The Naked Mole-Rat Genome Resource

Details from NCBI annotation

Gene Symbol	Dscam
Gene Name	Down syndrome cell adhesion molecule, transcript variant X1
Entrez Gene ID	101720512

Database interlinks

Part of NW_004624745.1 (Scaffold)

For more information consult the page for NW_004624745.1 (Scaffold)

Potential Gene Matches

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

DSCAM ENSCPOG00000005367 (Guinea pig)

Gene Details

Down syndrome cell adhesion molecule

External Links

EntrezGene ID: 100730702

Gene Match (Ensembl Protein ID: ENSCPOP00000004829, Guinea pig)

Protein Percentage	97.22%
CDS Percentage	92.96%
Ka/Ks Ratio	0.03394 (Ka = 0.0127, Ks = 0.373)

DSCAM ENSG00000171587 (Human)

Gene Details

Down syndrome cell adhesion molecule

External Links

EntrezGene ID: 1826
UniProt: DSCAM_HUMAN
UniGene: Hs.397800

Gene Match (Ensembl Protein ID: ENSP00000383303, Human)

Protein Percentage	97.17%
CDS Percentage	89.61%
Ka/Ks Ratio	0.02222 (Ka = 0.0129, Ks = 0.5786)

Dscam ENSMUSG00000050272 (Mouse)

Gene Details

Down syndrome cell adhesion molecule

External Links

EntrezGene ID: 13508
UniProt: DSCAM_MOUSE
UniGene: Mm.328737

Gene Match (Ensembl Protein ID: ENSMUSP00000056040, Mouse)

Protein Percentage	97.17%
CDS Percentage	88.42%
Ka/Ks Ratio	0.01823 (Ka = 0.0129, Ks = 0.7052)

Dscam ENSRNOG00000027992 (Rat)

Gene Details

Down syndrome cell adhesion molecule homolog precursor

External Links

EntrezGene ID: 171119

Gene Match (Ensembl Protein ID: ENSRNOP00000002215, Rat)

Protein Percentage	96.37%
CDS Percentage	87.84%
Ka/Ks Ratio	0.0246 (Ka = 0.0188, Ks = 0.7662)

Genome Location

Sequence Coding sequence

Length: 6141 bp Location: 28969497..29560496 Strand: +

Raw sequence

>XM_004842472.1
ATGTGGATACTGGCCCTCTCCTTGTTCCAGAGCTTCGCGAGTGTTTTCAGTGAAGAACCACACTCCAGCCTCTACTTCGTCAATGCATCTCTGCAAGAGGTAGTGTTCGCGAGTACCTCGGGGACGCTGGTGCCCTGCCCGGCTGCAGGCATCCCTCCTGTGACTCTCAGATGGTACCTAGCGACAGGCGAAGAGATCTACGATGTCCCCGGGATCCGCCACGTCCACCCCAACGGCACTCTCCAGATCTTCCCCTTCCCCCCCTCCAGCTTCAGCACCTTAATCCATGATAATACTTACTATTGCACAGCGGAAAATCCTTCAGGGAAAATTAGAAGTCAGGATGTCCACATCAAGGCTGTTTTACGGGAGCCCTATACAGTCCGTGTGGAGGACCAGAAGACCATGAGAGGCAATGTCGCGGTCTTCAAGTGCATTATCCCCCCCTTGGTGGAGGCGTACGTCACTGTCATCTCATGGGAGAAAGACACTGTCTCACTTGTCTCAGGATCTAGATTTCTCATCACACCCACGGGAGCCTTGTATATTAAAGATGTACAGAATGAGGATGGATTGTATAACTACCGCTGTGTCACACGGCACAGGTACACCGGGGAGACCAGGCAGAGTAACAGCGCTAGACTTTTTGTATCAGACCCAGCGAACTCGGCCCCGTCCATGCTGGATGGGTTTGACCACCGCAAAGCCATGGCGGGGCAGCGGGTGGAGCTGCCCTGCAGAGCACTGGGGCACCCTGAGCCCGACTACCGCTGGCTGAAGGACAACACGCCCCTGGGACTCTCGGGGAGGTTCCAGAAGACGGTGACGGGGCTGCTCATCGAGAGCGCCCGGCCCTCAGACTCAGGCAGCTACGTGTGCGAAGTGTCCAACCGGTATGGGACCGCGAAGGTGATCGGCCGCCTGTATGTGAAACAGCCACTAAAAGCCACCATCAGCCCCCGGAAGGTTAAAAGCAGCGTGGGCAGCCAGGTTTCCTTGTCCTGCAGCGTGACCGGAACTGAGGACCAGGAGCTGTCCTGGTACCGGAATGGCGAAATCCTCAAACCGGGGAAAAATGTGAGGATCACAGGGATCAACCACGAAAACCTTATCATGGATCACATGGTCAAAAGCGACGGGGGCGCCTATCAGTGCTTCGTGCGCAGGGACAAGCTGTCTGCTCAGGACTACGTGCAGGTGGTGCTCGAAGATGGGACTCCCAAAATCATTTCCGCCTTCAGTGAGAAAGTGGTGAGCCCCGCTGAGCCAGTGTCCCTCATGTGCAACGTGAAGGGGACACCCTTGCCCACCATCACGTGGACCCTGGACGATGACCCGATCCTCAAGGGTGGCGGCCACCGCATCAGCCAGATGATCACGTCTGAGGGGAACGTGGTCAGCTACCTGAACATCTCCAGCGCCCAGGTCCGGGACGGGGGCGTCTACCGCTGCACGGCCAACAACTCTGCGGGAGTCGTCCTGTACCAGGCTCGAATAAACGTAAGAGGGCCTGCAAGCATTCGACCAATGAAAAATATCACAGCAATAGCAGGGCGGGACACGTACATTCACTGCCGTGTGATTGGCTACCCCTACTACTCCATCAAGTGGTACAAGAACTCTAATCTGCTCCCTTTCAACCACCGCCAGGTGGCATTTGAGAGCAACGGGACTCTGAAACTCTCGGATGTACAAAAAGAAATCGATGAGGGCGAATACACGTGCAACGTGTTGGTTCAGCCACAGCTGTCCACCAGCCAGGGCGTCCACGTGACCGTGAAAGTACCTCCTTTCATTCAGCCCTTTGAGTTTCCGAGGTTCTCCATCGGGCAGCGGGTCTTCATCCCGTGTGTGGTGGTCTCGGGGGACCTGCCCATCACCATCACCTGGCAGAAGGATGGACGGCCGATCCCAGCCAGCCTTGGGGTGACCATCGACAACATCGACTTCACCAGCTCCCTGCGGATTTCCAACCTCTCCCTGATGCACAACGGGAACTACACCTGCATCGCCCGCAACGAGGCAGCGGCTGTGGAGCACCAGAGCCAGCTCATCGTGAGAGTTCCTCCCAAGTTCGTGGTTCAGCCCCGGGACCAGGACGGGATTTACGGCAAGGCTGTTATCCTCAATTGCTCGGCTGAGGGCTATCCCGTACCCACCATCGTGTGGAAATTCTCTAAAGGTGCTGGGGTGCCCCAGTTCCAGCCAATCGCCCTGAATGGCCGCATCCAGGTCCTCAGCAACGGGTCACTGCTGATCAAGCACGTGGTGGAGGAAGACAGCGGGTACTACCTCTGCAAGGTCAGCAACGATGTGGGCGCGGACGTCAGCAAGTCCATGTACCTCACGGTTAAAATCCCCGCGATGATCACGTCCTACCCCAACACCACCCTGGCCACCCAGGGCCAGAGGAAGGAGATGAGCTGCACGGCCCACGGCGAGAAGCCCATCATCGTCCGCTGGGAGAAGGAGGACAGGATCATCAACCCCGAGATGGCCCGCTACCTCGTGTCCACCAAGGAAGCGGGCGAGGAGGTGATGTCCACACTGCAGATTTTGCCCACGGTGAGAGAAGACTCTGGCTTCTTCTCCTGCCATGCTATCAACTCTTACGGGGAGGACCGTGGCATAATCCAGCTCACAGTGCAAGAGCCCCCAGACCCTCCTGAGATCGAGATCAAAGACGTGAAAGCACGCACAATCACGCTCAGGTGGACCATGGGCTTCGACGGGAACAGCCCCATCACCGGCTACGACATTGAATGCAAAAATAAATCAGACTCCTGGGATTCTGCTCAGAGAACCAAAGATGTTTCCCCTCAGCTGAACTCGGCCACCATCATTGATATCCACCCTTCCTCCACCTACAGCATCCGCATGTACGCCAAGAACCGGATCGGCAAGAGCGAGCCCAGCAACGAGCTCACCATCACGGCAGACGAGGCCGCTCCTGATGGTCCACCTCAGGAAGTCCACCTGGAGCCCATGTCGTCCCAGAGCATCAGGGTCACCTGGAAGGCTCCAAAGAAGCACCTGCAGAACGGGATCATCCGCGGCTACCAGATCGGGTACCGGGAGTACAGCACGGGGGGCAACTTCCAGTTCAACATCATCAGCATCGACACCACGGGTGACAGCGAGGTGTACACGCTGGACAACCTCAGCAAGTTCACGCAGTACGGGCTGGTGGTGCAGGCCTGCAACCGCGCTGGCACAGGGCCCTCTTCTCAGGAAATCATCACCACCACGCTGGAGGACGTGCCCAGCTACCCCCCTGAAAATGTCCAAGCCATAGCAACATCACCGGAAAGCATCTCGATCTCCTGGTCCACGCTCTCCAAGGACGCCCTGAACGGGATCCTGCAGGGGTTCAGGGTCATCTACTGGGCCAACCTCATGGACGGAGAGCTGGGCGAGATTAAGAACGTCACCACCACGCAGCCGTCGCTGGAGCTGGACGGGCTGGAGAAGTACACCAACTACAGCATCCAGGTGCTGGCCTTCACGCGCGCGGGCGACGGCGTCCGGAGCGAGCAGATCTTCACACGGACCAAGGAGGATGTTCCAGGCCCTCCCGCGGGTGTGAAGGCGGCAGCCGCCTCTGCCTCCATGGTCTTCGTGTCCTGGCTGCCCCCTCTCAAGCTCAACGGCATCATCCGGAAGTACACGGTGTTCTGCTCGCACCCCTACCCCACAGTGATCAGCGAGTTTGAAGCCTCCCCCGACTCATTTTCCTACAGAATACCTAACCTGAGTCGAAATCGCCAGTACAGCGTCTGGGTGGTGGCCGTGACTTCAGCCGGAAGAGGCAACAGCAGTGAAATCATCACAGTAGAGCCCTTAGCTAAAGCTCCCGCTCGGATCCTCGCCTTCAGTGGCACGGTCAGCACCCCGTGGATGAAGGACATCATCCTGCCATGTAAAGCTGTCGGGGATCCTCCGCCTGCAGTGAAGTGGATGAAAGACAGTAACGGGACGCCCAGCCTGGTGACGATTGATGGGCGCAGGGGCATCTTCAGCAACGGCAGCTTCATCATCCGCACGGTGAAGGCGGAGGACTCCGGCTACTACAGCTGCGTCGCCAACAACAACTGGGGCTCAGACGAGATTATTTTAAATTTGCAAGTACAAGTTCCACCAGATCAGCCCCGGCTTACTGTATCTAAAACCACATCATCCTCCATCACTCTGTCCTGGCTCCCCGGGGACAACGGAGGCAGCTCCATCAGAGGGTACATACTGCAGTACTCCGAGGACAACAGCGAGCAGTGGGGGAGTTTTCCCATCAGCCCCAGCGAACGCTCTTACCGCTTGGAGAACCTGAAATGTGGGACCTGGTACAAGTTCACCCTGACCGCCCAAAACGGAGTAGGGCCAGGGCGCATCAGTGAAATCATCGAAGCAAAGACGTTGGGGAAAGAGCCCCAGTTCTCCAAAGAGCAGGAGCTCTTCGCCAGCGTCAACAGCACCCGCGTGCGGCTCAACCTGATCGGCTGGAACGATGGCGGCTGCCCCATCACCTCCTTCACGCTCGAGTACAGGCCCTTCGGGACCGCGGTCTGGACCACCGCCCAGCGCACCTCGCTGTCCAAGTCCTACATCCTGTACGACCTGCAGGAAGCCACCTGGTACGAGCTGCAGATGCGCGTGTGCAACAGCGCAGGCTGTGCCGAGAAGCAGGCCAACTTCGCCACGCTCAACTACGATGGCAGTACAATTCCTCCACTCATTAAGTCAGTCGTCCAAAGCGACGAGGGGCTGGCGACCAACGAGGGCCTCAAGATGCTGGTGACCATCTCCTGCATCCTGGTGGGTCTGCTGCTGCTCTTCGTGCTCCTGCTGGTGGTGCGGCGGCGGCGGCGGGAACAGAGACTCAAGAGGCTGAGAGATGCCAAGAGTTTAGCTGAAATGCTCATGAGTAAGAACACCCGGACTTCAGATACTTTAAGCAAGCAACAACAGACTCTAAGGATGCACATTGACATACCCAGGGCACAGCTTCTGATTGAAGAGAGGGACACAATGGAGACCATCGATGATCGCTCCACGGTCCTGCTGACAGATGCTGATTTTGGGGAAGCAGCTAAACAAAAGTCCCTGACGGTGACTCACACAGTCCACTACCAGTCCGTGTCTCAGGCCACCGGGCCCCTAGTGGATGTTTCAGACGGTCGGCCGGGAACGAAACTGCAGCAGCAAGGTGCCACAGCCTGGGCAGCTGGAGAGAAGAGAGAGTTGTGGTCTCCAGTTCTGGAGGCTGGAAGTCCAAAATCAAGGTGTCCCCCAGATCCCACCACCCGGAGGAACGCCAAGGCAGGGCCTGCTGCCCGGAGCCGCTACGCCAGCCAGTGGACCCTCAACAGGCCCCACCCCACCATCTCTGCACACACCCTCACCACAGACTGGAGGCTGCCCACGCCCAGGGCCGCGGGCTCCGTGGACAAGGAGAGCGACAGCTACAGCGTCAGCCCCTCGCAGGACACAGATCGAGCGCGGAGCAGCATGGTCTCCACAGAAAGTGCCTCCTCCACCTACGAAGAGCTGGCCCGGGCCTACGAGCACGCCAAGATGGAAGAGCAGCTGAGGCACGCCAAGTTCACCATCACCGAGTGCTTCATCTCAGACACGTCATCCGAGCAGTTGACGGCAGGGACAAACGAGTACACGGACAGTCTGACCTCCAGCACCCCCTCGGAATCGGGGATCTGCAGGTTCACTGCCTCTCCCCCCAAACCTCAGGATGGAGGGCGAGTGATGAACATGGCAGTTCCAAAGGCACATCGGCCAGGTGACCTCATCCATCTGCCTCCATACCTTAGAATGGATTTCTTATTAAACCGGGCTGCACCAGGCACCAGCAGGGACCTGACTTTAGGACAAGCGTGCTTGGAACCTCAGAAAAGTCGGACCCTGAAGCGCCCCACGGCCCTCGAGCCCATCCCTCTGGAGGCCGCCTCCTCCTCCTCCTCCACTCGAGAGGGGCAGTCGTGGCAGCAGGGGGCCGTGGCCACTTTACCTCAGCGAGAAGGGGCCGAGCTGGGACAGGCGGCGAAAATGAGCAGCTCCCAGGAGTCCCTGCTCGACTCCCGGGGGCACTTGAAAGGGAACAATCCTTACGCCAAGTCCTACACCCTGGTATAA

Related Sequences

XP_004842529.1 Protein

Dscam PREDICTED: Down syndrome cell adhesion molecule homolog isoform X1 [Heterocephalus glaber]

Length: 2046 aa View alignments

>XP_004842529.1
MWILALSLFQSFASVFSEEPHSSLYFVNASLQEVVFASTSGTLVPCPAAGIPPVTLRWYLATGEEIYDVPGIRHVHPNGTLQIFPFPPSSFSTLIHDNTYYCTAENPSGKIRSQDVHIKAVLREPYTVRVEDQKTMRGNVAVFKCIIPPLVEAYVTVISWEKDTVSLVSGSRFLITPTGALYIKDVQNEDGLYNYRCVTRHRYTGETRQSNSARLFVSDPANSAPSMLDGFDHRKAMAGQRVELPCRALGHPEPDYRWLKDNTPLGLSGRFQKTVTGLLIESARPSDSGSYVCEVSNRYGTAKVIGRLYVKQPLKATISPRKVKSSVGSQVSLSCSVTGTEDQELSWYRNGEILKPGKNVRITGINHENLIMDHMVKSDGGAYQCFVRRDKLSAQDYVQVVLEDGTPKIISAFSEKVVSPAEPVSLMCNVKGTPLPTITWTLDDDPILKGGGHRISQMITSEGNVVSYLNISSAQVRDGGVYRCTANNSAGVVLYQARINVRGPASIRPMKNITAIAGRDTYIHCRVIGYPYYSIKWYKNSNLLPFNHRQVAFESNGTLKLSDVQKEIDEGEYTCNVLVQPQLSTSQGVHVTVKVPPFIQPFEFPRFSIGQRVFIPCVVVSGDLPITITWQKDGRPIPASLGVTIDNIDFTSSLRISNLSLMHNGNYTCIARNEAAAVEHQSQLIVRVPPKFVVQPRDQDGIYGKAVILNCSAEGYPVPTIVWKFSKGAGVPQFQPIALNGRIQVLSNGSLLIKHVVEEDSGYYLCKVSNDVGADVSKSMYLTVKIPAMITSYPNTTLATQGQRKEMSCTAHGEKPIIVRWEKEDRIINPEMARYLVSTKEAGEEVMSTLQILPTVREDSGFFSCHAINSYGEDRGIIQLTVQEPPDPPEIEIKDVKARTITLRWTMGFDGNSPITGYDIECKNKSDSWDSAQRTKDVSPQLNSATIIDIHPSSTYSIRMYAKNRIGKSEPSNELTITADEAAPDGPPQEVHLEPMSSQSIRVTWKAPKKHLQNGIIRGYQIGYREYSTGGNFQFNIISIDTTGDSEVYTLDNLSKFTQYGLVVQACNRAGTGPSSQEIITTTLEDVPSYPPENVQAIATSPESISISWSTLSKDALNGILQGFRVIYWANLMDGELGEIKNVTTTQPSLELDGLEKYTNYSIQVLAFTRAGDGVRSEQIFTRTKEDVPGPPAGVKAAAASASMVFVSWLPPLKLNGIIRKYTVFCSHPYPTVISEFEASPDSFSYRIPNLSRNRQYSVWVVAVTSAGRGNSSEIITVEPLAKAPARILAFSGTVSTPWMKDIILPCKAVGDPPPAVKWMKDSNGTPSLVTIDGRRGIFSNGSFIIRTVKAEDSGYYSCVANNNWGSDEIILNLQVQVPPDQPRLTVSKTTSSSITLSWLPGDNGGSSIRGYILQYSEDNSEQWGSFPISPSERSYRLENLKCGTWYKFTLTAQNGVGPGRISEIIEAKTLGKEPQFSKEQELFASVNSTRVRLNLIGWNDGGCPITSFTLEYRPFGTAVWTTAQRTSLSKSYILYDLQEATWYELQMRVCNSAGCAEKQANFATLNYDGSTIPPLIKSVVQSDEGLATNEGLKMLVTISCILVGLLLLFVLLLVVRRRRREQRLKRLRDAKSLAEMLMSKNTRTSDTLSKQQQTLRMHIDIPRAQLLIEERDTMETIDDRSTVLLTDADFGEAAKQKSLTVTHTVHYQSVSQATGPLVDVSDGRPGTKLQQQGATAWAAGEKRELWSPVLEAGSPKSRCPPDPTTRRNAKAGPAARSRYASQWTLNRPHPTISAHTLTTDWRLPTPRAAGSVDKESDSYSVSPSQDTDRARSSMVSTESASSTYEELARAYEHAKMEEQLRHAKFTITECFISDTSSEQLTAGTNEYTDSLTSSTPSESGICRFTASPPKPQDGGRVMNMAVPKAHRPGDLIHLPPYLRMDFLLNRAAPGTSRDLTLGQACLEPQKSRTLKRPTALEPIPLEAASSSSSTREGQSWQQGAVATLPQREGAELGQAAKMSSSQESLLDSRGHLKGNNPYAKSYTLV