New model in OGS2.0 | DPOGS214090  |
---|---|
Genomic Position | scaffold185:+ 34877-42224 |
See gene structure | |
CDS Length | 4512 |
Paired RNAseq reads   | 5991 |
Single RNAseq reads   | 15715 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA014526 (0.0) |
Best Drosophila hit   | neither inactivation nor afterpotential C, isoform B (0.0) |
Best Human hit | myosin-IIIb isoform 2 (2e-165) |
Best NR hit (blastp)   | PREDICTED: similar to myosin [Nasonia vitripennis] (0.0) |
Best NR hit (blastx)   | PREDICTED: similar to myosin [Nasonia vitripennis] (0.0) |
GeneOntology terms    | GO:0007604 phototransduction, UV GO:0007603 phototransduction, visible light GO:0004672 protein kinase activity GO:0016028 rhabdomere GO:0016461 unconventional myosin complex GO:0004674 protein serine/threonine kinase activity GO:0007010 cytoskeleton organization GO:0005737 cytoplasm GO:0005516 calmodulin binding GO:0008104 protein localization GO:0016059 deactivation of rhodopsin mediated signaling GO:0016062 adaptation of rhodopsin mediated signaling GO:0016027 inaD signaling complex GO:0042385 myosin III complex GO:0005856 cytoskeleton GO:0004702 receptor signaling protein serine/threonine kinase activity GO:0006468 protein amino acid phosphorylation GO:0016459 myosin complex GO:0042623 ATPase activity, coupled GO:0004713 protein tyrosine kinase activity GO:0003774 motor activity GO:0005524 ATP binding GO:0035091 phosphoinositide binding GO:0006886 intracellular protein transport GO:0033227 dsRNA transport GO:0005875 microtubule associated complex |
InterPro families    | IPR011009 Protein kinase-like domain IPR001609 Myosin head, motor domain IPR017442 Serine/threonine-protein kinase-like domain IPR000048 IQ motif, EF-hand binding site IPR002290 Serine/threonine-protein kinase domain IPR020635 Tyrosine-protein kinase, catalytic domain IPR000719 Protein kinase, catalytic domain IPR017441 Protein kinase, ATP binding site |
Orthology group | MCL10299 |
Nucleotide sequence:
ATGAAGGACGGTTTGAATATATCGTCCCTGCCGAGTCCTCAAGACCGGTACACGCTTGAA
AAGAAAATTGGATCAGGCGTCTTTGGTGAAGTTCATAGAGCCAAAGATACTCAAGCCGCG
GGCAAGGCGGTAGCTATCAAAATACTGCTGAATACAGAAGAAAACGAAACACATATCCAC
GAGGAATATAAAATATTACGTGACTTCACAAAACACCCTAATCTTGTAGATTTTTATGGC
GTGTTTTGTGATAAATCTGAATACACTAAGAAAATATGGTTTGTAGTTGAGCTATGCGAG
TATGGATCTGTCATCGATATTGTCAGAAAACTTAAAGCTACGGACAAAAAAATGTCTGAG
GAACACATTGCATATATCCTTAAATATACGATCAAGGCAGTTGTTTATTTGCATGAAAAC
AAAATAATCCATCGAAACCTAAAATGCAGCAACATACTCATTACAAAAGATGGGGAGGTA
AAGCTCACAGATTTTGGACTCTCCTGTCAACTAAGTGGCAATCAAGAAACAACACGGACA
AGTATCGGGTCACCAGGTTGGATGGCACCAGAAGCAGTGACAGTCAGCGAAGAAGGCTAC
GGCAACAGAGTCGATGTTTGGGCCCTGGGAATATGTACTATTGAAATGGTTGACGGCGTG
GCTCCTTATGAAAAGATGCACCCAACTAGAGCGATGTTCCAAATTCAGAGAATCCCTCCT
CCTTCAGTTGCAAAACCCTCAATGTCGTCTAACGATATCAATGATTTTATTAATGAGTGC
CTTGAAAAAAACCCGGAGCATCGCCCATTCATGATGGAACTGGAAGAACATCCTTTTATT
CAGTCTGTACCAGAAAATGATTTTCATTTGTCGACAGAGCTTAAAATGTTGGCACTAGAT
TTGAGTCAAAAAGAGGTTCCATATCGTATTAAAGAGAAAATTATTAAAAATGGCCTTCTT
ATAAATGAAGGCAAACAGGACCCAGAGACTATGCAAGTAGAAGATTTAGCTGCATTAGAC
TTTTTATCAGAGGACAATATACTTTGTGAATTACAAATCAAATATCAAAAGGGTTCATTT
ACTTCATTTGTCGGCGATGTTTTATTAATATTAAATCCAAATTCACATCAGGACATTTAC
AATGATGAATTTCATAAAAAATACGAATGCAAATCTAGATCTGATAACGAACCTCATATA
TTTGCTGTAGCTGATAGTGCGTATCAAAATGCACTTCATCACAACGAGCCTCAGTACATA
ATTTTTTCTGGGGAAAGTAAATCCGGAAAATCAACTAGTATGGTTCATGCCCTCTCACAC
CTAACATTTCTAGGATCGATGAAAAATAACACAGCAGAACGAATACAAAAGGCTACAACA
TTTATCCAGGCATGTATAAATGGGGCAACTCCAATGAACGCTAGTTCCAGCCGTGGAATA
TTTCAAGTCCAAGTAACTTACGGTACATCAGGAAAATTGAGTGGGGCACTTTTTTGGTTG
TACCAGTTGGAAAAATGGCGCGTGTCATCTACGGATATGACGCATGCGAATTTTGATATT
TTTTATTATTTCTACGACGCAATTGAGGCTACTAACAGATTAAATGAATTTTACTTAGAA
GAAAACAGAAAACACCGTTATTTAAGGATTGTAGATGACCCACCACGAGGCTTCAAGAGT
GCAAGAGATTCGCCTAGGGAGAATGTTGCCCGCTATAAGGAATTAGTTGAATATTTAAAA
GTTCTTGACTGGGAAGAAGAAGACATTAAATTCTTGGAAACTGTCCTAGCCGCTATATTG
GTATTAGGAAATGTAAGATTTAGAGATGGAAAAAATGGATCAGCAGAAATCGAGAACCCA
GAAGAAGCAAAAAAAGTGGTTAAATTACTTTCACTTGATGAAGCTAAATTCTTTTGGGCA
CTTCTTAATTACTGTCTTATAGAAAACGGCACTGCAGTGAAGAGAAAGCATGCGACTGAT
GAAGCCAGAGACGCAAGAGATACTTTAGCTAGTGCCCTTTACAAGAGACTGGTTGATTGG
CTAATTAATGTTATAAATGCAAAACTATCATTTATGAGATCCGTATTTGGTGACAAATAT
TCTGTTAGTTTGATAGACATGTTTGGGTTCGAATGTTATCATAGAAACCGTTTAGAACAA
TTAATAGTCAACACGACTAACGAACAAATTCAGTTTCTTTATAATCAACGCATATTTGTT
TGTGAAATGCAAGAGGCAGCTGAAGATGAGATTACCGTGACTGCTTTGCGTTTTTATGAC
AATAAGAGTTCTGTCGATCAACTTATGGCAAAGCCTCATGGAATATTTTACATTTTAGAT
GAAGCAAGTCGTACAGGTGGAGGACAAGAATGTATTTTATCTACGATTAAGGCAAAATGT
AAAAATCCTTTCGTAAAGCTTAATGGTAACCATGAATTCAGTATCGCTCATTACACCGGA
AAAGTAAACTACGATGCAAGAGAAATGGCTGATAAAAACAAAGATTTTCTTCCACCTGAA
ATGATTGAAACCATGCGAGCGTCCACTAACCTTACATTGCAACAGCTGTTTAAGAATAAG
CTTACAAAAGCTGGAAACCTTACGGCAGCCTCCAACCAATCTCCATCACAATCAGGCAAA
TCTAAATCTGAAAAAGAAACTGAAAATATTAAAGCAAGGAAATATAACACGGTGTCCAAA
GGCCAATATTCACAAATTCGTCGAATGAGAACGGCAGCTGCAACATTCAGATCTACAAGT
CTGGAGCTGCTAAAACTCCTTTCTAATGGAGCTGGTAGTGGTGGAACCCATTACGTCAGA
TGTATTAGAACCGATTTAAACGACAGTCCTCGAGGATTTCAGCCTGAACTTGTTAGACAG
CAATTAAGAGCTCTTTCTATTCTAGACACTGCTAAGGCTCGCCAGTATGGATTCTCTTAT
CGAGTTCCATTTTCAGAGTTCATTCGAAGATACCGCTTCCTAGCCTTCGATTTCGAAGAA
ACTGTTGATGAAACAGCAGATAATTGTAGGCTTTTATTGATTCGCCTTAAAATGGAGAAT
TGGGAACTAGGAAAATCCAAAGTGTTCTTGAAGTATTATAATGAAGAATTTTTATCAAGA
TTATATGAAACACAAGTCAAGAAAATTGTGAAGGTACAAAGCATGATGAGATGTTTCTTG
GCAAAGAGAAAAGCCGTTAAAAACAAATCAAAAGTTATGCATATTAAAGAACTAAAGAAA
CAAAAATCTCAAAATTTATCGGACGAAGAAGCTGCACTGTGCATTCAAAAAGCTTATAGA
GGATATGTCGTACGTAAGGCTTACGGACCCTTAGTAAGTAAAACTTCTGAACAAATTGAT
GATGAAACTTCTGCATTTCTAAAACGATTCGCTATGAAATGGAAGAGCAGATCTATTTTT
CAAGTTCTGTTACAGTATAGAGCACTTCGTTATCAGGACTTAGTACATTTTTCACAACAG
GTACATATGTATAATCAAGCTGTTGTAGAAGAAACGAATAACACTAACACTTCAGTTCCT
CTTGATAGAGTAGATCCTCATGCCAAAGAAAAGAGTTTTTTAGGGTCTAGTCCACCAACA
GTCTGGAAACTTCCATTCAGAATGGACCAGATACAATTTTATGATACCTCTCATATGTGT
GATCCCGAAGTGAAGAGCACGGATACATTTGCAAGTCCATATGATTCTGACAGCGAACAA
TGGGATGAACCTTTCAAACGTCCTTGCAGTTCGGTTCAAACGGATCCTTTCAAGGCATCG
ACGAGCACGCAAACGCTCATTACAATACCCTTCTGCAGAGACCCAACTCAGCCAGTACCA
ATGTTGCCACCCGATGAACCTGATTTGTATTCAAAAGGGGTCAGTTATAGTAAACCAGTC
ATCTATAAAAAACCACCTACAATTACTACACCACAGAGCTTTTACCAACCACCTGCACCT
TGGCAAAGTGGAGTTGATGATACTGATATTCTTGAAAACACTGCAGGTCGAAGACCCAGT
TACGCAAGAAGTAACATCTCCATAGACAAAAGCGATCTGCCGGATCCCATCAGTGAGCTC
CAAGCTATAGCTAAAGCGAGACAAACGAGAGAAGATGAAGACGATGAACCTCCTTTTAAT
TTTCAGGCTTTATTAAAGAAAACACCAAAGAATAGAGCTTCCATGAAACGGCATGGAGAA
GCTCGTTTAGACCATGATCATTCTTCCAGTCCACGTTATGTCACCACTTCTTATGGGGCA
CCCGTGCCTAGAAAAACTTTTTCACCGAGTGAAGCCTCCTCTGTAGTAATGTCCCCAACC
CATTCCATTGCCTCAAGCAGAGGCCCTCCTAAATACGAATTTGATAGAGGATACTCGCAG
GAATTCGATAGCAATAGTTTTAGGAGGCCTGGTCCTAGACAAAATATGAATTACAGAGAC
AATAAAGATGAAACAGAAACGATTGAGATAGCTCCAGGTATCACTGTAGAGGGAGCCGTG
GCAGATTTATAA
Protein sequence:
MKDGLNISSLPSPQDRYTLEKKIGSGVFGEVHRAKDTQAAGKAVAIKILLNTEENETHIH
EEYKILRDFTKHPNLVDFYGVFCDKSEYTKKIWFVVELCEYGSVIDIVRKLKATDKKMSE
EHIAYILKYTIKAVVYLHENKIIHRNLKCSNILITKDGEVKLTDFGLSCQLSGNQETTRT
SIGSPGWMAPEAVTVSEEGYGNRVDVWALGICTIEMVDGVAPYEKMHPTRAMFQIQRIPP
PSVAKPSMSSNDINDFINECLEKNPEHRPFMMELEEHPFIQSVPENDFHLSTELKMLALD
LSQKEVPYRIKEKIIKNGLLINEGKQDPETMQVEDLAALDFLSEDNILCELQIKYQKGSF
TSFVGDVLLILNPNSHQDIYNDEFHKKYECKSRSDNEPHIFAVADSAYQNALHHNEPQYI
IFSGESKSGKSTSMVHALSHLTFLGSMKNNTAERIQKATTFIQACINGATPMNASSSRGI
FQVQVTYGTSGKLSGALFWLYQLEKWRVSSTDMTHANFDIFYYFYDAIEATNRLNEFYLE
ENRKHRYLRIVDDPPRGFKSARDSPRENVARYKELVEYLKVLDWEEEDIKFLETVLAAIL
VLGNVRFRDGKNGSAEIENPEEAKKVVKLLSLDEAKFFWALLNYCLIENGTAVKRKHATD
EARDARDTLASALYKRLVDWLINVINAKLSFMRSVFGDKYSVSLIDMFGFECYHRNRLEQ
LIVNTTNEQIQFLYNQRIFVCEMQEAAEDEITVTALRFYDNKSSVDQLMAKPHGIFYILD
EASRTGGGQECILSTIKAKCKNPFVKLNGNHEFSIAHYTGKVNYDAREMADKNKDFLPPE
MIETMRASTNLTLQQLFKNKLTKAGNLTAASNQSPSQSGKSKSEKETENIKARKYNTVSK
GQYSQIRRMRTAAATFRSTSLELLKLLSNGAGSGGTHYVRCIRTDLNDSPRGFQPELVRQ
QLRALSILDTAKARQYGFSYRVPFSEFIRRYRFLAFDFEETVDETADNCRLLLIRLKMEN
WELGKSKVFLKYYNEEFLSRLYETQVKKIVKVQSMMRCFLAKRKAVKNKSKVMHIKELKK
QKSQNLSDEEAALCIQKAYRGYVVRKAYGPLVSKTSEQIDDETSAFLKRFAMKWKSRSIF
QVLLQYRALRYQDLVHFSQQVHMYNQAVVEETNNTNTSVPLDRVDPHAKEKSFLGSSPPT
VWKLPFRMDQIQFYDTSHMCDPEVKSTDTFASPYDSDSEQWDEPFKRPCSSVQTDPFKAS
TSTQTLITIPFCRDPTQPVPMLPPDEPDLYSKGVSYSKPVIYKKPPTITTPQSFYQPPAP
WQSGVDDTDILENTAGRRPSYARSNISIDKSDLPDPISELQAIAKARQTREDEDDEPPFN
FQALLKKTPKNRASMKRHGEARLDHDHSSSPRYVTTSYGAPVPRKTFSPSEASSVVMSPT
HSIASSRGPPKYEFDRGYSQEFDSNSFRRPGPRQNMNYRDNKDETETIEIAPGITVEGAV
ADL