| New model in OGS2.0 | DPOGS202503 |
|---|---|
| Genomic Position | scaffold189:- 45203-57470 |
| See gene structure | |
| CDS Length | 3189 |
| Paired RNAseq reads | 2091 |
| Single RNAseq reads | 5027 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA001423 (0.0) |
| Best Drosophila hit | unconventional myosin class XV, isoform C (7e-107) |
| Best Human hit | myosin-IXa (0.0) |
| Best NR hit (blastp) | hypothetical protein TcasGA2_TC001372 [Tribolium castaneum] (0.0) |
| Best NR hit (blastx) | hypothetical protein TcasGA2_TC001372 [Tribolium castaneum] (0.0) |
| GeneOntology terms | GO:0007601 visual perception GO:0003774 motor activity GO:0003779 actin binding GO:0005096 GTPase activator activity GO:0046872 metal ion binding GO:0005622 intracellular GO:0005524 ATP binding GO:0016021 integral to membrane GO:0005515 protein binding GO:0000166 nucleotide binding GO:0016020 membrane GO:0007165 signal transduction GO:0016461 unconventional myosin complex |
| InterPro families | IPR001609 Myosin head, motor domain IPR000048 IQ motif, EF-hand binding site IPR000159 Ras-association |
| Orthology group | MCL13135 |
Nucleotide sequence:
ATGGCTCATGCTGAGAATCACCGGTATATTGTGCAGGTGTTTGTGGGAGCACTGTCTGCA
CAGTATGAAGCATTGTCAGTGGAGGCATCGAAGCAAACCAGCTCGGAGGAGATTGTGTGC
TGCATCGCTGAAAAGCTCAAACTTAATGATGTAGTCGGGGGACCATACGAGCTGGCGGAG
GTGGTCGGAGATATGGTTAGTGGGGAATGCAAGGAGAGGAGGCTCGGACCAAACGAATCC
CCGGTAGCCGTCATGATGCTTTGGCCTAACAACAATTCAGGACAATATTACAGGTTTTAC
TTGCGCGAGAAGATACCGGACGAGCCCTGGATGGAAAACTTCTCAGTTGATCCTCAGCTC
ATAAAAGATTACTTCCAGAGGTTCCTATACCAGCCCAAGGACCGCGAGTATCCCGACCTG
TGCCAGCTGCCAGAACTAAACGAGCAGACCTTACTCGACAACCTCAGAGCTAGATTTGCT
GCTGGATATATTTACACATATGTCGGATCTATATTAATAGCTCTGAACCCTTTCAAGTTT
TATCCGATATATAATCCGAAGTACGTGAAGCTGTACCAGAACAAGAGGATAGGGTCCAGC
CTACCACCTCACATCTTCGCGGTCGCGGACGCTGCGTACCACTGTATGCTTCGAGAGAGA
ACTAATCAGTGTATTGTAATAAGTGGAGAGAGTGGATCTGGTAAAACGGAGAGTACAAAT
TTTCTTCTTCATCACTTAACAGCGCTGAGTCAGAAAGGCTCCCACGGAAGTGGCGTTGAA
CAAACTATATTGAGCGCCGGTCCCGTACTGGAGGCTTTCGGCAACGCTAAAACAGCGCAC
AACAACAATTCCAGTCGATTTGGCAAATTTATACAAGTGAATTACAAAGAAAATGGCATG
GTCCATGGTGCTGTGGTCCAGAAATATCTTCTGGAGAAGTCTAGAATATGCAGTCAAGGT
CGCAATGAGCGGAACTATCACGTGTTTTACTATTTATTGGCGGGTGCATCGGAACAAGAG
AAGGAGCAACTGCATCTGCTCAGTGTGGACAAATATAACTATCTATCAAAGACTGGTTGT
AGTGTAGTGCCCGGTGTTGATGAACAGTATGAGTTTTCTAGACTGAAGCAGTCCATGGAT
ATGGTCGGCTTCACTATGGACAAACAGAGAAGACTCTTCGCCGTACTATCAGCTGTACTT
CTGTTAGGTAATGTTGAGTTCCACCCTCAGCGTAAGTCGTACCATCACGACGAGGCTGTG
GGTGTACGGAACCCTGAAGTGGTGTCTCTAATATCATCACTGTTGAGGGTCAAGCAGGAG
ACACTCTTGGCCGCACTCACCTCCAAGAGGGCGCGAGCCTCGGGAGAGACCCTAGTCATC
AACTACCGTCTTCCTGAAGCAATAGCAACTCGTGACGCAATGGCCAAGTGCCTGTACGGA
GCCCTCTTCGACTGGATCGTGATGCAAGTCAACCACGCACTGCTGTCCAAGAAAGACACA
CTCAGAGACCATCAGGGTCATAGTATAGGCGTCCTCGATATATTCGGCTTCGAGGATTTT
GGACCGAGCAACAGCTTCGAGCAGCTGTGTATCAACTACGCCAACGAACACCTCCAGTAC
TACTTCAATCAGCACGTGTTCAAGTACGAACAGGAGGAGTATAGGAGGGAGGGCATTAGG
TGGACGGACATCGGCTTCTCAGACAACACGGGCTGCTTGCAGCTCATAGAGGGCAAGCCG
GGGGGGTTGCTTTGTCTATTGGATGATCAGTGCAATTTTCCATGGGCGACAAACGAGACG
TTACTTCAGAAGTTCAACTCAGTCCACGAAGATAACCCCTTCTACGAGAAGCCGCAGCGA
AGAGAACCCGCTTTTGTTGTTAGACATTACGCTGGCAGGGTTAAATATCAAGTGACGGCC
ATGAGAGACAAAAATTTGGATCTTATGCGACAAGATATTGTAAGCGTTCTGAAGAATTCC
TCATTGGCGTTTGTACGGGAATTGGTGGGTGTGGATCCTGTGGCTGTATTCCGATGGGCC
ATCGTGAGGGCGTTTTTTAGAGGATACTTCGCATTTTTAGAAGCTGGTAGAAGACATCGG
GTAAATAGAGTCGATGGAGCGTCCAGAGTACCCCGACCCTCGATCCAAGCTCCGAATGAC
AGCATCATAAGGGGGGTGACCCGCGGCGGGGGGTGTAGGGCGCGCGGCTACAGGCTGGCG
GACACGCGCGCTCGGCGACTGGAGCGTGCGGACCGCATGGAAGACCACGACGTGCTGCAG
CGAGCCAGTCTCATCGTCATGAAGAACAAGTCGTTCAGGCCTCGGGAGCGCGCTAAGAAA
GGTCTCAAGAACTTACAGAGTGTGAAGACGCTAGCGGGACGGACGGCGCCTGCCGGAAAG
AGAAAGCAACCACTCACTGTAGCGGCGCAGTTCCAACACTCGCTGGCACAACTCATGGAG
ACCCTCAACCAAGCTAACCCGTTTTTCATCAGATGCATAAAATCGAATAGCGACAAGGTA
CCAAACGTGTTCGACGAGGAGACGGTGCAGCGACAGTTGCGTTACACGGGCATGCTGGAG
ACCGTCCGCATCAGGCAGGCCGGGTACAACGTGCGCCTCACTTACGACGAGTTCATACAG
CTGTATAGAATACTGCTACCGAAAGGTCTACTCAGCTCACAAACAGACGTGCGACACTTC
CTTGCCACCCTGAACTTGGATAGAGACAATTATCAATTGGGTGCTACAAAGATCTTTATG
CGTGAGAGTGAGCAGACCAAGTTGGAATATCGCCTTCACCAGCAGATCATGGCGTCCATC
ATCACCATACAGAGGTGGTTCAGAGCCGTGCTGGAGAGGAGGAGGTTCCTGGCACTGAGG
AGGGCCTCCCTCGTCATACAGACCTACTGCAGACAATGGCTGGTGATCCGTCAAGAGGCG
GCAACACGTATCCAAGCGTACTTCCGCGGCAGTCGTGTGAGACGGTGGTACTTACGTCTG
AGGGAGTCAGTCGTGGGCTTCCAAGCGGCGGCCAGGGGTTTCCTGCTGCGGAACACGTTA
CCCGAACTGAGGCGACGCCTGCCCTCCAAAAACAAGCATGAGAGTAAAGCGGCTCTAGCA
CCGGAGACGGCCGTGTTCAAGAGTACGAGCATAGAAAAACTTAAGAATATTATTGACATT
CAATTGTGA
Protein sequence:
MAHAENHRYIVQVFVGALSAQYEALSVEASKQTSSEEIVCCIAEKLKLNDVVGGPYELAE
VVGDMVSGECKERRLGPNESPVAVMMLWPNNNSGQYYRFYLREKIPDEPWMENFSVDPQL
IKDYFQRFLYQPKDREYPDLCQLPELNEQTLLDNLRARFAAGYIYTYVGSILIALNPFKF
YPIYNPKYVKLYQNKRIGSSLPPHIFAVADAAYHCMLRERTNQCIVISGESGSGKTESTN
FLLHHLTALSQKGSHGSGVEQTILSAGPVLEAFGNAKTAHNNNSSRFGKFIQVNYKENGM
VHGAVVQKYLLEKSRICSQGRNERNYHVFYYLLAGASEQEKEQLHLLSVDKYNYLSKTGC
SVVPGVDEQYEFSRLKQSMDMVGFTMDKQRRLFAVLSAVLLLGNVEFHPQRKSYHHDEAV
GVRNPEVVSLISSLLRVKQETLLAALTSKRARASGETLVINYRLPEAIATRDAMAKCLYG
ALFDWIVMQVNHALLSKKDTLRDHQGHSIGVLDIFGFEDFGPSNSFEQLCINYANEHLQY
YFNQHVFKYEQEEYRREGIRWTDIGFSDNTGCLQLIEGKPGGLLCLLDDQCNFPWATNET
LLQKFNSVHEDNPFYEKPQRREPAFVVRHYAGRVKYQVTAMRDKNLDLMRQDIVSVLKNS
SLAFVRELVGVDPVAVFRWAIVRAFFRGYFAFLEAGRRHRVNRVDGASRVPRPSIQAPND
SIIRGVTRGGGCRARGYRLADTRARRLERADRMEDHDVLQRASLIVMKNKSFRPRERAKK
GLKNLQSVKTLAGRTAPAGKRKQPLTVAAQFQHSLAQLMETLNQANPFFIRCIKSNSDKV
PNVFDEETVQRQLRYTGMLETVRIRQAGYNVRLTYDEFIQLYRILLPKGLLSSQTDVRHF
LATLNLDRDNYQLGATKIFMRESEQTKLEYRLHQQIMASIITIQRWFRAVLERRRFLALR
RASLVIQTYCRQWLVIRQEAATRIQAYFRGSRVRRWYLRLRESVVGFQAAARGFLLRNTL
PELRRRLPSKNKHESKAALAPETAVFKSTSIEKLKNIIDIQL