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CusR DNA-binding transcriptional activator

Synonyms: CusR-Pasp, CusR
Summary:
CusR, "Cu-sensing regulator", regulates genes related to the copper and silver efflux systems [2, 6]under anaerobic growth and under extreme copper stress in aerobic growth [] CusR belongs to the two-component system CusS/CusR, which responds to increases in the copper concentration. Both cusR, encoding the response regulator, and cusS, encoding the sensor kinase, are organized in an operon that is located next to and in the opposite direction to an operon whose expression is activated by CusR [2] The sensor proteins YedW, UhpB, and YedV, which also belong to two-component systems, can activate CusR via signal cross talk [1, 3] This protein binds to the CusR box, which is a palindromic sequence also conserved in other organisms; the sequence is located in the regulatory regions of genes involved in copper-responsive systems and is regulated by proteins homologous to CusR [2] In the whole genome of Escherichia coli, only one copper box has been identified [1] Review: []. Read more >


Transcription factor      
TF conformation(s):
Name Conformation Type TF-Effector Interaction Type Apo/Holo Conformation Evidence (Confirmed, Strong, Weak) References
CusR Non-Functional   Apo [IDA] [1]
CusR-Pasp Functional Covalent Holo [APPHINH], [BPP], [GEA], [HIFS], [IDA], [IMP], [IPI] [1], [2], [3]
Evolutionary Family: OmpR
Sensing class: External-Two-component systems
Connectivity class: Local Regulator
Gene name: cusR
  Genome position: 594760-595443
  Length: 684 bp / 227 aa
Operon name: cusRS
TU(s) encoding the TF:
Transcription unit        Promoter
cusRS
cusRp


Regulon       
Regulated gene(s) cusA, cusB, cusC, cusF, cusR, cusS, cyoA, cyoB, cyoC, cyoD, cyoE, yedX
Multifun term(s) of regulated gene(s) MultiFun Term (List of genes associated to the multifun term)
membrane (7)
aerobic respiration (5)
electron acceptors (4)
Oxidoreduction-driven Active Transporters (3)
Porters (Uni-, Sym- and Antiporters) (1)
Read more >
Regulated operon(s) cusCFBA, cusRS, cyoABCDE, yedX
First gene in the operon(s) cusC, cusR, cyoA, yedX
Simple and complex regulons ArcA,CRP,Cra,CusR,FNR,Fis,Fur,GadE,HprR,PdhR
CusR,HprR,PhoB
Simple and complex regulatory phrases Regulatory phrase (List of promoters regulated by the phrase)
[CusR,+](4)


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
  CusR-Pasp activator cusCp Sigma70 -53.5 -80.0 cusC, cusF, cusB, cusA
tgacagaaaaATGACAAAATTGTCATtttgccaata
595512 595528 [BPP], [GEA], [HIBSCS] [1], [2], [4], [5]
  CusR-Pasp activator cusRp Sigma70 -57.5 -77.0 cusR, cusS
tattggcaaaATGACAATTTTGTCATttttctgtca
595512 595528 [BPP], [GEA], [HIBSCS] [1], [2], [4], [5]
  CusR-Pasp activator cyoAp Sigma70 69.5 25.0 cyoA, cyoB, cyoC, cyoD, cyoE
aatgacaaccATCCCAAACTTTTATTgtatttcctg
451577 451593 [HIBSCS] [4]
  CusR-Pasp activator yedXp Sigma70 38.5 -78.0 yedX
agcctggttcATTACAAAATTGTAATgctgctgtaa
2038870 2038886 [AIBSCS], [BPP], [GEA] [4], [5]


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


Evidence    

 [IDA] Inferred from direct assay

 [APPHINH] Assay of protein purified to homogeneity from its native host

 [BPP] Binding of purified proteins

 [GEA] Gene expression analysis

 [HIFS] Human inference of function from sequence

 [IMP] Inferred from mutant phenotype

 [IPI] Inferred from physical interaction

 [HIBSCS] Human inference based on similarity to consensus sequences

 [AIBSCS] Automated inference based on similarity to consensus sequences



Reference(s)    

 [1] Yamamoto K., Ishihama A., 2005, Transcriptional response of Escherichia coli to external copper., Mol Microbiol 56(1):215-27

 [2] Munson GP., Lam DL., Outten FW., O'Halloran TV., 2000, Identification of a copper-responsive two-component system on the chromosome of Escherichia coli K-12., J Bacteriol 182(20):5864-71

 [3] Yamamoto K., Hirao K., Oshima T., Aiba H., Utsumi R., Ishihama A., 2005, Functional characterization in vitro of all two-component signal transduction systems from Escherichia coli., J Biol Chem 280(2):1448-56

 [4] Urano H., Umezawa Y., Yamamoto K., Ishihama A., Ogasawara H., 2015, Cooperative regulation of the common target genes between H2O2-sensing YedVW and Cu2+-sensing CusSR in Escherichia coli., Microbiology 161(Pt 4):729-38

 [5] Urano H., Yoshida M., Ogawa A., Yamamoto K., Ishihama A., Ogasawara H., 2017, Cross-regulation between two common ancestral response regulators, HprR and CusR, in Escherichia coli., Microbiology 163(2):243-252

 [6] Franke S., Grass G., Nies DH., 2001, The product of the ybdE gene of the Escherichia coli chromosome is involved in detoxification of silver ions., Microbiology 147(Pt 4):965-72



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