New model in OGS2.0 | DPOGS207001  |
---|---|
Genomic Position | scaffold1:+ 601434-613750 |
See gene structure | |
CDS Length | 3246 |
Paired RNAseq reads   | 6069 |
Single RNAseq reads   | 14651 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA012921 (8e-15) |
Best Drosophila hit   | myosin heavy chain-like, isoform D (6e-65) |
Best Human hit | myosin-XVIIIa isoform b (5e-19) |
Best NR hit (blastp)   | GI10100 [Drosophila mojavensis] (0.0) |
Best NR hit (blastx)   | GI10100 [Drosophila mojavensis] (2e-67) |
GeneOntology terms    | GO:0016459 myosin complex GO:0042623 ATPase activity, coupled GO:0005515 protein binding GO:0005524 ATP binding GO:0003774 motor activity |
InterPro families   | ND |
Orthology group | MCL10441 |
Nucleotide sequence:
ATGCCTCACGTCAGTTCTCCTTCTCGTACTTTGGAAGGGAAGACCGGTAAGCCGATAAGC
ATTAAGATACCGGAACAGAGAACAAACGGCTCCAATGGTATACTTTCACCGAATTCAAAT
GGCCCTCTGTCGCCCCCGATACTGGATGCCACACCTAAGAAGCCACCGAAAGCCCCCCTG
GGACGAGCTATACTGCCGGTGAAAAAATCTAAGACGCTTCCAATTAATTTTGAAGAAAAA
GTCCCTCCTAAGCTATCTTCGGGATTTTTAAGTGGTAAGAAATTTGTTGTTACTAAACCA
CTCAAAGAGGTCAAAACAATACCACAACAAACGGAGAACGGAAACTATTTATCAACTCGA
TCTCTGAGTCCTGCTTGTAAGAGAAGTACATCGGTTACAATAGAAACAGGTTCGATCGCG
GAGCTTGCTCGGAGACATGGCTCCAACAATATCCTTACGTCGCGATCACCAAGTCCCTCT
TCCTACGGAAGTGTCAAAAGTTCTGGAAGCTACTACTCGACATGTAGCAGTAACAGCACA
TTCGTTCCATTATCCCGTTCATCGAGCTTAACTTCTACGCTCTATAACAGAACTCCTACT
CCGCGAAGAATGTACCCACAGACCTCTGACAACTCGGATAATGTCGACCTCAAAGAACTG
ACGTCTAAAGAGCAAGCGCCCGTCGTCTTCGATGCGAATCTATCATTTGTGCTTGGTTGT
AAGAAGCAGCCTGTACGACAAAAGTTCAAGCCGATAGCTGCTCATCTTGAAGAGGGAACC
TCGTCCAATTACTTGAGTACTAAAATAGACAACTTTCTGAAAAGAACCGATCATGTTATG
GATGAGTGGAGAAGAATGGGCCACAAAGATGAACCGGATCTTGAAATGTATTATGATGGA
AAAAAGAGAAAAATTGGTAGATCAAAATCTGCTACAAATATTATGATAAAAGGGTTCACT
CTGTTCAGTCGCAGCGGAAGCCGAGCTAGTAGCGTCTGTAGGTCCTCGAGGGGCATATCT
GAAGATCGTACCACAGTTTCTGAAATGGATGAGTTATCAGAGGTTGGCGGTGAGTTGTCC
GATGAGCGTGCGGCAGCAGCTCTAGCGACCGAACGAGCTGATGCAGAGGCTGCGGAGAGA
CTCCGGATTGAGAGAGACAATAGAGAATTGCTGGCTAACAACCAACGTCTACAACAGGCA
TCCGAACGCTTGGAGCTGGAACTCCTTCATTGGAGATCTGCGGAGAATGGTAACGCTGAG
CCGTCAGACTCCGAGGGTTCGGAAGCGGACGGAAGTGCCAGCGGCGATAAGTACAAGAGG
CGGTTCGAGAGGGCACACAGAGAGCTGCAGCTGCTCAGGGCCCAGCTGAGGAGACAGCAC
GAGGACGACCTGGAACAGCTGGTGACGGTCAAGAAACAGCTGGAAAAGAAGGTTCAAGAT
GCCTACGAGGAGGTCGAGGAACAGCGTGCGGTCGCTGCACAATGGAAACGCAAACTGCAA
AAGCTCACCAACGATATGGCTGATCTGAGATCATTGCTTGACGAACAAACGTGTCGTAAC
AATCTCCTGGAGAAACGTCAGCGGAAGTTTGACGCGGAGCTCCACAGTGCCCAGGAGGAG
TTGAAGAGAGAGAGAGCGGCCAAGGAGAGACTCTCCCGGGAGAGAGATCAGGCACACGCG
GAGAAATACGCACTGGAACAGAGTCTATCAGAGGCTCGCATGGAGGTGGAACTTAAGGAG
GAGCGTCTTCTGTCAGCGGCGAGGGAGTTGGAGGAGAGGGGAGGAGGGGACGAGGTGGCC
GCTCTCAGGAGAACACGCGGCGAGCTGGAGAGACGAGTGAGAGACCAGGAGGAGGAGCTG
GACGAGCTGGCCGGACAGATACAGTTATTGGAGAGTTCTAAGCTTCGCCTGGAGATGCTT
TTGGAGCAGCAGCGGAAGGAGGCTCGCCTGGAAGCTGCCGCTAGAGACGACGAGATGGAA
GAAACTAGAGCGAACGCCTCTAAGAAACTTAAAATGCTGGAGAGTCAGCTGGAGAGCGAG
CATTCAGAGCGGTCGCTGCTCCTCCGAGAGCGACACGAGCTGGAGAGACGGCTGGCAGCG
CTGGAGGAAGCCGCTCGCCAGGAGACACATGAACAGGGACAGCTGGTCATTAGACTTAAG
AGGGATGTGAAACGTTACCGCGCCCTGCTGCGAGACGCTCAGACGATGTTGGAACAGAAG
GAAAAGGAAGGTGGAGGGAAGACTCAGATAAGACATTTGAAAAACCAGGTGGAAGACTTG
GAGTTGTCGCTCCGCGCTGCTAACAAGGCACGCTCGACAGCTGAGAGTGAGGCGAGCGAG
GCGACCGCAGCCCTAGAGGAGACCGCGCGCGCCCGAAACGAGGCCGTGGAGAGAGCGCAT
GCCGCCACGAGGGACGCCGCCGCCGCACGCGCAGCCCTAGACGACGCTGAGGAGGAAGCC
GCCGAGCTGCTGAAGAAGTATCGGGCGAGTACGAGCGCGCTGTGCGCCGCTCAGGCAGCC
GCCCGCGAGGCTGAGTCCCGAGCGGAGGCTGCGGCTGAAGAAGCACGTCAGGCGCGAGAG
AAACTCACTGAGATGACCACTAGACTGGCACACGCTGAGGCCGGTCACACACACGAACAA
CACGAAGCCGGCAGACGACTCGAACTCAGGAATAAGGAATTGGAATCGAGTCTGGAGTTA
GAAGCGACGTCCCGGGCCCGTCTTGAGGGACAGTTGGCTAGACTGAGGGACTCTCACGAA
CAACTCGCCAGTGAACTTAGCGCAGCACGCGCCAAAGATCACCAGGCCGCGGAGGAAGTT
AGAAAACTTACAAGACAACTGAGGGAATTGAAGGAAGAGAACGCAGCTCTGTCGTCTAAG
CTGAGCGAGGTGTCGCGGGCTAAGAGCACGGCAGAGGCGGCAGCAGCGGCCGCAGCAGCG
GAGGCCTCCGCCGCCCGGGACGAAGCTCGCCTGGCGGCACGTCGTGCGGCAGCCTTACAG
GAAGCGATCGCGGGGGATCTCTCCAGCCCCGGGGACTCCAGGGACACTGACAGCGACAAC
GACAGTTACAGTTCTGACGAATCGATAGGGACGTTCCTCGCCAACCACAAGCTGAGCCCG
TCAGTGCCTTCGCGTGCCAGTCTTCATCTAGACTCACAGAAATCCCAAAGCCCGGAAGGA
CGTCAGAGCAGGTCGAGCGTCGGTTCTAGCACTAAGTTGAGTCCAACGAAGGAATCGTTC
GCATAA
Protein sequence:
MPHVSSPSRTLEGKTGKPISIKIPEQRTNGSNGILSPNSNGPLSPPILDATPKKPPKAPL
GRAILPVKKSKTLPINFEEKVPPKLSSGFLSGKKFVVTKPLKEVKTIPQQTENGNYLSTR
SLSPACKRSTSVTIETGSIAELARRHGSNNILTSRSPSPSSYGSVKSSGSYYSTCSSNST
FVPLSRSSSLTSTLYNRTPTPRRMYPQTSDNSDNVDLKELTSKEQAPVVFDANLSFVLGC
KKQPVRQKFKPIAAHLEEGTSSNYLSTKIDNFLKRTDHVMDEWRRMGHKDEPDLEMYYDG
KKRKIGRSKSATNIMIKGFTLFSRSGSRASSVCRSSRGISEDRTTVSEMDELSEVGGELS
DERAAAALATERADAEAAERLRIERDNRELLANNQRLQQASERLELELLHWRSAENGNAE
PSDSEGSEADGSASGDKYKRRFERAHRELQLLRAQLRRQHEDDLEQLVTVKKQLEKKVQD
AYEEVEEQRAVAAQWKRKLQKLTNDMADLRSLLDEQTCRNNLLEKRQRKFDAELHSAQEE
LKRERAAKERLSRERDQAHAEKYALEQSLSEARMEVELKEERLLSAARELEERGGGDEVA
ALRRTRGELERRVRDQEEELDELAGQIQLLESSKLRLEMLLEQQRKEARLEAAARDDEME
ETRANASKKLKMLESQLESEHSERSLLLRERHELERRLAALEEAARQETHEQGQLVIRLK
RDVKRYRALLRDAQTMLEQKEKEGGGKTQIRHLKNQVEDLELSLRAANKARSTAESEASE
ATAALEETARARNEAVERAHAATRDAAAARAALDDAEEEAAELLKKYRASTSALCAAQAA
AREAESRAEAAAEEARQAREKLTEMTTRLAHAEAGHTHEQHEAGRRLELRNKELESSLEL
EATSRARLEGQLARLRDSHEQLASELSAARAKDHQAAEEVRKLTRQLRELKEENAALSSK
LSEVSRAKSTAEAAAAAAAAEASAARDEARLAARRAAALQEAIAGDLSSPGDSRDTDSDN
DSYSSDESIGTFLANHKLSPSVPSRASLHLDSQKSQSPEGRQSRSSVGSSTKLSPTKESF
A