Sequence details NCBI ID: XM_004862644.1 (Coding sequence)   Best Hit

Details from NCBI annotation

Gene Symbol Adamts15
Gene Name ADAM metallopeptidase with thrombospondin type 1 motif, 15
Entrez Gene ID 101700248

Database interlinks

Part of NW_004624812.1 (Scaffold)

For more information consult the page for NW_004624812.1 (Scaffold)

Potential Gene Matches

The following genes have been identified as possible homologs of the naked mole-rat gene and compared to it.

ADAMTS15 ENSCPOG00000007649 (Guinea pig)

Gene Details

ADAM metallopeptidase with thrombospondin type 1 motif, 15

External Links

Gene Match (Ensembl Protein ID: ENSCPOP00000006893, Guinea pig)

Protein Percentage 94.93%
CDS Percentage 91.4%
Ka/Ks Ratio 0.05785 (Ka = 0.0255, Ks = 0.4403)

ADAMTS15 ENSG00000166106 (Human)

Gene Details

ADAM metallopeptidase with thrombospondin type 1 motif, 15

External Links

Gene Match (Ensembl Protein ID: ENSP00000299164, Human)

Protein Percentage 92.11%
CDS Percentage 89.33%
Ka/Ks Ratio 0.06622 (Ka = 0.0359, Ks = 0.5421)

Adamts15 ENSMUSG00000033453 (Mouse)

Gene Details

a disintegrin-like and metallopeptidase (reprolysin type) with thrombospondin type 1 motif, 15

External Links

Gene Match (Ensembl Protein ID: ENSMUSP00000067022, Mouse)

Protein Percentage 92.0%
CDS Percentage 87.19%
Ka/Ks Ratio 0.06324 (Ka = 0.0395, Ks = 0.6252)

Adamts15 ENSRNOG00000009892 (Rat)

Gene Details

ADAM metallopeptidase with thrombospondin type 1 motif, 15 (Adamts15), mRNA

External Links

Gene Match (Ensembl Protein ID: ENSRNOP00000013341, Rat)

Protein Percentage 92.0%
CDS Percentage 87.12%
Ka/Ks Ratio 0.0595 (Ka = 0.0392, Ks = 0.6587)

Genome Location

Sequence Coding sequence

Length: 2853 bp    Location: 4814644..4839830   Strand: +
Raw sequence   
>XM_004862644.1
ATGCTTCTCCTGGGCATCTTAACCCTGGCTCTGGCTGGGCGACCCGCTGGCGGCTCGGACCCAGAGCGGGAGGTCGTCGTCCCCATCCGACTGGATCCAGACATCAACGGCCGCCACTACTACCGGCGAGGTCCAGAGGATTCCGGGGATCAGGGACTCATTTTTCAGATCGCAGCATTTCAGGAGGACTTTTACCTACATCTGATGCCGGATGCTCAGTTCCTGGCTCCCGCCTTCGCCACTGAGTATCTGGGGGATCCCCTTCAGGAGCTCGCCGCCAGCTCTTTAGACCTGCGACGCTGCTTCTACTCTGGGGACGTGAACGCCGAGCCAGACTCGTTCGCCACTTTGAGCCTGTGCGGGGGTCTCCGCGGAGCCTTCGGCTACCGAGGCGCGGAGTATGTCATTAGCCCGCTGCCCAACGCCAGCGCGCCGGCCGCGCCGAGCAACAGCCAGGGCGCGCACCTCCTCCAGCGCCGGGGAGCCCGCGGCGGGGCCTCCGGAGACCCCGCCTCCCGCTGCGGGGTGGCTTCGGGCTGGAACCCGGCCATCCTGAGGGCCCTAGACCCGTACAAGCCGCGGCGGACGGACTTGGGGGACAGTCACAGGCGGCGCAGTTCTGGTCGCGCCAAGCGCTTCGTGTCCATCCCACGGTACGTGGAGACACTGGTGGTGGCGGACGAATCGATGGTTAAGTTTCATGGCGCGGACTTGGAGCATTATCTGCTGACTCTGCTGGCCACCGCGGCGCGCCTCTACCGCCACCCCAGCATCCTTAATCCCATCAACATCGTTGTGGTCAAGGTGCTGCTTCTCGGAGACCGTGACACCGGGCCCAAGGTCACCGGCAACGCGGCTCTGACGCTGCGCAACTTCTGCGCCTGGCAGAAGAAGCTGAACAAAGTGAGTGACAAGCACCCTGAGTACTGGGACACCGCCATCCTCTTCACCAGGCAGGACTTGTGTGGAGCGACCACATGTGACACACTGGGCATGGCGGATGTGGGCACCATGTGCGATCCCAAGAGGAGTTGCTCTGTTATTGAGGATGATGGGCTTCCGTCAGCCTTCACCACTGCTCATGAGCTGGGCCATGTGTTCAATATGCCCCATGACAACGTGAAAGTATGTGAGGAGGTCTTTGGAAAGCTCCAAGCCAACCACATGATGTCTCCAACCCTCATCCAGATTGACCGTGCCAACCCCTGGTCAGCCTGCAGTGCTGCCATCATCACTGACTTCCTGGACAGTGGACATGGGGACTGCCTCCTTGACCAGCCCAGCAAACCTCTCTCCCTGCCTGAGGACCTGCCGGGCACCAGCTACACCCTGAGCCAGCAGTGTGAGCTGGCCTTCGGTGTGGGCTCCAAGCCCTGTCCATACATGCAGTACTGCACCAAGCTGTGGTGCACTGGCAAAGCCAAGGGGCAGATGGTGTGCCAGACCCGCCACTTCCCCTGGGCAGATGGCACCAGCTGCAGTGAAGGCAAGTTCTGCCTCAAGGGGGCCTGTGTGGAGAGACACAACCTCAACAAGTACCGGGTGGATGGCTCCTGGGCCAAGTGGGAGCCCTATGGTCCCTGCTCTCGAACCTGCGGCGGGGGCGTGCAGCTGGCCCGGAGGCAATGCAGCAGCCCCACCCCTGCCAATGGTGGCAAGTACTGCGAGGGAGTGCGGGTGAAGTACCGGTCTTGCAATCTGGAGCCCTGCCCCACCTCAGCCTCTGGCAAGAGCTTCAGGGAAGAGCAATGTGAAGCTTTCAATGGCTACAACCACAGCACCAACCGGCTCACTCTTGCCGTGGCGTGGGTGCCCAAGTACTCAGGTGTGTCTCCTCGAGACAAGTGCAAGCTTATCTGCCGAGCCAATGGCACTGGCTACTTCTATGTGCTGGCACCCAAGGTGGTGGATGGTACACTGTGTTCTCCCGACTCCACCTCAGTCTGTGTCCAAGGAAAATGCATCAAGGCTGGCTGCGATGGGAACTTGGGCTCCAAGAAGAAGTTCGACAAGTGTGGGGTGTGTGGGGGAGACAATAAGAGCTGCAAGAGGGTGACGGGACTGTTCACCAAGCCCATGCATGGCTACAATTTCGTGGTTGCCCTCCCTGTAGGCGCCTCTAGCATTGACATCCGCCAGCGTGGCTACAAGGGGCTGATTGGAGATGATAACTATCTGGCCGTGAAGAACAGCCAAGGCAAGTACCTGCTCAATGGGCACTTCGTGGTGTCGGCCGTGGAGCGGGACCTGGTGGTGAAGGGCAGCTTGCTGCGGTACAGTGGCACTGGCACTGCGGTGGAGAGCCTGCAGGCTTCCCGGCCCATCCTGGAGCCCCTGACCGTGGAGGTCCTCTCGGTGGGGAAGATGACACCGCCACGGGTCCGTTACTCTTTCTATCTGCCCAAGGAGCCTTGGGAGGACAAGTCCTCCCGACCCAAGGAGCCCCTCACCCCCTCTGTGCTGGACAACACGGTCCTCAGCCTCTCCAATCAAGTGGAGCAGCCAAATGACAGGCTCCCTGCACACTGGGTGGTGGGCAGCTGGGGACCTTGCTCTGCCAGCTGTGGCAGTGGCCTGCAGAAGCGGGCAGTGGACTGCCGGGGCTCCTTGGAGCAGCACAGGGCCTCTGCCTGCGATGTAGCCCATCGACCAGTGGAGATGCGAGCCTGTGGGGAACCCTGCCCAGCCTGGGAGCTTGGGACCTGGTCACCCTGCTCCAAGACCTGTGGCCGGGGATTTAAGAGGCGTTCACTCAAGTGTGTGGGACATGGAAGCCGGCTGCTGGCCCGGGACCAGTGCAACCTGCGCCGAAAGCCCCAGGAGCTGGACTTCTGCATCTTGAGGCCCTGTTGA

Related Sequences

XP_004862701.1 Protein

Adamts15 PREDICTED: A disintegrin and metalloproteinase with thrombospondin motifs 15 [Heterocephalus glaber]

Length: 950 aa      View alignments
>XP_004862701.1
MLLLGILTLALAGRPAGGSDPEREVVVPIRLDPDINGRHYYRRGPEDSGDQGLIFQIAAFQEDFYLHLMPDAQFLAPAFATEYLGDPLQELAASSLDLRRCFYSGDVNAEPDSFATLSLCGGLRGAFGYRGAEYVISPLPNASAPAAPSNSQGAHLLQRRGARGGASGDPASRCGVASGWNPAILRALDPYKPRRTDLGDSHRRRSSGRAKRFVSIPRYVETLVVADESMVKFHGADLEHYLLTLLATAARLYRHPSILNPINIVVVKVLLLGDRDTGPKVTGNAALTLRNFCAWQKKLNKVSDKHPEYWDTAILFTRQDLCGATTCDTLGMADVGTMCDPKRSCSVIEDDGLPSAFTTAHELGHVFNMPHDNVKVCEEVFGKLQANHMMSPTLIQIDRANPWSACSAAIITDFLDSGHGDCLLDQPSKPLSLPEDLPGTSYTLSQQCELAFGVGSKPCPYMQYCTKLWCTGKAKGQMVCQTRHFPWADGTSCSEGKFCLKGACVERHNLNKYRVDGSWAKWEPYGPCSRTCGGGVQLARRQCSSPTPANGGKYCEGVRVKYRSCNLEPCPTSASGKSFREEQCEAFNGYNHSTNRLTLAVAWVPKYSGVSPRDKCKLICRANGTGYFYVLAPKVVDGTLCSPDSTSVCVQGKCIKAGCDGNLGSKKKFDKCGVCGGDNKSCKRVTGLFTKPMHGYNFVVALPVGASSIDIRQRGYKGLIGDDNYLAVKNSQGKYLLNGHFVVSAVERDLVVKGSLLRYSGTGTAVESLQASRPILEPLTVEVLSVGKMTPPRVRYSFYLPKEPWEDKSSRPKEPLTPSVLDNTVLSLSNQVEQPNDRLPAHWVVGSWGPCSASCGSGLQKRAVDCRGSLEQHRASACDVAHRPVEMRACGEPCPAWELGTWSPCSKTCGRGFKRRSLKCVGHGSRLLARDQCNLRRKPQELDFCILRPC