New model in OGS2.0 | DPOGS203657  |
---|---|
Genomic Position | scaffold528:+ 8032-15089 |
See gene structure | |
CDS Length | 4161 |
Paired RNAseq reads   | 1726 |
Single RNAseq reads   | 4949 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA003454 (0.0) |
Best Drosophila hit   | neither inactivation nor afterpotential C, isoform A (1e-180) |
Best Human hit | myosin-IIIa (0.0) |
Best NR hit (blastp)   | PREDICTED: similar to myosin IIIA [Apis mellifera] (0.0) |
Best NR hit (blastx)   | myosin iii [Culex quinquefasciatus] (0.0) |
GeneOntology terms    | GO:0031941 filamentous actin GO:0007601 visual perception GO:0030898 actin-dependent ATPase activity GO:0030175 filopodium GO:0016740 transferase activity GO:0060002 plus-end directed microfilament motor activity GO:0000166 nucleotide binding GO:0003779 actin binding GO:0005856 cytoskeleton GO:0004672 protein kinase activity GO:0007605 sensory perception of sound GO:0046777 protein amino acid autophosphorylation GO:0004674 protein serine/threonine kinase activity GO:0000146 microfilament motor activity GO:0005516 calmodulin binding GO:0005737 cytoplasm GO:0016459 myosin complex GO:0050896 response to stimulus GO:0043531 ADP binding GO:0005524 ATP binding |
InterPro families    | IPR002290 Serine/threonine-protein kinase domain IPR020635 Tyrosine-protein kinase, catalytic domain IPR001609 Myosin head, motor domain IPR000048 IQ motif, EF-hand binding site IPR017442 Serine/threonine-protein kinase-like domain IPR011009 Protein kinase-like domain IPR000719 Protein kinase, catalytic domain IPR017441 Protein kinase, ATP binding site IPR008271 Serine/threonine-protein kinase, active site |
Orthology group | MCL10299 |
Nucleotide sequence:
ATGCGCAGTGACGTGGCGTACCGGGGTCTCTCGCAGCACGTAGAGTTAGATCGGGCTGCT
GACCCTCGGGACAGGTTCACACTGCAAGAGCTGATAGGTGAAGGAACGTATGGAGAAGTA
TATTGCGCTAAAGACAAAAAGTCCGGCAAACGAGTGGCTATAAAGATATTAGAAAATATT
GCTGAAAATATTGAAGAAATTGAAGAAGAATTTCTTGTATTTAGAGATTTATCAAGTCAC
CCTAATATACCAGAATTTTTCGGTCTCTTCTTAAAGCGGGGAGTCTCTTCTGAAGATGAT
CAAATATGGTTTGTCATGGAGTTATGTACTGGGGGTTCTGTGACCGATCTATGTGCAGGC
ATGCGATCTAGGGGTAGTCGTTTAACAGAACCACAATTAGCATATGTTCTTAGAGGAACG
GTCCGAGCTTTGACTCATCTTCATGCTCATCGATGTATGCACCGTGACGTCAAAGGACAT
AACATACTTTTAACCGAAAATGCTGAGGTAAAACTTGTCGATTTTGGAGTATCATCCCAT
TTGGCAGCTACAGTGGCAAGAAGAAACACATCTGTTGGTACTCCTTATTGGATGGCGCCA
GAGGTGATTGCTTGTGAGCAGCAATTGGATCAATCCTATGATTCTCGATGTGATGTTTGG
TCAGTAGGTATAACTGCTATTGAATTAGCAGAAGGAGAACCACCGCTATCAGGGTTACAT
CCAATGCGAGCATTGTTTCAAATCCCACGAAACCCGCCACCTACTTTATCTCATCCTGAA
ATATTTTCACCTCAGTTAGCTGATTTTATATCTGAATGCTTAGTCAAAGATATGAACCAA
AGACCATTCGCTCGAGAGCTTTTAGAACATCCATTATTATTAGCAGTCAATAACTTTGAG
GATAAAATTCGTAAAGAACTACATGCTGAAATTAAAAGGCAAAGAGCTGATGGCAGAAAA
AGCCGTGCTCCGGAGGCTACAACTAAGAGAGGAAAACTTAAATCACATAGAAAAGCCAAA
CCAGAAAAAATGTACACGGATGACTTGGCTACTCTCGAAACTCTGACAGAGGATGCAATT
GTCGAGCAACTACAAAAACGATATTCACAGAATCAAATTTATACATACATTGGAGATATA
TTGGTTGCAGTTAATCCCTTTACTGATATAGGAATATACACCACAAAGACGCAACAACTA
TATCAAGGTCGCTGCCGGTCCGACAATTCTCCCCATATTTATGCTGTAGCTGATGCTGCT
CACCAAGCCTTGATGCATCAAAAACAAAATCAGGCCATTGTTATATCTGGAGAAAGCGGC
GCCGGGAAAACTGAATCAGCCAATCTTCTTTTGAAACAACTAGTCTTTTTGTCAAAAACT
CAATATGGTAACTTAGAAGATAAAATTCTGCAAGTTAATCCAATTATGGAAGCTTTCGGT
AATGCACGCACCGGTATTAACGCAAACAGCTCGCGATTTGGAAAATATCTAGACCTGGCC
ATAATGAGAGTTGGCAGAATATCTGGAGCACGCATATCTGTTTATTTATTAGAACAGTCC
AGAGTTGTTCATCAGGCATTGGGAGAAAGTAATTTCCACGTCTTTTATTACCTGTATGAT
GGATTAGAAAGCGAAGGTCGTTGGAGAAAATTCTACCTGGATGAGCAATTAAAATCCAGA
CATCGATATTTGCAACCTTTATCTGTTGTTCATCGAGATCATAATTTACATCGATGGCGT
CAGTTGAATCAAGCTTTTAAGGTGGTTGGTTTTCAAGATGAAGAAGTACAAATTATATAC
AGAATGCTCGCGGCTATTTTGCACCTCGGAGACATAGAATTCGCGGAAACTGCTGGCGAA
CATAATTCTGACAATAAAGCGACAATCATAGATACAGCACCTTTGCATAGAGCTTCTTGT
CTATTGGGTGTGGAAACAAGTGATCTTCGAGAATGCTTGACTAGCAGTAGTGTGGTTACA
AAGGGTGAAACAATTGCTCGCTACCATTCACCCACAGAAGCCGCAGTTGCGAGAGACGCC
ACTTCCAGGGGAATTTACGCAAGAGCTTTCGACCGAATCGTTGAGAGAATAAATGCACTT
CTTTCTCAAAATAGACCTCAGAGTGATCAGTTATCGATTGGAATTCTTGATATTTTCGGC
TTTGAAAACTTCACTAGAAACTCTTTTGAACAACTATGCATAAACATAGCAAATGAACAA
ATACAATATTATTTCAACCAACATATATTCACCTGGGAACAACAAGAATATATGGCTGAG
GGTGTGCCAGTTGATCTTGTTGAATTTTCTGATAATAGGCCTGTTTTGGATATGCTTCTT
TCAAGACCAATGGGTTTACTTGCTCTACTTGACGAAGAAAGCAGATTTCCACGTTCCACA
GACAGAAGCTTAATTGAAAAATTTCATCGTAACATTAAAAGCAAATTTTACGTTCGACCA
AAGTCAAATGCCGTGTGCTTTGCCATTCATCACTTTGCCGGCCGTGTTGTGTATCAAGCG
GATGGGTTCTTAGAGAAAAATAGAAATTTCTTACCACCAGAAGTGGTACAGTTAATGCGA
CAGAGCCAATATGATATCATAAGATTTTTATTCCAATGTCCAATAACAAAAACCGGTAAT
CTTTTTTCTTCATTCCACGGGGACATGGAGGCCAGAAGTTTAGAGAGTCCAACTGGAATT
ATAAGGGATCGGTTTAACAGTCGAGGTCTTGCATCACAGTCAAGGGCTCAACAAACTGTA
TCAACATATTTTCGGTTCTCTTTAATGGAATTACTTCAAAAGATGGTTAGTGGGACACCA
CAGTTCATAAGGTGTCTTAAACCAAACGATTCTCGATCACCTAAACATTTTGATTCAGCT
AAGATACTTAAACAACTAAGGTATACGGGAGTATTAGAGACGATTCGAATAAGGCAAAAC
GGATTTTCTCATCGGCTTACATTTGAGGAATTCTTGAAAAGGTATGGATTTTTAGCCTAT
AGTTACGATGAAGAAATTAAGCCTAATAGAGATTCATGTCGACTTCTCTTACTGCGTCTT
AAAATGGACGGTTGGGCACTCGGAAAGTCCAAGGTTTTTCTCAAATACTATCACGTTGAA
GTTCTTGCTAGAATTTATGAAGAACAGATAAGAAAAGTAGTATTGGTACAAGCCTGTGTT
AGAGGTTGGTTAGCTCGACGTAACTATTTACGATTAAAGGCCCAGATGGCAATATCAGTG
CTTACATTACAAAGACATGTACGCGGTTGGCTTACAAGAAAGAGGCTAAAAGAGAGACAA
AAACAATTGGCAAGGGAATTCCAAAAAGGGCAACAGGAGCAGGAAAACCAAAGGAAGCAA
CGAAATGCGGATTTCCGTGGCTACAACACACGTCGTCGTATGGCTAAAAACCGCCAGGCA
CCGCCACCGCCACAGCACGCAGCACCGGCTCCACCAACACAGCAACATATCATGCAGCAG
TTCTCTGTGCAAGAGAGAGCAGCTCAATTGCAAAACTTTGCTGAACAGATTCACAACCAA
AATCAAGAGGTACATAAAAATTTACGCCGAAATAAGCCAGGTATACGTCTTCGAGATGTA
CAGAAGCCTCCAGAAGAATATCATCCTCCTCCAGGATTTAGTGTTGTCCCTGGTATTATA
AAAGAACAGCGGACGCAAGTTGAACGAGATGCAAGTCGACTTTCAAGATCTAACGATAAC
GAGAGGGACAGTAAGGACAAGCCCCTGCAAACAAATAAAAACTGGCCAAATTTGCCTTGC
AATAGGCAATGTAGCGGTCTTGTAAGTAACAAAATTAATCAACTTGTGAAGCAAACGCAA
AAAAATACACCTCCACCCCGTCCTGTTTACAATTCAGCTAATGATCCGGAATCAGATCTG
CGCAAAATACTTCGAAATTCACCAGAAATGCTCGCAACACCCGTGTTTAGTTCAGACGAA
GATTACACTGATGGACCTTTTAGATTCAAACAGCTACTGCGGCCAACTCTTGGTCCCACT
GAAAGCTTAAGGAAGCGTAAAGTACGTGCTTCATCAGGTCGTAGTCCTTGGATGTCAGAC
AGCTCCCAAGACAGCAACAGTTCTAAAGAGCTGTATAACAAAAGACGTCCACAAATAAGC
ATGGGTGTTTATTATAATTAA
Protein sequence:
MRSDVAYRGLSQHVELDRAADPRDRFTLQELIGEGTYGEVYCAKDKKSGKRVAIKILENI
AENIEEIEEEFLVFRDLSSHPNIPEFFGLFLKRGVSSEDDQIWFVMELCTGGSVTDLCAG
MRSRGSRLTEPQLAYVLRGTVRALTHLHAHRCMHRDVKGHNILLTENAEVKLVDFGVSSH
LAATVARRNTSVGTPYWMAPEVIACEQQLDQSYDSRCDVWSVGITAIELAEGEPPLSGLH
PMRALFQIPRNPPPTLSHPEIFSPQLADFISECLVKDMNQRPFARELLEHPLLLAVNNFE
DKIRKELHAEIKRQRADGRKSRAPEATTKRGKLKSHRKAKPEKMYTDDLATLETLTEDAI
VEQLQKRYSQNQIYTYIGDILVAVNPFTDIGIYTTKTQQLYQGRCRSDNSPHIYAVADAA
HQALMHQKQNQAIVISGESGAGKTESANLLLKQLVFLSKTQYGNLEDKILQVNPIMEAFG
NARTGINANSSRFGKYLDLAIMRVGRISGARISVYLLEQSRVVHQALGESNFHVFYYLYD
GLESEGRWRKFYLDEQLKSRHRYLQPLSVVHRDHNLHRWRQLNQAFKVVGFQDEEVQIIY
RMLAAILHLGDIEFAETAGEHNSDNKATIIDTAPLHRASCLLGVETSDLRECLTSSSVVT
KGETIARYHSPTEAAVARDATSRGIYARAFDRIVERINALLSQNRPQSDQLSIGILDIFG
FENFTRNSFEQLCINIANEQIQYYFNQHIFTWEQQEYMAEGVPVDLVEFSDNRPVLDMLL
SRPMGLLALLDEESRFPRSTDRSLIEKFHRNIKSKFYVRPKSNAVCFAIHHFAGRVVYQA
DGFLEKNRNFLPPEVVQLMRQSQYDIIRFLFQCPITKTGNLFSSFHGDMEARSLESPTGI
IRDRFNSRGLASQSRAQQTVSTYFRFSLMELLQKMVSGTPQFIRCLKPNDSRSPKHFDSA
KILKQLRYTGVLETIRIRQNGFSHRLTFEEFLKRYGFLAYSYDEEIKPNRDSCRLLLLRL
KMDGWALGKSKVFLKYYHVEVLARIYEEQIRKVVLVQACVRGWLARRNYLRLKAQMAISV
LTLQRHVRGWLTRKRLKERQKQLAREFQKGQQEQENQRKQRNADFRGYNTRRRMAKNRQA
PPPPQHAAPAPPTQQHIMQQFSVQERAAQLQNFAEQIHNQNQEVHKNLRRNKPGIRLRDV
QKPPEEYHPPPGFSVVPGIIKEQRTQVERDASRLSRSNDNERDSKDKPLQTNKNWPNLPC
NRQCSGLVSNKINQLVKQTQKNTPPPRPVYNSANDPESDLRKILRNSPEMLATPVFSSDE
DYTDGPFRFKQLLRPTLGPTESLRKRKVRASSGRSPWMSDSSQDSNSSKELYNKRRPQIS
MGVYYN