Conserved Protein Domain Family
SH2_STAT5b

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cd10420: SH2_STAT5b 
Src homology 2 (SH2) domain found in signal transducer and activator of transcription (STAT) 5b proteins
STAT5 is a member of the STAT family of transcription factors. Two highly related proteins, STAT5a and STAT5b are encoded by separate genes, but are 90% identical at the amino acid level. Both STAT5a and STAT5b are ubiquitously expressed and functionally interchangeable. Mice lacking either STAT5a or STAT5b have mild defects in prolactin dependent mammary differentiation or sexually dimorphic growth hormone-dependent effects, respectively. Mice lacking both STAT5a and STAT5b exhibit a perinatal lethal phenotype and have multiple defects, including anemia and a virtual absence of B and T lymphocytes. STAT proteins mediate the signaling of cytokines and a number of growth factors from the receptors of these extracellular signaling molecules to the cell nucleus. STATs are specifically phosphorylated by receptor-associated Janus kinases, receptor tyrosine kinases, or cytoplasmic tyrosine kinases. The phosphorylated STAT molecules dimerize by reciprocal binding of their SH2 domains to the phosphotyrosine residues. These dimeric STATs translocate into the nucleus, bind to specific DNA sequences, and regulate the transcription of their target genes. However there are a number of unphosphorylated STATs that travel between the cytoplasm and nucleus and some STATs that exist as dimers in unstimulated cells that can exert biological functions independent of being activated. There are seven mammalian STAT family members which have been identified: STAT1, STAT2, STAT3, STAT4, STAT5 (STAT5A and STAT5B), and STAT6. There are 6 conserved domains in STAT: N-terminal domain (NTD), coiled-coil domain (CCD), DNA-binding domain (DBD), alpha-helical linker domain (LD), SH2 domain, and transactivation domain (TAD). NTD is involved in dimerization of unphosphorylated STATs monomers and for the tetramerization between STAT1, STAT3, STAT4 and STAT5 on promoters with two or more tandem STAT binding sites. It also plays a role in promoting interactions with transcriptional co-activators such as CREB binding protein (CBP)/p300, as well as being important for nuclear import and deactivation of STATs involving tyrosine de-phosphorylation. CCD interacts with other proteins, such as IFN regulatory protein 9 (IRF-9/p48) with STAT1 and c-JUN with STAT3 and is also thought to participate in the negative regulation of these proteins. Distinct genes are bound to STATs via their DBD domain. This domain is also involved in nuclear translocation of activated STAT1 and STAT3 phosphorylated dimers upon cytokine stimulation. LD links the DNA-binding and SH2 domains and is important for the transcriptional activation of STAT1 in response to IFN-gamma. It also plays a role in protein-protein interactions and has also been implicated in the constitutive nucleocytoplasmic shuttling of unphosphorylated STATs in resting cells. The SH2 domain is necessary for receptor association and tyrosine phosphodimer formation. Residues within this domain may be particularly important for some cellular functions mediated by the STATs as well as residues adjacent to this domain. The TAD interacts with several proteins, namely minichromosome maintenance complex component 5 (MCM5), breast cancer 1 (BRCA1) and CBP/p300. TAD also contains a modulatory phosphorylation site that regulates STAT activity and is necessary for maximal transcription of a number of target genes. The conserved tyrosine residue present in the C-terminus is crucial for dimerization via interaction with the SH2 domain upon the interaction of the ligand with the receptor. STAT activation by tyrosine phosphorylation also determines nuclear import and retention, DNA binding to specific DNA elements in the promoters of responsive genes, and transcriptional activation of STAT dimers. In addition to the SH2 domain there is a coiled-coil domain, a DNA binding domain, and a transactivation domain in the STAT proteins. In general SH2 domains are involved in signal transduction. They typically bind pTyr-containing ligands via two surface pockets, a pTyr and hydrophobic binding pocket, allowing proteins with SH2 domains to localize to tyrosine phosphorylated sites.
Statistics
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PSSM-Id: 198283
Aligned: 8 rows
Threshold Bit Score: 302.767
Created: 23-May-2011
Updated: 2-Oct-2020
Structure
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Aligned Rows:
 
phosphotyrosinehydrophobichomodimer
Feature 1:phosphotyrosine binding pocket [polypeptide binding site]
Evidence:

Sequence Alignment
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Format: Row Display: Color Bits: Type Selection:
Feature 1                                #                 #                       # #        
Q9TUM3    573 WFDGVMEVLKKHLKPHWNDGAILGFVNKQQAHDLLINKpDGTFLLRFSDSEIGGITIAWKFDSqermFWNLMPFTTRDFs 652 cattle
NP_990110 573 WFDGVMEVLKKHLKPHWNDGAILGFVNKQQAHDLLISKpDGTFLLRFSDSEIGGITIAWKFDSaermFWNLMPFTTRDFs 652 chicken
NP_036580 573 WFDGVMEVLKKHLKPHWNDGAILGFVNKQQAHDLLINKpDGTFLLRFSDSEIGGITIAWKFDSqermFWNLMPFTTRDFs 652 human
NP_777042 573 WFDGVMEVLKKHLKPHWNDGAILGFVNKQQAHDLLINKpDGTFLLRFSDSEIGGITIAWKFDSqermFWNLMPFTTRDFs 652 cattle
NP_999333 573 WFDGVMEVLKKHLKPHWNDGAILGFVNKQQAHDLLINKpDGTFLLRFSDSEIGGITIAWKFDSqermFWNLMPFTTRDFs 652 pig
NP_071775 573 WFDGVMEVLKKHLKPHWNDGAILGFVNKQQAHDLLINKpDGTFLLRFSDSEIGGITIAWKFDSqermFWNLMPFTTRDFs 652 Norway rat
NP_035619 573 WFDGVMEVLKKHLKPHWNDGAILGFVNKQQAHDLLINKpDGTFLLRFSDSEIGGITIAWKFDSqermFWNLMPFTTRDFs 652 house mouse
P52632    573 WFDGVMEVLKKHLKPHWNDGAILGFVNKQQAHDLLINKpDGTFLLRFSDSEIGGITIAWKFDSqermFWNLMPFTTRDFs 652 Norway rat
Feature 1                                                                      
Q9TUM3    653 IRSLADRLGDLsYLIYVFPDRPKDEVYSKYYTPVPCEpatakaVDGYVKPQIKQVVPEFVSASAD 717 cattle
NP_990110 653 IRSLADRLGDLsYLIYVFPDRPKDEVFSKYYTPVLCEstpakaVDGYVKPQIKQVVPEFVSASGD 717 chicken
NP_036580 653 IRSLADRLGDLnYLIYVFPDRPKDEVYSKYYTPVPCEsatakaVDGYVKPQIKQVVPEFVNASAD 717 human
NP_777042 653 IRSLADRLGDLsYLIYVFPDRPKDEVYSKYYTPVPCEpatakaVDGYVKPQIKQVVPEFVSASAD 717 cattle
NP_999333 653 IRSLADRLGDLnYLIYVFPDRPKDEVYSKYYTPVPCEpatakaVDGYVKPQIKQVVPEFVSASSD 717 pig
NP_071775 653 IRSLADRLGDLnYLIYVFPDRPKDEVYSKYYTPVPCEpatakaADGYVKPQIKQVVPEFVNASAD 717 Norway rat
NP_035619 653 IRSLADRLGDLnYLIYVFPDRPKDEVYSKYYTPVPCEpatakaADGYVKPQIKQVVPEFANASTD 717 house mouse
P52632    653 IRSLADRLGDLnYLIYVFPDRPKDEVYSKYYTPVPCEratakaADGYVKPQIKQVVPEFVNASTD 717 Norway rat

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