DPGLEAN15239 in OGS1.0

New model in OGS2.0DPOGS203657 
Genomic Positionscaffold528:+ 8032-15089
See gene structure
CDS Length4161
Paired RNAseq reads  1726
Single RNAseq reads  4949
Migratory profilesQuery via corresponding ESTs
Best Bmobyx hitBGIBMGA003454 (0.0)
Best Drosophila hit  neither inactivation nor afterpotential C, isoform A (1e-180)
Best Human hitmyosin-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 groupMCL10299

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