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RcsAB DNA-binding transcriptional dual regulator

Synonyms: RcsAB
RcsB protein for "Regulator capsule synthesis B," is a response regulator that belongs to the multicomponent RcsF/RcsC/RcsD/RcsA-RcsB phosphorelay system [3, 12, 13, 14, 15] and is involved in the regulation of the synthesis of colanic acid capsule, cell division, periplasmic proteins, motility, and a small RNA [4, 8, 14, 16, 17, 18][1999391][7534408][8763957][12864862][16000739][16776655][19026860]|. The response regulator RcsB is the principal regulator of this system and it may form complexes with the RcsA auxiliary protein (forming a heterodimer) [2, 3, 8, 10, 11, 14, 19], while RcsB activates the others genes independently (in the form of a homodimer) [14, 18, 20, 21, 22, 23]. RcsC is a sensor histidine kinase and is known to be a transmembrane protein composed of three domains: the external sensory domain (amino terminal), a cytoplasmic transmitter domain (carboxyl terminal), and a transmembrane hydrophobic central domain (unknown function).
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Transcription factor      
TF conformation(s):
Name Conformation Type TF-Effector Interaction Type Apo/Holo Conformation Evidence (Confirmed, Strong, Weak) References
RcsAB Functional   [APPH], [GEA], [IGI] [1], [2], [3], [4], [5], [6], [7], [8]
Connectivity class: Local Regulator
Gene name: rcsA
  Genome position: 2023968-2024591
  Length: 624 bp / 207 aa
Operon name: rcsA
TU(s) encoding the TF:
Transcription unit        Promoter
Gene name: rcsB
  Genome position: 2316177-2316827
  Length: 651 bp / 216 aa
Operon name: rcsDB
TU(s) encoding the TF:
Transcription unit        Promoter

Regulated gene(s) csgD, csgE, csgF, csgG, flhC, flhD, rcsA, wcaA, wcaB, wza, wzb, wzc, yjbE, yjbF, yjbG, yjbH
Multifun term(s) of regulated gene(s) MultiFun Term (List of genes associated to the multifun term)
colanic acid (M antigen) (6)
Transcription related (4)
activator (4)
repressor (4)
biosynthesis of macromolecules (cellular constituents) (4)
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Regulated operon(s) csgDEFG, flhDC, rcsA, wza-wzb-wzc-wcaAB, yjbEFGH
First gene in the operon(s) csgD, flhD, rcsA, wza, yjbE
Simple and complex regulons AcrR,CRP,FliZ,Fur,H-NS,HdfR,IHF,LrhA,MatA,OmpR,QseB,RcsAB,YjjQ
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Simple and complex regulatory phrases Regulatory phrase (List of promoters regulated by the phrase)

Transcription factor regulation    

Transcription factor binding sites (TFBSs) arrangements

  Functional conformation Function Promoter Sigma factor Central Rel-Pos Distance to first Gene Genes Sequence LeftPos RightPos Evidence (Confirmed, Strong, Weak) References
  RcsAB repressor csgDp1 Sigma70 nd nd csgD, csgE, csgF, csgG nd nd [BPP], [GEA], [IGI] [7]
  RcsAB repressor csgDp3 Sigma38 nd nd csgD, csgE, csgF, csgG nd nd [BPP], [GEA], [IGI] [7]
  RcsAB repressor flhDp Sigma70 11.0 -188.0 flhD, flhC
1978378 1978392 [BPP], [GEA], [SM] [2], [9]
  RcsAB activator rcsAp Sigma70 -172.0 -304.0 rcsA
2023657 2023671 [AIBSCS], [GEA] [1]
  RcsAB activator rcsAp Sigma70 -125.0 -257.0 rcsA
2023704 2023718 [BCE], [BPP], [SM] [8]
  RcsAB activator wzap Sigma70 -105.0 -445.0 wza, wzb, wzc, wcaA, wcaB
2137681 2137695 [BPP], [SM] [3], [8], [10]
  RcsAB activator wzap Sigma70 -83.0 -423.0 wza, wzb, wzc, wcaA, wcaB
2137659 2137673 [AIBSCS], [GEA] [1]
  RcsAB activator yjbEp1 Sigma70 -209.0 -257.0 yjbE, yjbF, yjbG, yjbH
4235642 4235656 [APIORCISFBSCS], [GEA] [11]

Alignment and PSSM for RcsAB TFBSs    

Aligned TFBS of RcsAB   

Position weight matrix (PWM). RcsAB matrix-quality result   
A	0	0	5	6	1	1	2	1	3	4	0	0	0	2	5	4	6	4
C	3	0	0	0	0	0	0	1	1	1	0	4	6	0	1	0	0	0
G	1	0	1	0	4	4	2	0	0	0	0	0	0	1	0	0	0	0
T	2	6	0	0	1	1	2	4	2	1	6	2	0	3	0	2	0	2

;	consensus.strict             	cTaAGGgtaaTCCtaaAa
;	consensus.strict.rc          	TTTTAGGATTACCCTTAG
;	consensus.IUPAC              	yTaAGGdtwaTYCwawAw
;	consensus.IUPAC.rc           	WTWTWGRATWAHCCTTAR
;	consensus.regexp             	[ct]TaAGG[agt]t[at]aT[CT]C[at]a[at]A[at]
;	consensus.regexp.rc          	[AT]T[AT]T[AT]G[AG]AT[AT]A[ACT]CCTTA[AG]

PWM logo   


Evolutionary conservation of regulatory elements    
     Note: Evolutionary conservation of regulatory interactions and promoters is limited to gammaproteobacteria.
TF-target gene evolutionary conservation
Promoter-target gene evolutionary conservation


 [1] Ebel W., Trempy JE., 1999, Escherichia coli RcsA, a positive activator of colanic acid capsular polysaccharide synthesis, functions To activate its own expression., J Bacteriol 181(2):577-84

 [2] Francez-Charlot A., Laugel B., Van Gemert A., Dubarry N., Wiorowski F., Castani?-Cornet MP., Gutierrez C., Cam K., 2003, RcsCDB His-Asp phosphorelay system negatively regulates the flhDC operon in Escherichia coli., Mol Microbiol 49(3):823-32

 [3] Gottesman S., Stout V., 1991, Regulation of capsular polysaccharide synthesis in Escherichia coli K12., Mol Microbiol 5(7):1599-606

 [4] Sledjeski DD., Gottesman S., 1996, Osmotic shock induction of capsule synthesis in Escherichia coli K-12., J Bacteriol 178(4):1204-6

 [5] Stout V., Gottesman S., 1990, RcsB and RcsC: a two-component regulator of capsule synthesis in Escherichia coli., J Bacteriol 172(2):659-69

 [6] Stout V., Torres-Cabassa A., Maurizi MR., Gutnick D., Gottesman S., 1991, RcsA, an unstable positive regulator of capsular polysaccharide synthesis., J Bacteriol 173(5):1738-47

 [7] Vianney A., Jubelin G., Renault S., Dorel C., Lejeune P., Lazzaroni JC., 2005, Escherichia coli tol and rcs genes participate in the complex network affecting curli synthesis., Microbiology 151(Pt 7):2487-97

 [8] Wehland M., Bernhard F., 2000, The RcsAB box. Characterization of a new operator essential for the regulation of exopolysaccharide biosynthesis in enteric bacteria., J Biol Chem 275(10):7013-20

 [9] Filippova EV., Zemaitaitis B., Aung T., Wolfe AJ., Anderson WF., 2018, Structural Basis for DNA Recognition by the Two-Component Response Regulator RcsB., MBio 9(1)

 [10] Stout V., 1996, Identification of the promoter region for the colanic acid polysaccharide biosynthetic genes in Escherichia coli K-12., J Bacteriol 178(14):4273-80

 [11] Ferrieres L., Aslam SN., Cooper RM., Clarke DJ., 2007, The yjbEFGH locus in Escherichia coli K-12 is an operon encoding proteins involved in exopolysaccharide production., Microbiology 153(Pt 4):1070-80

 [12] Chen MH., Takeda S., Yamada H., Ishii Y., Yamashino T., Mizuno T., 2001, Characterization of the RcsC-->YojN-->RcsB phosphorelay signaling pathway involved in capsular synthesis in Escherichia coli., Biosci Biotechnol Biochem 65(10):2364-7

 [13] Castanie-Cornet MP., Treffandier H., Francez-Charlot A., Gutierrez C., Cam K., 2007, The glutamate-dependent acid resistance system in Escherichia coli: essential and dual role of the His-Asp phosphorelay RcsCDB/AF., Microbiology 153(Pt 1):238-46

 [14] Majdalani N., Gottesman S., 2005, The Rcs phosphorelay: a complex signal transduction system., Annu Rev Microbiol 59:379-405

 [15] Majdalani N., Heck M., Stout V., Gottesman S., 2005, Role of RcsF in signaling to the Rcs phosphorelay pathway in Escherichia coli., J Bacteriol 187(19):6770-8

 [16] Huang YH., Ferrieres L., Clarke DJ., 2006, The role of the Rcs phosphorelay in Enterobacteriaceae., Res Microbiol 157(3):206-12

 [17] Jayaratne P., Keenleyside WJ., MacLachlan PR., Dodgson C., Whitfield C., 1993, Characterization of rcsB and rcsC from Escherichia coli O9:K30:H12 and examination of the role of the rcs regulatory system in expression of group I capsular polysaccharides., J Bacteriol 175(17):5384-94

 [18] Carballes F., Bertrand C., Bouche JP., Cam K., 1999, Regulation of Escherichia coli cell division genes ftsA and ftsZ by the two-component system rcsC-rcsB., Mol Microbiol 34(3):442-50

 [19] Ogasawara H., Hasegawa A., Kanda E., Miki T., Yamamoto K., Ishihama A., 2007, Genomic SELEX search for target promoters under the control of the PhoQP-RstBA signal relay cascade., J Bacteriol 189(13):4791-9

 [20] Davalos-Garcia M., Conter A., Toesca I., Gutierrez C., Cam K., 2001, Regulation of osmC gene expression by the two-component system rcsB-rcsC in Escherichia coli., J Bacteriol 183(20):5870-6

 [21] Francez-Charlot A., Castanie-Cornet MP., Gutierrez C., Cam K., 2005, Osmotic regulation of the Escherichia coli bdm (biofilm-dependent modulation) gene by the RcsCDB His-Asp phosphorelay., J Bacteriol 187(11):3873-7

 [22] Boulanger A., Francez-Charlot A., Conter A., Castanie-Cornet MP., Cam K., Gutierrez C., 2005, Multistress regulation in Escherichia coli: expression of osmB involves two independent promoters responding either to sigmaS or to the RcsCDB His-Asp phosphorelay., J Bacteriol 187(9):3282-6

 [23] Majdalani N., Hernandez D., Gottesman S., 2002, Regulation and mode of action of the second small RNA activator of RpoS translation, RprA., Mol Microbiol 46(3):813-26

 [24] Mouslim C., Latifi T., Groisman EA., 2003, Signal-dependent requirement for the co-activator protein RcsA in transcription of the RcsB-regulated ugd gene., J Biol Chem 278(50):50588-95

 [25] Gupte G., Woodward C., Stout V., 1997, Isolation and characterization of rcsB mutations that affect colanic acid capsule synthesis in Escherichia coli K-12., J Bacteriol 179(13):4328-35

 [26] Sledjeski D., Gottesman S., 1995, A small RNA acts as an antisilencer of the H-NS-silenced rcsA gene of Escherichia coli., Proc Natl Acad Sci U S A 92(6):2003-7

 [27] Lee YY., Chang CF., Kuo CL., Chen MC., Yu CH., Lin PI., Wu WF., 2003, Subunit oligomerization and substrate recognition of the Escherichia coli ClpYQ (HslUV) protease implicated by in vivo protein-protein interactions in the yeast two-hybrid system., J Bacteriol 185(8):2393-401