RegulonDB RegulonDB 10.6.3: Regulon Form
   
   


GadE,GadX,H-NS,PhoP,RcsB regulon in Escherichia coli K-12 genome


TRANSCRIPTION FACTOR: Info
Name:
H-NS      Tractordb tool
Connectivity class Global Regulator
Sensing Class TFs for DNA-bending
Synonym(s): BglY, Cur, DNA-binding protein HLP-II (HU, BH2, HD, NS), DNA-binding transcriptional dual regulator H-NS, Drc, DrdX, Drs, FimG, Hns, HnsA, Irk, MsyA, OsmZ, PilG, TopS, TopX, VirR
Gene name(s): hns
Functional conformation(s): H-NS
Coregulator(s): AcrR, AdiY, ArcA, ArgP, ArgR, BasR, CRP, CadC, CaiF, CdaR, CpxR, Cra, CsgD, CspA, CysB, DksA, DksA-ppGpp, DnaA, DpiA, EvgA, FNR, Fis, FlhDC, FliZ, Fur, GadE, GadW, GadX, GalR, GalS, GlaR, GutM, H-NS, HU, HdfR, HypT, IHF, LacI, LeuO, LrhA, Lrp, MarA, MatA, McbR, MlrA, MntR, MqsA, NagC, NanR, NarL, NarP, NhaR, NrdR, NsrR, OmpR, OxyR, PhoB, PhoP, QseB, RcdA, RcsB, Rob, RstA, RutR, SdiA, SlyA, SoxS, SrlR, StpA, SutR, TorR, UvrY, YdeO, YjjQ, ppGpp
Summary: TF Summary ...[more]
TRANSCRIPTION FACTOR: Info
Name:
RcsB Weight Matrix      Tractordb tool
Connectivity class Local Regulator
Sensing Class External-Two-component systems
Synonym(s): DNA-binding transcriptional activator RcsB, RcsB response regulator
Gene name(s): rcsB
Functional conformation(s): RcsB-Pasp56
Coregulator(s): AcrR, AdiY, ArcA, BasR, CRP, CpxR, Cra, CsgD, EvgA, FNR, Fis, FliZ, Fur, GadE, GadW, GadX, GlrR, H-NS, HdfR, IHF, LeuO, LexA, LrhA, Lrp, MarA, MatA, MlrA, MqsA, NagC, NarL, NarP, NhaR, NtrC, OmpR, PhoP, QseB, RcdA, RcsB, RstA, StpA, TorR, UvrY, YdeO, YjjQ, ppGpp
Summary: TF Summary ...[more]
TRANSCRIPTION FACTOR: Info
Name:
GadX Weight Matrix      Tractordb tool
Connectivity class Local Regulator
Synonym(s): DNA-binding transcriptional dual regulator GadX, YhiX
Gene name(s): gadX
Functional conformation(s): GadX
Coregulator(s): AdiY, AraC, ArcA, CRP, CadC, CspA, EvgA, FNR, Fis, FliZ, Fur, GadE, GadW, GadX, H-NS, Lrp, MarA, MqsA, NagC, NtrC, OmpR, PhoB, PhoP, RcsB, RutR, SdiA, TorR, YdeO, ppGpp
Summary: TF Summary ...[more]
TRANSCRIPTION FACTOR: Info
Name:
PhoP Weight Matrix      Tractordb tool
Connectivity class Local Regulator
Sensing Class External-Two-component systems
Synonym(s): DNA-binding transcriptional dual regulator PhoP, PhoP response regulator
Gene name(s): phoP
Functional conformation(s): PhoP , PhoP-Phosphorylated
Coregulator(s): AcrR, ArcA, ArgR, BasR, CRP, CysB, EnvR, EvgA, FNR, FadR, FliZ, GadE, GadW, GadX, H-NS, HypT, Lrp, MalT, MarA, MetJ, MprA, NagC, NarL, NarP, NtrC, OmpR, PdhR, PhoP, PurR, RbsR, RcsB, Rob, RutR, SdiA, SlyA, SoxR, SoxS, TorR, UvrY, YdeO, ppGpp
Summary: TF Summary ...[more]
TRANSCRIPTION FACTOR: Info
Name:
GadE Weight Matrix      Tractordb tool
Connectivity class Local Regulator
Synonym(s): DNA-binding transcriptional activator GadE, YhiE, YhiT, acid-responsive regulator of gadA and gadBC
Gene name(s): gadE
Functional conformation(s): GadE
Coregulator(s): AdiY, ArcA, ArgR, CRP, CadC, CpxR, Cra, CusR, EvgA, FNR, Fis, FliZ, Fur, GadE, GadW, GadX, H-NS, HdfR, HprR, IHF, Lrp, MarA, MatA, Nac, NsrR, OmpR, PdhR, PhoB, PhoP, PurR, RcsB, Rob, RutR, TorR, YdeO, ppGpp
Summary: TF Summary ...[more]

REGULATION EXERTED BY GadE,GadX,H-NS,PhoP,RcsB Info M3D | Colombos
KNOWN BINDING SITES (The central relative position is relative to the promoter +1)    
GadE activator GadX activator H-NS repressor PhoP activator RcsB activator    
Transcription Factor
Regulated
Binding Sites
Evidence
References
Functional conformation
Function
Promoter
Gene(s)
LeftPos
RigthPos
Central Rel-Pos
Sequence
PhoP-Phosphorylated activator hdeDp hdeD 3656815 3656831 -137.0 cctggttttcTGTATATGTCATGTTGAtggaaaatat [BPP]
[GEA]
[HIBSCS]
[1]
GadX activator hdeDp hdeD 3656856 3656875 -94.5 atcagatattTTTATTTCAATACAATGAGTtacagatgca [AIBSCS]
[BPP]
[GEA]
[HIBSCS]
[2]
[3]
[4]
[5]
GadE activator hdeDp hdeD 3656899 3656918 -51.5 gatactgcaaTTAGGAAATTTTTATTAAATcgactgcatt [AIBSCS]
[BPP]
[CEUMA]
[GEA]
[HIBSCS]
[IHBCE]
[RE]
[2]
[6]
[3]
[7]
[5]
GadX activator hdeDp hdeD 3656835 3656854 -115.5 atgttgatggAAAATATCAAAATCAGATATttttatttca [BPP]
[GEA]
[HIBSCS]
[2]
[3]
[4]
[5]
RcsB-Pasp56 activator hdeDp hdeD         [GEA] [8]
H-NS repressor hdeDp hdeD         [BPP]
[GEA]
[9]

Evidence: [BPP] Binding of purified proteins
[GEA] Gene expression analysis
[HIBSCS] Human inference based on similarity to consensus sequences
[AIBSCS] Automated inference based on similarity to consensus sequences
[CEUMA] ChIP-exo evidence used in manual assertion
[IHBCE] Inferred by a human based on computational evidence
[RE] RNA-seq evidence
Reference(s): [1] Zwir I., et al., 2005
[2] Hommais F., et al., 2004
[3] Ruiz C., et al., 2008
[4] Tramonti A., et al., 2008
[5] Tucker DL., et al., 2003
[6] Itou J., et al., 2009
[7] Seo SW., et al., 2015
[8] Johnson MD., et al., 2011
[9] Yoshida T., et al., 1993



Reference(s)    

 [1] Zwir I., Shin D., Kato A., Nishino K., Latifi T., Solomon F., Hare JM., Huang H., Groisman EA., 2005, Dissecting the PhoP regulatory network of Escherichia coli and Salmonella enterica., Proc Natl Acad Sci U S A 102(8):2862-7

 [2] Hommais F., Krin E., Coppee JY., Lacroix C., Yeramian E., Danchin A., Bertin P., 2004, GadE (YhiE): a novel activator involved in the response to acid environment in Escherichia coli., Microbiology 150(Pt 1):61-72

 [3] Ruiz C., McMurry LM., Levy SB., 2008, Role of the multidrug resistance regulator MarA in global regulation of the hdeAB acid resistance operon in Escherichia coli., J Bacteriol 190(4):1290-7

 [4] Tramonti A., De Canio M., De Biase D., 2008, GadX/GadW-dependent regulation of the Escherichia coli acid fitness island: transcriptional control at the gadY-gadW divergent promoters and identification of four novel 42 bp GadX/GadW-specific binding sites., Mol Microbiol 70(4):965-82

 [5] Tucker DL., Tucker N., Ma Z., Foster JW., Miranda RL., Cohen PS., Conway T., 2003, Genes of the GadX-GadW regulon in Escherichia coli., J Bacteriol 185(10):3190-201

 [6] Itou J., Eguchi Y., Utsumi R., 2009, Molecular mechanism of transcriptional cascade initiated by the EvgS/EvgA system in Escherichia coli K-12., Biosci Biotechnol Biochem 73(4):870-8

 [7] Seo SW., Kim D., O'Brien EJ., Szubin R., Palsson BO., 2015, Decoding genome-wide GadEWX-transcriptional regulatory networks reveals multifaceted cellular responses to acid stress in Escherichia coli., Nat Commun 6:7970

 [8] Johnson MD., Burton NA., Gutierrez B., Painter K., Lund PA., 2011, RcsB Is Required for Inducible Acid Resistance in Escherichia coli and Acts at gadE-Dependent and -Independent Promoters., J Bacteriol 193(14):3653-6

 [9] Yoshida T., Ueguchi C., Yamada H., Mizuno T., 1993, Function of the Escherichia coli nucleoid protein, H-NS: molecular analysis of a subset of proteins whose expression is enhanced in a hns deletion mutant., Mol Gen Genet 237(1-2):113-22


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