Sequence details bmy_10931 (Coding sequence)

Part of scaffold_582 (Scaffold)

For more information consult the page for scaffold_582 (Scaffold)

Potential Gene Matches

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

TP53BP1 ENSTTRG00000016238 (Bottlenosed dolphin)

Gene Details

tumor protein p53 binding protein 1

External Links

Gene match (Ensembl Protein ID: ENSTTRP00000015394, Bottlenosed dolphin)

Protein Percentage 93.39%
cDNA percentage 94.66%
Ka/Ks Ratio 0.59176 (Ka = 0.0219, Ks = 0.0371)

TP53BP1 ENSBTAG00000021304 (Cow)

Gene Details

tumor suppressor p53-binding protein 1

External Links

Gene match (Ensembl Protein ID: ENSBTAP00000028388, Cow)

Protein Percentage 91.22%
cDNA percentage 92.74%
Ka/Ks Ratio 0.29948 (Ka = 0.0479, Ks = 0.16)

TP53BP1  (Minke Whale)

Gene Details

tumor protein p53 binding protein 1

External Links

Gene match (Identifier: BACU016959, Minke Whale)

Protein Percentage 98.52%
cDNA percentage 98.88%
Ka/Ks Ratio 0.37041 (Ka = 0.0075, Ks = 0.0201)

Additional orthologs identified in other species via the OPTIC pipeline.

TP53BP1 (Human)   Trp53bp1 (Mouse)  

Genome Location

Sequence Coding sequence

Length: 5925 bp    Location:360156..433925   Strand:+
Raw sequence 
>bmy_10931
ATGGGCGAGCCGATACCGCGTGACGCGACGGGAAAGGGGGGGTTCGCGGCCCGTGGCGGCGGTGGCTACAGCGTCGACCTGGGGATCGAGCTGGAGGGACCTGGGGAGTGGGAGCAGATGGACCCTACTGGAAGTCMGTTGGAGTCAGATTTCTCTCAGCAAGACACTCCTTGCCTGATCATTGAAGATTCTCAGCCTGAAAGCCAGGTTCTAGACGATGATTCTGGTTCTCGCTTCAGTATGCTATCTCGACACCTTCCTAATCTACAGACGCACAAAGAGAACCCTGTGTTGGATGTTGTGTCCAATAGTGAACAAACAGCTGGAGAAGAACAAGGAGACAGTAATAGTGGCTTCAATGAACATCTGAAAGAAAACAAAGCTGCAGAGTCTATGGATTCTTCTCATTTGGACACGTGTGGTTCCATCAGTCAGGTCATTGAACAGTTACCTCAGCCAAATAGGACAAGCAGTGTTTTGGGAATGTCAGTGGAATCTGCTCCTCCTGTGGGTGAAGAGAAGGAAGAAGAGGTGGAAGAGAAGGAGAAAGAGGAAAAGGAAGGAGATATTTCAGATGATACCACACACTCCCTTGGTGCTGAAGATCCTGCCTCATCACAGCTGGGCTTTGGGATTCTAGAACTCTCCCAGAGCCAGGATGTTGAGGAACAAACTGTGCCACGTGAAGCAGACAAAGAGCCTCTACAGTCGGTAACCACCAACTCTGCTTATACTAGGCTATCTGATGTGGATGCTAATATTGCAATTAAGCATGAAGAACAGTCTAATGAAGGTAGCCCCATGGCAGCACAGCCCAGCAAGGATATCCCTGTGGCAGCACAGCCCAGTAAGGATGTACCTGTGGTAGAAGAGCAAAATTCACCACCTGCAAGGTCAGAGGACATGCCTGCTAGTCCCAAAGGCTCTCTTGCTGCTGTGGAAACAAAAGAACAAATATCTGTTCAAGAACTTCTGGAAGGTGGGATGCAGATTCAGAAGTCACCAGAGCCTGAGGTTTTGTCAACTCAGGAAGACTTGTTTGACCAGAGCAATAAAACAGTAGCGTCTGATGGTTGCTCTACTCCTTCAAGGGAGGAAGGTGGGTGTTCTTTGGCTTCCACACCTGCCACCACTTTGCACCTCCTGCAGCTCTCTGGTCAGAGGTCTCTTGTTCAGGAGAGTCTTTCCACGAATTCCTCAGACCTTGTTGCTCCTTCCCCTGACGCCTTCCGATCTACCCCCTTTATCGTTCCTAGCAGTCCCACAGAGCAAGAAGGGAGAAAAGATGAGCCAATGGATATGTCAGTGTTATCTGAAGGGAGAGAGTCTTTTCAGAAGAAACTCCAAGGTGATGAACCAGTAGAGATAGAAAACCCCCCTCTCCCACCTGAGCCCACTATATCACCACAAGCCTCAACACCGGACATTTTCATTCCATCTCCAAGTTTGGAAGAACGATCAAATGATGAGAAGAAGGATAGAGGTTTGCATAGTTCATCTTTGACTGTTGAGTATTCTAAAACTTCAGAGACTGAACCAAAGAATTCCTCTGAGGATCTTGGGCCTTCTTTGACAGGGGATTCTTGTAAGTTGATGCTTTCTACAAGTGAGTATAGTCAGTCCCCAAAGATAGAAAGTTTGAGTTCTCACAGGATTGATGAAGATGGAGAAAACACACAGATTGAGGATACTGAACCCATGTCTCCAGTTCTCAATTCTAAACTTGTTCTTGCTGAAAATGATAGTATCCTGATTAATCCAGCACAAGATGGCCAAGTAGAACTGAATCAGAATGATGATAAAACAAAGGGGGTTAACACAGAAAGCAGAGACGACATTAGTATTTTAGCTGATGGTTGCAAAGGCAGCGAAGAGACTGTGGCGGAAGACGTTTGTATTGATCTCACTTGCGATTCAGGTAGTCAGGCAGTTCCCTCTCCAGCTACTCGATCTGAGGCACTCTCTAGTGTGTTAGATCAGGAGGAAGCTATGGAAATTAAAGAACATCATCCAGAGGAGGGGTCTTCAGGGTCTGAGGTGGAAGAAATCCCTGAGACTCCTTGTGAAAGTCAAGGAGAGGAGCCCAAAGAAGAAAATATGGAGAGTGTTGCATTGCACCTTTCTCTGACTGAAACTCAGTCCCAGGGGCTGGGTCTTCCAAAGGAAGTCCCCAAACAGGAATGCCAGGAAGCTATGGAAGTTGAAACCAGTGTGATTAATATTGATTCCCCCCAAAAGCTTCCAGTACTTGACCAAGAATTGGAACATAAGGATCAGGAAGCATGGGAAGAAGCTACTTCAGAGGACTCGAGTGTTGTCATTGTAGATGTGAAGGAACCATCTCCCAGAGTTGATGTTTCTTCTGAACCTTTAGAGGTAGTGGAAAAATGCTCAGATTCTCAGTTRTGGGAGGATGATGCTCCAGAAATAGAACCATGTGCTGAGAATAGAGCAGATACCCAAGAAGAAAAGAGTGCAGAATATGAAGGAGATCTGAAATCAGTGACTGCAGAAAAAGAACCTGTAGAGGCAGACTCTTCGCAGCCTCCCTTGACTTTAGTGAGAACAGATGATGCTCCAGGACCTGACCAGGAAATGCAGCAGACCCAACCAAAAGAGACAACAGTTAGCACATTAAGGGAAGACTCAAAAATGGCTAATACAAAGCAGCTGGACTCAGGTGTAGGGGCCCAGCAACTGGAGAAAGCCTCTGCCCATGCCTCTCAAAGCTTCTGTGAAAGCTCTAGTGAAACTCCATTTCATTTTACTTTGCCTAAAGAAGGTGATATCATTCCACCATTGACTGGTGCAACTCCACCTCTTATTGGGCACCTAAAATTGGAGCCCAAGAGACACAGTACTCCTATTGGTATTAGCAACTATCCCGAAAGCACCATAGCAACCAGTGATGTCATGTCTGAAAGCATGGTGGAGACCAACGACCCCATGCTTGGGAATGAAAAAGGAGATTCTGGGGCTGCCCCAGAAATGGGTGATCAATTGTGTCTGAGAATGAAATTGGTCAGTCCTGAGACTGAGGCGAGTGAAGAGTCTTTGCAGTTTAGTCTGGAAAAGCCAGCAACTGGTGAAAGAAAAAATGGATCTACTGCTGTTGCTGAGGCTGTTGCCAGAAGACCATGTCTGCATTTAGCTGTGTCTGTGAAGCCCAGCGAGAGGATGAGGCTCGAAGTCAGGATTCCCCCTCTTACTCAAGATGAAGAGGAGAAGGGAAAATTAGAAGGTGACCAAAGGACCAGGCAGAGTCAACAGCCTGTGAAGCCCAGTAGTCCTGTCAAAGACCCTGCTTCTCCTGCCTCCCAGGAGGTGGCCACACAGGAGCCATCCAGTCCTCAAGGGGAAGCGATGGAGACAGATATGCCAGAAGGCCAGAAAGAAGGACAGAATGCCAGTCAGGGAAAATCTAGTGAAGCCTTGATTGAAAGGCCCAGCCAAAATAACATAGGAATCCAGACCATAGAGCATTCCCTGTGGGTCCCCAAAACTGTTTCAGCAGCAACTCAGACTGTAAAGAATGTGTGTGAACAAGGGACCAGTACAGTGGACCAGAACTCTGGAAAACAAGATGCCACAGTTCAGACTGAGAGGGGTAGTGGTGAGAAGCCAGTCAGTGCTCCTGGGGATGATACAGAGTCACTCCATAGCCAGGGAGAGGAAGAGTTTGATATGCCTCAGCCCCCTCATGGCCATGTCTTGCATCGCCACATGAGAACAATTCGTGAGGTTCGCACACTTGTCACTCGTGTCATCACAGATGTGTATTATGTGGACGGAACAGAGGTAGAAAGAAAAGTAACTGAGGAGACTGAAGAGCCAGTTGTAGAGTGTCAGGAGTGTGAAACTGAAGTTTCCCCTTCACAGACTGGGGGCTCTTCAGGTGACCTGGGGGATATCAGCTCCTTCTCCTCCAAGGCCTCCAGCTTACAACGCACGTCAAGTGGGACAAGTCTGTCAGCCATGCACAGCAGTGGCAGCTCAGGGAGAGGAGCCGGACCACTCAAAGGGAAAACCAGTGGGACAGAACCCGCAGATTTTGCCTTGCCCAGYTCCCGAGGAGGCCCAGGAAAACTGAGTCCTAGAAAAGGGGTCAGTCAGACAGGGACGCCAGTGTGTGAGGAGGATGGTGATGCGGGCCTTGGCATCAGACAGGGAGGGAAGGCTCCCGTCACGCCTCGTGGGCGCGGGCGAAGGGGCCGCCCGCCTTCTCGGACCACTGGAACCAGGGAAACAGCTGTGCCTGGCCCCTTGGGCATAGAGGACATTTCACCCAGCATGTCGCCAGACGATAAATCCTTCACCCGTACTGTGCCCCGCGTGCCAGACTCCACCAGACGAGCAGACATGGGTGCTGGTGCTTTGCGTCGAAGCGACTCTCCAGAGATTCCTTTCCAGACTGCTGCTGGCCCTTCTGATGGCTTAGATGCCTCCTCTCCAGGGAACAGCTTTGTAGGGCTCCGTGTTGTAGCCAAGTGGTCATCCAATGGCTATTTTTACTCTGGAAAAATCACGCGAGATGTTGGAGCTGGGAAGTATAAATTGCTCTTTGATGATGGGTATGAGTGTGATGTGTTGGGCAAAGACATTCTGCTGTGTGACCCCATCCCACTGGATACAGAAGTGACAGCCCTTTCGGAGGATGAGTATTTCAGTGCAGGAGTGGTGAAAGGGCATAGGAAGGAGTCTGGAGAGCTGTACTACAGCATTGAAAAAGAAGGCCAAAGGAAGTGGTATAAGCGAATGGCTGTCATCTTGTCCTTGGAGCAAGGAAACAGACTGAGAGAGCAGTACGGCCTAGGCCCATATGAGGCAGTGACGCCCCTCACCAAGGCAGCAGATATCAGCTTAGACAATTTGGTGGAAGGGAAACGGAAGCGGCGAAGTAACATCAGCTCCCCCGCCACCCCCACTGCCTCCAGCAGCAGCAGTACAACCCCTACCCGAAAGATCACAGAAAGCCCTCGTGCCTCCACCGGAGTTCCCTCAGGCAAAAGAAAACTTCCCACTTCTGAGGAGGAACGGTCCCCTGCCAAGCGAGGCCGGAAATCTGCCACTGTGAAACCCGGTGCAGTGGGGGCAGGAGAGTTTGTGAGCCCCTGTGAGAGTGGAGACAACATGGGTGAACCCTCTGCCCTGGAAGAGCAGAGAGGGCCTCTGCCCCTCAACAAGACCTTGTTTCTGGGCTATGCCTTTCTCCTCACCATGGCCACAACAAGTGACAAGTTGGCTAGCCGCTCCAAATTGCCAGATGGTCCTACAGGAAGCAGCGAGGAAGAGGAGGAATTTTTAGAAATTCCTCCTTTCAACAAGCAATACACAGAATCCCAGCTTCGAGCAGGAGCTGGCTATATTCTCGAAGACTTCAATGAAGCCCAGTGTAATACAGCCTACCAGTGTCTCCTAATTGCGGATCAGCATTGTCGAACCCGGAAGTACTTCCTGTGCCTTGCCAGTGGGATTCCTTGTGTGTCTCATGTCTGGGTCCATGATAGTTGCCAYGCCAACCAGCTCCAGAATTACCGCAATTATCTGCTGCCAGCTGGGTACAGCCTCGACGAGCAAAGAATTCTGGATTGGCAACCCCGTGAAAACCCTTTCCAGAATCTGAAGGTACTCTTGGTATCAGACCAACAGCAGAACTTCCTGGAGCTCTGGTCTGAGATCCTCATGACTGGGGGGGCAGCCTCTGTGAAGCAGCACCATTCAAGTGCCCATAACAAAGATATTGCTTTAGGGGTATTTGATGTGGTGGTGACGGACCCCTCGTGCCCAGCCTCGGTGCTGAAGTGTGCTGAAGCATTGCAGCTGCCTGTGGTGTCACAAGAGTGGGTGATCCAGTGCCTCATTGTTGGGCAGAGAATTGGATTCAAGCAGCATCCAAAATATAAACACGATTATGTTTCTCACTAA

Related Sequences

bmy_10931T0 Protein

Length: 1975 aa      View alignments
>bmy_10931T0
MGEPIPRDATGKGGFAARGGGGYSVDLGIELEGPGEWEQMDPTGSXLESDFSQQDTPCLIIEDSQPESQVLDDDSGSRFSMLSRHLPNLQTHKENPVLDVVSNSEQTAGEEQGDSNSGFNEHLKENKAAESMDSSHLDTCGSISQVIEQLPQPNRTSSVLGMSVESAPPVGEEKEEEVEEKEKEEKEGDISDDTTHSLGAEDPASSQLGFGILELSQSQDVEEQTVPREADKEPLQSVTTNSAYTRLSDVDANIAIKHEEQSNEGSPMAAQPSKDIPVAAQPSKDVPVVEEQNSPPARSEDMPASPKGSLAAVETKEQISVQELLEGGMQIQKSPEPEVLSTQEDLFDQSNKTVASDGCSTPSREEGGCSLASTPATTLHLLQLSGQRSLVQESLSTNSSDLVAPSPDAFRSTPFIVPSSPTEQEGRKDEPMDMSVLSEGRESFQKKLQGDEPVEIENPPLPPEPTISPQASTPDIFIPSPSLEERSNDEKKDRGLHSSSLTVEYSKTSETEPKNSSEDLGPSLTGDSCKLMLSTSEYSQSPKIESLSSHRIDEDGENTQIEDTEPMSPVLNSKLVLAENDSILINPAQDGQVELNQNDDKTKGVNTESRDDISILADGCKGSEETVAEDVCIDLTCDSGSQAVPSPATRSEALSSVLDQEEAMEIKEHHPEEGSSGSEVEEIPETPCESQGEEPKEENMESVALHLSLTETQSQGLGLPKEVPKQECQEAMEVETSVINIDSPQKLPVLDQELEHKDQEAWEEATSEDSSVVIVDVKEPSPRVDVSSEPLEVVEKCSDSQLWEDDAPEIEPCAENRADTQEEKSAEYEGDLKSVTAEKEPVEADSSQPPLTLVRTDDAPGPDQEMQQTQPKETTVSTLREDSKMANTKQLDSGVGAQQLEKASAHASQSFCESSSETPFHFTLPKEGDIIPPLTGATPPLIGHLKLEPKRHSTPIGISNYPESTIATSDVMSESMVETNDPMLGNEKGDSGAAPEMGDQLCLRMKLVSPETEASEESLQFSLEKPATGERKNGSTAVAEAVARRPCLHLAVSVKPSERMRLEVRIPPLTQDEEEKGKLEGDQRTRQSQQPVKPSSPVKDPASPASQEVATQEPSSPQGEAMETDMPEGQKEGQNASQGKSSEALIERPSQNNIGIQTIEHSLWVPKTVSAATQTVKNVCEQGTSTVDQNSGKQDATVQTERGSGEKPVSAPGDDTESLHSQGEEEFDMPQPPHGHVLHRHMRTIREVRTLVTRVITDVYYVDGTEVERKVTEETEEPVVECQECETEVSPSQTGGSSGDLGDISSFSSKASSLQRTSSGTSLSAMHSSGSSGRGAGPLKGKTSGTEPADFALPSSRGGPGKLSPRKGVSQTGTPVCEEDGDAGLGIRQGGKAPVTPRGRGRRGRPPSRTTGTRETAVPGPLGIEDISPSMSPDDKSFTRTVPRVPDSTRRADMGAGALRRSDSPEIPFQTAAGPSDGLDASSPGNSFVGLRVVAKWSSNGYFYSGKITRDVGAGKYKLLFDDGYECDVLGKDILLCDPIPLDTEVTALSEDEYFSAGVVKGHRKESGELYYSIEKEGQRKWYKRMAVILSLEQGNRLREQYGLGPYEAVTPLTKAADISLDNLVEGKRKRRSNISSPATPTASSSSSTTPTRKITESPRASTGVPSGKRKLPTSEEERSPAKRGRKSATVKPGAVGAGEFVSPCESGDNMGEPSALEEQRGPLPLNKTLFLGYAFLLTMATTSDKLASRSKLPDGPTGSSEEEEEFLEIPPFNKQYTESQLRAGAGYILEDFNEAQCNTAYQCLLIADQHCRTRKYFLCLASGIPCVSHVWVHDSCHANQLQNYRNYLLPAGYSLDEQRILDWQPRENPFQNLKVLLVSDQQQNFLELWSEILMTGGAASVKQHHSSAHNKDIALGVFDVVVTDPSCPASVLKCAEALQLPVVSQEWVIQCLIVGQRIGFKQHPKYKHDYVSH*