Unnamed: 0
int64
0
163
Gene1
stringlengths
4
9
Gene2
stringlengths
3
9
Keywords
stringlengths
4
47
Direct dependency relations
stringlengths
2
63
INO Type
stringlengths
9
59
INO ID
stringlengths
7
11
Num. Keywords
stringclasses
5 values
Sentence
stringlengths
108
552
0
KinC
Spo0A~P
responsible, production
nmod(responsible, production)
regulation of translation
INO_0000034
2
In vivo studies of the activity of four of the kinases, KinA, [PROTEIN1] KinC [/PROTEIN1], KinD (ykvD) and KinE (ykrQ), using abrB transcription as an indicator of [PROTEIN2] Spo0A~P [/PROTEIN2] level, revealed that KinC and KinD were responsible for Spo0A~P production during the exponential phase of growth in the absence of KinA and KinB.
1
KinD
Spo0A~P
responsible, production
nmod(responsible, production)
regulation of translation
INO_0000034
2
In vivo studies of the activity of four of the kinases, KinA, KinC, [PROTEIN1] KinD [/PROTEIN1] (ykvD) and KinE (ykrQ), using abrB transcription as an indicator of [PROTEIN2] Spo0A~P [/PROTEIN2] level, revealed that KinC and KinD were responsible for Spo0A~P production during the exponential phase of growth in the absence of KinA and KinB.
2
sigma(A)
spoIIG
transcription, depends
nsubj(depends, transcription)
regulation of transcription
INO_0000032
2
In this mutant, expression of the [PROTEIN2] spoIIG [/PROTEIN2] gene, whose transcription depends on both [PROTEIN1] sigma(A) [/PROTEIN1] and the phosphorylated Spo0A protein, Spo0A~P, a major transcription factor during early stages of sporulation, was greatly reduced at 43 degrees C.
3
Spo0A
spoIIG
transcription, depends
nsubj(depends, transcription)
regulation of transcription
INO_0000032
2
In this mutant, expression of the [PROTEIN2] spoIIG [/PROTEIN2] gene, whose transcription depends on both sigma(A) and the phosphorylated [PROTEIN1] Spo0A [/PROTEIN1] protein, Spo0A~P, a major transcription factor during early stages of sporulation, was greatly reduced at 43 degrees C.
4
SigE
ydhD
transcription, dependent
nsubj(dependent, transcription)
regulation of transcription
INO_0000032
2
Transcription of [PROTEIN2] ydhD [/PROTEIN2] was dependent on [PROTEIN1] SigE [/PROTEIN1], and the mRNA was detectable from 2 h after the cessation of logarithmic growth (T2 of sporulation).
5
SigK
ykuD
transcribed
ONE WORD
regulation of transcription
INO_0000032
1
[PROTEIN2] ykuD [/PROTEIN2] was transcribed by [PROTEIN1] SigK [/PROTEIN1] RNA polymerase from T4 of sporulation.
6
SigK
ykvP
essential, expression
nmod(essential, expression)
gene expression regulation
INO_0000044
2
Both [PROTEIN1] SigK [/PROTEIN1] and GerE were essential for [PROTEIN2] ykvP [/PROTEIN2] expression, and this gene was transcribed from T5 of sporulation.
7
GerE
ykvP
essential, expression
nmod(essential, expression)
gene expression regulation
INO_0000044
2
Both SigK and [PROTEIN1] GerE [/PROTEIN1] were essential for [PROTEIN2] ykvP [/PROTEIN2] expression, and this gene was transcribed from T5 of sporulation.
8
sigma(F)
ywhE
expression, controlled
-1
gene expression regulation
INO_0000044
2
Analysis of the expression of a translational [PROTEIN1] ywhE [/PROTEIN1]-lacZ fusion showed that ywhE expression is sporulation-specific, and is controlled predominantly by the forespore-specific sigma factor [PROTEIN1] sigma(F) [/PROTEIN1], and to a lesser extent by sigma(G).
10
SpoIIE
sigma(F)
essential, activation
nmod:for(essential, activation)
regulation of gene activation
INO_0000037
2
Secondly, [PROTEIN1] SpoIIE [/PROTEIN1] is essential for the activation of the first compartment-specific transcription factor [PROTEIN2] sigma(F) [/PROTEIN2] in the prespore.
11
FtsZ
SpoIIE
localization, dependent
nsubj(dependent, Localization)
regulation of protein location
INO_0000031
2
Localization of [PROTEIN2] SpoIIE [/PROTEIN2] was shown to be dependent on the essential cell division protein [PROTEIN1] FtsZ [/PROTEIN1].
13
sigma(H)
spoVG
dependent, expression
amod(expression, dependent)
gene expression regulation
INO_0000044
2
In the shaA mutant, [PROTEIN1] sigma(H) [/PROTEIN1]-dependent expression of spo0A and [PROTEIN2] spoVG [/PROTEIN2] at an early stage of sporulation was sensitive to external NaCl.
14
sigma(F)
rsfA
expression, control
nsubj(control, expression)
gene expression regulation
INO_0000044
2
The expression of [PROTEIN2] rsfA [/PROTEIN2] is under the control of both [PROTEIN1] sigma(F) [/PROTEIN1] and sigma(G).
17
gerE
cwlH
expression, depended
-1
gene expression regulation
INO_0000044
2
Expression of the sigma(K)-dependent [PROTEIN2] cwlH [/PROTEIN2] gene depended on [PROTEIN1] gerE [/PROTEIN1].
20
sigmaB
katX
dependent, promoters
amod(promoters, sigmaF-dependent)
promoter-based regulation of transcription
INO_0000079
2
The -10 and -35 sequences of the [PROTEIN1] sigmaB [/PROTEIN1]- and sigmaF-dependent promoters of [PROTEIN2] katX [/PROTEIN2] overlap, and the transcriptional start points used by EsigmaB and EsigmaF differ by only one nucleotide.
21
sigmaF
katX
dependent, promoters
amod(promoters, sigmaF-dependent)
promoter-based regulation of transcription
INO_0000079
2
The -10 and -35 sequences of the sigmaB- and [PROTEIN1] sigmaF [/PROTEIN1]-dependent promoters of [PROTEIN2] katX [/PROTEIN2] overlap, and the transcriptional start points used by EsigmaB and EsigmaF differ by only one nucleotide.
22
sigmaB
katX
dependent
ONE WORD
gene expression regulation
INO_0000044
1
We demonstrated that [PROTEIN2] katX [/PROTEIN2] is also a [PROTEIN1] sigmaB [/PROTEIN1]-dependent general stress gene, since it is strongly induced by heat, salt and ethanol stress, as well as by energy depletion.
23
SpoIIE
sigmaF
control, activation
nmod:of(control, activation)
regulation of gene activation
INO_0000037
2
Taken together, the results support the idea that sequestration of [PROTEIN1] SpoIIE [/PROTEIN1] protein into the prespore plays an important role in the control of [PROTEIN2] sigmaF [/PROTEIN2] activation and in coupling this activation to septation.
25
SpoIIAA
sigmaF
controlled
ONE WORD
controling
INO_0000057
1
[PROTEIN2] sigmaF [/PROTEIN2] is controlled by a regulatory cascade involving an anti-sigma factor, SpoIIAB, an anti-anti-sigma factor, [PROTEIN1] SpoIIAA [/PROTEIN1], and a membrane-bound phosphatase, SpoIIE, which converts the inactive, phosphorylated form of SpoIIAA back to the active form.
26
SpoIIE
sigmaF
controlled
ONE WORD
controling
INO_0000057
1
[PROTEIN2] sigmaF [/PROTEIN2] is controlled by a regulatory cascade involving an anti-sigma factor, SpoIIAB, an anti-anti-sigma factor, SpoIIAA, and a membrane-bound phosphatase, [PROTEIN1] SpoIIE [/PROTEIN1], which converts the inactive, phosphorylated form of SpoIIAA back to the active form.
27
SpoIIE
SpoIIAA
converts, active
-1
regulation of gene activation
INO_0000037
2
sigmaF is controlled by a regulatory cascade involving an anti-sigma factor, SpoIIAB, an anti-anti-sigma factor, [PROTEIN2] SpoIIAA [/PROTEIN2], and a membrane-bound phosphatase, [PROTEIN1] SpoIIE [/PROTEIN1], which converts the inactive, phosphorylated form of SpoIIAA back to the active form.
28
SigL
rocG
transcribed
ONE WORD
gene transcription
INO_0000173
1
The [PROTEIN2] rocG [/PROTEIN2] gene of Bacillus subtilis, encoding a catabolic glutamate dehydrogenase, is transcribed by [PROTEIN1] SigL [/PROTEIN1]-containing RNA polymerase and requires for its expression RocR, a member of the NtrC/NifA family of proteins that bind to enhancer-like elements, called upstream activating sequences (UAS).
32
E sigma E
yfhS
transcribed
ONE WORD
regulation of transcription
INO_0000032
1
Northern blot and primer extension analyses indicated that [PROTEIN2] yfhS [/PROTEIN2] is transcribed by [PROTEIN1] E sigma E [/PROTEIN1] during sporulation.
33
YfhP
yfhQ
negative regulator, transcription
nmod:for(regulator, transcription); amod(regulator, negative)
negative regulation of transcription
INO_0000074
2
These results suggest that [PROTEIN1] YfhP [/PROTEIN1] may act as a negative regulator for the transcription of [PROTEIN2] yfhQ [/PROTEIN2], yfhR, sspE and yfhP.
34
YfhP
yfhR
negative regulator, transcription
nmod:for(regulator, transcription); amod(regulator, negative)
negative regulation of transcription
INO_0000074
2
These results suggest that [PROTEIN1] YfhP [/PROTEIN1] may act as a negative regulator for the transcription of yfhQ, [PROTEIN2] yfhR [/PROTEIN2], sspE and yfhP.
35
YfhP
sspE
negative regulator, transcription
nmod:for(regulator, transcription); amod(regulator, negative)
negative regulation of transcription
INO_0000074
2
These results suggest that [PROTEIN1] YfhP [/PROTEIN1] may act as a negative regulator for the transcription of yfhQ, yfhR, [PROTEIN2] sspE [/PROTEIN2] and yfhP.
36
YfhP
yfhP
negative regulator, transcription
nmod:for(regulator, transcription); amod(regulator, negative)
negative regulation of transcription
INO_0000074
2
These results suggest that [PROTEIN1] YfhP [/PROTEIN1] may act as a negative regulator for the transcription of yfhQ, yfhR, sspE and [PROTEIN2] yfhP [/PROTEIN2].
37
sigmaK
Spo0A
production, affect
nsubj(affect, production)
gene expression regulation
INO_0000044
2
Production of [PROTEIN1] sigmaK [/PROTEIN1] about 1 h earlier than normal does affect [PROTEIN2] Spo0A [/PROTEIN2], which when phosphorylated is an activator of sigE transcription.
38
Spo0A
sigE
phosphorylated, activator, transcription
MORE THAN TWO KEYWORDS
activation of gene transcription by phosphorylated protein
INO_0000081
3
Production of sigmaK about 1 h earlier than normal does affect [PROTEIN1] Spo0A [/PROTEIN1], which when phosphorylated is an activator of [PROTEIN2] sigE [/PROTEIN2] transcription.
39
sigmaA
ald
promoter, recognized
nsubjpass(recognized, promoter)
promoter-based regulation of transcription
INO_0000079
2
The [PROTEIN2] ald [/PROTEIN2] promoter, like the sigE promoter, is believed to be recognized by [PROTEIN1] sigmaA [/PROTEIN1] RNA polymerase, suggesting that sigmaK may inhibit sigmaA activity late in sporulation.
40
sigmaA
sigE
promoter, recognized
nsubjpass(recognized, promoter)
promoter-based regulation of transcription
INO_0000079
2
The ald promoter, like the [PROTEIN2] sigE [/PROTEIN2] promoter, is believed to be recognized by [PROTEIN1] sigmaA [/PROTEIN1] RNA polymerase, suggesting that sigmaK may inhibit sigmaA activity late in sporulation.
41
sigmaK
sigmaA
inhibit, activity
dobj(inhibit, activity)
inhibition of protein activity
INO_0000070
2
The ald promoter, like the sigE promoter, is believed to be recognized by [PROTEIN2] sigmaA [/PROTEIN2]RNA polymerase, suggesting that [PROTEIN1] sigmaK [/PROTEIN1] may inhibit sigmaA activity late in sporulation.
42
sigmaK
sigE
expression, negatively regulated
nsubjpass(regulated, expression); advmod(regulated, negatively)
negative regulation of gene expression
INO_0000039
2
In the mother cell compartment of sporulating cells, expression of the [PROTEIN2] sigE [/PROTEIN2] gene, encoding the earlier-acting sigma factor, sigmaE, is negatively regulated by the later-acting sigma factor, [PROTEIN1] sigmaK [/PROTEIN1].
43
FtsZ
SpoIIE
depends
ONE WORD
regulation
INO_0000157
1
The first stage, which involves the phosphatase function of [PROTEIN2] SpoIIE [/PROTEIN2], depends on the cell division protein [PROTEIN1] FtsZ [/PROTEIN1] and could correspond to the FtsZ-dependent assembly of SpoIIE into E-rings.
44
FtsZ
SpoIIE
dependent, assembly
amod(assembly, FtsZ-dependent)
regulation of assembly
INO_0000100
2
The first stage, which involves the phosphatase function of [PROTEIN2] SpoIIE [/PROTEIN2], depends on the cell division protein [PROTEIN1] FtsZ [/PROTEIN1] and could correspond to the FtsZ-dependent assembly of SpoIIE into E-rings.
45
SpoIIE
SpoIIAA
blocks
ONE WORD
inhibition
INO_0000124
1
Evidence based on the use of modified and mutant forms of the phosphatase protein indicates that [PROTEIN1] SpoIIE [/PROTEIN1] blocks the capacity of unphosphorylated [PROTEIN2] SpoIIAA [/PROTEIN2] to activate sigmaF until formation of the polar septum is completed.
46
SpoIIAA
sigmaF
activate
ONE WORD
activation
INO_0000024
1
Evidence based on the use of modified and mutant forms of the phosphatase protein indicates that SpoIIE blocks the capacity of unphosphorylated [PROTEIN1] SpoIIAA [/PROTEIN1] to activate [PROTEIN2] sigmaF [/PROTEIN2] until formation of the polar septum is completed.
47
SpoIIE
sigmaF
activation, requires
nsubj(requires, activation)
regulation of gene activation
INO_0000037
2
Cell-specific activation of transcription factor [PROTEIN2] sigmaF [/PROTEIN2]during sporulation in Bacillus subtilis requires the formation of the polar septum and the activity of a serine phosphatase ([PROTEIN1] SpoIIE [/PROTEIN1]) located in the septum.
48
SpoIIE
SpoIIAA-P
dephosphorylating
ONE WORD
dephosphorylation reaction
MI:0203
1
The [PROTEIN1] SpoIIE [/PROTEIN1] phosphatase indirectly activates sigmaF by dephosphorylating a protein ([PROTEIN2] SpoIIAA-P [/PROTEIN2]) in the pathway that controls the activity of the transcription factor.
49
SpoIIE
sigmaF
activates
ONE WORD
activation
INO_0000024
1
The [PROTEIN1] SpoIIE [/PROTEIN1] phosphatase indirectly activates [PROTEIN2] sigmaF [/PROTEIN2] by dephosphorylating a protein (SpoIIAA-P) in the pathway that controls the activity of the transcription factor.
50
SpoIIAA-P
sigmaF
controls, activity
dobj(controls, activity)
regulation of protein activity
INO_0000055
2
The SpoIIE phosphatase indirectly activates [PROTEIN2] sigmaF [/PROTEIN2] by dephosphorylating a protein ([PROTEIN1] SpoIIAA-P [/PROTEIN1]) in the pathway that controls the activity of the transcription factor.
52
sigmaB
bmrUR
control
ONE WORD
controling
INO_0000057
1
(i) The finding that the [PROTEIN2] bmrUR [/PROTEIN2] operon is under [PROTEIN1] sigmaB [/PROTEIN1] control indicates that the elimination of multidrug compounds might be a new function in multiple stress resistance.
53
sigmaB
ydaP
dependent
ONE WORD
gene expression regulation
INO_0000044
1
The [PROTEIN1] ydaP [/PROTEIN1] gene might belong to the increasing number of [PROTEIN2] sigmaB [/PROTEIN2]-dependent genes whose orthologues are under the control of sigmas in Escherichia coli, indicating that both regulons may fulfil similar functions.
54
sigmaB
ydaE
dependent
ONE WORD
gene expression regulation
INO_0000044
1
Three new [PROTEIN1] sigmaB [/PROTEIN1]-dependent genes ([PROTEIN2] ydaE [/PROTEIN2], ydaG and yfkM) encoding proteins with still unknown functions were also described.
56
sigmaB
yfkM
dependent
ONE WORD
gene expression regulation
INO_0000044
1
Three new [PROTEIN1] sigmaB [/PROTEIN1]-dependent genes (ydaE, ydaG and [PROTEIN2] yfkM [/PROTEIN2]) encoding proteins with still unknown functions were also described.
57
SpoIIE
sigma F
activated, action
nmod:through(activated, action)
gene activation
INO_0000075
2
Cell specificity is first established in the forespore under the control of the [PROTEIN2] sigma F [/PROTEIN2] factor, which is itself activated through the action of the [PROTEIN1] SpoIIE [/PROTEIN1] serine phosphatase, an enzyme targeted to the septum between the two cells.
58
sigmaK
cot
transcribed
ONE WORD
gene transcription
INO_0000173
1
Most [PROTEIN1] cot [/PROTEIN1] genes, and the gerE gene, are transcribed by [PROTEIN2] sigmaK [/PROTEIN2] RNA polymerase.
59
sigmaK
gerE
transcribed
ONE WORD
gene transcription
INO_0000173
1
Most cot genes, and the [PROTEIN1] gerE [/PROTEIN1] gene, are transcribed by [PROTEIN2] sigmaK [/PROTEIN2] RNA polymerase.
60
GerE
sigK
inhibits, transcription
dobj(inhibits, transcription)
inhibition of gene transcription
INO_0000046
2
Previously, it was shown that the [PROTEIN1] GerE [/PROTEIN1] protein inhibits transcription in vitro of the [PROTEIN2] sigK [/PROTEIN2] gene encoding sigmaK.
61
sigmaK
gerE
dependent, transcription
amod(transcription-6, sigmaK-dependent-5)
regulation of transcription
INO_0000032
2
These results demonstrate that [PROTEIN1] sigmaK [/PROTEIN1]-dependent transcription of [PROTEIN2] gerE [/PROTEIN2] initiates a negative feedback loop in which GerE acts as a repressor to limit production of sigmaK.
62
GerE
sigmaK
repressor, limit production
acl(repressor, limit); dobj(limit, production)
inhibition of gene transcription
INO_0000046
2
These results demonstrate that sigmaK-dependent transcription of gerE initiates a negative feedback loop in which [PROTEIN1] GerE [/PROTEIN1] acts as a repressor to limit production of [PROTEIN2] sigmaK [/PROTEIN1].
63
GerE
sigmaK
activated, transcription
dobj(activated, transcription)
regulation of transcription
INO_0000032
2
A low level of [PROTEIN1] GerE [/PROTEIN1] activated transcription of cotD by [PROTEIN2] sigmaK [/PROTEIN2] RNA polymerase in vitro, but a higher level of GerE repressed cotD transcription.
64
GerE
cotD
low level, activated, transcription
MORE THAN TWO KEYWORDS
activation of gene transcription by low level protein
INO_0000052
3
A low level of GerE activated transcription of cotD by sigmaK RNA polymerase in vitro, but a higher level of [PROTEIN1] GerE [/PROTEIN1] repressed [PROTEIN2] cotD [/PROTEIN2] transcription.
65
sigmaK
cotD
transcription
ONE WORD
regulation of transcription
INO_0000032
1
A low level of GerE activated transcription of [PROTEIN2] cotD [/PROTEIN2] by [PROTEIN1] sigmaK [/PROTEIN1] RNA polymerase in vitro, but a higher level of GerE repressed cotD transcription.
67
GerE
sigK
binds, transcriptional, act, repressor
MORE THAN TWO KEYWORDS
negative regulation of gene transcription
INO_0000042
4
Here, we show that [PROTEIN1] GerE [/PROTEIN1] binds near the [PROTEIN2] sigK [/PROTEIN2] transcriptional start site, to act as a repressor.
68
GerE
cotD
binds, promoter
-1
regulation of transcription by binding to promoter
INO_0000071
2
We show that [PROTEIN1] GerE [/PROTEIN1] binds to two sites that span the -35 region of the [PROTEIN2] cotD [/PROTEIN2] promoter.
69
GerE
cotD
activate, transcription, repress, transcription
dobj(activate, transcription); advmod(transcription, repress)
regulation of transcription
INO_0000032
2 (2 events with two keywords each)
These results suggest that a rising level of [PROTEIN1] GerE [/PROTEIN1] in sporulating cells may first activate [PROTEIN2] cotD [/PROTEIN2] transcription from the upstream site then repress transcription as the downstream site becomes occupied.
70
GerE
sspG
transcription, requires
nsubj(requires,transcription);
regulation of transcription
INO_0000032
2
[PROTEIN2] sspG [/PROTEIN2] transcription also requires the DNA binding protein [PROTEIN1] GerE [/PROTEIN1].
71
sigmaG
sspJ
transcribed
ONE WORD
gene transcription
INO_0000173
1
In contrast, [PROTEIN1] sspJ [/PROTEIN1] is transcribed in the forespore compartment by RNA polymerase with the forespore-specific [PROTEIN2] sigmaG [/PROTEIN2] and appears to give a monocistronic transcript.
72
ComK
FlgM
stimulating, transcription
dobj(stimulating,transcription)
positive regulation of gene transcription
INO_0000049
2
[PROTEIN1] ComK [/PROTEIN1] negatively controls the transcription of hag by stimulating the transcription of comF-flgM, thereby increasing the production of the [PROTEIN2] FlgM [/PROTEIN2] antisigma factor that inhibits sigmaD activity.
73
ComK
hag
negatively controls, transcription
dobj(controls, transcription); advmod(controls, negatively)
negative regulation of gene transcription
INO_0000042
2
[PROTEIN1] ComK [/PROTEIN1] negatively controls the transcription of [PROTEIN2] hag [/PROTEIN2] by stimulating the transcription of comF-flgM, thereby increasing the production of the FlgM antisigma factor that inhibits sigmaD activity.
74
ComK
comF
stimulating, transcription
dobj(stimulating,transcription)
positive regulation of gene transcription
INO_0000049
2
[PROTEIN1] ComK [/PROTEIN1] negatively controls the transcription of hag by stimulating the transcription of [PROTEIN2] comF [/PROTEIN2]-flgM, thereby increasing the production of the FlgM antisigma factor that inhibits sigmaD activity.
76
FlgM
sigmaD
inhibit, activity
dobj(inhibits,activity)
inhibition of protein activity
INO_0000070
2
ComK negatively controls the transcription of hag by stimulating the transcription of comF-flgM, thereby increasing the production of the [PROTEIN1] FlgM [/PROTEIN1] antisigma factor that inhibits [PROTEIN2] sigmaD [/PROTEIN2] activity.
77
sigmaB
ykzA
increase, expression, dependent
MORE THAN TWO KEYWORDS
positive regulation of gene expression
INO_0000038
3
This stress-induced increase in [PROTEIN2] ykzA [/PROTEIN2] expression is absolutely dependent on the alternative sigma factor [PROTEIN1] sigmaB [/PROTEIN1], which controls a large stationary-phase and stress regulon.
78
sigma X
CsbB
contributes, expression
nmod(contributes,expression)
gene expression regulation
INO_0000044
2
[PROTEIN1] sigma X [/PROTEIN1] also contributes to the expression of [PROTEIN2] CsbB [/PROTEIN2], a putative membrane-bound glucosyl transferase that is partially controlled by the sigma B stress response sigma factor.
79
sigma B
CsbB
controlled
ONE WORD
controling
INO_0000057
1
sigma X also contributes to the expression of [PROTEIN2] CsbB [/PROTEIN2], a putative membrane-bound glucosyl transferase that is partially controlled by the [PROTEIN1] sigma B [/PROTEIN1] stress response sigma factor.
80
sigma B
nadE
induced, dependent
-1
positive regulation of gene expression
INO_0000038
2
Transcriptional studies showed that [PROTEIN2] nadE [/PROTEIN2] is strongly induced in response to heat, ethanol and salt stress or after starvation for glucose in a [PROTEIN1] sigma B [/PROTEIN1]-dependent manner.
81
sigma(B)
YtxH
induced, dependent
-1
positive regulation of gene expression
INO_0000038
2
Furthermore, [PROTEIN2] YtxH [/PROTEIN2] and YvyD seemed to be induced after phosphate starvation in the wild type in a [PROTEIN1] sigma(B) [/PROTEIN1]-dependent manner and in the sigB mutant probably via sigma(H).
82
sigma(B)
YvyD
induced, dependent
-1
positive regulation of gene expression
INO_0000038
2
Furthermore, YtxH and [PROTEIN1] YvyD [/PROTEIN1] seemed to be induced after phosphate starvation in the wild type in a [PROTEIN2] sigma(B) [/PROTEIN2]-dependent manner and in the sigB mutant probably via sigma(H).
83
sigma(H)
YtxH
induced, via
-1
induction
INO_0000122
2
Furthermore, [PROTEIN1] YtxH [/PROTEIN1] and YvyD seemed to be induced after phosphate starvation in the wild type in a sigma(B)-dependent manner and in the sigB mutant probably via [PROTEIN2] sigma(H) [/PROTEIN2].
84
sigma(H)
YvyD
induced, via
-1
induction
INO_0000122
2
Furthermore, YtxH and [PROTEIN2] YvyD [/PROTEIN2] seemed to be induced after phosphate starvation in the wild type in a sigma(B)-dependent manner and in the sigB mutant probably via [PROTEIN1] sigma(H) [/PROTEIN1].
86
ComK
sigmaD
preventing, transcription
dobj(preventing,transcription)
inhibition of gene transcription
INO_0000046
2
From these results we conclude that [PROTEIN1] ComK [/PROTEIN1] negatively regulates degR expression by preventing [PROTEIN2] sigmaD [/PROTEIN2]-driven transcription of degR, possibly through interaction with the control region.
87
ComK
degR
negatively regulates, expression
dobj(regulates,expression)
negative regulation of gene expression
INO_0000039
2
From these results we conclude that [PROTEIN1] ComK [/PROTEIN1] negatively regulates [PROTEIN2] degR [/PROTEIN2] expression by preventing sigmaD-driven transcription of degR, possibly through interaction with the control region.
88
ComK
degR
preventing, transcription
dobj(preventing,transcription)
inhibition of gene transcription
INO_0000046
2
From these results we conclude that [PROTEIN1] ComK [/PROTEIN1] negatively regulates [PROTEIN2] degR [/PROTEIN2] expression by preventing sigmaD-driven transcription of degR, possibly through interaction with the control region.
89
sigmaD
degR
driven, transcription
amod(transcription, sigmaD-driven)
positive regulation of gene transcription
INO_0000049
2
From these results we conclude that ComK negatively regulates degR expression by preventing [PROTEIN1] sigmaD [/PROTEIN1]-driven transcription of [PROTEIN2] degR [/PROTEIN2], possibly through interaction with the control region.
90
sigmaD
degR
transcription, driven
nsubjpass(driven,transcription)
positive regulation of gene transcription
INO_0000049
2
We have shown previously that the transcription of [PROTEIN2] degR [/PROTEIN2] is driven by an alternative sigma factor, [PROTEIN1] sigmaD [/PROTEIN1].
91
SpoIIID
cotC
binds
ONE WORD
direct interaction
MI_0407
1
DNase I footprinting showed that [PROTEIN1] SpoIIID [/PROTEIN1] binds strongly to two sites in the [PROTEIN2] cotC [/PROTEIN2] promoter region, binds weakly to one site in the cotX promoter, and does not bind specifically to cotB.
92
SpoIIID
cotX
binds
ONE WORD
direct interaction
MI_0407
1
DNase I footprinting showed that [PROTEIN1] SpoIIID [/PROTEIN1] binds strongly to two sites in the cotC promoter region, binds weakly to one site in the [PROTEIN2] cotX [/PROTEIN2] promoter, and does not bind specifically to cotB.
93
SpoIIID
cotB
bind
ONE WORD
direct interaction
MI_0407
1
DNase I footprinting showed that [PROTEIN1] SpoIIID [/PROTEIN1] binds strongly to two sites in the cotC promoter region, binds weakly to one site in the cotX promoter, and does not bind specifically to [PROTEIN2] cotB [/PROTEIN2].
94
sigma(K)
cotB
transcription
ONE WORD
gene transcription
INO_0000173
1
Transcription of the [PROTEIN1] cotB [/PROTEIN1], cotC, and cotX genes by final [PROTEIN2] sigma(K) [/PROTEIN2] RNA polymerase is activated by a small, DNA-binding protein called GerE.
96
sigma(K)
cotX
transcription
ONE WORD
gene transcription
INO_0000173
1
Transcription of the cotB, cotC, and [PROTEIN1] cotX [/PROTEIN1] genes by final [PROTEIN2] sigma(K) [/PROTEIN2] RNA polymerase is activated by a small, DNA-binding protein called GerE.
97
GerE
cotB
transcription, activated
nsubjpass(activated,transcription)
activation of gene transcription
INO_0000051
2
Transcription of the [PROTEIN2] cotB [/PROTEIN2], cotC, and cotX genes by final sigma(K) RNA polymerase is activated by a small, DNA-binding protein called [PROTEIN1] GerE [/PROTEIN1].
98
GerE
cotC
transcription ,activated
nsubjpass(activated,transcription)
activation of gene transcription
INO_0000051
2
Transcription of the cotB, [PROTEIN2] cotC [/PROTEIN2], and cotX genes by final sigma(K) RNA polymerase is activated by a small, DNA-binding protein called [PROTEIN1] GerE [/PROTEIN1].
99
GerE
cotX
transcription, activated
nsubjpass(activated,transcription)
activation of gene transcription
INO_0000051
2
Transcription of the cotB, cotC, and [PROTEIN2] cotX [/PROTEIN2] genes by final sigma(K) RNA polymerase is activated by a small, DNA-binding protein called [PROTEIN1] GerE [/PROTEIN1].
100
GerE
cot
gene expression, action
-1
gene expression regulation
INO_0000044
2
In vitro transcription experiments suggest that the differential pattern of [PROTEIN2] cot [/PROTEIN2] gene expression results from the combined action of [PROTEIN1] GerE [/PROTEIN1] and another transcription factor, SpoIIID.
102
GerE
sigma(K)
low concentration, activated, transcription
MORE THAN TWO KEYWORDS
regulation of transcription
INO_0000032
3
A low concentration of [PROTEIN1] GerE [/PROTEIN1] activated cotB transcription by final [PROTEIN2] sigma(K) [/PROTEIN2] RNA polymerase, whereas a higher concentration was needed to activate transcription of cotX or cotC.
103
GerE
cotB
low concentration, activated, transcription
MORE THAN TWO KEYWORDS
activation of gene transcription by low level protein
INO_0000052
3
A low concentration of [PROTEIN1] GerE [/PROTEIN1] activated [PROTEIN2] cotB [/PROTEIN2] transcription by final sigma(K) RNA polymerase, whereas a higher concentration was needed to activate transcription of cotX or cotC.
104
GerE
cotX
activate, transcription
amod(transcription, activate)
activation of gene transcription
INO_0000051
2
A low concentration of [PROTEIN1] GerE [/PROTEIN1] activated cotB transcription by final sigma(K) RNA polymerase, whereas a higher concentration was needed to activate transcription of [PROTEIN2] cotX [/PROTEIN2] or cotC.
106
sigma(K)
cotB
activated, transcription
dobj(activated,transcription)
activation of gene transcription
INO_0000051
2
A low concentration of GerE activated [PROTEIN2] cotB [/PROTEIN2] transcription by final [PROTEIN1] sigma(K) [/PROTEIN1] RNA polymerase, whereas a higher concentration was needed to activate transcription of cotX or cotC.
107
SpoIIID
cotC
repressed, transcription
dobj(repressed,transcription)
inhibition of gene transcription
INO_0000046
2
[PROTEIN1] SpoIIID [/PROTEIN1] at low concentration repressed [PROTEIN2] cotC [/PROTEIN2] transcription, whereas a higher concentration only partially repressed cotX transcription and had little effect on cotB transcription.
108
SpoIIID
cotX
repressed, transcription
dobj(repressed,transcription)
inhibition of gene transcription
INO_0000046
2
[PROTEIN1] SpoIIID [/PROTEIN1] at low concentration repressed cotC transcription, whereas a higher concentration only partially repressed [PROTEIN2] cotX [/PROTEIN2] transcription and had little effect on cotB transcription.
109
SpoIIID
cotB
repressed, transcription
dobj(repressed,transcription)
inhibition of gene transcription
INO_0000046
2
[PROTEIN1] SpoIIID [/PROTEIN1] at low concentration repressed cotC transcription, whereas a higher concentration only partially repressed cotX transcription and had little effect on [PROTEIN2] cotB [/PROTEIN2] transcription.
110
sigmaA
kdgR
dependent, promoter
amod(promoter, sigmaA-dependent)
promoter-based regulation of transcription
INO_0000079
2
Primer extension experiments and Northern blot analysis show that an active [PROTEIN1] sigmaA [/PROTEIN1]-dependent promoter precedes [PROTEIN2] kdgR [/PROTEIN2] and transcription is terminated at the putative p-independent terminator downstream of kdgT.
111
sigmaW
sigW
dependent, promoter, precedes
MORE THAN TWO KEYWORDS
promoter-based regulation of transcription
INO_0000079
3
A [PROTEIN1] sigmaW [/PROTEIN1]-dependent promoter (PW) precedes [PROTEIN2] sigW [/PROTEIN2], demonstrating that this transcription factor is positively autoregulated.
112
sigma(A)
sigX
recognize, promoter
-1
promoter-based regulation of transcription
INO_0000079
2
We overproduced and purified sigma(X) from Escherichia coli and demonstrate that in vitro, both [PROTEIN1] sigma(A) [/PROTEIN1] and sigma(X) holoenzymes recognize promoter elements within the [PROTEIN2] sigX [/PROTEIN2]-ypuN control region.
113
sigma(A)
ypuN
recognize, promoter
-1
promoter-based regulation of transcription
INO_0000079
2
We overproduced and purified sigma(X) from Escherichia coli and demonstrate that in vitro, both [PROTEIN1] sigma(A) [/PROTEIN1] and sigma(X) holoenzymes recognize promoter elements within the sigX-[PROTEIN2] ypuN [/PROTEIN2] control region.
114
sigma(X)
sigX
recognize, promoter
-1
promoter-based regulation of transcription
INO_0000079
2
We overproduced and purified [PROTEIN1] sigma(X) [/PROTEIN1] from Escherichia coli and demonstrate that in vitro, both sigma(A) and sigma(X) holoenzymes recognize promoter elements within the [PROTEIN2] sigX [/PROTEIN2]-ypuN control region.
116
PhoP~P
tagA
repress, transcription
dobj(repress,transcription)
inhibition of gene transcription
INO_0000046
2
The results indicate that [PROTEIN1] PhoP~P [/PROTEIN1] is sufficient to repress the transcription of the [PROTEIN2] tagA [/PROTEIN2] and tagD promoters and also to activate the transcription of the tuaA promoter.
117
PhoP~P
tagD
repress, transcription
dobj(repress,transcription)
inhibition of gene transcription
INO_0000046
2
The results indicate that [PROTEIN1] PhoP~P [/PROTEIN1] is sufficient to repress the transcription of the tagA and [PROTEIN2] tagD [/PROTEIN2] promoters and also to activate the transcription of the tuaA promoter.
118
PhoP~P
tuaA
activate, transcription
dobj(activate,transcription)
activation of gene transcription
INO_0000051
2
The results indicate that [PROTEIN1] PhoP~P [/PROTEIN1] is sufficient to repress the transcription of the tagA and tagD promoters and also to activate the transcription of the [PROTEIN2] tuaA [/PROTEIN2] promoter.

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