New model in OGS2.0 | DPOGS209828  |
---|---|
Genomic Position | scaffold830:+ 62218-73543 |
See gene structure | |
CDS Length | 3657 |
Paired RNAseq reads   | 3759 |
Single RNAseq reads   | 9993 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA003044 (2e-119) |
Best Drosophila hit   | jaguar, isoform J (0.0) |
Best Human hit | myosin-VI (0.0) |
Best NR hit (blastp)   | myosin vi [Aedes aegypti] (0.0) |
Best NR hit (blastx)   | myosin vi [Aedes aegypti] (0.0) |
GeneOntology terms    | GO:0042623 ATPase activity, coupled GO:0016461 unconventional myosin complex GO:0003779 actin binding GO:0007391 dorsal closure GO:0007286 spermatid development GO:0005737 cytoplasm GO:0030048 actin filament-based movement GO:0007051 spindle organization GO:0006997 nucleus organization GO:0051647 nucleus localization GO:0030589 pseudocleavage involved in syncytial blastoderm formation GO:0030036 actin cytoskeleton organization GO:0019749 cytoskeleton-dependent cytoplasmic transport, nurse cell to oocyte GO:0045172 germline ring canal GO:0005515 protein binding GO:0008017 microtubule binding GO:0030139 endocytic vesicle GO:0005875 microtubule associated complex GO:0007552 metamorphosis GO:0008363 larval chitin-based cuticle development GO:0016333 morphogenesis of follicular epithelium GO:0007560 imaginal disc morphogenesis GO:0007297 ovarian follicle cell migration GO:0007015 actin filament organization GO:0007291 sperm individualization GO:0030317 sperm motility GO:0007283 spermatogenesis GO:0070864 sperm individualization complex GO:0016459 myosin complex GO:0007298 border follicle cell migration GO:0003774 motor activity GO:0032970 regulation of actin filament-based process GO:0032880 regulation of protein localization GO:0031941 filamentous actin GO:0032956 regulation of actin cytoskeleton organization GO:0005938 cell cortex GO:0045175 basal protein localization GO:0040001 establishment of mitotic spindle localization GO:0055057 neuroblast division GO:0045167 asymmetric protein localization involved in cell fate determination GO:0045178 basal part of cell GO:0048477 oogenesis GO:0055059 asymmetric neuroblast division GO:0016044 cellular membrane organization GO:0045217 cell-cell junction maintenance GO:0005524 ATP binding GO:0070865 investment cone GO:0070856 myosin VI light chain binding GO:0031476 myosin VI complex GO:0005516 calmodulin binding GO:0032027 myosin light chain binding GO:0051015 actin filament binding |
InterPro families    | IPR001609 Myosin head, motor domain IPR004009 Myosin, N-terminal, SH3-like IPR000048 IQ motif, EF-hand binding site |
Orthology group | MCL14532 |
Nucleotide sequence:
ATGGACAAGCAGTTGATATGGGTGAGGGATCCCAACGAGGGTTTCATCCTGGCTCGCCTC
CACGAGCTGATGGGTGAAGAGGCGGATGTCCTTCCCATCGACAACAAACACACGCGCCGC
CTCGTCAACTTCGATGACATACTGCCAGCTGGAGATCCGGCTGTAGACGTCGATGATAAC
TGCGAACTAATGTTCCTGAACGAGGCTACTCTTCTTAATAACATACTCATCAGATACAAT
AAGAAAAAGATATACACGTACGTAGCAAATATTCTGCTAGCAGTGAATCCGTACGAAGAT
ATCCCGGATATGTATTCTTCGTCTACCATCAAGAAGTATCAAGGGAGATCGCTCGGTGAA
CTGCCGCCTCACGTCTTCGCTATAGCTGACAAAGCCTTCCGTGATATGAAAGCGTTGAAG
CAATCTCAGTCCATCATAGTGTCGGGAGAATCAGGCGCCGGGAAAACGGAATCAACGAAA
TACATACTGAAATATCTCTGTGATTTGTGGGCGAAGGGCGCTGGGCCAGTTGAACAGAAA
ATATTGGACGCCAATCCGATCCTTGAAGCGTTCGGTAACGCTAAAACAACACGCAACAAC
AACAGTTCCCGTTTCGGTAAATTCATGGAGGTGCATTTCTCCAACAAATACCAAGTGGTG
GGTGGTCACATATCGCATTATTTGTTGGAGAAATCACGGATATGCACCCAAAGCGCCGAA
GAGAGGAACTATCACGTGTTCTACTTGCTGTGCGCTGGAGCACCACAGGAACTACGGTCC
GCCTTGAAAATAACCAAGCCCGATGATTATTTATATCTGAAGAACGGTTGCACTCAATAC
TTCACGTCGCCGCAATCTGAGAAGAAAATAAATGCAAGTCAAAAGAGCAAGCAACAACAA
GCCAAAGGCGGTCTCCGAGACCCCATACTGGATGACGTGGAAGATTTCCAAAGACTCTAC
CAGGCCCTATCCCACATAGGTTTATCAGAGTCCGAAAAGAAATCGGTGTTTTCCATAGTG
GGGGCCGTATTACATCTCGGCAATATAGAGTTTGAGGAGGAGGGTGGTGCTAGAGGTGGT
TGTAGAGTTACACCAGAATCTGAACACGCTCTAGCTACAGCCAGCGAACTATTGGGTGTG
GATGCTGGGGAACTGAGAATGGCTCTGGTCTCTAGACTTATGCAGAGCTCTAGAGGAGGA
ATCAAAGGAACCGCTATCATGGTGCCCCTCAAGACGTATGAGGCTTGTAACGCTCGCGAC
GCCCTGGCTAAGGCTGTGTACAGTCGGTTGTTTGACTCCATAGTGAGGAGGATCAATGAC
AGTATACCCTCCAGCACTTCCGCTTACTATATAGGAGTGTTGGACATAGCCGGATTCGAA
TACTTCCAAATGAACAGTTTCGAACAGTTTTGCATAAACTACTGCAATGAGAAGCTGCAA
CAGTTCTTTAACGAACGGATCCTCAAGAACGAACAAGAATTATACAAGAGAGAGGGCTTG
AACGTACCTGAGATAAGATTCGTCGACAATCAGGATTGTATTGATCTAATAGAGAGCAAA
AACCACGGTATCTTCCACTATCTGGACGAAGAGTCCAAATTGCCGAAACCAGATTTCGGT
CATTTCACCAACTCAGTCCACAAGGAACTCGGCAATCAGTCCAATTCCCGCCTGAACGCT
CCTCGCGCGTCCCGCCTGAAGGCTCACCGAGCTCTTCGCGAGCACGAAGGATTCCTTCTA
CGACACTTCGCTGGAGCGGTTTGCTATAACACGAGTCAATTCATAGAAAAAAACAACGAT
GCCCTACACGCCTCGCTGGAGTTCCTGGTGCAGGAATCTAAGAACACATTCGTACAACAA
CTGTTTGAAAATACAGACAACAGCAACGCTAAAGGGAAACTCAACTTTATATCCGTGGGC
GCTAAGTTCCAATCTCAACTGTCACAACTTATGGAGAAATTGAAAGAAAACGGCACTAAC
TTCGTCCGCTGCATCAAACCGAACTCGCGTATGGAGGGTGGCTCGTGCTCTGGCTCGTTA
GTGCTGACACAACTTCAGTGCAGTGGAACTATCGCCGTTCTATCGCTCATGGAACATGGT
TTTCCATCCCGGGCTCCATTCGCAGACTTACACCGCCTCTATTCTGACTACCTACCGCCG
AAACTGGCAGGACTACAGCCTAAAATATTCTGCCAGGCAATAGTCCACAGCTTCGGTCTA
TCAGACAAAGACTACAAGTTCGGTATAACGCGCGTGTTCTTCAGACCCGGCAAGTATTCG
GAGTTCGATACCATGATGAAGTCGGATCCTGAGAACCTCAAGGCTATAGTCGACTCGGTG
CTGGCCTGGCTCGTCAAGTCGAGATGGAGACGTTCCATATTCTCTGTGCTCTCCATTATT
AAATTGAAGAACAAAATCCTTCATCGCCGCAAATGTCTGCTGATTGTACAAAAGACGATC
CGCGGTTATCTGACTCGTAAGCAACACATGCCGCGTTACAAGGGGATCGCTAAGATCAGG
CTGCTAGAGAAGAACCTCGTACAGATGGACACTGTGACGTCACAACTGAAGAAGGAAAGA
GACAGCGCTAAGAAGAATATTGAAAACCTGAGAAATAGTATCAAAAACGCCTGTCATACC
ATCAAGAGTAACGAGAGAATAACCCGACACGAAATCGACCAAATATACACGAAGCTCACT
AAAGACGTGGAAGCCCAAATGGCGGCCTTGCAGAAGGCGATGGTCGATCAGAAGAACAGA
GAGGAACAAGAGCGCCTTCGCAAACTGGAGGCCGAGATGCGAGCGGCCGAGGAAGCGAAA
CGAAGGGAACAAGAAATGCTACGGCAAGAAGAGGAACACAGACGACTGAAAGCGGAGATG
GAGTCGAGGCGGAAGACGGAGGAAGCGGAGAGGAAGAGGCAGGAGGAAGCTGACCGGGCG
GCCGCGGACAGGCTGAGGAGGCAGCTAGAGGAGGAAGACCGCGCCGACCAGGAGAATAGA
GAGAGGTTGGAACAAGAGCGGCGCGATCATGAAATGGCCGTGCGGCTCGCCAACGAAACG
GACGGCCACGTGGAGGGCTCGCCGCCACAGCTACGCAGGTCGGAACGTGTTCGTATGCAA
CAAGCTCTCCAAGAAAAGCAGAAATACGACCTCTCCAAGTGGAAATATTCCGAGCTGAGA
GACACGATCAACACCTCGTGTGACATAGAATTGCTTGAGGCATGTCGTCATGAGTTCCAT
CGCCGTCTGAAGGTGTATCACGCTTGGAAGGCAAAGAACGCTCGTAAGTCGACCTTGGAA
CAGGAACGAGCTCCGCAGTCCATCATGGACGCCGCCAAGGCTCCCCGAGTAACCACGGGC
GCCATATTGGGTGCGCGTCATCGTTACTTCCGCATCCCGTTCGCTCGCCCCGGCAGTGAC
GAAGCCCGCGGCTGGTGGTACGCCCACTTCGACGGGCAGTACGTGGCTCGTCAGATGGAG
CTACACCCGGATAAGACGCCGGTACTGCTCCAGGCTGGGTTGGATGACATGCAGATGTGT
GAACTCAGCTTAGACGAGACAGGACTCACGAGGAAACGCGGAGCCGAAATATTGGAGCAC
GAGTTCGAGCGAGAATGGGCCAAGAACCGCGGACCGCCCTACAAACCAGCTCGTTAA
Protein sequence:
MDKQLIWVRDPNEGFILARLHELMGEEADVLPIDNKHTRRLVNFDDILPAGDPAVDVDDN
CELMFLNEATLLNNILIRYNKKKIYTYVANILLAVNPYEDIPDMYSSSTIKKYQGRSLGE
LPPHVFAIADKAFRDMKALKQSQSIIVSGESGAGKTESTKYILKYLCDLWAKGAGPVEQK
ILDANPILEAFGNAKTTRNNNSSRFGKFMEVHFSNKYQVVGGHISHYLLEKSRICTQSAE
ERNYHVFYLLCAGAPQELRSALKITKPDDYLYLKNGCTQYFTSPQSEKKINASQKSKQQQ
AKGGLRDPILDDVEDFQRLYQALSHIGLSESEKKSVFSIVGAVLHLGNIEFEEEGGARGG
CRVTPESEHALATASELLGVDAGELRMALVSRLMQSSRGGIKGTAIMVPLKTYEACNARD
ALAKAVYSRLFDSIVRRINDSIPSSTSAYYIGVLDIAGFEYFQMNSFEQFCINYCNEKLQ
QFFNERILKNEQELYKREGLNVPEIRFVDNQDCIDLIESKNHGIFHYLDEESKLPKPDFG
HFTNSVHKELGNQSNSRLNAPRASRLKAHRALREHEGFLLRHFAGAVCYNTSQFIEKNND
ALHASLEFLVQESKNTFVQQLFENTDNSNAKGKLNFISVGAKFQSQLSQLMEKLKENGTN
FVRCIKPNSRMEGGSCSGSLVLTQLQCSGTIAVLSLMEHGFPSRAPFADLHRLYSDYLPP
KLAGLQPKIFCQAIVHSFGLSDKDYKFGITRVFFRPGKYSEFDTMMKSDPENLKAIVDSV
LAWLVKSRWRRSIFSVLSIIKLKNKILHRRKCLLIVQKTIRGYLTRKQHMPRYKGIAKIR
LLEKNLVQMDTVTSQLKKERDSAKKNIENLRNSIKNACHTIKSNERITRHEIDQIYTKLT
KDVEAQMAALQKAMVDQKNREEQERLRKLEAEMRAAEEAKRREQEMLRQEEEHRRLKAEM
ESRRKTEEAERKRQEEADRAAADRLRRQLEEEDRADQENRERLEQERRDHEMAVRLANET
DGHVEGSPPQLRRSERVRMQQALQEKQKYDLSKWKYSELRDTINTSCDIELLEACRHEFH
RRLKVYHAWKAKNARKSTLEQERAPQSIMDAAKAPRVTTGAILGARHRYFRIPFARPGSD
EARGWWYAHFDGQYVARQMELHPDKTPVLLQAGLDDMQMCELSLDETGLTRKRGAEILEH
EFEREWAKNRGPPYKPAR