Gene Symbol | Adamts2 |
---|---|
Gene Name | ADAM metallopeptidase with thrombospondin type 1 motif, 2 |
Entrez Gene ID | 101711463 |
For more information consult the page for NW_004624733.1 (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, 2
Protein Percentage | 91.59% |
---|---|
CDS Percentage | 90.02% |
Ka/Ks Ratio | 0.0487 (Ka = 0.0357, Ks = 0.7328) |
ADAM metallopeptidase with thrombospondin type 1 motif, 2
Protein Percentage | 88.26% |
---|---|
CDS Percentage | 87.01% |
Ka/Ks Ratio | 0.06923 (Ka = 0.0588, Ks = 0.8488) |
a disintegrin-like and metallopeptidase (reprolysin type) with thrombospondin type 1 motif, 2
Protein Percentage | 86.79% |
---|---|
CDS Percentage | 84.67% |
Ka/Ks Ratio | 0.07025 (Ka = 0.067, Ks = 0.9536) |
ADAM metallopeptidase with thrombospondin type 1 motif, 2 (Adamts2), mRNA
Protein Percentage | 87.15% |
---|---|
CDS Percentage | 84.92% |
Ka/Ks Ratio | 0.06683 (Ka = 0.0647, Ks = 0.9687) |
>XM_004836792.1 ATGGCCCGGCGCCTGCTCTGCCCCGCGCTGCTGCTCCTGCTGCCGCCGCTCCTGTGGCCGCCGCCGCCCGTGCACACCCGGCTGGCCGCCGCCGGCGCCCCAGGCGCGTCCCTGGAGCCCGGAGCCGAGCGCATCCTGGCGGTGCCGGTGCGTACTGACGCCCAGGGCCGCCTGCTGTCCCACGTGGTGTCGGCAGCGGCGGCCCGGGCGGGGGTGCGAGCCCGCAGGGCTGCGGCGCTCCAGACCCCCGGCTTCCCCGGGGTGGGCGAGGAGGACCCGGGCGGCCGCCTCTACTACAACGTCACCGTCTTCGGGCGAGACCTGCACCTGCGGCTGCGACCCAACGCCCGCCTCGTGGCTCCGGGGGCCACTGTGGAGTGGCAGGGCGACGCGGGTGCCACGCGCGTGGAGCCCCTGCTCGGGACCTGCCTCTATGTCGGGGACGTGGCCGGCTCGGCCAGAGCCTCCTCCGTGGCGCTCAGCAACTGCGACGGGCTGGCTGGGCTGATCCGCATGGAGGAGGAGGAGTTCTTCATCGAGCCTCTGGACAAGGGGCTGGCAGCACAGGAGGCGGAGCAGGGCCGCGTGCACGTGGTGTACCGCCGACCGCCCACACCCAGGCCCCCTCTTCCCGAGGACCCACAGGCGCTGGACACAGGGGCCTCCGCGGACAGCCTGGACAGCCTCAGCCGCGCCCTGGGCGTCCTGGAGGGGCGGCTCAACGGCTCCCGGAGGAGGGCGCGCAGGCACACTGCGGACGACGACTACAACATCGAGGTGCTGCTGGGTGTGGACGACTCTGTGGTGCAGTTCCACGGCCAGGAGCACGTGCAGAAGTACCTGCTGACGCTCATGAACATCGTCAACGAGATCTACCACGATGAGTCGCTGGGCGCCCACGTCAATGTGGTGCTGGTTCGGATCATCCTGCTGAGCCACGCGAAGTCCCTGAGCCTCATCGAGATCGGGAACCCCTCCCAGAGCCTGGAGAACGTGTGCCGCTGGGCCTACCTGCAGCAGAAGCCGGACACGGGCCATGATGAGTACCACGACCATGCCATCTTCCTCACTCGGCAGGACTTCGGGCCCTCGGGCATGCAGGGCTATGCTCCTGTCACCGGGATGTGCCACCCTGTTCGCAGCTGCACCCTGAACCACGAAGACGGCTTCTCCTCGGCATTTGTGGTGGCCCATGAGACCGGCCACGTGCTGGGCATGGAGCATGACGGGCAGGGCAACCGCTGCGGCGACGAGGTGCGGCTGGGCAGCATCATGGCGCCGCTGGTGCAGGCCGCCTTCCACCGCTTCCACTGGTCCCGCTGCAGCCAGCAGGAGCTCAGCCGCTACCTGCACTCCTACGACTGCCTGCGCGATGACCCCTTCGCCCACGACTGGCCGGCGCTGCCGCAGCTGCCTGGGCTCCACTACTCCATGAACGAGCAGTGCCGCTTCGACTTCGGCCTGGGCTACATGATGTGCACTGCGTTCCGGACCTTTGACCCCTGCAAGCAGCTGTGGTGCAGCCACCCTGACAACCCCTACTTCTGCAAGACCAAGAAGGGGCCCCCCCTGGATGGAACCATGTGTGCACCTGGCAAGCATTGCTTTAAAGGACACTGCATCTGGCTGACGCCCGACATCCTCAAACGGGATGGCAACTGGGGCGCCTGGACCCCCTTCGGCTCCTGCTCACGCACCTGCGGCACAGGGGTGAAGTTCAGGACGCGTCAGTGCGACAACCCGCATCCAGCCAATGGGGGCCGCACGTGCTCCGGCTTGGCCTACGACTTCCAGCTGTGCAACCCCCAGGACTGCCCTGACACCCTGGCCGACTTCCGGGAGGAGCAGTGCCGCCAGTGGGACCTGTACTTCGAGCACGGCGATGCCCAGCACCACTGGCTGCCCCACGAGCCCCGGGATGCCCAGGAGAGGTGTCACCTCCACTGCGAGTCCAGGGAGACCGGGGAGGTGGTGTCCATGAAGCGCATGGTGCATGACGGGACGCGCTGCTCCTACAAGGACGCCTTCAGCCTCTGCGTGCGTGGGGACTGCAAGAAGGTGGGCTGCGACGGGCTGATCGGCTCCAGCAAGCAGGAGGACAAATGCGGCGTGTGCGGCGGGGACAACTCCCACTGCAAAGTGGTCAAGGGCACGTTCTCGCGCTCCCCCAAGAGGCTCGGCTACATCAAGATGTTTGAGATCCCCGTGGGAGCCAGGCACCTGCTCGTCCAGGAGGCGGACACCACCAGCCACCATCTGGCCGTCAAGAACCTGGAGACAGGCCAGTTCATCTTAAATGAAGAGAACAACCTGGACCCCAATTCCAGATCCTTCATCGCCATGGGCGTGGAGTGGGAGTACAGGAGCGAGGACGGCAGGGAGACGCTGCAGACCATCGGGCCTCTCCGTGGCGCCATCACTGTGCTGGTTATCCCAGAGGGAGACACTCGGATCTTGCTGACGTACAAGTACATGATCCACGAGGACTCGCTCAACGTGGACGACAACAACGTCCTGGAGGATGACTCTGTGAACCATGAGTGGGCCCTGAAGAAGTGGTCACCCTGCTCCAAGCCCTGTGGCGGAGGGTCACAGTTCACCAAGTACGGCTGCCGCCGGAGGCTGGACCACAAGATGGTGCACCGGGCCTTCTGCAGTGCCCTGGAGAAGCCCAAAGCCATCCGCCGAGCCTGCAACCCACAGGCGTGCTCCCAGCCCGTGTGGGTCACTGGTGAGTGGGAGCCCTGCAGTCAGACCTGCGGCTGGACGGGCCTGCAGGTGCGCTCCGTGCGCTGCATCCAGCCACTTCAGAACAACACCACGCGCTCCGTGCATGCCAAACACTGTAACGACAACCGGCCTGAGAGCCGCCGGGCCTGCAGCCGTGAGCTCTGCCCCGGTCGGTGGCAGGCTGGGTCCTGGTCCCAGTGCTCGGTGACCTGCGGCAACGGCACCCAGGAGCGGCCCGTGCTCTGCCGCACGGCAGACGACAGCTTCGGCATCTGCCCGGAGGAGCGGCCCCAGACGGCGAGGGTCTGCAGGCTCGGCCCCTGTCCCCGAAACACCTCGGACCCCTCCAAGAAGAGCTACGTGGTGCAGTGGCTGTCGCGCCCGGACCCTGGCTCGCCCGTCCAGAAGATCCCAAAGGCCCCCTGCCAAGGCGACAAGTCGATGTTCTGTAGGATGGAAGTCTTGACTCGTTATTGCTCCATTCCAAGCTACAACAAGCTCTGCTGCAAGTCCTGCAAGCTGCGAAACGCCACCGCCACCGACGAGGAGGACGAGGTGGAGCCCCCGCCCGGGAAGCACAACGACATCGATGTGTTGGTGCCCACGCTGCCGGGGCCCACGCTGGCCGCAGAGGAGCAGCCCTCCCCCAGGGCCCTGCCCGAGGCCCCTCTCAACGCTACGGAGGACCGCCCGGAAGCCAACGCCGTGGATGCGCCCTATGGAGTCCAGGCCCTGGATGACGAGGGCCAGCCGCCCAACTTAATCCCCCGACGACCGAGCCCGTACGAAAAGACCAGGAACCAAAGGATCCAGGCGCTCATCGAGGCCATGCGGAAGAAGGAGGCACTCGGGAAGTTGTAA
Adamts2 PREDICTED: A disintegrin and metalloproteinase with thrombospondin motifs 2 [Heterocephalus glaber]
Length: 1196 aa View alignments>XP_004836849.1 MARRLLCPALLLLLPPLLWPPPPVHTRLAAAGAPGASLEPGAERILAVPVRTDAQGRLLSHVVSAAAARAGVRARRAAALQTPGFPGVGEEDPGGRLYYNVTVFGRDLHLRLRPNARLVAPGATVEWQGDAGATRVEPLLGTCLYVGDVAGSARASSVALSNCDGLAGLIRMEEEEFFIEPLDKGLAAQEAEQGRVHVVYRRPPTPRPPLPEDPQALDTGASADSLDSLSRALGVLEGRLNGSRRRARRHTADDDYNIEVLLGVDDSVVQFHGQEHVQKYLLTLMNIVNEIYHDESLGAHVNVVLVRIILLSHAKSLSLIEIGNPSQSLENVCRWAYLQQKPDTGHDEYHDHAIFLTRQDFGPSGMQGYAPVTGMCHPVRSCTLNHEDGFSSAFVVAHETGHVLGMEHDGQGNRCGDEVRLGSIMAPLVQAAFHRFHWSRCSQQELSRYLHSYDCLRDDPFAHDWPALPQLPGLHYSMNEQCRFDFGLGYMMCTAFRTFDPCKQLWCSHPDNPYFCKTKKGPPLDGTMCAPGKHCFKGHCIWLTPDILKRDGNWGAWTPFGSCSRTCGTGVKFRTRQCDNPHPANGGRTCSGLAYDFQLCNPQDCPDTLADFREEQCRQWDLYFEHGDAQHHWLPHEPRDAQERCHLHCESRETGEVVSMKRMVHDGTRCSYKDAFSLCVRGDCKKVGCDGLIGSSKQEDKCGVCGGDNSHCKVVKGTFSRSPKRLGYIKMFEIPVGARHLLVQEADTTSHHLAVKNLETGQFILNEENNLDPNSRSFIAMGVEWEYRSEDGRETLQTIGPLRGAITVLVIPEGDTRILLTYKYMIHEDSLNVDDNNVLEDDSVNHEWALKKWSPCSKPCGGGSQFTKYGCRRRLDHKMVHRAFCSALEKPKAIRRACNPQACSQPVWVTGEWEPCSQTCGWTGLQVRSVRCIQPLQNNTTRSVHAKHCNDNRPESRRACSRELCPGRWQAGSWSQCSVTCGNGTQERPVLCRTADDSFGICPEERPQTARVCRLGPCPRNTSDPSKKSYVVQWLSRPDPGSPVQKIPKAPCQGDKSMFCRMEVLTRYCSIPSYNKLCCKSCKLRNATATDEEDEVEPPPGKHNDIDVLVPTLPGPTLAAEEQPSPRALPEAPLNATEDRPEANAVDAPYGVQALDDEGQPPNLIPRRPSPYEKTRNQRIQALIEAMRKKEALGKL