reductase,arsenate) Parse 26 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ | +-----------------------------------------APPOS-----------------------------------------+ | +------------SUBJ:V-N-----------+ +-----------------APPOS----------------+ | | | +-------SUBJ:V-N------+------COMP_as:V-N------+ +---MOD_ATT:N-ADJ---+------COMP_of:N-N------+ | | +SUBJ:V-+ | | +SUBJ:V-+ +MOD_ATT:N+ | +MOD_A+COMP_for:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD_ATT:N-ADJ (regulator,negative) APPOS (regulator,reductase) MOD_ATT:N-ADJ (need,membrane-associated) MOD:V-ADV (function,respectively) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-N (need,protein) COMP_for:N-N (need,extrusion) COMP_of:N-N (need,arsenite) COMP_as:V-N (function,regulator) SUBJ:V-N (suggest,results) APPOS (regulator,need) SUBJ:V-N (function,GENEXXX) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-ADJ (reductase,arsenate) Parse 27 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ | +-----------------------------------------APPOS-----------------------------------------+ | | +-----------------APPOS----------------+ | | +------COMP_as:V-N------+ +---MOD_ATT:N-ADJ---+------COMP_of:N-N------+ | | +SUBJ:V-+ | +MOD_ATT:N+ | +MOD_A+COMP_for:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . APPOS (regulator,reductase) MOD_ATT:N-N (need,protein) MOD:V-ADV (function,respectively) COMP_for:N-N (need,extrusion) COMP_of:N-N (need,arsenite) MOD_ATT:N-ADJ (regulator,negative) COMP_as:V-N (function,regulator) SUBJ:V-N (suggest,results) MOD_ATT:N-ADJ (need,membrane-associated) APPOS (regulator,need) MOD_ATT:N-ADJ (reductase,arsenate) Parse 28 +--------------------------------------------------------------------------------MOD:V-ADV--------------------------------------------------------------------------------+ +-------------------------------------------------------------------------COMP_as:V-N------------------------------------------------------------------------+ | +------------------------------------------------COMP_as:V-N------------------------------------------------+ | | +-----------------------------COMP_as:V-N----------------------------+ | | | +-------------------OBJ:V-N------------------+ | | | | | +----------MOD_ATT:N-N----------+ | | | | | | +-----MOD_ATT:N-N-----+ | +------COMP_of:N-N------+ | | +SUBJ:V-+ | | +MOD_ATT+ +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . COMP_as:V-N (suggest,need) COMP_as:V-N (suggest,reductase) MOD_ATT:N-N (regulator,negative) MOD_ATT:N-N (need,protein) COMP_of:N-N (need,arsenite) MOD_ATT:N-N (function,GENEXXX) OBJ:V-N (suggest,function) COMP_for:N-N (need,extrusion) MOD_ATT:N-ADJ (reductase,arsenate) MOD:V-ADV (suggest,respectively) SUBJ:V-N (suggest,results) MOD_ATT:N-ADJ (protein,membrane-associated) MOD_ATT:N-N (function,GENEXXX) COMP_as:V-N (suggest,regulator) MOD_ATT:N-N (function,GENEXXX) Parse 29 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ | +-----------------------------------------APPOS-----------------------------------------+ | +------------SUBJ:V-N-----------+ +-----------------APPOS----------------+ | | | +-------SUBJ:V-N------+------COMP_as:V-N------+ +---MOD_ATT:N-ADJ---+ | | +SUBJ:V-+ | | +SUBJ:V-+ +MOD_ATT:N+ | +MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . APPOS (regulator,reductase) MOD_ATT:N-N (regulator,negative) COMP_of:N-N (extrusion,arsenite) MOD_ATT:N-ADJ (need,membrane-associated) MOD:V-ADV (function,respectively) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-N (need,protein) COMP_for:N-N (need,extrusion) COMP_as:V-N (function,regulator) SUBJ:V-N (suggest,results) APPOS (regulator,need) SUBJ:V-N (function,GENEXXX) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-ADJ (reductase,arsenate) Parse 30 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ | +-----------------------------------------APPOS-----------------------------------------+ | +------COMP_as:V-N------+-----------------APPOS----------------+------COMP_of:N-N------+ | | +SUBJ:V-+ | +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD_ATT:N-ADJ (protein,membrane-associated) APPOS (regulator,reductase) MOD_ATT:N-N (need,protein) MOD_ATT:N-N (regulator,negative) MOD:V-ADV (function,respectively) COMP_for:N-N (need,extrusion) COMP_of:N-N (need,arsenite) COMP_as:V-N (function,regulator) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-ADJ (reductase,arsenate) Parse 31 +---------------------------------------------------------------SUBJ:V-N--------------------------------------------------------------+ | +----------------------------------------------------------SUBJ:V-N---------------------------------------------------------+ | | +---------------------------------------------------SUBJ:V-N--------------------------------------------------+ +------------SUBJ:V-N-----------+ | | +-------SUBJ:V-N------+------COMP_as:V-N------+-----------------APPOS----------------+------COMP_of:N-N------+ +-------MOD:V-ADV------+ +SUBJ:V-+ | | +SUBJ:V-+ +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+ | +-OBJ:V-N-+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD:V-ADV (arsenate,respectively) APPOS (regulator,need) MOD_ATT:N-N (regulator,negative) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-N (need,protein) MOD_ATT:N-ADJ (protein,membrane-associated) SUBJ:V-N (arsenate,GENEXXX) COMP_for:N-N (need,extrusion) SUBJ:V-N (arsenate,GENEXXX) COMP_of:N-N (need,arsenite) COMP_as:V-N (function,regulator) SUBJ:V-N (suggest,results) SUBJ:V-N (arsenate,GENEXXX) OBJ:V-N (arsenate,reductase) SUBJ:V-N (function,GENEXXX) SUBJ:V-N (function,GENEXXX) Parse 32 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ +--------------------------------------------------COMP_as:V-N--------------------------------------------------+ | +--------------------------COMP_as:V-N-------------------------+ | | +------------SUBJ:V-N-----------+------COMP_as:V-N------+ | | | +SUBJ:V-+ +--APPOS--+ +SUBJ:V-+ +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . COMP_as:V-N (function,need) COMP_of:N-N (extrusion,arsenite) MOD:V-ADV (function,respectively) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-N (need,protein) COMP_for:N-N (need,extrusion) MOD_ATT:N-ADJ (regulator,negative) COMP_as:V-N (function,reductase) COMP_as:V-N (function,regulator) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (suggest,results) MOD_ATT:N-ADJ (protein,membrane-associated) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-ADJ (reductase,arsenate) Parse 33 +-----------------APPOS----------------+ +------COMP_as:V-N------+ +---MOD_ATT:N-ADJ---+ +-------MOD:V-ADV------+ +SUBJ:V-+ | +MOD_ATT:N+ | +MOD_A+COMP_for:N-+COMP_of:N-N+ +-OBJ:V-N-+ | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD:V-ADV (arsenate,respectively) COMP_for:N-N (need,extrusion) COMP_of:N-N (extrusion,arsenite) MOD_ATT:N-ADJ (need,membrane-associated) OBJ:V-N (arsenate,reductase) MOD_ATT:N-N (need,protein) MOD_ATT:N-ADJ (regulator,negative) COMP_as:V-N (function,regulator) SUBJ:V-N (suggest,results) APPOS (regulator,need) Parse 34 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ +--------------------------------------------------COMP_as:V-N--------------------------------------------------+ | +------------SUBJ:V-N-----------+ +-----------------APPOS----------------+ | | | +-------SUBJ:V-N------+------COMP_as:V-N------+ +---MOD_ATT:N-ADJ---+ | | +SUBJ:V-+ | | +SUBJ:V-+ +MOD_ATT:N+ | +MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . COMP_of:N-N (extrusion,arsenite) MOD_ATT:N-ADJ (need,membrane-associated) MOD:V-ADV (function,respectively) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-N (need,protein) COMP_for:N-N (need,extrusion) COMP_as:V-N (function,regulator) SUBJ:V-N (suggest,results) APPOS (regulator,need) COMP_as:V-N (function,reductase) SUBJ:V-N (function,GENEXXX) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-ADJ (reductase,arsenate) MOD_ATT:N-N (regulator,negative) Parse 35 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ +--------------------------------------------------COMP_as:V-N--------------------------------------------------+ | +------COMP_as:V-N------+-----------------APPOS----------------+------COMP_of:N-N------+ | | +SUBJ:V-+ | +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD_ATT:N-ADJ (protein,membrane-associated) MOD_ATT:N-N (need,protein) MOD:V-ADV (function,respectively) COMP_for:N-N (need,extrusion) COMP_of:N-N (need,arsenite) MOD_ATT:N-ADJ (regulator,negative) COMP_as:V-N (function,regulator) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-ADJ (reductase,arsenate) COMP_as:V-N (function,reductase) Parse 36 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ +------------SUBJ:V-N-----------+--------------------------------------------------COMP_as:V-N--------------------------------------------------+ | | +-------SUBJ:V-N------+------COMP_as:V-N------+-----------------APPOS----------------+------COMP_of:N-N------+ | | +SUBJ:V-+ | | +SUBJ:V-+ +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD:V-ADV (function,respectively) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-N (need,protein) COMP_for:N-N (need,extrusion) COMP_of:N-N (need,arsenite) MOD_ATT:N-ADJ (regulator,negative) COMP_as:V-N (function,regulator) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-ADJ (protein,membrane-associated) COMP_as:V-N (function,reductase) SUBJ:V-N (function,GENEXXX) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-ADJ (reductase,arsenate) Parse 37 +-------------------------------------------------------------------------SUBJ:V-N-------------------------------------------------------------------------+ | +------------SUBJ:V-N-----------+ | | | +-------SUBJ:V-N------+------COMP_as:V-N------+-----------------APPOS----------------+ +-------MOD:V-ADV------+ +SUBJ:V-+ | | +SUBJ:V-+ +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+COMP_of:N-N+ +-OBJ:V-N-+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . APPOS (regulator,need) COMP_of:N-N (extrusion,arsenite) OBJ:V-N (arsenate,reductase) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-N (need,protein) MOD_ATT:N-ADJ (protein,membrane-associated) COMP_for:N-N (need,extrusion) MOD_ATT:N-ADJ (regulator,negative) COMP_as:V-N (function,regulator) SUBJ:V-N (arsenate,results) SUBJ:V-N (suggest,results) MOD:V-ADV (arsenate,respectively) SUBJ:V-N (function,GENEXXX) SUBJ:V-N (function,GENEXXX) Parse 38 +-------------------------------------------------------------------------SUBJ:V-N-------------------------------------------------------------------------+ | +------------SUBJ:V-N-----------+ | | | +-------SUBJ:V-N------+------COMP_as:V-N------+-----------------APPOS----------------+------COMP_of:N-N------+ +-------MOD:V-ADV------+ +SUBJ:V-+ | | +SUBJ:V-+ +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+ | +-OBJ:V-N-+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . APPOS (regulator,need) OBJ:V-N (arsenate,reductase) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-N (need,protein) MOD_ATT:N-ADJ (protein,membrane-associated) COMP_for:N-N (need,extrusion) COMP_of:N-N (need,arsenite) MOD_ATT:N-ADJ (regulator,negative) COMP_as:V-N (function,regulator) SUBJ:V-N (arsenate,results) SUBJ:V-N (suggest,results) MOD:V-ADV (arsenate,respectively) SUBJ:V-N (function,GENEXXX) SUBJ:V-N (function,GENEXXX) Parse 39 +-------------------------------------------------------------------------SUBJ:V-N-------------------------------------------------------------------------+ | +------COMP_as:V-N------+-----------------APPOS----------------+ +-------MOD:V-ADV------+ +SUBJ:V-+ | +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+COMP_of:N-N+ +-OBJ:V-N-+ | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD:V-ADV (arsenate,respectively) COMP_for:N-N (need,extrusion) COMP_of:N-N (extrusion,arsenite) MOD_ATT:N-N (regulator,negative) OBJ:V-N (arsenate,reductase) MOD_ATT:N-N (need,protein) COMP_as:V-N (function,regulator) SUBJ:V-N (arsenate,results) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-ADJ (protein,membrane-associated) Parse 40 +--------------------------------------------------------------------------------MOD:V-ADV--------------------------------------------------------------------------------+ +-----------------------------COMP_as:V-N----------------------------+ | +-------------------OBJ:V-N------------------+ | | | +----------MOD_ATT:N-N----------+ | | | | +-----MOD_ATT:N-N-----+ +-----------------APPOS----------------+------------------COMP_for:N-N------------------+ | +SUBJ:V-+ | | +MOD_ATT+ +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . COMP_of:N-N (extrusion,arsenite) COMP_for:N-N (need,reductase) MOD_ATT:N-N (function,GENEXXX) MOD_ATT:N-N (need,protein) OBJ:V-N (suggest,function) COMP_for:N-N (need,extrusion) MOD_ATT:N-ADJ (reductase,arsenate) MOD_ATT:N-ADJ (regulator,negative) MOD:V-ADV (suggest,respectively) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-ADJ (protein,membrane-associated) MOD_ATT:N-N (function,GENEXXX) COMP_as:V-N (suggest,regulator) MOD_ATT:N-N (function,GENEXXX) Parse 41 +--------------------------------------------------------------------------------MOD:V-ADV--------------------------------------------------------------------------------+ +-----------------------------COMP_as:V-N----------------------------+ | +-------------------OBJ:V-N------------------+ | | | +----------MOD_ATT:N-N----------+ +-----------------APPOS----------------+ | | | +-----MOD_ATT:N-N-----+ | +---MOD_ATT:N-ADJ---+------------------COMP_for:N-N------------------+ | +SUBJ:V-+ | | +MOD_ATT+ +MOD_ATT:N+ | +MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . COMP_of:N-N (extrusion,arsenite) COMP_for:N-N (need,reductase) MOD_ATT:N-ADJ (need,membrane-associated) MOD_ATT:N-N (function,GENEXXX) MOD_ATT:N-N (need,protein) OBJ:V-N (suggest,function) COMP_for:N-N (need,extrusion) MOD_ATT:N-ADJ (reductase,arsenate) MOD:V-ADV (suggest,respectively) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-N (function,GENEXXX) COMP_as:V-N (suggest,regulator) MOD_ATT:N-N (regulator,negative) MOD_ATT:N-N (function,GENEXXX) Parse 42 +--------------------------------------------------------------------------------MOD:V-ADV--------------------------------------------------------------------------------+ +-----------------------------COMP_as:V-N----------------------------+ | +-------------------OBJ:V-N------------------+ | | | +----------MOD_ATT:N-N----------+ | +-------------------COMP_of:N-N------------------+ | | | +-----MOD_ATT:N-N-----+ +-----------------APPOS----------------+------COMP_of:N-N------+ | | +SUBJ:V-+ | | +MOD_ATT+ +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . COMP_of:N-N (need,reductase) MOD_ATT:N-N (function,GENEXXX) MOD_ATT:N-N (need,protein) OBJ:V-N (suggest,function) COMP_for:N-N (need,extrusion) MOD_ATT:N-ADJ (reductase,arsenate) COMP_of:N-N (need,arsenite) MOD:V-ADV (suggest,respectively) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-ADJ (protein,membrane-associated) MOD_ATT:N-N (function,GENEXXX) COMP_as:V-N (suggest,regulator) MOD_ATT:N-N (regulator,negative) MOD_ATT:N-N (function,GENEXXX) Parse 43 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ | +-------------------COMP_of:N-N------------------+ | +------------SUBJ:V-N-----------+------COMP_as:V-N------+-----------------APPOS----------------+------COMP_of:N-N------+ | | +SUBJ:V-+ +--APPOS--+ +SUBJ:V-+ +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD_ATT:N-N (regulator,negative) MOD:V-ADV (function,respectively) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-N (need,protein) COMP_for:N-N (need,extrusion) COMP_of:N-N (need,arsenite) COMP_as:V-N (function,regulator) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-ADJ (protein,membrane-associated) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-ADJ (reductase,arsenate) COMP_of:N-N (need,reductase) Parse 44 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ | +-------------------COMP_of:N-N------------------+ | +------------SUBJ:V-N-----------+------COMP_as:V-N------+-----------------APPOS----------------+------COMP_of:N-N------+ | | +SUBJ:V-+ +--APPOS--+ +SUBJ:V-+ +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD_ATT:N-ADJ (regulator,negative) MOD:V-ADV (function,respectively) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-N (need,protein) COMP_for:N-N (need,extrusion) COMP_of:N-N (need,arsenite) COMP_as:V-N (function,regulator) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-ADJ (protein,membrane-associated) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-ADJ (reductase,arsenate) COMP_of:N-N (need,reductase) Parse 45 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ +------------SUBJ:V-N-----------+------COMP_as:V-N------+-----------------APPOS----------------+------------------COMP_for:N-N------------------+ | +SUBJ:V-+ +--APPOS--+ +SUBJ:V-+ +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD_ATT:N-N (regulator,negative) COMP_for:N-N (need,reductase) COMP_of:N-N (extrusion,arsenite) MOD:V-ADV (function,respectively) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-N (need,protein) COMP_for:N-N (need,extrusion) COMP_as:V-N (function,regulator) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-ADJ (protein,membrane-associated) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-ADJ (reductase,arsenate) Parse 46 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ +------COMP_as:V-N------+-----------------APPOS----------------+ +-------------COMP_of:N-N------------+ | +SUBJ:V-+ +--APPOS--+ | +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD_ATT:N-ADJ (protein,membrane-associated) COMP_of:N-N (extrusion,arsenite) MOD_ATT:N-N (need,protein) MOD_ATT:N-N (regulator,negative) MOD:V-ADV (function,respectively) COMP_for:N-N (need,extrusion) COMP_as:V-N (function,regulator) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (extrusion,reductase) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-ADJ (reductase,arsenate) Parse 47 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ +------COMP_as:V-N------+-----------------APPOS----------------+ +-------------COMP_of:N-N------------+ | +SUBJ:V-+ +--APPOS--+ | +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD_ATT:N-ADJ (protein,membrane-associated) COMP_of:N-N (extrusion,arsenite) MOD_ATT:N-N (need,protein) MOD:V-ADV (function,respectively) COMP_for:N-N (need,extrusion) MOD_ATT:N-ADJ (regulator,negative) COMP_as:V-N (function,regulator) APPOS (GENEXXX,GENEXXX) COMP_of:N-N (extrusion,reductase) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-ADJ (reductase,arsenate) Parse 48 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ | +-----------------APPOS----------------+ | +------------SUBJ:V-N-----------+------COMP_as:V-N------+ +---MOD_ATT:N-ADJ---+------------------COMP_for:N-N------------------+ | +SUBJ:V-+ +--APPOS--+ +SUBJ:V-+ +MOD_ATT:N+ | +MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD_ATT:N-N (regulator,negative) COMP_for:N-N (need,reductase) COMP_of:N-N (extrusion,arsenite) MOD_ATT:N-ADJ (need,membrane-associated) MOD:V-ADV (function,respectively) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-N (need,protein) COMP_for:N-N (need,extrusion) COMP_as:V-N (function,regulator) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (suggest,results) APPOS (regulator,need) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-ADJ (reductase,arsenate) Parse 49 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ | +-----------------APPOS----------------+ | +------------SUBJ:V-N-----------+------COMP_as:V-N------+ +---MOD_ATT:N-ADJ---+------------------COMP_for:N-N------------------+ | +SUBJ:V-+ +--APPOS--+ +SUBJ:V-+ +MOD_ATT:N+ | +MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD_ATT:N-ADJ (regulator,negative) COMP_for:N-N (need,reductase) COMP_of:N-N (extrusion,arsenite) MOD_ATT:N-ADJ (need,membrane-associated) MOD:V-ADV (function,respectively) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-N (need,protein) COMP_for:N-N (need,extrusion) COMP_as:V-N (function,regulator) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (suggest,results) APPOS (regulator,need) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-ADJ (reductase,arsenate) Parse 50 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ | +-----------------APPOS----------------+-------------------COMP_of:N-N------------------+ | +------COMP_as:V-N------+ +---MOD_ATT:N-ADJ---+------COMP_of:N-N------+ | | +SUBJ:V-+ +--APPOS--+ | +MOD_ATT:N+ | +MOD_A+COMP_for:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD_ATT:N-N (need,protein) MOD:V-ADV (function,respectively) COMP_for:N-N (need,extrusion) COMP_of:N-N (need,arsenite) MOD_ATT:N-ADJ (regulator,negative) COMP_as:V-N (function,regulator) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (suggest,results) MOD_ATT:N-ADJ (need,membrane-associated) APPOS (regulator,need) MOD_ATT:N-ADJ (reductase,arsenate) COMP_of:N-N (need,reductase) Parse 51 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ +------COMP_as:V-N------+-----------------APPOS----------------+------------------COMP_for:N-N------------------+ | +SUBJ:V-+ +--APPOS--+ | +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD_ATT:N-ADJ (protein,membrane-associated) COMP_for:N-N (need,reductase) COMP_of:N-N (extrusion,arsenite) MOD_ATT:N-N (need,protein) MOD:V-ADV (function,respectively) COMP_for:N-N (need,extrusion) MOD_ATT:N-ADJ (regulator,negative) COMP_as:V-N (function,regulator) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-ADJ (reductase,arsenate) Parse 52 +--------------------------------------------------------------------------------MOD:V-ADV--------------------------------------------------------------------------------+ +-----------------------------COMP_as:V-N----------------------------+ | +-------------------OBJ:V-N------------------+ +-----------------------------------------APPOS-----------------------------------------+ | | +----------MOD_ATT:N-N----------+ +-----------------APPOS----------------+ | | | | +-----MOD_ATT:N-N-----+ | +---MOD_ATT:N-ADJ---+ | | +SUBJ:V-+ | | +MOD_ATT+ +MOD_ATT:N+ | +MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . COMP_of:N-N (extrusion,arsenite) APPOS (regulator,reductase) MOD_ATT:N-ADJ (need,membrane-associated) MOD_ATT:N-N (function,GENEXXX) MOD_ATT:N-N (need,protein) OBJ:V-N (suggest,function) COMP_for:N-N (need,extrusion) MOD_ATT:N-ADJ (reductase,arsenate) MOD:V-ADV (suggest,respectively) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-N (function,GENEXXX) COMP_as:V-N (suggest,regulator) MOD_ATT:N-N (regulator,negative) MOD_ATT:N-N (function,GENEXXX) Parse 53 +--------------------------------------------------------------------------------MOD:V-ADV--------------------------------------------------------------------------------+ +-------------------OBJ:V-N------------------+--------------------------------------------------COMP_as:N-N--------------------------------------------------+ | | +----------MOD_ATT:N-N----------+--------------------------COMP_as:N-N-------------------------+ | | | | +-----MOD_ATT:N-N-----+------COMP_as:N-N------+ +---MOD_ATT:N-ADJ---+ | | +SUBJ:V-+ | | +MOD_ATT+ +MOD_ATT:N+ | +MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . COMP_of:N-N (extrusion,arsenite) MOD_ATT:N-ADJ (need,membrane-associated) COMP_as:N-N (function,need) COMP_as:N-N (function,regulator) MOD_ATT:N-N (regulator,negative) MOD_ATT:N-N (need,protein) OBJ:V-N (suggest,function) COMP_for:N-N (need,extrusion) MOD_ATT:N-ADJ (reductase,arsenate) MOD:V-ADV (suggest,respectively) SUBJ:V-N (suggest,results) COMP_as:N-N (function,reductase) MOD_ATT:N-N (function,GENEXXX) MOD_ATT:N-N (function,GENEXXX) MOD_ATT:N-N (function,GENEXXX) Parse 54 +--------------------------------------------------------------------------------MOD:V-ADV--------------------------------------------------------------------------------+ +-----------------------------COMP_as:V-N----------------------------+ | +-------------------OBJ:V-N------------------+ | | | +----------MOD_ATT:N-N----------+ +-----------------------------------------APPOS-----------------------------------------+ | | | +-----MOD_ATT:N-N-----+ +-----------------APPOS----------------+ | | +SUBJ:V-+ | | +MOD_ATT+ +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . COMP_of:N-N (extrusion,arsenite) APPOS (regulator,reductase) MOD_ATT:N-N (function,GENEXXX) MOD_ATT:N-N (need,protein) OBJ:V-N (suggest,function) COMP_for:N-N (need,extrusion) MOD_ATT:N-ADJ (reductase,arsenate) MOD:V-ADV (suggest,respectively) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-ADJ (protein,membrane-associated) MOD_ATT:N-N (function,GENEXXX) COMP_as:V-N (suggest,regulator) MOD_ATT:N-N (regulator,negative) MOD_ATT:N-N (function,GENEXXX) Parse 55 +--------------------------------------------------------------------------------MOD:V-ADV--------------------------------------------------------------------------------+ +-----------------------------COMP_as:V-N----------------------------+ | +-------------------OBJ:V-N------------------+ +-----------------------------------------APPOS-----------------------------------------+ | | +----------MOD_ATT:N-N----------+ +-----------------APPOS----------------+ | | | | +-----MOD_ATT:N-N-----+ | +---MOD_ATT:N-ADJ---+ | | +SUBJ:V-+ | | +MOD_ATT+ +MOD_ATT:N+ | +MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . COMP_of:N-N (extrusion,arsenite) APPOS (regulator,reductase) MOD_ATT:N-ADJ (need,membrane-associated) MOD_ATT:N-N (function,GENEXXX) MOD_ATT:N-N (need,protein) OBJ:V-N (suggest,function) COMP_for:N-N (need,extrusion) MOD_ATT:N-ADJ (reductase,arsenate) MOD_ATT:N-ADJ (regulator,negative) MOD:V-ADV (suggest,respectively) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-N (function,GENEXXX) COMP_as:V-N (suggest,regulator) MOD_ATT:N-N (function,GENEXXX) Parse 56 +--------------------------------------------------------------------------------MOD:V-ADV--------------------------------------------------------------------------------+ +-----------------------------COMP_as:V-N----------------------------+ | +-------------------OBJ:V-N------------------+ | | | +----------MOD_ATT:N-N----------+ +-----------------------------------------APPOS-----------------------------------------+ | | | +-----MOD_ATT:N-N-----+ +-----------------APPOS----------------+ | | +SUBJ:V-+ | | +MOD_ATT+ +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . COMP_of:N-N (extrusion,arsenite) APPOS (regulator,reductase) MOD_ATT:N-N (function,GENEXXX) MOD_ATT:N-N (need,protein) OBJ:V-N (suggest,function) COMP_for:N-N (need,extrusion) MOD_ATT:N-ADJ (reductase,arsenate) MOD_ATT:N-ADJ (regulator,negative) MOD:V-ADV (suggest,respectively) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-ADJ (protein,membrane-associated) MOD_ATT:N-N (function,GENEXXX) COMP_as:V-N (suggest,regulator) MOD_ATT:N-N (function,GENEXXX) Parse 57 +--------------------------------------------------------------------------------MOD:V-ADV--------------------------------------------------------------------------------+ +-----------------------------COMP_as:V-N----------------------------+ | +-------------------OBJ:V-N------------------+ | | | +----------MOD_ATT:N-N----------+ +-----------------------------------------APPOS-----------------------------------------+ | | | +-----MOD_ATT:N-N-----+ +-----------------APPOS----------------+------COMP_of:N-N------+ | | +SUBJ:V-+ | | +MOD_ATT+ +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . APPOS (regulator,reductase) MOD_ATT:N-N (function,GENEXXX) MOD_ATT:N-N (need,protein) COMP_of:N-N (need,arsenite) OBJ:V-N (suggest,function) COMP_for:N-N (need,extrusion) MOD_ATT:N-ADJ (reductase,arsenate) MOD_ATT:N-ADJ (regulator,negative) MOD:V-ADV (suggest,respectively) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-ADJ (protein,membrane-associated) MOD_ATT:N-N (function,GENEXXX) COMP_as:V-N (suggest,regulator) MOD_ATT:N-N (function,GENEXXX) Parse 58 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ | +-----------------------------------------APPOS-----------------------------------------+ | | +-----------------APPOS----------------+ | | +------COMP_as:V-N------+ +---MOD_ATT:N-ADJ---+ | | +SUBJ:V-+ +--APPOS--+ | +MOD_ATT:N+ | +MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . COMP_of:N-N (extrusion,arsenite) MOD_ATT:N-N (regulator,negative) MOD:V-ADV (function,respectively) MOD_ATT:N-ADJ (need,membrane-associated) MOD_ATT:N-N (need,protein) COMP_for:N-N (need,extrusion) APPOS (regulator,reductase) COMP_as:V-N (function,regulator) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-ADJ (reductase,arsenate) Parse 59 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ | +-----------------------------------------APPOS-----------------------------------------+ | +------COMP_as:V-N------+-----------------APPOS----------------+------COMP_of:N-N------+ | | +SUBJ:V-+ +--APPOS--+ | +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD_ATT:N-N (regulator,negative) MOD:V-ADV (function,respectively) MOD_ATT:N-N (need,protein) MOD_ATT:N-ADJ (protein,membrane-associated) COMP_for:N-N (need,extrusion) APPOS (regulator,reductase) COMP_of:N-N (need,arsenite) COMP_as:V-N (function,regulator) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-ADJ (reductase,arsenate) Parse 60 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ | +-----------------------------------------APPOS-----------------------------------------+ | | +-----------------APPOS----------------+ | | +------------SUBJ:V-N-----------+------COMP_as:V-N------+ +---MOD_ATT:N-ADJ---+ | | +SUBJ:V-+ +--APPOS--+ +SUBJ:V-+ +MOD_ATT:N+ | +MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . APPOS (regulator,reductase) MOD_ATT:N-N (regulator,negative) COMP_of:N-N (extrusion,arsenite) MOD_ATT:N-ADJ (need,membrane-associated) MOD:V-ADV (function,respectively) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-N (need,protein) COMP_for:N-N (need,extrusion) COMP_as:V-N (function,regulator) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (suggest,results) APPOS (regulator,need) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-ADJ (reductase,arsenate) Parse 61 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ | +-----------------------------------------APPOS-----------------------------------------+ | +------------SUBJ:V-N-----------+------COMP_as:V-N------+-----------------APPOS----------------+------COMP_of:N-N------+ | | +SUBJ:V-+ +--APPOS--+ +SUBJ:V-+ +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD_ATT:N-ADJ (regulator,negative) APPOS (regulator,reductase) MOD:V-ADV (function,respectively) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-N (need,protein) COMP_for:N-N (need,extrusion) COMP_of:N-N (need,arsenite) COMP_as:V-N (function,regulator) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-ADJ (protein,membrane-associated) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-ADJ (reductase,arsenate) Parse 62 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ | +-----------------------------------------APPOS-----------------------------------------+ | | +-----------------APPOS----------------+ | | +------------SUBJ:V-N-----------+------COMP_as:V-N------+ +---MOD_ATT:N-ADJ---+ | | +SUBJ:V-+ +--APPOS--+ +SUBJ:V-+ +MOD_ATT:N+ | +MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD_ATT:N-ADJ (regulator,negative) APPOS (regulator,reductase) COMP_of:N-N (extrusion,arsenite) MOD_ATT:N-ADJ (need,membrane-associated) MOD:V-ADV (function,respectively) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-N (need,protein) COMP_for:N-N (need,extrusion) COMP_as:V-N (function,regulator) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (suggest,results) APPOS (regulator,need) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-ADJ (reductase,arsenate) Parse 63 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ | +-----------------------------------------APPOS-----------------------------------------+ | +------COMP_as:V-N------+-----------------APPOS----------------+ | | +SUBJ:V-+ +--APPOS--+ | +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . COMP_of:N-N (extrusion,arsenite) MOD_ATT:N-N (regulator,negative) MOD:V-ADV (function,respectively) MOD_ATT:N-N (need,protein) MOD_ATT:N-ADJ (protein,membrane-associated) COMP_for:N-N (need,extrusion) APPOS (regulator,reductase) COMP_as:V-N (function,regulator) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-ADJ (reductase,arsenate) Parse 64 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ | +-----------------------------------------APPOS-----------------------------------------+ | +------COMP_as:V-N------+-----------------APPOS----------------+------COMP_of:N-N------+ | | +SUBJ:V-+ +--APPOS--+ | +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD:V-ADV (function,respectively) MOD_ATT:N-N (need,protein) MOD_ATT:N-ADJ (protein,membrane-associated) COMP_for:N-N (need,extrusion) APPOS (regulator,reductase) COMP_of:N-N (need,arsenite) MOD_ATT:N-ADJ (regulator,negative) COMP_as:V-N (function,regulator) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-ADJ (reductase,arsenate) Parse 65 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ | +-----------------------------------------APPOS-----------------------------------------+ | +------------SUBJ:V-N-----------+------COMP_as:V-N------+-----------------APPOS----------------+------COMP_of:N-N------+ | | +SUBJ:V-+ +--APPOS--+ +SUBJ:V-+ +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . APPOS (regulator,reductase) MOD_ATT:N-N (regulator,negative) MOD:V-ADV (function,respectively) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-N (need,protein) COMP_for:N-N (need,extrusion) COMP_of:N-N (need,arsenite) COMP_as:V-N (function,regulator) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-ADJ (protein,membrane-associated) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-ADJ (reductase,arsenate) Parse 66 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ | +-----------------------------------------APPOS-----------------------------------------+ | | +-----------------APPOS----------------+ | | +------------SUBJ:V-N-----------+------COMP_as:V-N------+ +---MOD_ATT:N-ADJ---+------COMP_of:N-N------+ | | +SUBJ:V-+ +--APPOS--+ +SUBJ:V-+ +MOD_ATT:N+ | +MOD_A+COMP_for:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD_ATT:N-ADJ (regulator,negative) APPOS (regulator,reductase) MOD_ATT:N-ADJ (need,membrane-associated) MOD:V-ADV (function,respectively) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-N (need,protein) COMP_for:N-N (need,extrusion) COMP_of:N-N (need,arsenite) COMP_as:V-N (function,regulator) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (suggest,results) APPOS (regulator,need) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-ADJ (reductase,arsenate) Parse 67 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ | +-----------------------------------------APPOS-----------------------------------------+ | +------COMP_as:V-N------+-----------------APPOS----------------+ | | +SUBJ:V-+ +--APPOS--+ | +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . COMP_of:N-N (extrusion,arsenite) MOD:V-ADV (function,respectively) MOD_ATT:N-N (need,protein) MOD_ATT:N-ADJ (protein,membrane-associated) COMP_for:N-N (need,extrusion) APPOS (regulator,reductase) MOD_ATT:N-ADJ (regulator,negative) COMP_as:V-N (function,regulator) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-ADJ (reductase,arsenate) Parse 68 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ | +-----------------------------------------APPOS-----------------------------------------+ | | +-----------------APPOS----------------+ | | +------COMP_as:V-N------+ +---MOD_ATT:N-ADJ---+------COMP_of:N-N------+ | | +SUBJ:V-+ +--APPOS--+ | +MOD_ATT:N+ | +MOD_A+COMP_for:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD_ATT:N-N (regulator,negative) MOD:V-ADV (function,respectively) MOD_ATT:N-ADJ (need,membrane-associated) MOD_ATT:N-N (need,protein) COMP_for:N-N (need,extrusion) APPOS (regulator,reductase) COMP_of:N-N (need,arsenite) COMP_as:V-N (function,regulator) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-ADJ (reductase,arsenate) Parse 69 +--------------------------------------------------------------------------------MOD:V-ADV--------------------------------------------------------------------------------+ +---------------------------------------------------------------------------OBJ:V-N--------------------------------------------------------------------------+ | +--------------------------------------------------OBJ:V-N--------------------------------------------------+ | | +-------------------OBJ:V-N------------------+ | | | | +----------MOD_ATT:N-N----------+ | | | | | +-----MOD_ATT:N-N-----+------COMP_as:N-N------+ | | | +SUBJ:V-+ | | +MOD_ATT+ +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . COMP_of:N-N (extrusion,arsenite) MOD_ATT:N-N (regulator,negative) OBJ:V-N (suggest,reductase) MOD_ATT:N-N (need,protein) OBJ:V-N (suggest,function) COMP_for:N-N (need,extrusion) MOD_ATT:N-ADJ (reductase,arsenate) MOD:V-ADV (suggest,respectively) SUBJ:V-N (suggest,results) MOD_ATT:N-ADJ (protein,membrane-associated) COMP_as:N-N (function,regulator) MOD_ATT:N-N (function,GENEXXX) MOD_ATT:N-N (function,GENEXXX) MOD_ATT:N-N (function,GENEXXX) OBJ:V-N (suggest,need) Parse 70 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ | +-----------------------------------------APPOS-----------------------------------------+ | +------------SUBJ:V-N-----------+------COMP_as:V-N------+-----------------APPOS----------------+ | | +SUBJ:V-+ +--APPOS--+ +SUBJ:V-+ +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD_ATT:N-ADJ (regulator,negative) APPOS (regulator,reductase) COMP_of:N-N (extrusion,arsenite) MOD:V-ADV (function,respectively) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-N (need,protein) COMP_for:N-N (need,extrusion) COMP_as:V-N (function,regulator) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-ADJ (protein,membrane-associated) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-ADJ (reductase,arsenate) Parse 71 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ | +-----------------------------------------APPOS-----------------------------------------+ | | +-----------------APPOS----------------+ | | +------COMP_as:V-N------+ +---MOD_ATT:N-ADJ---+ | | +SUBJ:V-+ +--APPOS--+ | +MOD_ATT:N+ | +MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . COMP_of:N-N (extrusion,arsenite) MOD:V-ADV (function,respectively) MOD_ATT:N-ADJ (need,membrane-associated) MOD_ATT:N-N (need,protein) COMP_for:N-N (need,extrusion) APPOS (regulator,reductase) MOD_ATT:N-ADJ (regulator,negative) COMP_as:V-N (function,regulator) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-ADJ (reductase,arsenate) Parse 72 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ | +-----------------------------------------APPOS-----------------------------------------+ | | +-----------------APPOS----------------+ | | +------COMP_as:V-N------+ +---MOD_ATT:N-ADJ---+------COMP_of:N-N------+ | | +SUBJ:V-+ +--APPOS--+ | +MOD_ATT:N+ | +MOD_A+COMP_for:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD:V-ADV (function,respectively) MOD_ATT:N-ADJ (need,membrane-associated) MOD_ATT:N-N (need,protein) COMP_for:N-N (need,extrusion) APPOS (regulator,reductase) COMP_of:N-N (need,arsenite) MOD_ATT:N-ADJ (regulator,negative) COMP_as:V-N (function,regulator) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-ADJ (reductase,arsenate) Parse 73 +---------------------------------------------------------------SUBJ:V-N--------------------------------------------------------------+ | +---------------------------------------------------SUBJ:V-N--------------------------------------------------+ +------------SUBJ:V-N-----------+------COMP_as:V-N------+-----------------APPOS----------------+ +-------MOD:V-ADV------+ +SUBJ:V-+ +--APPOS--+ +SUBJ:V-+ +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+COMP_of:N-N+ +-OBJ:V-N-+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . SUBJ:V-N (arsenate,GENEXXX) APPOS (regulator,need) COMP_of:N-N (extrusion,arsenite) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-N (need,protein) MOD_ATT:N-ADJ (protein,membrane-associated) SUBJ:V-N (arsenate,GENEXXX) COMP_for:N-N (need,extrusion) MOD:V-ADV (arsenate,respectively) MOD_ATT:N-ADJ (regulator,negative) COMP_as:V-N (function,regulator) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (suggest,results) OBJ:V-N (arsenate,reductase) SUBJ:V-N (function,GENEXXX) Parse 74 +---------------------------------------------------------------SUBJ:V-N--------------------------------------------------------------+ | +---------------------------------------------------SUBJ:V-N--------------------------------------------------+ | | +-----------------APPOS----------------+ | +------------SUBJ:V-N-----------+------COMP_as:V-N------+ +---MOD_ATT:N-ADJ---+------COMP_of:N-N------+ +-------MOD:V-ADV------+ +SUBJ:V-+ +--APPOS--+ +SUBJ:V-+ +MOD_ATT:N+ | +MOD_A+COMP_for:N-+ | +-OBJ:V-N-+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . SUBJ:V-N (arsenate,GENEXXX) APPOS (regulator,need) MOD_ATT:N-N (regulator,negative) MOD_ATT:N-ADJ (need,membrane-associated) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-N (need,protein) SUBJ:V-N (arsenate,GENEXXX) COMP_for:N-N (need,extrusion) MOD:V-ADV (arsenate,respectively) COMP_of:N-N (need,arsenite) COMP_as:V-N (function,regulator) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (suggest,results) OBJ:V-N (arsenate,reductase) SUBJ:V-N (function,GENEXXX) Parse 75 +-----------------APPOS----------------+ +------COMP_as:V-N------+ +---MOD_ATT:N-ADJ---+ +-------MOD:V-ADV------+ +SUBJ:V-+ +--APPOS--+ | +MOD_ATT:N+ | +MOD_A+COMP_for:N-+COMP_of:N-N+ +-OBJ:V-N-+ | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD:V-ADV (arsenate,respectively) COMP_of:N-N (extrusion,arsenite) MOD_ATT:N-ADJ (need,membrane-associated) OBJ:V-N (arsenate,reductase) MOD_ATT:N-ADJ (regulator,negative) COMP_as:V-N (function,regulator) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (suggest,results) APPOS (regulator,need) COMP_for:N-N (need,extrusion) MOD_ATT:N-N (need,protein) Parse 76 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ +--------------------------------------------------COMP_as:V-N--------------------------------------------------+ | +------COMP_as:V-N------+-----------------APPOS----------------+ | | +SUBJ:V-+ +--APPOS--+ | +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . APPOS (regulator,need) COMP_of:N-N (extrusion,arsenite) MOD_ATT:N-N (regulator,negative) MOD:V-ADV (function,respectively) MOD_ATT:N-N (need,protein) MOD_ATT:N-ADJ (protein,membrane-associated) COMP_for:N-N (need,extrusion) COMP_as:V-N (function,regulator) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (suggest,results) MOD_ATT:N-ADJ (reductase,arsenate) COMP_as:V-N (function,reductase) Parse 77 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ +--------------------------------------------------COMP_as:V-N--------------------------------------------------+ | | +-----------------APPOS----------------+ | | +------COMP_as:V-N------+ +---MOD_ATT:N-ADJ---+ | | +SUBJ:V-+ +--APPOS--+ | +MOD_ATT:N+ | +MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . APPOS (regulator,need) COMP_of:N-N (extrusion,arsenite) MOD:V-ADV (function,respectively) MOD_ATT:N-ADJ (need,membrane-associated) MOD_ATT:N-N (need,protein) COMP_for:N-N (need,extrusion) MOD_ATT:N-ADJ (regulator,negative) COMP_as:V-N (function,regulator) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (suggest,results) MOD_ATT:N-ADJ (reductase,arsenate) COMP_as:V-N (function,reductase) Parse 78 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ +--------------------------------------------------COMP_as:V-N--------------------------------------------------+ | +------------SUBJ:V-N-----------+------COMP_as:V-N------+-----------------APPOS----------------+ | | +SUBJ:V-+ +--APPOS--+ +SUBJ:V-+ +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . COMP_of:N-N (extrusion,arsenite) MOD:V-ADV (function,respectively) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-N (need,protein) COMP_for:N-N (need,extrusion) MOD_ATT:N-ADJ (regulator,negative) COMP_as:V-N (function,regulator) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-ADJ (protein,membrane-associated) COMP_as:V-N (function,reductase) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-ADJ (reductase,arsenate) Parse 79 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ +--------------------------------------------------COMP_as:V-N--------------------------------------------------+ | +------------SUBJ:V-N-----------+------COMP_as:V-N------+-----------------APPOS----------------+------COMP_of:N-N------+ | | +SUBJ:V-+ +--APPOS--+ +SUBJ:V-+ +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD:V-ADV (function,respectively) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-N (need,protein) COMP_for:N-N (need,extrusion) COMP_of:N-N (need,arsenite) MOD_ATT:N-ADJ (regulator,negative) COMP_as:V-N (function,regulator) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-ADJ (protein,membrane-associated) COMP_as:V-N (function,reductase) SUBJ:V-N (function,GENEXXX) MOD_ATT:N-ADJ (reductase,arsenate) Parse 80 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ +--------------------------------------------------COMP_as:V-N--------------------------------------------------+ | +------COMP_as:V-N------+-----------------APPOS----------------+------COMP_of:N-N------+ | | +SUBJ:V-+ +--APPOS--+ | +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . APPOS (regulator,need) MOD_ATT:N-N (regulator,negative) MOD:V-ADV (function,respectively) MOD_ATT:N-N (need,protein) MOD_ATT:N-ADJ (protein,membrane-associated) COMP_for:N-N (need,extrusion) COMP_of:N-N (need,arsenite) COMP_as:V-N (function,regulator) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (suggest,results) MOD_ATT:N-ADJ (reductase,arsenate) COMP_as:V-N (function,reductase) Parse 81 +----------------------------------------------------------MOD:V-ADV---------------------------------------------------------+ +--------------------------------------------------COMP_as:V-N--------------------------------------------------+ | | +-----------------APPOS----------------+ | | +------COMP_as:V-N------+ +---MOD_ATT:N-ADJ---+------COMP_of:N-N------+ | | +SUBJ:V-+ +--APPOS--+ | +MOD_ATT:N+ | +MOD_A+COMP_for:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . APPOS (regulator,need) MOD:V-ADV (function,respectively) MOD_ATT:N-ADJ (need,membrane-associated) MOD_ATT:N-N (need,protein) COMP_for:N-N (need,extrusion) COMP_of:N-N (need,arsenite) MOD_ATT:N-ADJ (regulator,negative) COMP_as:V-N (function,regulator) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (suggest,results) MOD_ATT:N-ADJ (reductase,arsenate) COMP_as:V-N (function,reductase) Parse 82 +-------------------------------------------------------------------------SUBJ:V-N-------------------------------------------------------------------------+ | +-----------------------------COMP_as:V-N----------------------------+ | | +-------------------OBJ:V-N------------------+ | | | | +----------MOD_ATT:N-N----------+ +-----------------APPOS----------------+ | | | | +-----MOD_ATT:N-N-----+ | +---MOD_ATT:N-ADJ---+------COMP_of:N-N------+ +-------MOD:V-ADV------+ +SUBJ:V-+ | | +MOD_ATT+ +MOD_ATT:N+ | +MOD_A+COMP_for:N-+ | +-OBJ:V-N-+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD_ATT:N-N (regulator,negative) MOD_ATT:N-ADJ (need,membrane-associated) MOD_ATT:N-N (need,protein) OBJ:V-N (suggest,function) COMP_for:N-N (need,extrusion) MOD:V-ADV (arsenate,respectively) COMP_of:N-N (need,arsenite) SUBJ:V-N (arsenate,results) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-N (function,GENEXXX) COMP_as:V-N (suggest,regulator) OBJ:V-N (arsenate,reductase) MOD_ATT:N-N (function,GENEXXX) MOD_ATT:N-N (function,GENEXXX) Parse 83 +-------------------------------------------------------------------------SUBJ:V-N-------------------------------------------------------------------------+ | +-----------------APPOS----------------+ | | +------COMP_as:V-N------+ +---MOD_ATT:N-ADJ---+------COMP_of:N-N------+ +-------MOD:V-ADV------+ +SUBJ:V-+ +--APPOS--+ | +MOD_ATT:N+ | +MOD_A+COMP_for:N-+ | +-OBJ:V-N-+ | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD:V-ADV (arsenate,respectively) MOD_ATT:N-ADJ (need,membrane-associated) OBJ:V-N (arsenate,reductase) COMP_of:N-N (need,arsenite) MOD_ATT:N-ADJ (regulator,negative) COMP_as:V-N (function,regulator) APPOS (GENEXXX,GENEXXX) SUBJ:V-N (arsenate,results) SUBJ:V-N (suggest,results) APPOS (regulator,need) COMP_for:N-N (need,extrusion) MOD_ATT:N-N (need,protein) Parse 84 +--------------------------------------------------------------------------------MOD:V-ADV--------------------------------------------------------------------------------+ +-------------------OBJ:V-N------------------+ | | +----------MOD_ATT:N-N----------+ +-----------------APPOS----------------+-------------------COMP_of:N-N------------------+ | | | +-----MOD_ATT:N-N-----+------COMP_as:N-N------+ +---MOD_ATT:N-ADJ---+------COMP_of:N-N------+ | | +SUBJ:V-+ | | +MOD_ATT+ +MOD_ATT:N+ | +MOD_A+COMP_for:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . COMP_of:N-N (need,reductase) MOD_ATT:N-ADJ (need,membrane-associated) COMP_as:N-N (function,regulator) MOD_ATT:N-N (need,protein) OBJ:V-N (suggest,function) COMP_for:N-N (need,extrusion) MOD_ATT:N-ADJ (reductase,arsenate) COMP_of:N-N (need,arsenite) MOD_ATT:N-ADJ (regulator,negative) MOD:V-ADV (suggest,respectively) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-N (function,GENEXXX) MOD_ATT:N-N (function,GENEXXX) MOD_ATT:N-N (function,GENEXXX) Parse 85 +--------------------------------------------------------------------------------MOD:V-ADV--------------------------------------------------------------------------------+ +-------------------OBJ:V-N------------------+ | | +----------MOD_ATT:N-N----------+-----------------------------APPOS----------------------------+ | | | +-----MOD_ATT:N-N-----+------COMP_as:N-N------+ +------------------COMP_for:N-N------------------+ | +SUBJ:V-+ | | +MOD_ATT+ +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . COMP_of:N-N (extrusion,arsenite) APPOS (function,need) COMP_for:N-N (need,reductase) COMP_as:N-N (function,regulator) MOD_ATT:N-N (need,protein) OBJ:V-N (suggest,function) COMP_for:N-N (need,extrusion) MOD_ATT:N-ADJ (reductase,arsenate) MOD_ATT:N-ADJ (regulator,negative) MOD:V-ADV (suggest,respectively) SUBJ:V-N (suggest,results) MOD_ATT:N-ADJ (protein,membrane-associated) MOD_ATT:N-N (function,GENEXXX) MOD_ATT:N-N (function,GENEXXX) MOD_ATT:N-N (function,GENEXXX) Parse 86 +--------------------------------------------------------------------------------MOD:V-ADV--------------------------------------------------------------------------------+ +-------------------OBJ:V-N------------------+ | | +----------MOD_ATT:N-N----------+-----------------------------APPOS----------------------------+ | | | +-----MOD_ATT:N-N-----+------COMP_as:N-N------+ +---MOD_ATT:N-ADJ---+------------------COMP_for:N-N------------------+ | +SUBJ:V-+ | | +MOD_ATT+ +MOD_ATT:N+ | +MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . COMP_of:N-N (extrusion,arsenite) APPOS (function,need) COMP_for:N-N (need,reductase) MOD_ATT:N-ADJ (need,membrane-associated) COMP_as:N-N (function,regulator) MOD_ATT:N-N (need,protein) OBJ:V-N (suggest,function) COMP_for:N-N (need,extrusion) MOD_ATT:N-ADJ (reductase,arsenate) MOD_ATT:N-ADJ (regulator,negative) MOD:V-ADV (suggest,respectively) SUBJ:V-N (suggest,results) MOD_ATT:N-N (function,GENEXXX) MOD_ATT:N-N (function,GENEXXX) MOD_ATT:N-N (function,GENEXXX) Parse 87 +--------------------------------------------------------------------------------MOD:V-ADV--------------------------------------------------------------------------------+ +-------------------OBJ:V-N------------------+ +-----------------------------------------APPOS-----------------------------------------+ | | +----------MOD_ATT:N-N----------+ +-----------------APPOS----------------+ | | | | +-----MOD_ATT:N-N-----+------COMP_as:N-N------+ +---MOD_ATT:N-ADJ---+------COMP_of:N-N------+ | | +SUBJ:V-+ | | +MOD_ATT+ +MOD_ATT:N+ | +MOD_A+COMP_for:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . APPOS (regulator,reductase) MOD_ATT:N-ADJ (need,membrane-associated) COMP_as:N-N (function,regulator) MOD_ATT:N-N (need,protein) COMP_of:N-N (need,arsenite) OBJ:V-N (suggest,function) COMP_for:N-N (need,extrusion) MOD_ATT:N-ADJ (reductase,arsenate) MOD:V-ADV (suggest,respectively) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-N (function,GENEXXX) MOD_ATT:N-N (function,GENEXXX) MOD_ATT:N-N (regulator,negative) MOD_ATT:N-N (function,GENEXXX) Parse 88 +--------------------------------------------------------------------------------MOD:V-ADV--------------------------------------------------------------------------------+ +-------------------OBJ:V-N------------------+-----------------------------------------------------APPOS-----------------------------------------------------+ | | +----------MOD_ATT:N-N----------+-----------------------------APPOS----------------------------+ | | | | +-----MOD_ATT:N-N-----+------COMP_as:N-N------+ | | | +SUBJ:V-+ | | +MOD_ATT+ +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . COMP_of:N-N (extrusion,arsenite) APPOS (function,need) COMP_as:N-N (function,regulator) MOD_ATT:N-N (need,protein) OBJ:V-N (suggest,function) COMP_for:N-N (need,extrusion) MOD_ATT:N-ADJ (reductase,arsenate) MOD_ATT:N-ADJ (regulator,negative) MOD:V-ADV (suggest,respectively) SUBJ:V-N (suggest,results) APPOS (function,reductase) MOD_ATT:N-ADJ (protein,membrane-associated) MOD_ATT:N-N (function,GENEXXX) MOD_ATT:N-N (function,GENEXXX) MOD_ATT:N-N (function,GENEXXX) Parse 89 +--------------------------------------------------------------------------------MOD:V-ADV--------------------------------------------------------------------------------+ +-------------------OBJ:V-N------------------+-----------------------------------------------------APPOS-----------------------------------------------------+ | | +----------MOD_ATT:N-N----------+-----------------------------APPOS----------------------------+ | | | | +-----MOD_ATT:N-N-----+------COMP_as:N-N------+ +---MOD_ATT:N-ADJ---+ | | +SUBJ:V-+ | | +MOD_ATT+ +MOD_ATT:N+ | +MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . COMP_of:N-N (extrusion,arsenite) APPOS (function,need) MOD_ATT:N-ADJ (need,membrane-associated) COMP_as:N-N (function,regulator) MOD_ATT:N-N (regulator,negative) MOD_ATT:N-N (need,protein) OBJ:V-N (suggest,function) COMP_for:N-N (need,extrusion) MOD_ATT:N-ADJ (reductase,arsenate) MOD:V-ADV (suggest,respectively) SUBJ:V-N (suggest,results) APPOS (function,reductase) MOD_ATT:N-N (function,GENEXXX) MOD_ATT:N-N (function,GENEXXX) MOD_ATT:N-N (function,GENEXXX) Parse 90 +--------------------------------------------------------------------------------MOD:V-ADV--------------------------------------------------------------------------------+ +-------------------OBJ:V-N------------------+ | | +----------MOD_ATT:N-N----------+ +-----------------------------------------APPOS-----------------------------------------+ | | | +-----MOD_ATT:N-N-----+------COMP_as:N-N------+-----------------APPOS----------------+------COMP_of:N-N------+ | | +SUBJ:V-+ | | +MOD_ATT+ +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . APPOS (regulator,reductase) COMP_as:N-N (function,regulator) MOD_ATT:N-N (need,protein) COMP_of:N-N (need,arsenite) OBJ:V-N (suggest,function) COMP_for:N-N (need,extrusion) MOD_ATT:N-ADJ (reductase,arsenate) MOD:V-ADV (suggest,respectively) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-ADJ (protein,membrane-associated) MOD_ATT:N-N (function,GENEXXX) MOD_ATT:N-N (function,GENEXXX) MOD_ATT:N-N (regulator,negative) MOD_ATT:N-N (function,GENEXXX) Parse 91 +--------------------------------------------------------------------------------MOD:V-ADV--------------------------------------------------------------------------------+ +-------------------OBJ:V-N------------------+ | | +----------MOD_ATT:N-N----------+ +-----------------------------------------APPOS-----------------------------------------+ | | | +-----MOD_ATT:N-N-----+------COMP_as:N-N------+-----------------APPOS----------------+------COMP_of:N-N------+ | | +SUBJ:V-+ | | +MOD_ATT+ +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . APPOS (regulator,reductase) COMP_as:N-N (function,regulator) MOD_ATT:N-N (need,protein) COMP_of:N-N (need,arsenite) OBJ:V-N (suggest,function) COMP_for:N-N (need,extrusion) MOD_ATT:N-ADJ (reductase,arsenate) MOD_ATT:N-ADJ (regulator,negative) MOD:V-ADV (suggest,respectively) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-ADJ (protein,membrane-associated) MOD_ATT:N-N (function,GENEXXX) MOD_ATT:N-N (function,GENEXXX) MOD_ATT:N-N (function,GENEXXX) Parse 92 +--------------------------------------------------------------------------------MOD:V-ADV--------------------------------------------------------------------------------+ +-------------------OBJ:V-N------------------+-----------------------------------------------------APPOS-----------------------------------------------------+ | | +----------MOD_ATT:N-N----------+-----------------------------APPOS----------------------------+ | | | | +-----MOD_ATT:N-N-----+------COMP_as:N-N------+ | | | +SUBJ:V-+ | | +MOD_ATT+ +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . COMP_of:N-N (extrusion,arsenite) APPOS (function,need) COMP_as:N-N (function,regulator) MOD_ATT:N-N (regulator,negative) MOD_ATT:N-N (need,protein) OBJ:V-N (suggest,function) COMP_for:N-N (need,extrusion) MOD_ATT:N-ADJ (reductase,arsenate) MOD:V-ADV (suggest,respectively) SUBJ:V-N (suggest,results) APPOS (function,reductase) MOD_ATT:N-ADJ (protein,membrane-associated) MOD_ATT:N-N (function,GENEXXX) MOD_ATT:N-N (function,GENEXXX) MOD_ATT:N-N (function,GENEXXX) Parse 93 +--------------------------------------------------------------------------------MOD:V-ADV--------------------------------------------------------------------------------+ +-------------------OBJ:V-N------------------+-----------------------------------------------------APPOS-----------------------------------------------------+ | | +----------MOD_ATT:N-N----------+-----------------------------APPOS----------------------------+ | | | | +-----MOD_ATT:N-N-----+------COMP_as:N-N------+ +---MOD_ATT:N-ADJ---+------COMP_of:N-N------+ | | +SUBJ:V-+ | | +MOD_ATT+ +MOD_ATT:N+ | +MOD_A+COMP_for:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . APPOS (function,need) MOD_ATT:N-ADJ (need,membrane-associated) COMP_as:N-N (function,regulator) MOD_ATT:N-N (need,protein) COMP_of:N-N (need,arsenite) OBJ:V-N (suggest,function) COMP_for:N-N (need,extrusion) MOD_ATT:N-ADJ (reductase,arsenate) MOD_ATT:N-ADJ (regulator,negative) MOD:V-ADV (suggest,respectively) SUBJ:V-N (suggest,results) APPOS (function,reductase) MOD_ATT:N-N (function,GENEXXX) MOD_ATT:N-N (function,GENEXXX) MOD_ATT:N-N (function,GENEXXX) Parse 94 +--------------------------------------------------------------------------------MOD:V-ADV--------------------------------------------------------------------------------+ +-------------------OBJ:V-N------------------+ | | +----------MOD_ATT:N-N----------+ +-----------------------------------------APPOS-----------------------------------------+ | | | +-----MOD_ATT:N-N-----+------COMP_as:N-N------+-----------------APPOS----------------+ | | +SUBJ:V-+ | | +MOD_ATT+ +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . COMP_of:N-N (extrusion,arsenite) APPOS (regulator,reductase) COMP_as:N-N (function,regulator) MOD_ATT:N-N (need,protein) OBJ:V-N (suggest,function) COMP_for:N-N (need,extrusion) MOD_ATT:N-ADJ (reductase,arsenate) MOD:V-ADV (suggest,respectively) SUBJ:V-N (suggest,results) APPOS (regulator,need) MOD_ATT:N-ADJ (protein,membrane-associated) MOD_ATT:N-N (function,GENEXXX) MOD_ATT:N-N (function,GENEXXX) MOD_ATT:N-N (regulator,negative) MOD_ATT:N-N (function,GENEXXX) Parse 95 +--------------------------------------------------------------------------------MOD:V-ADV--------------------------------------------------------------------------------+ +-------------------OBJ:V-N------------------+-----------------------------------------------------APPOS-----------------------------------------------------+ | | +----------MOD_ATT:N-N----------+-----------------------------APPOS----------------------------+ | | | | +-----MOD_ATT:N-N-----+------COMP_as:N-N------+ +---MOD_ATT:N-ADJ---+ | | +SUBJ:V-+ | | +MOD_ATT+ +MOD_ATT:N+ | +MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . COMP_of:N-N (extrusion,arsenite) APPOS (function,need) MOD_ATT:N-ADJ (need,membrane-associated) COMP_as:N-N (function,regulator) MOD_ATT:N-N (need,protein) OBJ:V-N (suggest,function) COMP_for:N-N (need,extrusion) MOD_ATT:N-ADJ (reductase,arsenate) MOD_ATT:N-ADJ (regulator,negative) MOD:V-ADV (suggest,respectively) SUBJ:V-N (suggest,results) APPOS (function,reductase) MOD_ATT:N-N (function,GENEXXX) MOD_ATT:N-N (function,GENEXXX) MOD_ATT:N-N (function,GENEXXX) Parse 96 +--------------------------------------------------------------------------------MOD:V-ADV--------------------------------------------------------------------------------+ +-------------------OBJ:V-N------------------+-----------------------------------------------------APPOS-----------------------------------------------------+ | | +----------MOD_ATT:N-N----------+-----------------------------APPOS----------------------------+ | | | | +-----MOD_ATT:N-N-----+------COMP_as:N-N------+ +------COMP_of:N-N------+ | | +SUBJ:V-+ | | +MOD_ATT+ +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . APPOS (function,need) COMP_as:N-N (function,regulator) MOD_ATT:N-N (need,protein) COMP_of:N-N (need,arsenite) OBJ:V-N (suggest,function) COMP_for:N-N (need,extrusion) MOD_ATT:N-ADJ (reductase,arsenate) MOD_ATT:N-ADJ (regulator,negative) MOD:V-ADV (suggest,respectively) SUBJ:V-N (suggest,results) APPOS (function,reductase) MOD_ATT:N-ADJ (protein,membrane-associated) MOD_ATT:N-N (function,GENEXXX) MOD_ATT:N-N (function,GENEXXX) MOD_ATT:N-N (function,GENEXXX) Parse 97 +--------------------------------------------------------------------------------MOD:V-ADV--------------------------------------------------------------------------------+ +-------------------OBJ:V-N------------------+--------------------------------------------------COMP_as:N-N--------------------------------------------------+ | | +----------MOD_ATT:N-N----------+ +-----------------APPOS----------------+ | | | | +-----MOD_ATT:N-N-----+------COMP_as:N-N------+ +---MOD_ATT:N-ADJ---+ | | +SUBJ:V-+ | | +MOD_ATT+ +MOD_ATT:N+ | +MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . COMP_of:N-N (extrusion,arsenite) MOD_ATT:N-ADJ (need,membrane-associated) COMP_as:N-N (function,regulator) MOD_ATT:N-N (need,protein) OBJ:V-N (suggest,function) COMP_for:N-N (need,extrusion) MOD_ATT:N-ADJ (reductase,arsenate) MOD_ATT:N-ADJ (regulator,negative) MOD:V-ADV (suggest,respectively) SUBJ:V-N (suggest,results) APPOS (regulator,need) COMP_as:N-N (function,reductase) MOD_ATT:N-N (function,GENEXXX) MOD_ATT:N-N (function,GENEXXX) MOD_ATT:N-N (function,GENEXXX) Parse 98 +-------------------------------------------------------------------------SUBJ:V-N-------------------------------------------------------------------------+ | +-------------------OBJ:V-N------------------+ | | | +----------MOD_ATT:N-N----------+ +-----------------APPOS----------------+ | | | | +-----MOD_ATT:N-N-----+------COMP_as:N-N------+ +---MOD_ATT:N-ADJ---+------COMP_of:N-N------+ +-------MOD:V-ADV------+ +SUBJ:V-+ | | +MOD_ATT+ +MOD_ATT:N+ | +MOD_A+COMP_for:N-+ | +-OBJ:V-N-+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD_ATT:N-ADJ (regulator,negative) MOD_ATT:N-ADJ (need,membrane-associated) MOD_ATT:N-N (need,protein) OBJ:V-N (suggest,function) COMP_for:N-N (need,extrusion) MOD:V-ADV (arsenate,respectively) COMP_of:N-N (need,arsenite) SUBJ:V-N (arsenate,results) SUBJ:V-N (suggest,results) APPOS (regulator,need) COMP_as:N-N (function,regulator) MOD_ATT:N-N (function,GENEXXX) OBJ:V-N (arsenate,reductase) MOD_ATT:N-N (function,GENEXXX) MOD_ATT:N-N (function,GENEXXX) Parse 99 +--------------------------------------------------------------------------------MOD:V-ADV--------------------------------------------------------------------------------+ +---------------------------------------------------------------------------OBJ:V-N--------------------------------------------------------------------------+ | +-------------------OBJ:V-N------------------+ | | | +----------MOD_ATT:N-N----------+-----------------------------APPOS----------------------------+ | | | | +-----MOD_ATT:N-N-----+------COMP_as:N-N------+ +---MOD_ATT:N-ADJ---+------COMP_of:N-N------+ | | +SUBJ:V-+ | | +MOD_ATT+ +MOD_ATT:N+ | +MOD_A+COMP_for:N-+ | +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD_ATT:N-ADJ (need,membrane-associated) MOD_ATT:N-N (regulator,negative) MOD_ATT:N-N (function,GENEXXX) OBJ:V-N (suggest,reductase) MOD_ATT:N-N (need,protein) COMP_of:N-N (need,arsenite) OBJ:V-N (suggest,function) COMP_for:N-N (need,extrusion) MOD_ATT:N-ADJ (reductase,arsenate) MOD:V-ADV (suggest,respectively) SUBJ:V-N (suggest,results) COMP_as:N-N (function,regulator) MOD_ATT:N-N (function,GENEXXX) APPOS (function,need) MOD_ATT:N-N (function,GENEXXX) Parse 100 +--------------------------------------------------------------------------------MOD:V-ADV--------------------------------------------------------------------------------+ +---------------------------------------------------------------------------OBJ:V-N--------------------------------------------------------------------------+ | +-------------------OBJ:V-N------------------+ | | | +----------MOD_ATT:N-N----------+-----------------------------APPOS----------------------------+ | | | | +-----MOD_ATT:N-N-----+------COMP_as:N-N------+ | | | +SUBJ:V-+ | | +MOD_ATT+ +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+COMP_of:N-N+ +MOD_ATT:N+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . COMP_of:N-N (extrusion,arsenite) MOD_ATT:N-N (regulator,negative) MOD_ATT:N-N (function,GENEXXX) OBJ:V-N (suggest,reductase) MOD_ATT:N-N (need,protein) OBJ:V-N (suggest,function) COMP_for:N-N (need,extrusion) MOD_ATT:N-ADJ (reductase,arsenate) MOD:V-ADV (suggest,respectively) SUBJ:V-N (suggest,results) COMP_as:N-N (function,regulator) MOD_ATT:N-ADJ (protein,membrane-associated) MOD_ATT:N-N (function,GENEXXX) APPOS (function,need) MOD_ATT:N-N (function,GENEXXX) Parse 101 +--------------------------------------------------------------------------------MOD:V-ADV--------------------------------------------------------------------------------+ +-------------------------------------------------------------------------SUBJ:V-N-------------------------------------------------------------------------+ | | +-------------------OBJ:V-N------------------+ | | | | +----------MOD_ATT:N-N----------+-----------------------------APPOS----------------------------+ | | | | | +-----MOD_ATT:N-N-----+------COMP_as:N-N------+ +------COMP_of:N-N------+ +-------MOD:V-ADV------+ +SUBJ:V-+ | | +MOD_ATT+ +MOD_ATT:N+ +MOD_ATT:N-ADJ+MOD_A+COMP_for:N-+ | +-OBJ:V-N-+ | | | | | | | | | | | | | | | | | These results suggest that GENEXXX , GENEXXX , and GENEXXX function as a negative regulator , a membrane-associated protein need for extrusion of arsenite , and arsenate reductase , respectively . MOD:V-ADV (arsenate,respectively) APPOS (function,need) COMP_as:N-N (function,regulator) MOD_ATT:N-N (regulator,negative) MOD_ATT:N-N (need,protein) OBJ:V-N (suggest,function) COMP_for:N-N (need,extrusion) SUBJ:V-N (arsenate,results) COMP_of:N-N (need,arsenite) MOD:V-ADV (suggest,respectively) SUBJ:V-N (suggest,results) MOD_ATT:N-ADJ (protein,membrane-associated) MOD_ATT:N-N (function,GENEXXX) OBJ:V-N (arsenate,reductase) MOD_ATT:N-N (function,GENEXXX) MOD_ATT:N-N (function,GENEXXX) PMID: 9644250-2 Sentence 18 Unlike GENEXXX protein , GENEXXX protein showed a DNA-binding ability . Parse 0 +-----COMP_unlike:V-N----+-------OBJ:V-N-------+ +MOD_ATT+ +MOD_ATT+SUBJ:V+ +MOD_ATT:N+ | | | | | | | Unlike GENEXXX protein , GENEXXX protein showed a DNA-binding ability . COMP_unlike:V-N (showed,protein) MOD_ATT:N-N (protein,GENEXXX) SUBJ:V-N (showed,protein) MOD_ATT:N-N (ability,DNA-binding) MOD_ATT:N-N (protein,GENEXXX) OBJ:V-N (showed,ability) Parse 1 +-----COMP_unlike:V-N----+-------OBJ:V-N-------+ +MOD_ATT+ +MOD_ATT+SUBJ:V+--OBJ:V-N--+ | | | | | | | | Unlike GENEXXX protein , GENEXXX protein showed a DNA-binding ability . COMP_unlike:V-N (showed,protein) MOD_ATT:N-N (protein,GENEXXX) OBJ:V-N (showed,ability) SUBJ:V-N (showed,protein) OBJ:V-N (showed,DNA-binding) MOD_ATT:N-N (protein,GENEXXX) PMID: 9683469-2 Sentence 19 SPXXX finding supports the suggestion that the GENEXXX and GENEXXX regulons overlap . Parse 0 +----MOD_ATT:N-N----+ +MOD_AT+SUBJ:V-+---OBJ:V-N---+ | +MOD_ATT+SUBJ:V-N+ | | | | | | | | SPXXX finding supports the suggestion that the GENEXXX and GENEXXX regulons overlap . SUBJ:V-N (supports,finding) MOD_ATT:N-N (finding,SPXXX) OBJ:V-N (supports,suggestion) MOD_ATT:N-N (regulons,GENEXXX) MOD_ATT:N-N (regulons,GENEXXX) SUBJ:V-N (overlap,regulons) Parse 1 +--------------------OBJ:V-N--------------------+ | +----MOD_ATT:N-N----+ | +MOD_AT+SUBJ:V-+---OBJ:V-N---+ | +MOD_ATT+SUBJ:V-N+ | | | | | | | | SPXXX finding supports the suggestion that the GENEXXX and GENEXXX regulons overlap . OBJ:V-N (overlap,suggestion) SUBJ:V-N (supports,finding) MOD_ATT:N-N (finding,SPXXX) OBJ:V-N (supports,suggestion) MOD_ATT:N-N (regulons,GENEXXX) MOD_ATT:N-N (regulons,GENEXXX) SUBJ:V-N (overlap,regulons) PMID: 9852018-2 Sentence 20 Studies of the regulation of two of the latter genes , termed GENEXXX and GENEXXX , showed that both are expressed only in sporulation . Parse 0 +----------------------------------------------SUBJ:V_PASS-N----------------------------------------------+ | +------------------------OBJ:V-N------------------------+ | | | +--------------SUBJ:V-N--------------+ +-COMP_in:V_PASS-N-+ +--COMP_of:N-N--+COMP_of:N-+COMP_of:N-N+ +SUBJ:V_+ +OBJ:V+ +MOD:+ +MOD:V_+ | | | | | | | | | | | | | | Studies of the regulation of two of the latter genes , termed GENEXXX and GENEXXX , showed that both are expressed only in sporulation . MOD:V_PASS-ADV (expressed,only) SUBJ:V-N (showed,genes) OBJ:V-N (showed,that) COMP_of:N-N (two,latter) COMP_of:N-N (Studies,regulation) COMP_in:V_PASS-N (expressed,sporulation) SUBJ:V_PASS-N (termed,genes) MOD:V-ADV (are,both) COMP_of:N-N (regulation,two) SUBJ:V_PASS-N (expressed,Studies) OBJ:V-N (showed,two) Parse 1 +----------------------------------------------SUBJ:V_PASS-N----------------------------------------------+ | +------------------------OBJ:V-N------------------------+ | +--------COMP_of:N-N-------+ +--------------SUBJ:V-N--------------+ +-COMP_in:V_PASS-N-+ +--COMP_of:N-N--+ +COMP_of:N-N+ +SUBJ:V_+ +OBJ:V+ +MOD:+ +MOD:V_+ | | | | | | | | | | | | | | Studies of the regulation of two of the latter genes , termed GENEXXX and GENEXXX , showed that both are expressed only in sporulation . COMP_of:N-N (Studies,two) MOD:V_PASS-ADV (expressed,only) SUBJ:V-N (showed,genes) OBJ:V-N (showed,that) COMP_of:N-N (two,latter) COMP_of:N-N (Studies,regulation) COMP_in:V_PASS-N (expressed,sporulation) SUBJ:V_PASS-N (termed,genes) MOD:V-ADV (are,both) SUBJ:V_PASS-N (expressed,Studies) OBJ:V-N (showed,two) Parse 2 +----------------------------------------------SUBJ:V_PASS-N----------------------------------------------+ | +------------------------------OBJ:V-N-----------------------------+ | | | +--------------SUBJ:V-N--------------+ +-COMP_in:V_PASS-N-+ +--COMP_of:N-N--+COMP_of:N-+COMP_of:N-N+ +SUBJ:V_+ +OBJ:V+ +MOD:+ +MOD:V_+ | | | | | | | | | | | | | | Studies of the regulation of two of the latter genes , termed GENEXXX and GENEXXX , showed that both are expressed only in sporulation . MOD:V_PASS-ADV (expressed,only) OBJ:V-N (showed,regulation) SUBJ:V-N (showed,genes) OBJ:V-N (showed,that) COMP_of:N-N (two,latter) COMP_of:N-N (Studies,regulation) COMP_in:V_PASS-N (expressed,sporulation) SUBJ:V_PASS-N (termed,genes) MOD:V-ADV (are,both) COMP_of:N-N (regulation,two) SUBJ:V_PASS-N (expressed,Studies) Parse 3 +----------------------------------------------SUBJ:V_PASS-N----------------------------------------------+ | +------------------------------OBJ:V-N-----------------------------+ | | +------COMP_of:N-N-----+ +--------------SUBJ:V-N--------------+ +-COMP_in:V_PASS-N-+ +--COMP_of:N-N--+COMP_of:N-+ | +SUBJ:V_+ +OBJ:V+ +MOD:+ +MOD:V_+ | | | | | | | | | | | | | | Studies of the regulation of two of the latter genes , termed GENEXXX and GENEXXX , showed that both are expressed only in sporulation . COMP_of:N-N (regulation,latter) MOD:V_PASS-ADV (expressed,only) OBJ:V-N (showed,regulation) SUBJ:V-N (showed,genes) OBJ:V-N (showed,that) COMP_of:N-N (Studies,regulation) COMP_in:V_PASS-N (expressed,sporulation) SUBJ:V_PASS-N (termed,genes) MOD:V-ADV (are,both) COMP_of:N-N (regulation,two) SUBJ:V_PASS-N (expressed,Studies) Parse 4 +----------------------------------------------SUBJ:V_PASS-N----------------------------------------------+ +--------------------------------------OBJ:V-N-------------------------------------+ | | +--------------SUBJ:V-N--------------+ +-COMP_in:V_PASS-N-+ +--COMP_of:N-N--+COMP_of:N-+COMP_of:N-N+ +SUBJ:V_+ +OBJ:V+ +MOD:+ +MOD:V_+ | | | | | | | | | | | | | | Studies of the regulation of two of the latter genes , termed GENEXXX and GENEXXX , showed that both are expressed only in sporulation . MOD:V_PASS-ADV (expressed,only) SUBJ:V-N (showed,genes) OBJ:V-N (showed,that) OBJ:V-N (showed,Studies) COMP_of:N-N (two,latter) COMP_of:N-N (Studies,regulation) COMP_in:V_PASS-N (expressed,sporulation) SUBJ:V_PASS-N (termed,genes) MOD:V-ADV (are,both) COMP_of:N-N (regulation,two) SUBJ:V_PASS-N (expressed,Studies) Parse 5 +----------------------------------------------SUBJ:V_PASS-N----------------------------------------------+ +--------------------------------------OBJ:V-N-------------------------------------+ | | +------COMP_of:N-N-----+ +--------------SUBJ:V-N--------------+ +-COMP_in:V_PASS-N-+ +--COMP_of:N-N--+COMP_of:N-+ | +SUBJ:V_+ +OBJ:V+ +MOD:+ +MOD:V_+ | | | | | | | | | | | | | | Studies of the regulation of two of the latter genes , termed GENEXXX and GENEXXX , showed that both are expressed only in sporulation . COMP_of:N-N (regulation,latter) MOD:V_PASS-ADV (expressed,only) SUBJ:V-N (showed,genes) OBJ:V-N (showed,that) OBJ:V-N (showed,Studies) COMP_of:N-N (Studies,regulation) COMP_in:V_PASS-N (expressed,sporulation) SUBJ:V_PASS-N (termed,genes) MOD:V-ADV (are,both) COMP_of:N-N (regulation,two) SUBJ:V_PASS-N (expressed,Studies) Parse 6 +----------------------------------------------SUBJ:V_PASS-N----------------------------------------------+ +--------------------------------------OBJ:V-N-------------------------------------+ | +--------COMP_of:N-N-------+ +--------------SUBJ:V-N--------------+ +-COMP_in:V_PASS-N-+ +--COMP_of:N-N--+ +COMP_of:N-N+ +SUBJ:V_+ +OBJ:V+ +MOD:+ +MOD:V_+ | | | | | | | | | | | | | | Studies of the regulation of two of the latter genes , termed GENEXXX and GENEXXX , showed that both are expressed only in sporulation . COMP_of:N-N (Studies,two) MOD:V_PASS-ADV (expressed,only) SUBJ:V-N (showed,genes) OBJ:V-N (showed,that) OBJ:V-N (showed,Studies) COMP_of:N-N (two,latter) COMP_of:N-N (Studies,regulation) COMP_in:V_PASS-N (expressed,sporulation) SUBJ:V_PASS-N (termed,genes) MOD:V-ADV (are,both) SUBJ:V_PASS-N (expressed,Studies) Parse 7 +----------------------------------------------SUBJ:V_PASS-N----------------------------------------------+ +--------------------------------------OBJ:V-N-------------------------------------+ | +--------------COMP_of:N-N-------------+ +--------------SUBJ:V-N--------------+ +-COMP_in:V_PASS-N-+ +--COMP_of:N-N--+COMP_of:N-+ | +SUBJ:V_+ +OBJ:V+ +MOD:+ +MOD:V_+ | | | | | | | | | | | | | | Studies of the regulation of two of the latter genes , termed GENEXXX and GENEXXX , showed that both are expressed only in sporulation . MOD:V_PASS-ADV (expressed,only) SUBJ:V-N (showed,genes) OBJ:V-N (showed,that) OBJ:V-N (showed,Studies) COMP_of:N-N (Studies,regulation) COMP_in:V_PASS-N (expressed,sporulation) SUBJ:V_PASS-N (termed,genes) MOD:V-ADV (are,both) COMP_of:N-N (regulation,two) COMP_of:N-N (Studies,latter) SUBJ:V_PASS-N (expressed,Studies) Parse 8 +----------------------------------------------SUBJ:V_PASS-N----------------------------------------------+ +--------------------------------------OBJ:V-N-------------------------------------+ | +--------------COMP_of:N-N-------------+ | | +--------COMP_of:N-N-------+ | +--------------SUBJ:V-N--------------+ +-COMP_in:V_PASS-N-+ +--COMP_of:N-N--+ | | +SUBJ:V_+ +OBJ:V+ +MOD:+ +MOD:V_+ | | | | | | | | | | | | | | Studies of the regulation of two of the latter genes , termed GENEXXX and GENEXXX , showed that both are expressed only in sporulation . COMP_of:N-N (Studies,two) MOD:V_PASS-ADV (expressed,only) SUBJ:V-N (showed,genes) OBJ:V-N (showed,that) OBJ:V-N (showed,Studies) COMP_of:N-N (Studies,regulation) COMP_in:V_PASS-N (expressed,sporulation) SUBJ:V_PASS-N (termed,genes) MOD:V-ADV (are,both) COMP_of:N-N (Studies,latter) SUBJ:V_PASS-N (expressed,Studies)