About Products Protein Database Contact

DOK1

Gene
DOK1
Protein
Docking protein 1
Organism
Bos taurus
Length
483 amino acids
Function
DOK proteins are enzymatically inert adaptor or scaffolding proteins. They provide a docking platform for the assembly of multimolecular signaling complexes. DOK1 appears to be a negative regulator of the insulin signaling pathway. Modulates integrin activation by competing with talin for the same binding site on ITGB3 (By similarity).
Similarity
Belongs to the DOK family. Type A subfamily.
Mass
52.206 kDa
Sequence
MDGAVMEGPLFLQSQRFGTKRWRKTWAVLYPASPHGVARLEFFDHKGSSSGGGRGSSRRLDCKVIRLAECVSVAPVAVESPPEPGAASFRLDTAQRSHLLAADAPSSAAWVQTLCQNAFPKGSWALAPAENPPKLSALEMLENSLYSPSWEGSQFWVTVQKTEAAERCGLHGSYVLRVEAERLTLLAPGAQRQILEPLLFWPYTLLRRYGRDKVMFSFEAGRRCPSGPGTFTFQTAQGNDIFQAVETAIHRQKIQGKAGQGQDVLRADSHEGEVADGKLASLAAPLELPGSPPALYSEPLDSLRIPPGPSQDSLYSDPLDSTPARAGEGTQLKKALYWDLCEHVQQKLIKAKLTDPKEDPIYDEPEGLAPATLRGLYDLPQEPKDAWWCQARVKEEGYELPYNPAMDDYAVPPPRSTKPFPAPKPQGLALSESGAATGSGSQGHSSDTALYSQVQKSGASGSWDCGLSGVVTDRTGAKSEGST

Gene
DOK1
Protein
Docking protein 1
Organism
Bos taurus
Length
483 amino acids
Function
DOK proteins are enzymatically inert adaptor or scaffolding proteins. They provide a docking platform for the assembly of multimolecular signaling complexes. DOK1 appears to be a negative regulator of the insulin signaling pathway. Modulates integrin activation by competing with talin for the same binding site on ITGB3 (By similarity).
Similarity
Belongs to the DOK family. Type A subfamily.
Mass
52.206 kDa
Sequence
MDGAVMEGPLFLQSQRFGTKRWRKTWAVLYPASPHGVARLEFFDHKGSSSGGGRGSSRRLDCKVIRLAECVSVAPVAVESPPEPGAASFRLDTAQRSHLLAADAPSSAAWVQTLCQNAFPKGSWALAPAENPPKLSALEMLENSLYSPSWEGSQFWVTVQKTEAAERCGLHGSYVLRVEAERLTLLAPGAQRQILEPLLFWPYTLLRRYGRDKVMFSFEAGRRCPSGPGTFTFQTAQGNDIFQAVETAIHRQKIQGKAGQGQDVLRADSHEGEVADGKLASLAAPLELPGSPPALYSEPLDSLRIPPGPSQDSLYSDPLDSTPARAGEGTQLKKALYWDLCEHVQQKLIKAKLTDPKEDPIYDEPEGLAPATLRGLYDLPQEPKDAWWCQARVKEEGYELPYNPAMDDYAVPPPRSTKPFPAPKPQGLALSESGAATGSGSQGHSSDTALYSQVQKSGASGSWDCGLSGVVTDRTGAKSEGST

Gene
Dok1
Protein
Docking protein 1
Organism
Mus musculus
Length
482 amino acids
Function
DOK proteins are enzymatically inert adaptor or scaffolding proteins. They provide a docking platform for the assembly of multimolecular signaling complexes. DOK1 appears to be a negative regulator of the insulin signaling pathway. Modulates integrin activation by competing with talin for the same binding site on ITGB3 (By similarity).
Similarity
Belongs to the DOK family. Type A subfamily.
Mass
52.452 kDa
Sequence
MDGAVMEGPLFLQSQRFGTKRWRKTWAVLYPASPHGVARLEFFDHKGSSSRGGRGGSRRLDCKMIRLAECVSVVPVTVESPPEPGAVAFRLDTAQRSHLLAADAVSSTAWVQTLCRTAFPKGGWALAQTENQPKFSALEMLENSLYSPTWEGSQFWVTSQKTEASERCGLQGSYILRVEAEKLTLLTLGAQSQILEPLLFWPYTLLRRYGRDKVMFSFEAGRRCPSGPGTFTFQTSQGNDIFQAVEAAIQQQKAQGKVGQAQDILRTDSHDGETEGKTVPPPVPQDPLGSPPALYAEPLDSLRIPPGPSQDSVYSDPLGSTPAGAGEGVHSKKPLYWDLYGHVQQQLLKTKLTDSKEDPIYDEPEGLAPAPPRGLYDLPQEPRDAWWCQARLKEEGYELPYNPATDDYAVPPPRSPKPAPAPKPQGLILPESGTTRGSGSKGFSSDTALYSQVQKSGTSGAWDCGLSKVGNDRAGVKSEGST

Gene
Dok1
Protein
Docking protein 1
Organism
Mus musculus
Length
482 amino acids
Function
DOK proteins are enzymatically inert adaptor or scaffolding proteins. They provide a docking platform for the assembly of multimolecular signaling complexes. DOK1 appears to be a negative regulator of the insulin signaling pathway. Modulates integrin activation by competing with talin for the same binding site on ITGB3 (By similarity).
Similarity
Belongs to the DOK family. Type A subfamily.
Mass
52.452 kDa
Sequence
MDGAVMEGPLFLQSQRFGTKRWRKTWAVLYPASPHGVARLEFFDHKGSSSRGGRGGSRRLDCKMIRLAECVSVVPVTVESPPEPGAVAFRLDTAQRSHLLAADAVSSTAWVQTLCRTAFPKGGWALAQTENQPKFSALEMLENSLYSPTWEGSQFWVTSQKTEASERCGLQGSYILRVEAEKLTLLTLGAQSQILEPLLFWPYTLLRRYGRDKVMFSFEAGRRCPSGPGTFTFQTSQGNDIFQAVEAAIQQQKAQGKVGQAQDILRTDSHDGETEGKTVPPPVPQDPLGSPPALYAEPLDSLRIPPGPSQDSVYSDPLGSTPAGAGEGVHSKKPLYWDLYGHVQQQLLKTKLTDSKEDPIYDEPEGLAPAPPRGLYDLPQEPRDAWWCQARLKEEGYELPYNPATDDYAVPPPRSPKPAPAPKPQGLILPESGTTRGSGSKGFSSDTALYSQVQKSGTSGAWDCGLSKVGNDRAGVKSEGST

Gene
DOK1
Protein
Docking protein 1
Organism
Homo sapiens
Length
481 amino acids
Function
DOK proteins are enzymatically inert adaptor or scaffolding proteins. They provide a docking platform for the assembly of multimolecular signaling complexes. DOK1 appears to be a negative regulator of the insulin signaling pathway. Modulates integrin activation by competing with talin for the same binding site on ITGB3.
Similarity
Belongs to the DOK family. Type A subfamily.
Mass
52.392 kDa
Sequence
MDGAVMEGPLFLQSQRFGTKRWRKTWAVLYPASPHGVARLEFFDHKGSSSGGGRGSSRRLDCKVIRLAECVSVAPVTVETPPEPGATAFRLDTAQRSHLLAADAPSSAAWVQTLCRNAFPKGSWTLAPTDNPPKLSALEMLENSLYSPTWEGSQFWVTVQRTEAAERCGLHGSYVLRVEAERLTLLTVGAQSQILEPLLSWPYTLLRRYGRDKVMFSFEAGRRCPSGPGTFTFQTAQGNDIFQAVETAIHRQKAQGKAGQGHDVLRADSHEGEVAEGKLPSPPGPQELLDSPPALYAEPLDSLRIAPCPSQDSLYSDPLDSTSAQAGEGVQRKKPLYWDLYEHAQQQLLKAKLTDPKEDPIYDEPEGLAPVPPQGLYDLPREPKDAWWCQARVKEEGYELPYNPATDDYAVPPPRSTKPLLAPKPQGPAFPEPGTATGSGIKSHNSALYSQVQKSGASGSWDCGLSRVGTDKTGVKSEGST

Gene
DOK1
Protein
Docking protein 1
Organism
Homo sapiens
Length
481 amino acids
Function
DOK proteins are enzymatically inert adaptor or scaffolding proteins. They provide a docking platform for the assembly of multimolecular signaling complexes. DOK1 appears to be a negative regulator of the insulin signaling pathway. Modulates integrin activation by competing with talin for the same binding site on ITGB3.
Similarity
Belongs to the DOK family. Type A subfamily.
Mass
52.392 kDa
Sequence
MDGAVMEGPLFLQSQRFGTKRWRKTWAVLYPASPHGVARLEFFDHKGSSSGGGRGSSRRLDCKVIRLAECVSVAPVTVETPPEPGATAFRLDTAQRSHLLAADAPSSAAWVQTLCRNAFPKGSWTLAPTDNPPKLSALEMLENSLYSPTWEGSQFWVTVQRTEAAERCGLHGSYVLRVEAERLTLLTVGAQSQILEPLLSWPYTLLRRYGRDKVMFSFEAGRRCPSGPGTFTFQTAQGNDIFQAVETAIHRQKAQGKAGQGHDVLRADSHEGEVAEGKLPSPPGPQELLDSPPALYAEPLDSLRIAPCPSQDSLYSDPLDSTSAQAGEGVQRKKPLYWDLYEHAQQQLLKAKLTDPKEDPIYDEPEGLAPVPPQGLYDLPREPKDAWWCQARVKEEGYELPYNPATDDYAVPPPRSTKPLLAPKPQGPAFPEPGTATGSGIKSHNSALYSQVQKSGASGSWDCGLSRVGTDKTGVKSEGST

Gene
Dok1
Protein
Docking protein 1
Organism
Rattus norvegicus
Length
480 amino acids
Function
DOK proteins are enzymatically inert adaptor or scaffolding proteins. They provide a docking platform for the assembly of multimolecular signaling complexes. DOK1 appears to be a negative regulator of the insulin signaling pathway. Modulates integrin activation by competing with talin for the same binding site on ITGB3 (By similarity).
Similarity
Belongs to the DOK family. Type A subfamily.
Mass
52.17 kDa
Sequence
MDGALMEGPLFLQSQRFGTKRWKKTWAVLYPASPHGVARLEFFDHKGSSSGGGRGGSRRLDCKMIRLAECVSVVPVTVESPPEPGASAFRLDTAQRSHLLAADAASSTAWVQILCRTAFPKGGWALAQTENPPKFSALEMLENSLYSPTWEGSQFWVTSQKTEASERCGLQGSYVLRVEAEKLTLLTLGAQSQILEPLLFWPYTLLRRYGRDKVMFSFEAGRRCPSGPGTFTFQTAQGNDIFQAVEAAIQQQKAQGKVGQGQDITRTDSHDGETEGKMAPTPVPQEPLGSPPALYAEPLDSLRIPPGPSQDSLYSDPLGSTPAGAGEGVQRKKPLYWDLYGHVQQQLLKTKLIDSKEDPIYDEPEGLAPAPLRGLYDLPQEPKDAWWCQARLKEEGYELPYNPATDDYAVPPPRSSKPTPAPKPQGLILPESGTTAGSGSKGSDTALYSQVQKSGTPGRWDCGLSRVGNDRVGVKSEGST

Gene
Dok1
Protein
Docking protein 1
Organism
Rattus norvegicus
Length
480 amino acids
Function
DOK proteins are enzymatically inert adaptor or scaffolding proteins. They provide a docking platform for the assembly of multimolecular signaling complexes. DOK1 appears to be a negative regulator of the insulin signaling pathway. Modulates integrin activation by competing with talin for the same binding site on ITGB3 (By similarity).
Similarity
Belongs to the DOK family. Type A subfamily.
Mass
52.17 kDa
Sequence
MDGALMEGPLFLQSQRFGTKRWKKTWAVLYPASPHGVARLEFFDHKGSSSGGGRGGSRRLDCKMIRLAECVSVVPVTVESPPEPGASAFRLDTAQRSHLLAADAASSTAWVQILCRTAFPKGGWALAQTENPPKFSALEMLENSLYSPTWEGSQFWVTSQKTEASERCGLQGSYVLRVEAEKLTLLTLGAQSQILEPLLFWPYTLLRRYGRDKVMFSFEAGRRCPSGPGTFTFQTAQGNDIFQAVEAAIQQQKAQGKVGQGQDITRTDSHDGETEGKMAPTPVPQEPLGSPPALYAEPLDSLRIPPGPSQDSLYSDPLGSTPAGAGEGVQRKKPLYWDLYGHVQQQLLKTKLIDSKEDPIYDEPEGLAPAPLRGLYDLPQEPKDAWWCQARLKEEGYELPYNPATDDYAVPPPRSSKPTPAPKPQGLILPESGTTAGSGSKGSDTALYSQVQKSGTPGRWDCGLSRVGNDRVGVKSEGST