Sequence details bmy_00733 (Coding sequence)

Part of scaffold_13 (Scaffold)

For more information consult the page for scaffold_13 (Scaffold)

Potential Gene Matches

The following genes have been identified as possible orthologs in this organism.

SETD1A ENSTTRG00000015493 (Bottlenosed dolphin)

Gene Details

SET domain containing 1A

External Links

Gene match (Ensembl Protein ID: ENSTTRP00000014681, Bottlenosed dolphin)

Protein Percentage 98.86%
cDNA percentage 98.09%
Ka/Ks Ratio 0.09731 (Ka = 0.0056, Ks = 0.0571)

SETD1A ENSBTAG00000002345 (Cow)

Gene Details

histone-lysine N-methyltransferase SETD1A

External Links

Gene match (Ensembl Protein ID: ENSBTAP00000003027, Cow)

Protein Percentage 95.81%
cDNA percentage 93.32%
Ka/Ks Ratio 0.08186 (Ka = 0.0197, Ks = 0.2404)

SETD1A  (Minke Whale)

Gene Details

SET domain containing 1A

External Links

Gene match (Identifier: BACU011948, Minke Whale)

Protein Percentage 99.12%
cDNA percentage 98.95%
Ka/Ks Ratio 0.15685 (Ka = 0.0038, Ks = 0.0245)

Additional orthologs identified in other species via the OPTIC pipeline.

SETD1A (Human)   Setd1a (Mouse)  

Genome Location

Sequence Coding sequence

Length: 4740 bp    Location:1174822..1153136   Strand:-
Raw sequence 
>bmy_00733
ATGGATCAGGAAGGTGGGGGAGATGGGCAGAAGGCCCCGAGCTTCCAGTGGAGGAACTACAAGCTCATCGTGGATCCTGCCTTGGACCCTGCCCTGCGCAGGCCTTCTCAAAAGGTGTACCGATACGATGGAATCCACTTCAGTGTCAACGACTCAAAGTATATACCAGTGGAAGACCTCCAAGACCCCCGTTGCCACGTCAGGTCCAAAAACAGAGACTTTTCCCTCCCAGTCCCTAAGTTTAAGCTGGATGAATTCTATATCGGACAGATCCCACTGAAAGAAGTGACTTTCGCAAGACTGAATGACAACGTGCGGGAGACCTTCCTGAAGGACATGTGCCGAAAGTATGGCGAGGTGGAAGARGTAGAGATCCTTCTTCACCCCCGTACTCGCAAGCACCTGGGCCTAGCCCGTGTGCTCTTCACCAGCACTCGGGGAGCCAAGGAAACAGTCAAAAACCTCCACCTTACCTCCGTCATGGGCAACATCATCCATGCCCAGCTCGACATCAAAGGACAACAACGAATGAAGTACTATGAACTGATAGTCAATGGCTCCTACACYCCTCAGACAGTGCCCACTGGGGGCAAGGCCCTGAATGAGAAGTTCCAAGGCTCTGGTGCAGCCACTGAGACGACTGAATCCCGCCGCCGCTCCTCCTCCGACACAGCTGCCTTCCCAGCAGGCACTGCTGTGGTGGGCACTCCTGGCAATGGCACCCCGTGCTCCCAGGACACAAGCTTCTCCAGCAGCCGACAAGACACCCCATCTTCCTTCGGCCAGTTCACCCCTCAGTCCTCCCAAGGAACCCCCTACACGTCTCGGGGCAGCACCCCCTACTCTCAGGATTCTGCCTACTCCAGCAGCACCACTTCAGCCTCCTTCAAGCCCCGGCGGTCAGAGAACAGCTACCAAGATTCCTTCTCCCGCCGCCATTTCTCTGCGTCTTCAGCCCCCACGACCACCTCTGCAGCCGTCTCCGCCACCACTGCAGCCACCGCCGCATCCTCCTCTTCTTCCTCCTCGTTGGCCTCGTCCTCTTCATCGTCCTCTTCTTCCTCATCCTCTCATTTTCGTGGTTCTGACTCAAACTACCCAGCATATTATGAAAGCTGGAATCGCTACCAACGCCATGCTTCCTACCCACCCCGCCGGGCAACTCGGGAGGAGACCCCTGGGGCACCTTTTGCCGAAAATACAGCTGAGCGCTTCCCACCTTCCTACACCTCCTACTTGCCCCCTGAGCCCAACCGGCCTGCTGACCAGGACTACCGGCCTCCTGCCTCAGAAGCTCCACCCCCAGAGCCTCCAGAACCTGGTGGAGGCGGGGGTGGTGGGGGGCCCAGCCCTGAGAGGGAAGAAGCTCGGACCTCCCCCCGCCCAGCCTCACCTGCCCGTTCCGGCTCTCCGGCCCCAGAGACCACCAATGAGAGTGTGCCCTTCGCTCAGCACAGCAGCCTGGATTCCCGCATTGAGATGTTGTTGAAGGAGCAGCGTTCCAAGTTTTCTTTCCTGGCTTCTGACACCGAGGAAGAGGAAGAGAACAGTACCACGGGCCCTGGGGCTAGGGACACAGGGAGCGAGGTTCCTTCTGGGTCAGGTCACGGGCCCTGCACGCCCCCTCCAGCCCCGGCGAATTTTGAGGATGTGGCACCTACAGGGAGTGGGGAACCAGGAGCTACCCGGGAGTCACCCAAAGCCAACGGACAGAACCAGCTCATGGATCGACTTGGGGCTCAGTGGGGAGGGATGCCCATGTCCTTCCAGATGCAGACCCAGATGTTAACTCGGCTCCACCAACTGCGGCAGGGCAAAGGATTGACCGCTGCCTCAGCTGGTCCCCCTGGTGGGGCTTTTGCGGAGGCCTTCCTCCCATTCCCGCCCCCCCAAGAGGCAGCCTATGGCCTACCATATGCTCTGTACACGCAAGGGCAAGAAGGCCGAGGGGCATACTCCCGGGAGGCCTACCAGCTGCCTTTGCCCATGGCAGCCGAGCCCCTGCCCTCCTCCTCAGTCTCAGGAGAAGAGGCCAGGCTGCCTCCCAGGGAGGACGCAGAGCTGGCAGAGGGCAAGGCCCTGCCATCGGCAGGCACCGTGGGCCGTGTGCTGGCCACCCTAGTCCAAGAGATGAAGAGCATCATGCAGCGAGACCTCAACCGCAAGATGGTGGAGAATGTGGCCTTTGGAGCCTTTGACCAGTGGTGGGAGAGCAAGGAAGAGAAGGCCAAGCCATTCCAGAATGCAGCTAAACAGCAAGCCAAGGAGGAGGATAAAGAGAAGACAAAGCTCAAAGAGCCAGGCCTGCTGTCCYTGGTAGACTGGGCCAAGAGTGGGGGTACCACCGGCATCGAAGCCTTCGCCTTTGGGTCAGGACTGCGAGGAGCCCTGCGGCTGCCTTCTTTCAAGGTAAAGCGAAAAGAGCCTTCGGAAATTTCAGAGGCCAGTGAGGAAAAGAGGCCCCGGCCTTCTACTCCAGCCGAGGAAGATGAAGATGATGCTGAGCGAGAGAAGGAGGTTGGAGAGCCAGGACGTCCGGGGACCAAGCCCCCAAAACGAGATGAAGAGCGAAGCAAGACCCAGGGCAAGCACCGCAAGTCCTTTGCTCTGGACAGCGAGGGGGAGGAGGCATCCCAGGAGTCCTCGTCAGAGAAGGATGAGGAGGACGAGGAGGAAGATGAGGACGATGAAGAGCGTGAAGAAGCCATGGATGCTGCAAAGAAGGAGACAGRGGCATCAGACGATGGTGAGAATGATAGCGCATCGGACTCGGAGAGCAGCAGCTCATCCAGCTCCGCATCTTCTTCATCTTCTTCATCTTCTTCCTCATCGTCCTCCTCATCATCTGAGTCCTCCTCTGAAGAAGAAGAGGAAGAGGAGCAGCCAGCAACCATACCCTCAGCATCATCGCCCCCCAGAGATGTCCCCGTGCCCCTGCCAGCACCTGCGGAGGAGCCTGAGCCAGAAAGGGTTGCAGACTCCCCAGTCACACCTCTCCCCGAACAGGAGAAGTCTCCAGCAAGACCTGCAGGTTCCACGGAGGAGCCGCCCCCCAGTGTGCCCCAGCCAACCCCAGAGCCACCGGCTGGGCCCCCGGCCCCCGCCCCCCGCCCCGACGAGCGCCCCTCCTCTCCCATCCCCCTCCTGCCCCCACCCAAGAAACGCCGGAAAACCGTCTCCTTCTCTGCAGTGGAGGAGGTGCCGGCCCCAGAGCCTCCCCCCGCTGCCCCACCGCAGGTCAAGTCTCCCGGCCCCGCCTCCCGCAAAGTCCCCCGGGCTGTGGAGCGGACCATTCGCAACCTGCCCCTGGACCACGCGTCTCTGGTCAAGAGTTGGCCTGAGGAGGTGTCCCGAGGAGGCCGGAGCCGGGCTGGAGGCCGATGCCGCTCCACCGAGGAAGAGGAGGCTGAGCCAGGGACAGAAGTGGACCTGGCCGTGCTGGCCGACCTGGCTCTGACCCCAGCCCGACGCGGGCTGCCCGCCCTGCCCACTGGCGACGACTCAGAGGCCACAGAGACATTGGACGAGGCGGACCGCCAGGGCCCCCTGCTCAGCCACATCCTCCTGGAGCACAACTATGCCCTGGCCATCAAGCCGCCGCCCTCCACGCCGGCCCCTCGGCCCCTGGAGCCAGTTCCTGCCCCTGCGGCCCTCTTCAGCTCCCCGGCAGACGAGGTCCTGGAGGCCCCTGAGGTGGTGGTGGCTGAGGCGGAGGAGCCAAAGCAGCAGCAGCAGCGGCAGGAGGATGGGGAGGAGGAGGAGGAGGAGGAGTCGGAGTCGTCGGAGAGCAGCAGCAGCAGCAGCAGCGATGGCGAGGGCGCCACCCGGCGGCGCAGCCTCCGCTCCCACACGCGGCGCCGGCGGCCGCCCCCGCCCCCCCCGCCCCCGCCGCCCCCCACCTTCGAGCCCCGCAGCGAGTTTGAGCAGATGACCATCCTGTATGACATTTGGAACTCGGGCCTGGACTTGGAGGACATGGGCTTCCTGCGGCTCACATACGAGCGGCTGCTGCAGCAGACTAGTGGGGCTGATTGGCTTAACGACACCCACTGGCGGCGGCCCCAGGATGGGCCCCGCGAGCACCAGACAGGCTCGGCCCGCAGCGAAGGCTACTACCCCATCAGCAAGAAGGAGAAGGACAGGTACCTGGACGTGTGCCCCGTCTCGGCCCGGCAGCTGGAAGGAGCGGACACTCAGGGGACTAACCGTGTGCTTTCGGAGCGCCGTTCTGAGCAGCGGCGGCTCCTGAGCGCCATCGGCACCTCCGCCATCATGGACAGCGACCTGCTGAAGTTAAACCAGCTCAAGTTCCGGAAGAAGAAGCTCCGATTCGGCCGGAGCCGGATCCATGAGTGGGGGCTCTTTGCCATGGAACCCATCGCAGCTGACGAGATGGTCATCGAATACGTGGGTCAGAACATCCGCCAGATGGTGGCCGACATGCGGGAGAAGCGCTACGTGCAAGAGGGCATTGGCAGCAGCTACCTGTTCCGGGTGGACCACGACACCATCATCGACGCCACCAAGTGTGGCAACCTGGCGAGGTTCATCAACCACTGCTGCACGCCCAACTGCTATGCCAAGGTGATCACCATCGAGTCCCAGAAGAAGATCGTGATCTACTCCAAGCAGCCCATCGGCGTGGATGAGGAGATCACCTATGACTACAAGTTCCCGCTGGAGGACAACAAGATCCCGTGTCTATGTGGCACCGAAAGCTGCCGCGGCTCCCTCAACTGA

Related Sequences

bmy_00733T0 Protein

Length: 1580 aa      View alignments
>bmy_00733T0
MDQEGGGDGQKAPSFQWRNYKLIVDPALDPALRRPSQKVYRYDGIHFSVNDSKYIPVEDLQDPRCHVRSKNRDFSLPVPKFKLDEFYIGQIPLKEVTFARLNDNVRETFLKDMCRKYGEVEEVEILLHPRTRKHLGLARVLFTSTRGAKETVKNLHLTSVMGNIIHAQLDIKGQQRMKYYELIVNGSYTPQTVPTGGKALNEKFQGSGAATETTESRRRSSSDTAAFPAGTAVVGTPGNGTPCSQDTSFSSSRQDTPSSFGQFTPQSSQGTPYTSRGSTPYSQDSAYSSSTTSASFKPRRSENSYQDSFSRRHFSASSAPTTTSAAVSATTAATAASSSSSSSLASSSSSSSSSSSSHFRGSDSNYPAYYESWNRYQRHASYPPRRATREETPGAPFAENTAERFPPSYTSYLPPEPNRPADQDYRPPASEAPPPEPPEPGGGGGGGGPSPEREEARTSPRPASPARSGSPAPETTNESVPFAQHSSLDSRIEMLLKEQRSKFSFLASDTEEEEENSTTGPGARDTGSEVPSGSGHGPCTPPPAPANFEDVAPTGSGEPGATRESPKANGQNQLMDRLGAQWGGMPMSFQMQTQMLTRLHQLRQGKGLTAASAGPPGGAFAEAFLPFPPPQEAAYGLPYALYTQGQEGRGAYSREAYQLPLPMAAEPLPSSSVSGEEARLPPREDAELAEGKALPSAGTVGRVLATLVQEMKSIMQRDLNRKMVENVAFGAFDQWWESKEEKAKPFQNAAKQQAKEEDKEKTKLKEPGLLSLVDWAKSGGTTGIEAFAFGSGLRGALRLPSFKVKRKEPSEISEASEEKRPRPSTPAEEDEDDAEREKEVGEPGRPGTKPPKRDEERSKTQGKHRKSFALDSEGEEASQESSSEKDEEDEEEDEDDEEREEAMDAAKKETXASDDGENDSASDSESSSSSSSASSSSSSSSSSSSSSSSESSSEEEEEEEQPATIPSASSPPRDVPVPLPAPAEEPEPERVADSPVTPLPEQEKSPARPAGSTEEPPPSVPQPTPEPPAGPPAPAPRPDERPSSPIPLLPPPKKRRKTVSFSAVEEVPAPEPPPAAPPQVKSPGPASRKVPRAVERTIRNLPLDHASLVKSWPEEVSRGGRSRAGGRCRSTEEEEAEPGTEVDLAVLADLALTPARRGLPALPTGDDSEATETLDEADRQGPLLSHILLEHNYALAIKPPPSTPAPRPLEPVPAPAALFSSPADEVLEAPEVVVAEAEEPKQQQQRQEDGEEEEEEESESSESSSSSSSDGEGATRRRSLRSHTRRRRPPPPPPPPPPPTFEPRSEFEQMTILYDIWNSGLDLEDMGFLRLTYERLLQQTSGADWLNDTHWRRPQDGPREHQTGSARSEGYYPISKKEKDRYLDVCPVSARQLEGADTQGTNRVLSERRSEQRRLLSAIGTSAIMDSDLLKLNQLKFRKKKLRFGRSRIHEWGLFAMEPIAADEMVIEYVGQNIRQMVADMREKRYVQEGIGSSYLFRVDHDTIIDATKCGNLARFINHCCTPNCYAKVITIESQKKIVIYSKQPIGVDEEITYDYKFPLEDNKIPCLCGTESCRGSLN*