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CheY-like superfamily

SCOP classification
Root:   SCOP hierarchy in SUPERFAMILY [ 0] (11)
Class:   Alpha and beta proteins (a/b) [ 51349] (141)
  Mainly parallel beta sheets (beta-alpha-beta units)
Fold:   Flavodoxin-like [ 52171] (15)
  3 layers, a/b/a; parallel beta-sheet of 5 strand, order 21345
Superfamily:   CheY-like [ 52172] (7)
Families:   CheY-related [ 52173] (25)
  Receiver domain of the ethylene receptor [ 52194]
  Positive regulator of the amidase operon AmiR [ 52197]
  Ornithine decarboxylase N-terminal "wing" domain [ 52252]
  N-terminal domain of the circadian clock protein KaiA [ 82344]
  lacks canonical receiver domains features
  RcsC linker domain-like [ 142037]
  PfamB 016190; probable rudiment CheY-like domain; precedes the C-terminal CheY-related domain of similar structure
  AF1403 C-terminal domain-like [ 142040]

 Superfamily statistics
Genomes (1,070) UniProt 15.0 PDB chains (SCOP 1.73)
Domains 39,115 52,346 71
Proteins 37,495 50,175 69

 Functional annotation
General category Regulation
Detailed category Signal transduction

Function annotation of SCOP domain superfamilies
InterPro annotation
Cross references IPR011006 SSF52172 Protein matches
Abstract

CheY is a member of the response regulator family in bacterial two-component signalling systems, where CheY receives the signal from the sensor partner, usually a histidine protein kinase. Signal transduction involves phosphotransfer, whereby the histidine kinase phosphorylates a conserved aspartate in the response regulator to activate responses to environmental signals [PubMed14636076]. CheY is a single domain protein that folds into a compact globular unit with a flavodoxin-like fold consisting of three-layer alpha/beta/alpha sandwich with 21345 beta topology, where the phosphorylation region lies in a cavity.

Other members of the response regulator family contain a CheY-like receiver domain, which is often found N-terminal to a DNA-binding effector domain. Examples include NarL (nitrate/nitrite response regulator), NtrC (nitrogen regulatory protein C), Spo0A and Spo0F (sporulation response) from Bacillus, PhoA and PhoB cyclin-dependent kinases from Aspergillus, among others.

AmiR, the positive regulator of the amidase operon in Psuedomonas, is an unusual member of the bacterial response regulator family; AmiR is able to bind RNA and uses ligand-regulated activation rather than phopho-activation. It has a CheY-like fold at its N-terminus, but contains two subdomains in a C-terminal extension, one forming a coiled-coil and the other a long alpha helix. As such AmiR may represent a new family of RNA-binding response regulators [PubMed10508151].

CheY-like domains can be found in other protein families as well. Examples include the receiver domain of the ethylene receptor (ETR1) from Arabidopsis, which is involved in ethylene detection and signal transduction [PubMed10647185]; the N-terminal wing' domain of ornithine decarboxylase from Lactobacilli, which catalyses the conversion of ornithine to putrescine at the beginning of the polyamine pathway [PubMed10666573]. The N-terminal domain of the circadian clock protein, KaiA, from cyanobacteria, acts as a psuedo-receiver domain, but lacks the conserved aspartyl residue required for phosphotransfer in response regulators [PubMed12438647].


InterPro database
PDBeMotif information about ligands, sequence and structure motifs
Cross references PDB entries
Ligand binding statistics
Nucleic-acid binding statistics
Occurrence of secondary structure elements
Occurrence of small 3D structural motifs

PDBeMotif resource

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Internal database links

Browse genome assignments for this superfamily. The SUPERFAMILY hidden Markov model library has been used to carry out SCOP domain assignments to all genomes at the superfamily level.

Alignments of sequences to 37 models in this superfamily are available by clicking on the 'Alignments' icon above. PDB sequences less than 40% identical are shown by default, but any other sequence(s) may be aligned. Select PDB sequences, genome sequences, or paste in or upload your own sequences.


Browse and view proteins in genomes which have different domain combinations including a CheY-like domain.

Examine the distribution of domain superfamilies, or families, across the major taxonomic kingdoms or genomes within a kingdom. This gives an immediate impression of how superfamilies, or families, are restricted to certain kingdoms of life.


Explore domain occurrence network where nodes represent genomes and edges are domain architectures (shared between genomes) containing the superfamily of interest.

There are 37 hidden Markov models representing the CheY-like superfamily. Information on how the models are built, and plots showing hydrophobicity, match emmission probabilities and insertion/deletion probabilities can be inspected.


Jump to [ Top of page · SCOP classification · InterPro annotation · PDBeMotif links · Functional annotation · Internal database links ]
Please cite: Gough, J., Karplus, K., Hughey, R. and Chothia, C. (2001). "Assignment of Homology to Genome Sequences using a Library of Hidden Markov Models that Represent all Proteins of Known Structure." J. Mol. Biol., 313(4), 903-919.

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© Copyright 2001-2010 The Medical Research Council and the SUPERFAMILY authors; Derek Wilson, Martin Madera and Julian Gough.