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ADAMTS10

Gene
Adamts10
Protein
A disintegrin and metalloproteinase with thrombospondin motifs 10
Organism
Mus musculus
Length
1104 amino acids
Function
Metalloprotease that participate in microfibrils assembly. Microfibrils are extracellular matrix components occurring independently or along with elastin in the formation of elastic tissues (By similarity).
Mass
121.086 kDa
Sequence
MASACQILRWALALGLGLTFKVTHAFRSQDELLSSLESYEIAFPTRVDHNGAMLAFSPPAFRRQRRGAGATTESRLFYKVAAPSTHFLLNLTRSPRLLAGHVSVEYWTREGLAWQRAARAHCLYAGHLQGQAGSSHVAVSTCGGLHGLIVADDEEYLIEPLQGGPKGHRGPEESGPHVVYKRSSLRHPHLDTACGVRDEKPWKGRPWWLRTLKPPPARPLGNESERGQLGLKRSVSRERYVETLVVADKMMVAYHGRRDVEQYVLAIMNIVAKLFQDSSLGNIVNILVTRLILLTEDQPTLEITHHAGKSLDSFCKWQKSIVSHSGHGNAIPENGVANHDTAVLITRYDICIYKNKPCGTLGLAPVGGMCERERSCSINEDIGLATAFTIAHEIGHTFGMNHDGVGNGCGARGQDPAKLMAAHITMKTNPFVWSSCSRDYITSFLDSGLGLCLNNRPPRQDFVYPTVAPGQAYDADEQCRFQHGVKSRQCKYGEVCSELWCLSKSNRCITNSIPAAEGTLCQTHTIDKGWCYKRVCVPFGSRPEGVDGAWGPWTPWGDCSRSCGGGVSSSSRHCDSPRPTIGGKYCLGERRRHRSCNTNDCPPGSQDFREMQCSEFDSVPFRGKFYTWKTYRGGGVKACSLTCLAEGFNFYTERAAAVVDGTPCRPDTVDICVSGECKHVGCDRVLGSDLREDKCRVCGGDGSACETIEGVFSPALPGTGYEDVVWIPKGSVHIFIQDLNLSLSHLALKGDQESLLLEGLPGTPQPHRLPLAGTTFHLRQGPDQAQSLEALGPINASLIIMVLAQAELPALHYRFNAPIARDALPPYSWHYAPWTKCSAQCAGGSQVQVVECRNQLDSSAVAPHYCSGHSKLPKRQRACNTEPCPPDWVVGNWSRCSRSCDAGVRSRSVVCQRRVSAAEEKALDDSACPQPRPPVLEACQGPMCPPEWATLDWSECTPSCGPGLRHRVVLCKSADQRSTLPPGHCLPAAKPPSTMRCNLRRCPPARWVTSEWGECSTQCGLGQQQRTVRCTSHTGQPSRECTEALRPSTMQQCEAKCDSVVPPGDGPEECKDVNKVAYCPLVLKFQFCSRAYFRQMCCKTCQGR

Gene
ADAMTS10
Protein
A disintegrin and metalloproteinase with thrombospondin motifs 10
Organism
Homo sapiens
Length
1103 amino acids
Function
Metalloprotease that participate in microfibrils assembly. Microfibrils are extracellular matrix components occurring independently or along with elastin in the formation of elastic tissues.
Mass
120.874 kDa
Sequence
MAPACQILRWALALGLGLMFEVTHAFRSQDEFLSSLESYEIAFPTRVDHNGALLAFSPPPPRRQRRGTGATAESRLFYKVASPSTHFLLNLTRSSRLLAGHVSVEYWTREGLAWQRAARPHCLYAGHLQGQASTSHVAISTCGGLHGLIVADEEEYLIEPLHGGPKGSRSPEESGPHVVYKRSSLRHPHLDTACGVRDEKPWKGRPWWLRTLKPPPARPLGNETERGQPGLKRSVSRERYVETLVVADKMMVAYHGRRDVEQYVLAIMNIVAKLFQDSSLGSTVNILVTRLILLTEDQPTLEITHHAGKSLDSFCKWQKSIVNHSGHGNAIPENGVANHDTAVLITRYDICIYKNKPCGTLGLAPVGGMCERERSCSVNEDIGLATAFTIAHEIGHTFGMNHDGVGNSCGARGQDPAKLMAAHITMKTNPFVWSSCSRDYITSFLDSGLGLCLNNRPPRQDFVYPTVAPGQAYDADEQCRFQHGVKSRQCKYGEVCSELWCLSKSNRCITNSIPAAEGTLCQTHTIDKGWCYKRVCVPFGSRPEGVDGAWGPWTPWGDCSRTCGGGVSSSSRHCDSPRPTIGGKYCLGERRRHRSCNTDDCPPGSQDFREVQCSEFDSIPFRGKFYKWKTYRGGGVKACSLTCLAEGFNFYTERAAAVVDGTPCRPDTVDICVSGECKHVGCDRVLGSDLREDKCRVCGGDGSACETIEGVFSPASPGAGYEDVVWIPKGSVHIFIQDLNLSLSHLALKGDQESLLLEGLPGTPQPHRLPLAGTTFQLRQGPDQVQSLEALGPINASLIVMVLARTELPALRYRFNAPIARDSLPPYSWHYAPWTKCSAQCAGGSQVQAVECRNQLDSSAVAPHYCSAHSKLPKRQRACNTEPCPPDWVVGNWSLCSRSCDAGVRSRSVVCQRRVSAAEEKALDDSACPQPRPPVLEACHGPTCPPEWAALDWSECTPSCGPGLRHRVVLCKSADHRATLPPAHCSPAAKPPATMRCNLRRCPPARWVAGEWGECSAQCGVGQRQRSVRCTSHTGQASHECTEALRPPTTQQCEAKCDSPTPGDGPEECKDVNKVAYCPLVLKFQFCSRAYFRQMCCKTCHGH