Gene Symbol | Adamts12 |
---|---|
Gene Name | ADAM metallopeptidase with thrombospondin type 1 motif, 12 |
Entrez Gene ID | 101721116 |
For more information consult the page for NW_004624759.1 (Scaffold)
The following genes have been identified as possible homologs of the naked mole-rat gene and compared to it.
ADAM metallopeptidase with thrombospondin type 1 motif, 12
Protein Percentage | 90.96% |
---|---|
CDS Percentage | 91.69% |
Ka/Ks Ratio | 0.21655 (Ka = 0.0477, Ks = 0.2204) |
ADAM metallopeptidase with thrombospondin type 1 motif, 12
Protein Percentage | 84.57% |
---|---|
CDS Percentage | 86.26% |
Ka/Ks Ratio | 0.21509 (Ka = 0.0854, Ks = 0.3968) |
a disintegrin-like and metallopeptidase (reprolysin type) with thrombospondin type 1 motif, 12
Protein Percentage | 80.66% |
---|---|
CDS Percentage | 82.64% |
Ka/Ks Ratio | 0.20516 (Ka = 0.1122, Ks = 0.5467) |
ADAM metallopeptidase with thrombospondin type 1 motif, 12 (Adamts12), mRNA
Protein Percentage | 81.03% |
---|---|
CDS Percentage | 83.14% |
Ka/Ks Ratio | 0.20329 (Ka = 0.1077, Ks = 0.53) |
>XM_004848653.1 ATGCCATGTGCGCAGAGGAGCTGGCTTGCAAACCTCTCTATGGTGGCTCAGCTCCTCAACTTCGGGGTACTTTGCTATGGCACACAGCCTCAGCCAGGTCCGGTTCGCTTCCCCGAACAGAGGCAAGAGCATTTTATGAAGGCCTTGCCAGAATATCACGTGGTGGCCCCCGTCCGAGTAGATTCTAGTGGGCATTTCCAGTCCTATGGCTTGAACCATCCTGTTACCAGCAGCAGGAAGAAAAGAGGTTTGGATGTCTCAGAGGACAGGGTATACTATAGAATTTCACACGAAGAGAAGGACCTGTTTTTTAACCTGACAGTCAATCGAGGATTTCTTTCCAACAGCTACATCCTGGAGAAGCGGTACGGGAACCTTTCCCATGTTAACATGGTGGCTTCCTCGGGCCCCCCTTGCCATCTCAGGGGCACAGTTCAGCAGCAGAGCACTGCAGTTGGGACTGCAGTCCTCAGTGCCTGTCATGGACTGACTGGATTTTTCCATCTACCACACGGAGACTTTTTCATTGAGCCTGTTAAAATGCATCCAGTGGCCAAGGGAGAATACCACCCCCACATCATTTACAAGAGCCAGAAGCAGAGAGTTACAGAGAGGAAGGAGCCAACCTGTGGATTAAAGGACAGTCTTGGGACCTACAAGAAGCAAGAGCTTCGGCGAGAGAAGTGGGAGAGGAACAATGCCTTGCCAAGCCGAAGCCTTTCTCGGCGTTCCATCAGCAAGGAGAGATGGGTGGAGACACTGGTGGTGGCTGACACGAAGATGATTGAATATCATGGGAGTGAGAACTTGGAGTCCTACATCCTCACCATCATGAACATGGTCACTGGGTTGTTTCATAACCCAAGCATTGGAAATGCAATTCACATTGTTGTGGTTCGGCTCATTCTACTTGAAGAAGAAGAGCAAGGGTTGAAAATAGTTCACCATGCAGAGAAGACATTGTCCAGTTTCTGCAAATGGCAGAAGAGCATCAATCCCAAAAGTGACCTTAACCCTGTCCATCATGATGTGGCTGTCCTTCTCACCAGAAAAGACATCTGTTCTGGTGTCAATCGTCCCTGTGAAACCCTGGGTTTGTCTCACCTGTCAGGAATGTGCCAGCCCCACCGAAGTTGTAACATCAATGAAGACTCTGGACTCCCGCTGGCTTTCACGATTGCACATGAGCTGGGACACAGCTTTGGCATCCAGCATGATGGCAAAGAAAATGACTGTGAACCCATGGGCAGACATCCCTACATCATGTCCCATCAGCTCCAGTATGATCCAACCCCGCTGACCTGGTCCAAGTGCAGCAAGGAGTACATCACCCGCTTCTTGGACCGCGGCTGGGGGTTCTGTCTTGATGATGTCCCCAAAAAGAAAGGTTTGAAGTCCAAAGTCATTGCCCCTGGAGTGATTTATGATGTTCATCACCAGTGCCAACTCCAGTATGGCCCCAATGCTACCTTCTGCCAGGAAGTAGAAAACATTTGCCAGACACTGTGGTGCTCAGTGCAAGGCTTCTGTCGCTCTAAGCTGGATGCTGCAGCAGACGGGACCCGATGTGGTGAGAAGAAGTGGTGCATGGCTGGCAAGTGCATCACAGTGGGGAAGAAACCAGAGAGCATCCCTGGAGGCTGGGGCCTCTGGTCACCCTGGTCCCACTGTTCCAGGACCTGTGGGGCTGGAGTCCAGAGTGCAGAGAGGCACTGCAACAACCCTGAACCAAAGTTTGGAGGGAAATACTGTACTGGAGAAAGAAAACGTTATCGCTTGTGCAACGTCCACCCCTGTCGCACAGAAGTACCAACATTTCGACAGATGCAATGCAGCGAATTTGACACCATTCCCTACAAAAATGAATTCTACCACTGGTTTCCTGTTTTTAATCAAGCGCATCCTTGTGGGCTCTACTGCCGACCCATAGATGGCCAATTTTCTGAAAAAATGCTGGATGCTGTCATTGATGGCACCCCTTGCTTTGAAGGTGGCAACAGCAGAAATGTCTGTATTAATGGCATATGTAAGATGGTTGGCTGTGATTATGAGATTGATTCCAATGCCACAGAGGACCGCTGTGGTGTATGCCTGGGAGATGGCTCTGCCTGCCAGACTGTGAGGAAGATGTTTACACAGAAAGAAGGATCTGGTTATGTGGACATTGGACTCATTCCCAAAGGAGCAAGGGACATAAGGGTAATGGAAATCAAAGGAGCTGGAAACTTCCTGGCCATTAGGAGTGAAGACCCTGAAAAATATTACCTCAATGGAGGGTTTATTATCCAGTGGAATGGGAACTACAAGTTTGCTGGGACCATCTTTCAGTATGACAGGAAAGGGGACCTTGAGAAACTGATGGCCCCAGGCCCCACCAATGAGTCAGTGTGGCTCCAGCTCCTCTTCCAGGTGACTAACCCTGGTGTCAAGTATGAGTACATAATCCAAAAAGATGGTCTTGACAATGATGTGGAGCAGCTGGTGTATTTCTGGCAGTTTGGCCGCTGGACAGAGTGCAGTGTAACATGTGGAACGGGTATCCGTCGCCAGACTGCTCATTGTGTGAAGAAAGGCCAAGGGATGGTGAAAGCCACATTCTGTAACCCAGAAACACAGCCTAATGGGAGACAGAAGAAGTGCTATGAAAAGGACTGTCCACCCAGGTGGTGGGCCGGGGAGTGGGAAGCATGTTCAACAACATGTGGGCCCTATGGAGAGAAGAGGCGAACAGTGTTGTGTATCCAGACCATGGGCTCTGATGAGCAAGCTCTCCCGGCTACAGACTGCCAGCACCTGCTGAAGCCCAAGGTCCTCAGTTCCTGTAACAGAGATATCTTGTGTCCATCGGATTGGACGGTGGGCAACTGGAGTGAGTGCTCTGTTTCCTGTGGTGGTGGAGTGAGGATTCGCAGTGTCACTTGTGCCAAGAACCATGGTGAACCTTGCGACAAGACAAAGAAACCGAATAGCCGAGCTCTGTGTGGCCTTCAGCAGTGCCCATCAAGTCGGAGAGTTCTGAAACCCAACAAACCCACAATTCCCAGTGGGAAAAATCTACCAACATCTGACCAAGACCCCTTAAAGCTCACCCCTCCACCTTCATCGCAGCCCACACTGCTGACCACACCCACAGCCCCTGGGGCTAGAAGTGCAAGCACGCTGGGGATCAGCAGCCCCAATTCCACCACAGCCTCCAAAGAGGGAGACCTGGATGGAGGTCTGGATGGAGAATGGTGGCAGAATATGTCAAGTCAAACTGAACTGGACTCCCACTATCTCATTCCCACTGGAAGCACTTCTCAGCCCATCCTCACTTCCTGGTCTTTGGGTATCCAACCCAACAATGAAAACGATTCTAATTCAGATAGCACTTTTACCTCAGATGGAGACATTGTAGCTACAACAAGAAGTGCTTTTGACTTGTCATCTTCCAGCAATGCTACGACTTGGCAGATAACTCCATTCTATGATACCTTGACCAAAGATCCAGAAATGGAAATTCACAGTGGCTCAGGGGAAGACAGTGAACAGCCTGAGAACAAAGATGAAAGCAACTCTGTAACATGGACCAAGATCAGAGTACCTGGAAAGGATGATCCAATGGGAAAAAATACAGAAATGCCACTTGGAGCTCCACCAACGCCTTATGATGGGGATGAGTCCTTATGGCATCCCTTCAGCACAGTGATGGAAGGATCACTACCTAGCCAAAGACCCAGAACCCTTAAAAATGAACCATCCAGAGCTGAGGGAATGGCCACTGAAAAGCCAAGTAATGCCCCATTCCCTGTTGAAGAAGAGCAATGGCCAACACCCTCAGAAAAGTCAATAAATCATAACTACCTGGGACTTCCAAACAACAAGAATCAAACACAAGATCCTGGACCAATCCTGACTGAGGAAGATGCAACCAGTCTTATCGCTGAAGGTTTTTTGCTGAATGCCTCCAATTACAAGCAGCTTGCTAAGGACCACAGCCCTGCATATTGGATTGTTGGAAACTGGAGTGAGTGCTCCACCACCTGTGGGCTGGGCGCCTACTGGAGAAGCGTGGAGTGCAGCACGCAAGTGGACGCCGACTGCGCGGCCCTCCAGAGGCCCGACCCTGCCAAGAAATGCCACCTCCGCCCGTGTGCCGGCTGGAAAGTGGGCAACTGGAGCAAGTGCTCCAGAAACTGCAGTGGGGGCTTTAAGATCCGAGAGATTCAGTGTGTGGACAGCTGGGACCATCACCGAAGCCTGAGGCCATTTCACTGCCAGGTCCTGGCTGGCCTTCCTCCCCCACTGAGCATGAACTGTAACCCAGAGCCCTGTGAAGAGTGGCAGGTGGAGCCCTGGAGCCAGTGTTCTAGGTCCTGTGGAGGTGGAGTTCAGGAGAGAGGGGTGTCTTGTCCAGGAGGCCCATGTGACTGGACGAAACGACCCCCATCCACTATGCCCTGCAACAAGCATGTTTGCTGCCACTGGGCCACCGGGAACTGGGACTTGTGCACCATGTCCTGTGGAGGTGGACTTCAGAAGAGGACTGTCCGTTGTGTCCCCTCGGAGAACAATACAGCTGAAGACCAAGATCACTGCCTGTGTGATCATGAACCCAGACCTCTAGAATTCCAAAACTGCAACCAGCAAGCCTGCAAGAAGAGCGCTGATTTACTTTGCACCAAGGACAGGCTGTCAGCTAGTTTCTGCCAGACCCTAAAGACTATGAAGAAATGTTCCGTGCCCACTGTGAGGGCCCAGTGCTGTTTTTCATGTCCCCAGATACACATCATCCACACCCAAAGGCAAAGAAAGCAACAGTTGCTCAAAAACCCCAAAGCATGGTGTCCAGAAGGAAGCCACCCTCACCATCCACTGCAGCAGCCTGCTGACTGTGACATGCTTTAG
Adamts12 PREDICTED: A disintegrin and metalloproteinase with thrombospondin motifs 12 [Heterocephalus glaber]
Length: 1628 aa View alignments>XP_004848710.1 MPCAQRSWLANLSMVAQLLNFGVLCYGTQPQPGPVRFPEQRQEHFMKALPEYHVVAPVRVDSSGHFQSYGLNHPVTSSRKKRGLDVSEDRVYYRISHEEKDLFFNLTVNRGFLSNSYILEKRYGNLSHVNMVASSGPPCHLRGTVQQQSTAVGTAVLSACHGLTGFFHLPHGDFFIEPVKMHPVAKGEYHPHIIYKSQKQRVTERKEPTCGLKDSLGTYKKQELRREKWERNNALPSRSLSRRSISKERWVETLVVADTKMIEYHGSENLESYILTIMNMVTGLFHNPSIGNAIHIVVVRLILLEEEEQGLKIVHHAEKTLSSFCKWQKSINPKSDLNPVHHDVAVLLTRKDICSGVNRPCETLGLSHLSGMCQPHRSCNINEDSGLPLAFTIAHELGHSFGIQHDGKENDCEPMGRHPYIMSHQLQYDPTPLTWSKCSKEYITRFLDRGWGFCLDDVPKKKGLKSKVIAPGVIYDVHHQCQLQYGPNATFCQEVENICQTLWCSVQGFCRSKLDAAADGTRCGEKKWCMAGKCITVGKKPESIPGGWGLWSPWSHCSRTCGAGVQSAERHCNNPEPKFGGKYCTGERKRYRLCNVHPCRTEVPTFRQMQCSEFDTIPYKNEFYHWFPVFNQAHPCGLYCRPIDGQFSEKMLDAVIDGTPCFEGGNSRNVCINGICKMVGCDYEIDSNATEDRCGVCLGDGSACQTVRKMFTQKEGSGYVDIGLIPKGARDIRVMEIKGAGNFLAIRSEDPEKYYLNGGFIIQWNGNYKFAGTIFQYDRKGDLEKLMAPGPTNESVWLQLLFQVTNPGVKYEYIIQKDGLDNDVEQLVYFWQFGRWTECSVTCGTGIRRQTAHCVKKGQGMVKATFCNPETQPNGRQKKCYEKDCPPRWWAGEWEACSTTCGPYGEKRRTVLCIQTMGSDEQALPATDCQHLLKPKVLSSCNRDILCPSDWTVGNWSECSVSCGGGVRIRSVTCAKNHGEPCDKTKKPNSRALCGLQQCPSSRRVLKPNKPTIPSGKNLPTSDQDPLKLTPPPSSQPTLLTTPTAPGARSASTLGISSPNSTTASKEGDLDGGLDGEWWQNMSSQTELDSHYLIPTGSTSQPILTSWSLGIQPNNENDSNSDSTFTSDGDIVATTRSAFDLSSSSNATTWQITPFYDTLTKDPEMEIHSGSGEDSEQPENKDESNSVTWTKIRVPGKDDPMGKNTEMPLGAPPTPYDGDESLWHPFSTVMEGSLPSQRPRTLKNEPSRAEGMATEKPSNAPFPVEEEQWPTPSEKSINHNYLGLPNNKNQTQDPGPILTEEDATSLIAEGFLLNASNYKQLAKDHSPAYWIVGNWSECSTTCGLGAYWRSVECSTQVDADCAALQRPDPAKKCHLRPCAGWKVGNWSKCSRNCSGGFKIREIQCVDSWDHHRSLRPFHCQVLAGLPPPLSMNCNPEPCEEWQVEPWSQCSRSCGGGVQERGVSCPGGPCDWTKRPPSTMPCNKHVCCHWATGNWDLCTMSCGGGLQKRTVRCVPSENNTAEDQDHCLCDHEPRPLEFQNCNQQACKKSADLLCTKDRLSASFCQTLKTMKKCSVPTVRAQCCFSCPQIHIIHTQRQRKQQLLKNPKAWCPEGSHPHHPLQQPADCDML