DPGLEAN20721 in OGS1.0

New model in OGS2.0DPOGS214090 
Genomic Positionscaffold185:+ 34877-42224
See gene structure
CDS Length4512
Paired RNAseq reads  5991
Single RNAseq reads  15715
Migratory profilesQuery via corresponding ESTs
Best Bmobyx hitBGIBMGA014526 (0.0)
Best Drosophila hit  neither inactivation nor afterpotential C, isoform B (0.0)
Best Human hitmyosin-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 groupMCL10299

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