| New model in OGS2.0 | DPOGS214283 |
|---|---|
| Genomic Position | scaffold60:- 121187-131235 |
| See gene structure | |
| CDS Length | 7359 |
| Paired RNAseq reads | 589 |
| Single RNAseq reads | 1483 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA005995 (0.0) |
| Best Drosophila hit | crinkled, isoform B (0.0) |
| Best Human hit | myosin-VIIa isoform 2 (0.0) |
| Best NR hit (blastp) | hypothetical protein TcasGA2_TC013742 [Tribolium castaneum] (0.0) |
| Best NR hit (blastx) | hypothetical protein TcasGA2_TC013742 [Tribolium castaneum] (0.0) |
| GeneOntology terms | GO:0005524 ATP binding GO:0005737 cytoplasm GO:0007605 sensory perception of sound GO:0008407 bristle morphogenesis GO:0030048 actin filament-based movement GO:0030898 actin-dependent ATPase activity GO:0032027 myosin light chain binding GO:0035317 imaginal disc-derived wing hair organization GO:0048800 antennal morphogenesis |
| InterPro families | IPR001609 Myosin head, motor domain IPR000048 IQ motif, EF-hand binding site IPR000857 MyTH4 domain IPR019749 Band 4.1 domain IPR019734 Tetratricopeptide repeat IPR019748 FERM central domain IPR000299 FERM domain IPR001179 Peptidyl-prolyl cis-trans isomerase, FKBP-type, domain IPR013026 Tetratricopeptide repeat-containing IPR014352 FERM/acyl-CoA-binding protein, 3-helical bundle IPR011993 Pleckstrin homology-type IPR011990 Tetratricopeptide-like helical IPR018979 FERM, N-terminal |
| Orthology group | MCL10105 |
Nucleotide sequence:
ATGGCGGACCGAATACAAATATCTGACTATGTCTGGTTGACTCCGGAAAACAAAACCGAA
TTCGATGTCCCAATAGCTGTCAAGATTCTTAACAGTTCCGGGGGTAGGATACAAGTGAAG
GATGATAATGACGACGTATTTTCTACTTCTATAACGAACGTTATTAAACCTCTCCATGCG
ACCTCGCTAACCAGCGTTGAAGACATGATAACGCTAGGCGAGCTACAGGAATATACAATA
CTTCGCAATTTACACATAAGATACAAACAACAACTTATATACACCTACACAGGTTCGATG
TTAATAGCTATTAACCCGTATGAAATTTTACCAATTTACACAATGGACCAAATACATTTT
TATCAAGACAATAATATTGGAGACATACCTCCACACATATTTGCTATTGGAAATAATTCA
TACAAGGAACTATTAGAAACATCAACTAATCAGTGTATTGTTATAAGTGGAGAAAGTGGT
GCTGGAAAAACAGAAAGTACCAAATTACTATTACAATATTTAGCTGCGGCAAGCGGTAAA
CATTCATGGATTGAACAACAAATTCAAGAGACTAACCCAATTTTAGAAGCATTTGGTAAT
GCGAAAACAGTAAAAAACGATAATTCGTCCAGATTTGGAAAGTATATAAATATTTATTTT
AATCAAAATGGAGTAATAGAAGGTGGCAACATTGAACAATATTTGTTGGAAAAATCTAGA
ATAGTAATGCAGAATAAGGGCGAGAGGAATTATCACATTTTTTACTCACTCGTTACCGGT
CTCTCTGCTGACGAAAAAAAGAAACTAGAACTTGGACGTCCTGCTGATTATGAGTATTTA
AATTCTGGTAACATGTTAACTTGCGATGGTCGCAATGATGCCTTGGAGTTTTCAGACATA
AAATCCGCCTTTAAAGTACTTAATTTTGACGATAATGATGTAAACGATCTATTCAGTCTT
CTGGCTGCAATATTACATTTAGGAAATTTGAAATTTAAGTCCATCAATGTAAACAATATG
GATTCATCAGAAGTTACAGACTCAATAAATGCAAATAGAATTGCTTCTTTGCTAGGGGTG
ACTAAAAATAAATTATGTGAAGCACTAACAAGGAAATCACTTATTGCTCATGGTGAGAAA
ATAATTTCCAATCTCTCAGCCAGTGCGGCAGTCGATGGACGCGACGCTCTAGTTAAAGCA
ATATACGGTCACATATTTGAATTCATTGTTGAGATGATAAACAAAACGTTACACAAGGAT
CATGAACTTACGAGTCTTGGGTCCGTCGGAATTCTTGATATTTTTGGTTTTGAGAAATTC
GAATCAAATAGTTTTGAGCAACTCTGTATTAATTACGCTAATGAGAACTTACAACAGTTT
TTTGTTAAACATATTTTTAAATTAGAACAAGAGCAATACCAAAAGGAAGGTATTACGTGG
ACTAACATAAACTATGTTGATAATCAGGAAATATTAGATTTGATAGGTCAAAAGCCAATG
AACCTTTTAGCCTTGATTGACGAGGAATCAAAATTCCCTAAAGGAACCGACTTGACGCTG
CTTTCAAAACTAAACAGTAACCATAGCAATAAACAATATTATACTACTCCCAAATCTACC
CACGAACATCGGTTTGGTGTAAAGCATTTTGCTGGTGATGTTTTGTACGAAGTTAAAGGT
TTCTTGGACAAAAATAGGGACATGCTTACTGCTGATGTAAAGGACATGATATATGACTCT
AACAAGGTTTTCTTCAAAAGGCTATTTGCAACAAGTTTTGTAGAAAGCCAAAGCCAAAGT
GGGAGCCGCAAAATTATATCTTTAAGTTATCAATTCAAGACATCCCTGGAGTCACTTATG
AAAACTTTATATGCCTGTCATCCCTTTTTTGTACGATGCATTAAGCCTAACGAAGTTAAA
AAGCCACGGATATTCGATCGCGCTTTATGCGTCCGACAACTTCGATATGCTGGTCTCATG
GAGACGGCTAAAATAAGACAGGCTGGGTATCCAATTCGTTATTCTTACTCAGAATTTGTT
CACCGATACAGACTCGTGGTCCCTGGCATACCGCCAGCGGAGAAAACTGACTGTAAAGCT
GCCGGTAAAACTATATGCAGTCAAGTTTTACACGACGATGATTATAAATTGGGTCATACA
AAAATCTTTCTCAAAGATCACCACGACGCCCTGCTCGAAGAGCTCCGTCACAAAATACTT
ATAACGGCTGTAATTAGAGTTCAAGCTAACGCGAGAAGATTTATTTACAGGAAGAGATAT
CTACGACTTAAAGCAGCTGCAATTAACATCCAAAAGAATTTCCGAGCTCGCGGCTTCAGA
CGAAGGTTCTTACAGATGAGAAGAGGGTATTTGCGTATGCAGGCGGTTATAAAATCAAGA
GAACTTAGACGCACATTTATAAATCTGAGAAAATTCATTATAAAGTTTCAGGCTGCAAGT
AAAGGTTACCTTATAAGAAGATTAATTAATGAAAAGGGTAACGTTATAAAAACTAAATTA
GCGCAATTGAGAAAAGATAAAGCTTTGTATTCGGGTGACATTGATTCAGCTGAAAATGAT
TTTGAAAAGAAATACAAGGAAGTTATGTCTTCGATTTGGATCGCCAAAGACGAAACGGCT
GATAATAACGAACAAAATAATTCTGCTATAGACGATAGATATGTTGACGACGTGTTCGGT
TTCCTCAAAGACACGACCACTCCCGCAGGAACCATAAGGGGAACGGGATTTGGAATGACA
TCGACAACTAAGCCCGAAATATCAACCGTGATACCATTATTAAAGGAGCCAGAAGAGGAA
CCGTTCGACGAGTTTAATTTCAAAAAGTTTGCTGCTACATATTTTTTGGGGAACACCAGT
CATCAGTACTCTAGAAAACCTTTAAAACATTCATTACTAGATCTACCGTCCCCTATAGAC
AAAATTGCATCCCAAGCTATATGGATCACAATCTTAAGATTCATGGGAGATTTGTCTGAA
CCTAAATATGTCGACGACAAAGTAGATAACACACCTGTTATGTCAAAACTTTACGATACC
GTAGGACGGGCTTTTCAGAAAACTAAAGAATATGAAGATTTAATACCGAAAGAATATGAA
GGCAAAAGTAAAATGCTGCAAAGGACATTAAAGCGTCAAACAAAACTTAATGAAGAGATT
TTAAAGCATCTTGTAAACGATGAGACGACAAATGAAATGTACAGCACGTGGTTAAATTCC
AAGAGAAGTTCGAATTTGGAAAAACTTCATTTCATTATTGGGCATGGTATAATTAGAAAA
GAATTGAGAGATGAAATTTATTCTCAACTGTGCAAACAACTGACGAATAATCCATCAAAA
GCGTCCTTTGCTAGAGGATGGATACTGATGTCGCTTTGTGTTTGTTGTTTCCCACCTTCA
GAACGTTTTCTTAAATATTTACGTTCTTTTATAAGACAAGGCCCACCTGGCTATGCCCCT
TATTGTGAGGGTAGGCTTTTAAGAACATTCAAGAACGGTCCTCGAACACAACCACCGAGT
TGGCTGGAACTTCAAGCAACCAAAACTAAAAAGCCTATTTTACTGACGGTTACTTTAATG
GACGAATCAATGAAAACTGTACAGTCTGACTCAGCGACAACGTCAGAAGAAGTATGTCAG
CAAATAGCTGATAATATTAAGCTCACTGATACATATGGATTTTCATTGTATATAACTTTA
TACGATAAGGTTTTATCATTGGGAAGCGAGGGAGAACACATTATGGATGCTATATCTCAA
TGTGAGCAGTTTGCAAAAGAACAAGGAACCCCTGAGAAAAGTGCCCCGTGGAGATTATTT
TATAGAAAAGAAGTATTTACGCCTTGGCATAATCCAGCAGATGATCCAGTAGCAACTAAT
TTAATCTATTATCAAATTGCGAAAGGCGTAAAGTTTGGAGAGTATCGCTGTAACTCTGAA
AAAGATCTAGCAATGATAGCTGCACAACAGCATTATATTGAGTATGGACCACGAATAGAT
CCGAATATATTAAGAAAAGTTATAGTTAATTACATACCAAATCAATTTATCCAATCCAAT
GATGTCGCCTTAACTAAATGGGAACATCTTGTAACGAAAGCTTTCGAATCATCACCAAGT
ATTCAATCAGCGGTTGACCCGTTAAGATGTAAGGAAGATATTGTGATATTTGCCAAACTA
AAGTGGCCCATGATGTTCTCCAGGTTTTTCGAAGCAGTTAAGCTCAAGGGAGACACAATT
AACAAAGACATTGTAATTGTAGCTGTTAACTGGACGGGTATATATATTGTTGACCAATCA
GAACACATACTATTAGAAATATCATTTGTAGAAGTAACTTATGTTGCCTATGACGACGAC
AAGGAATTCGATAGAGTTGGGAGGATAACAATTCGAACGATACAGCAGGAAGAGTTTGTG
TTCCAAAGTGCTGATGCAAGTGAAATGAGTTCGCTTATAATATATCTGATGGATGGGTTA
AAAAGACGATCCATATATGTTATAACTCAATGCGATTCTCAGGGTTACAGCGATGCAGCA
TCATTCTTACAATACAAGAAAGGCGAACTAATTACTCTTTTAAACGATTCGACAGGAGAG
ACGTTGATGGGGGCAACCTGGGGACACGGTGAATGTAACGGCCAACAAGGACTTTTTCCA
ACTGATCAAGTTTATATACTACCGACGTTATTAATTCCTCCAGCATCTATTCTGGAAGTT
TTCAAGAAAGGTAACATTAGCAATGAAAACATACTTAAATCCAAATACAGTACGATACAG
CGAAAGAAAATGCACACTTTAGAAAAATATGCGAAAGAACACTTTAGAGAAAACTATGAT
ATTAATACAACGATATCAAGACAGTCAACTTTAACTTCAGCTAAGAGGGCAGTTGCGGGT
GAATTGTGGGCTCATACTCGTGAACCAATACGACAGCCCTTGCTTAAAAAAATATTAAGC
GACGAGCAGTTGTCCAAGTTAGCGGTTGCCTCTTTCTATGCAATGCTGAAGTATATGGGA
GATTTACCAACTGCTAAACCTAGATCCGTTACCGAATATACTGATGAAATATTTAGACCA
GGATTAATAGAACCCGCTTTAAGAGACGAAATTTATTGCCAGATATTAAAGCAGTTGACA
AATAATAGAATTCAGTTAAGCGAGGAAAGGGGATGGGAATTATTGTGGTTAGCAACTGGC
GTTTTTGCATGCAGTCCTGGCCTGATGAAAGAAATAGTGGAATTTATAAAAACAAGACCA
CACCCGGTAGCCAAGGATTGCTTAAAGCGAATATTTAAAATTCAAAAAGGTGGACCAAGA
ATGTATGCGCCTTACGTGGTCGAAGTTGAAGCGATACAGCATAGAAGTATGCAGATATAT
CATAAAGTATATTTCCCTGATGACACGGACGAAGCTTTCGAAGTTGATTCTTCTACGAAA
GCCAGAGAACTCTGTGAACAGATTACTGGACGATTAAATCTAAAGAACAGTGATGGTTTC
AGCCTCTTTGTGAAAATTGTGGATAAAGTTTTTTCCGTACCCGAAACATATTACTTCTTC
GACTTTATTCATGAGTTAGTCGAGTGGATGAAACAAACACGTCCTAATCGTTCAGCCGGT
AATCAGTTACAAATGAATTATCAGATATTTTTCATGAAAAAGCTATGGATAAGCACTATT
CCAGGAAAGGATAAGAATGCGGATCAAATATTTTATTTTCCCCAGGAACTTCCAAAATAT
TTACGAGGATATCATAAAACGTCAAAACAAGATTTGATTGAATTGGCGGCATTAATATAT
AGAGCCCGATTTGGGAACGATCAAACAGTTTTACCTCAAATAACACAGGTCTTAGAAGAA
TTTATTCCACCAGATATGATAAAAATTCAATCGAATTCTCAATGGAAATCTGCCATTATT
TCGGCTTACAATAAACATGGGGTGATGACTGAAGAAGAAGCCAAAGAAAAGTTTTTGAAT
AGAATTTTCCACTTACCGACATTTGGTACAGCTTTTTTTGAAGTCAAACAAACGTCTGAC
CCGTCGTACCCAGAGATGGTCGTTATAGGAATTAATAAAAATGGTGTTAGCGTAATTCAT
CCACAAAGCCGAGATTTGCTTGTTACATATCCTTTTTCTCAATTATCAAATTGGTCTTCG
GGTAATACGTTCTTCCATATGACAATGGGAGGCTTTCTTCGAGATTATGACGATCAAGAA
TGTTACACACTTGAGTCTAAACCTTTTAAGGGGAATGATTATATTGGAGAGCCAAAAAAG
ATTTTAGAAGAAGGAGGAGGTTTGGCTCTAAGCAAGGATTGTACTGTCAGTGTTGCATAT
GCAGGATATTGGGAAAATGAATTTGAACCTTATGATTTTACTAAACTTGATAAACCATTG
GTAGTAAATTTAAATGACAATGGACTTTTACCAGGTGTTCAAATTGCCATTGAATCCATG
CTAGTTGGTGAAATGTCAGTATTTTTGTTATCTTATGAAGTCATGTATGGCGATATGGGT
GTTCCACCGAAAATCAAACCTAAGGCTAACTGCGTCTTCTATTTGAAACTTATAAAAAGC
ATTATTACACCTAAAGATGGGAAAATTGACTTCTCAGAACCAAATATATTTGAAAGGGTT
CTCCATGAAGTAAAACTGTTGTATAGCTCAGGGGTCGTATTGCATAAATCAAGAAATTAT
ATGGCTGCAATACAATCTTTCAGGAAGGCTGTTAATATGTTGCATAGATGTCGTCTTGCC
AATGAAAGTGAAGAAGCTATACAAGAAAAGTTCCTAAAAAAATTGTATATAAATTTAGCA
GTGTGCTATAATGAAGTTAAGCAACCATTGAAAACATGCATAGTTTGTAACGAACTAAAT
AGGTTAAGAAATCTATGGAATAATGAAAAGGTCTTATATCAAAATGCTAAGGCCTTAAGG
ATGATTGGACAATTTGATGCTGCTGAGAAGAAACTTAGACGAGCCTTGCGTTTCTCTCCT
GACAATGATAGAATTTTAGAGGAATTGAATTTGCTTCAAAAGACTAGAGATTCTTGCAAT
CAAAGCCGTCTCATAGATAGTAATGTGTCAAGTAATTCTAACAATAGTGCAAATGATCAG
TTTAGAAATGAAGTAGATAGTCTAATAAAAAATTTTAAGGAAAATGTAAATCTTTGTAAG
CTTACTCTGCCTCCAGGTCTTAATGCAGCTGAAATTGGATACATTAAGGAGGTTTGTGTC
AAAGAGAATTTGTATTGCAATAAATTACAAAAAGACTACTTGTTGGATAAAGAAGAGGAT
AAAGTGCCCTTAGAATCCAAAATAGATCTATTCATATAA
Protein sequence:
MADRIQISDYVWLTPENKTEFDVPIAVKILNSSGGRIQVKDDNDDVFSTSITNVIKPLHA
TSLTSVEDMITLGELQEYTILRNLHIRYKQQLIYTYTGSMLIAINPYEILPIYTMDQIHF
YQDNNIGDIPPHIFAIGNNSYKELLETSTNQCIVISGESGAGKTESTKLLLQYLAAASGK
HSWIEQQIQETNPILEAFGNAKTVKNDNSSRFGKYINIYFNQNGVIEGGNIEQYLLEKSR
IVMQNKGERNYHIFYSLVTGLSADEKKKLELGRPADYEYLNSGNMLTCDGRNDALEFSDI
KSAFKVLNFDDNDVNDLFSLLAAILHLGNLKFKSINVNNMDSSEVTDSINANRIASLLGV
TKNKLCEALTRKSLIAHGEKIISNLSASAAVDGRDALVKAIYGHIFEFIVEMINKTLHKD
HELTSLGSVGILDIFGFEKFESNSFEQLCINYANENLQQFFVKHIFKLEQEQYQKEGITW
TNINYVDNQEILDLIGQKPMNLLALIDEESKFPKGTDLTLLSKLNSNHSNKQYYTTPKST
HEHRFGVKHFAGDVLYEVKGFLDKNRDMLTADVKDMIYDSNKVFFKRLFATSFVESQSQS
GSRKIISLSYQFKTSLESLMKTLYACHPFFVRCIKPNEVKKPRIFDRALCVRQLRYAGLM
ETAKIRQAGYPIRYSYSEFVHRYRLVVPGIPPAEKTDCKAAGKTICSQVLHDDDYKLGHT
KIFLKDHHDALLEELRHKILITAVIRVQANARRFIYRKRYLRLKAAAINIQKNFRARGFR
RRFLQMRRGYLRMQAVIKSRELRRTFINLRKFIIKFQAASKGYLIRRLINEKGNVIKTKL
AQLRKDKALYSGDIDSAENDFEKKYKEVMSSIWIAKDETADNNEQNNSAIDDRYVDDVFG
FLKDTTTPAGTIRGTGFGMTSTTKPEISTVIPLLKEPEEEPFDEFNFKKFAATYFLGNTS
HQYSRKPLKHSLLDLPSPIDKIASQAIWITILRFMGDLSEPKYVDDKVDNTPVMSKLYDT
VGRAFQKTKEYEDLIPKEYEGKSKMLQRTLKRQTKLNEEILKHLVNDETTNEMYSTWLNS
KRSSNLEKLHFIIGHGIIRKELRDEIYSQLCKQLTNNPSKASFARGWILMSLCVCCFPPS
ERFLKYLRSFIRQGPPGYAPYCEGRLLRTFKNGPRTQPPSWLELQATKTKKPILLTVTLM
DESMKTVQSDSATTSEEVCQQIADNIKLTDTYGFSLYITLYDKVLSLGSEGEHIMDAISQ
CEQFAKEQGTPEKSAPWRLFYRKEVFTPWHNPADDPVATNLIYYQIAKGVKFGEYRCNSE
KDLAMIAAQQHYIEYGPRIDPNILRKVIVNYIPNQFIQSNDVALTKWEHLVTKAFESSPS
IQSAVDPLRCKEDIVIFAKLKWPMMFSRFFEAVKLKGDTINKDIVIVAVNWTGIYIVDQS
EHILLEISFVEVTYVAYDDDKEFDRVGRITIRTIQQEEFVFQSADASEMSSLIIYLMDGL
KRRSIYVITQCDSQGYSDAASFLQYKKGELITLLNDSTGETLMGATWGHGECNGQQGLFP
TDQVYILPTLLIPPASILEVFKKGNISNENILKSKYSTIQRKKMHTLEKYAKEHFRENYD
INTTISRQSTLTSAKRAVAGELWAHTREPIRQPLLKKILSDEQLSKLAVASFYAMLKYMG
DLPTAKPRSVTEYTDEIFRPGLIEPALRDEIYCQILKQLTNNRIQLSEERGWELLWLATG
VFACSPGLMKEIVEFIKTRPHPVAKDCLKRIFKIQKGGPRMYAPYVVEVEAIQHRSMQIY
HKVYFPDDTDEAFEVDSSTKARELCEQITGRLNLKNSDGFSLFVKIVDKVFSVPETYYFF
DFIHELVEWMKQTRPNRSAGNQLQMNYQIFFMKKLWISTIPGKDKNADQIFYFPQELPKY
LRGYHKTSKQDLIELAALIYRARFGNDQTVLPQITQVLEEFIPPDMIKIQSNSQWKSAII
SAYNKHGVMTEEEAKEKFLNRIFHLPTFGTAFFEVKQTSDPSYPEMVVIGINKNGVSVIH
PQSRDLLVTYPFSQLSNWSSGNTFFHMTMGGFLRDYDDQECYTLESKPFKGNDYIGEPKK
ILEEGGGLALSKDCTVSVAYAGYWENEFEPYDFTKLDKPLVVNLNDNGLLPGVQIAIESM
LVGEMSVFLLSYEVMYGDMGVPPKIKPKANCVFYLKLIKSIITPKDGKIDFSEPNIFERV
LHEVKLLYSSGVVLHKSRNYMAAIQSFRKAVNMLHRCRLANESEEAIQEKFLKKLYINLA
VCYNEVKQPLKTCIVCNELNRLRNLWNNEKVLYQNAKALRMIGQFDAAEKKLRRALRFSP
DNDRILEELNLLQKTRDSCNQSRLIDSNVSSNSNNSANDQFRNEVDSLIKNFKENVNLCK
LTLPPGLNAAEIGYIKEVCVKENLYCNKLQKDYLLDKEEDKVPLESKIDLFI