New model in OGS2.0 | DPOGS215054  |
---|---|
Genomic Position | scaffold498:- 16524-49010 |
See gene structure | |
CDS Length | 5805 |
Paired RNAseq reads   | 17284 |
Single RNAseq reads   | 40029 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA003044 (9e-126) |
Best Drosophila hit   | zipper, isoform C (0.0) |
Best Human hit | myosin-10 (0.0) |
Best NR hit (blastp)   | PREDICTED: similar to zipper CG15792-PD, isoform D [Apis mellifera] (0.0) |
Best NR hit (blastx)   | PREDICTED: similar to zipper CG15792-PD, isoform D [Apis mellifera] (0.0) |
GeneOntology terms    | GO:0016461 unconventional myosin complex GO:0007391 dorsal closure GO:0007443 Malpighian tubule morphogenesis GO:0007435 salivary gland morphogenesis GO:0008258 head involution GO:0005856 cytoskeleton GO:0007297 ovarian follicle cell migration GO:0003774 motor activity GO:0016459 myosin complex GO:0042623 ATPase activity, coupled GO:0035317 imaginal disc-derived wing hair organization GO:0030018 Z disc GO:0006936 muscle contraction GO:0045214 sarcomere organization GO:0030239 myofibril assembly GO:0016203 muscle attachment GO:0035072 ecdysone-mediated induction of salivary gland cell autophagic cell death GO:0045200 establishment of neuroblast polarity GO:0046663 dorsal closure, leading edge cell differentiation GO:0007395 dorsal closure, spreading of leading edge cells GO:0001736 establishment of planar polarity GO:0009653 anatomical structure morphogenesis GO:0000910 cytokinesis GO:0005524 ATP binding GO:0045179 apical cortex GO:0046664 dorsal closure, amnioserosa morphology change GO:0005938 cell cortex GO:0045184 establishment of protein localization GO:0032027 myosin light chain binding GO:0035017 cuticle pattern formation GO:0032154 cleavage furrow GO:0031036 myosin II filament assembly GO:0016460 myosin II complex GO:0051259 protein oligomerization GO:0035159 regulation of tube length, open tracheal system |
InterPro families    | IPR000048 IQ motif, EF-hand binding site IPR009053 Prefoldin IPR001609 Myosin head, motor domain IPR002928 Myosin tail IPR004009 Myosin, N-terminal, SH3-like |
Orthology group | MCL10079 |
Nucleotide sequence:
ATGGTGGATATGGATAGGAACGACCCGGAGCTCCGGTACCTGTCGGTCGATCGGAACAGT
TTCAACGACCCCGCGACGCAGGCCGAATGGACTCAGAAGAGACTAGTGTGGGTGCCCCAT
GAGACTCATGGCTTCGTGGCCGCTGGCATCAAGGGCGAGCGGAGGGATGAAGTGGAAGTG
GAGATCGCGGAGTCCGGGAAGCGGATGTTGGTGCCCATCGACGACATCCAGAAGATGAAC
CCGCCCAAGTTCGACAAAGTCGAGGACATGGCTGAGCTCACCTGCTTAAATGAAGCCTCC
GTTCTTCACAACATCAAAGACAGATACTACTCCGGATTGATATATACATACTCTGGTCTC
TTCTGCGTGGTGGTCAATCCGTACAAGAAGCTGCCGATCTACACGGAGAAGATAATGGAG
CGTTATAAGGGCATCAAACGCCACGAGGTACCACCGCACGTGTTCGCAATCACCGACACA
GCATACCGCTCCATGCTGCAAGATCGCGAGGACCAGTCCATCTTGTGTACCGGCGAGTCC
GGTGCCGGCAAGACTGAGAACACCAAGAAAGTGATACAGTACCTCGCGTACGTCGCAGCC
TCCAAGCCCAAAGGCTCGGGCGCGGGACCTTCGCCGCAGTTGATCATAGGCGAATTAGAA
CAACAGCTGCTTCAAGCCAATCCTATCCTCGAAGCGTTCGGTAACGCCAAGACAGTCAAG
AACGACAATTCATCGCGTTTTGGTAAATTCATTAGAATAAACTTCGACGCGTCCGGTTTC
ATAGCTGGAGCTAATATTGAAACCTATTTACTGGAGAAGTCGAGAGCCATCAGGCAGGCG
AAGGACGAACGGACGTTCCACATCTTCTATCAGCTGTTAGCGGGCGCGACCTCTCAGCAG
AAGGCGGAGTACATACTAGAAGACCCCAAAAGCTATCCCTTCCTCACCAACGGCGCGCTG
CCGGTGCCGGGCATCGACGACGCCGCGGAGTTCCAAGCCACCATCAAATCCATGCACATC
ATGGGCATGAACAACGAAGACTTCAACTCGATATTCAGAATCGTCTCAGCGGTCCTGCTG
TTCGGCTCGATGCAGTTCAAACAGGAGAGGAACTCGGATCAGGCCACGTTGCCTGATAAT
ACTGTTGCACAGAAAATTGCTCATTTGCTAGGTCTTTCTGTGACAGAAATGACAAAAGCT
TTCCTCAAGCCGCGGATTAAAGTGGGTCGTGATTTCGTCACCAAAGCACAAACTAAAGAA
CAGGTGGAGTTCTCTGTCGAGGCTATCGGCAAGGCTTGCTACGAACGTCTCTTCAGATGG
CTGGTCAACAGAATCAACAGGTCGCTGGACAGAACGAAGAGGCAGGGCGCATCGTTCATA
GGGATCCTCGATATGGCCGGTTTTGAAATATTCGAACTAAACTCCTTCGAACAGCTGTGT
ATTAATTACACGAACGAGAAGCTGCAACAGCTCTTCAACCACACCATGTTCATCCTCGAA
CAGGAAGAGTACCAGAGAGAAGGCATCGAATGGAAATTCATCGACTTCGGTCTGGACTTG
CAGCCGACGATCGACCTCATCGACAAACCCATGGGCATCATGGCCTTGCTCGACGAGGAG
TGCTGGTTCCCCAAGGCGACGGACAAGACGTTCGTCGAGAAGCTCGTGTCGTCACACTCC
GTACATCCGAAATTCATGAAAACGGACTTCAGAGGCGTCGCTGACTTCTCCATCATACAC
TACGCGGGGAAAGTTGATTACTCGGCCGCCAAGTGGCTCATGAAGAATATGGATCCTCTG
AACGAGAACGTGGTGTCGCTGCTGCAGTCCTCGCAGGATCCGTTCGTGTGCCACATTTGG
AAGGACGCCGAAATAGTCGGCATGGCGCAGCAAGCGATGACCGACACGCAATTCGGCAAG
AGAATAAGGAACGGGATGTTCAGAACGGTCTCCCAACTGTACAAGGAACAGTTGACGAAG
TTGATGGCAACGCTGAGGAACACGAACCCGAACTTCGTCAGGTGTATCATACCGAACCAC
GAGAAGAGGGCCGGCAAGATAGAAGCGCCCTTGGTCTTGGACCAGTTGCGCTGCAACGGT
GTGCTCGAAGGTATTAGGATTTGCCGCCAAGGTTTCCCCAACAGGATCCCGTTCCAGGAG
TTCAGACAGCGCTACGAGCTCCTCACGCCGAACATCATCCCGAAAGGCTTCATGGACGGC
AAAAAGGCGTGCGAGCAAATGATAGAGGCGTTGGAACTAGACCACAACCTCTACCGCGTC
GGTCAATCCAAGATCTTCTTCAGAGCTGGAGTGCTGGCGCATCTGGAGGAGGAGAGAGAC
TACAAGATAACCGACCTCATAGTGAACTTCCAAGCCTTCTGCAGGGGATTCCTGGCGAGA
AGAAACTATCAGAAGAGATTGCAGCAGCTGAGCGCTATAAGGATCATCCAAAGAAACTGC
GCCGCCTACCTCAAGCTGAGGAACTGGCAGTGGTGGAGGCTGTACATTAAAGTGAAACCT
CTGCTAGAAGTGACGAAGCAGGAAGAGAAGTTGACTCAGAAGGAGGATGAGCTGCGTCTA
ATCCGCGAACAGCTGGATTCCCAGCTGAAGTTGTGCCAGGAGTACGAAGCCAAGTACCAG
CAGGCTAGCGTCGAGAAGACCGAGCTCGCTGAGCAGTTACAGGCGGAACTTGAGCTATGC
GCTGAAGCCGAGGAGTCCCGCGCTAGGGCGGCCGCCCGCAAGCAAGAGCTGGAGGAGCTG
CTGCATGACCTGGAAGGAAGGATAGAGGAGGAGGAGGAGCGGTGTGTAGCGCTACAGCAG
GAGAAGAAGAAGCTACAGCTGAACATACAGGATGTGATGGAACAGCTGGAGGAGGAGGAG
GCAGCTCGTCAGAAGCTGCAGCTGGAGCGTGTCCAGTGCGATGCCAAGATCAAGAAGCTG
GAGGAGGACCTGGCGCTCAGTGACGACACCAACCAGAAACTCCTCAAGGAGAAGAAGGTC
CTAGAAGAGAGAGCTAACGATCTTTCACAAGCACTCGCCGAGGAAGAAGAGAAGGCTAAA
CATCTGAGTAAGTTGAAAGCGAAACAGGAGTCTGCTATTGCTGAGCTGGAGGAGAAACTA
TTGAAGGACCACCAATTAAGGCAAGAAGTGGACAGAACCAAGAGAAAGCTGGAGACGGAG
CTCCAGGACGTTAAGGAACAACTGGTGGAGAGGAAGGCGCAGCTCGAAGAACTGCAGATT
GTACTCAAGAAGCGCGAGGAGGAATTGGTGGCGGCCAACGCACGGGCCGACGAGGAAAGC
TCACAAAGGAACAACGCACAGAAAGCGGCCCGGGAGGCCCAGGCGGCGCTGGACGAGGCA
CGGGAAGACCTGGACCATGAGCGGGCTGCCAGGAGTAAGGCGGAGAAGCTCCGGAGAGAC
CTCAACGAGGAACTGGAAGCTTTGAAGAGCGAACTGCTGGACTCTCTCGACACCACAGCC
GCCCAGCAGGAGCTGCGGTCCAAAAGGGAGCAGGAGGTGGCGGTCCTCAAGAAGTCGCTG
GAGGAAGAGGCCGGCGCTCATGAAGCGGCGCTGGCGGACCAGCGACACAAGCACTCGCAG
GAGTTGCAGCTGCTCAACGAACAGCACGAACAACTCAAGAAGGCCAAGGCCGGTCTGGAG
AAGGCCAAGCAAGTTCTGGAAGCTGAGAATGCTGACCTGGCGACCGAGCTGAAGAGCGCC
AGCGCCGCACGCGCTGAGAGCGAGAGGAGGAGGAAACAGGCCGAAGCTCAGCTACAGGAA
GTGGCCGCTAAACTACAGGACGTGGACAGAGCCAGGGCGGAATTGGCGGAGCGCTGTGTG
CGGCTGCAGAGCGAATCGGAGCAGGCGCTGCAGCAGCTGGAAGCCGCTGAGCTGAAGGCA
TCCGCCGCAGCCAAACAGGCCGCCACCGCCGGCGCCAACCACGTGGAACTACAGGCCCAG
CTTGAGGAGGAGACGAAACAGAAGCTGTCGCTGCAGACGAAGCTGCGAGCTGTGGAGCAA
CAGCTGGAACAGGCCAGGGACCAGCTGGACGAGGAGGAGGAGGCCAAGGGCAACCTGGAA
AAACAGGTTGCAATGCTAACCCAACAAGTGGCCGACGCCAAGAAGAAGGCGGAAGAGGAA
GCGGAAGTCGCCGCCGCCCTCGAGGAACAGAGGAAGAAGCTCAGCAAGGACGTGGAGGCA
CTGCACTGTCAGCTGGAGGAGAAGCAACAGGCCAATGACAAGATAGAGAAGAGTAAAAAG
AAGATTCAGGAGGAGCTGGAGGACGCCAACATAGAACTGGCGGCGCAGCGAGCCAAAGTG
CTGGAGCTGGAGAAGAAACAGAAGAACTTTGATAAGGTTGTTTCTGAGGAACGTGCCGTA
GCCGAGAGGAACGCGGCCGAGAGGGACGCAGCGGAGAGGGAGGCTCGGGACAAGGAGACA
CGAGTCCTTTCACTCACCAGAGACCTGGACCAAGCCGCCGAGAAGATCGAGGAGTTGGAG
CGTTCCAAGCGCCTCCTGCAGTCGGAACTGGACGAGCTGGCCAACACGCAGGGGACAGCC
GACAAGAACGTGCACGAGCTGGAGAAGGCCAAGAGGGCACTAGAGTCACAGCTGGCCGAG
CTAAAGGCGCAGAACGAGGAGATCGAGGACGACCTGCAGCTCACCGAGGACGCCAAGCTG
CGCCTCGAGGTCAACATGCAGGCTATGAGGGCGCAGTTCGAGAGGGATCTGCAGGCTAAG
GAGGAGGCCGGCGAGGAGAAGCGCCGTGGCATAGTGAAGCAGCTGAGGGAGCTGGAGGCG
GAGCTGGAGGAGGAGCGGAAACAGAGAGCAGCCGCCGCCGCCAACCGGAAGAAGATGGAG
GCCGACCTCAAGGACGCCGAGCAGGCGCTACATCTGGCCAACAAGGTGAAAGAGGACGCG
GTAAAGCAAGCGAAGAAACTGACGGCGCAGCTCAAAGAGGCCGTGCGAGAGGCGGAGGAG
GCGAGGGCCGGGAGGGAAGAGGCCGCGGCCACCTCCAGGGAGGCCGAGAGGCGCGTCAAG
GCGTTAGAGGCTGAGGCGCTACAGCACGCGGAGGAGCTGGCGGCCGCAGAGAGAGCCCGC
AGGCACGCAGAGGTCGAGAGAGACGACCGCGACGACGAGCTCACCGCCGCCGCCGCCAAG
GCGACTCTTCTTATTGACGAGAAGAAACGTCTAGAAGCGAGAATAACAGCTCTGGAGGAA
GATTTGGATGAGGAGCAGTCGAACAACGAGATTCTCAACGACAGACTCAGGAAGGCTCAG
AACCAAATCGACCAGCTGACGATGGAGCTGGGCACAGAGAAGGCGGCCACACAGAAACTG
GAGAGCAGCAAACTGGTGCTGGAGAGGCAGAACAAGGAGCTGAAGGCCAAGTTCGCTGAA
CTGGAGACCTCGGGCCGGGCCAAGACCAAGAGTATGATCACGTCCTTGGAGCTGAAGGTC
CAGAACTTGGAGGAACAGCTCGAAGCGGAGTCCCGCGAGCGACTGGCCCAGCAGAAGGCC
TCGAGGAAGCTGGACAAGAAGATGAAGGAACTGGCGCTACAGCTGGAGGAGGAGAGGAGG
CACTCCGACCAGTACAAGGAACAGATCGAGAAGATGAACAGCCGCGTCAAGACGCTGAAG
CGCGAGGTGGACGCCGCGGACGAGGAGGTGCAGAGAGAGAGGGCCGCCAAGAGGAAGGCG
CAGAGAGAGCTGGACGACCTACTGGAAGCGCAGGAGACGCTCTCCAGGGAGTGCACCAAC
CTGCGCAACAAACTCAGACCCTCCTTGGCCGACGATAGCGACTAG
Protein sequence:
MVDMDRNDPELRYLSVDRNSFNDPATQAEWTQKRLVWVPHETHGFVAAGIKGERRDEVEV
EIAESGKRMLVPIDDIQKMNPPKFDKVEDMAELTCLNEASVLHNIKDRYYSGLIYTYSGL
FCVVVNPYKKLPIYTEKIMERYKGIKRHEVPPHVFAITDTAYRSMLQDREDQSILCTGES
GAGKTENTKKVIQYLAYVAASKPKGSGAGPSPQLIIGELEQQLLQANPILEAFGNAKTVK
NDNSSRFGKFIRINFDASGFIAGANIETYLLEKSRAIRQAKDERTFHIFYQLLAGATSQQ
KAEYILEDPKSYPFLTNGALPVPGIDDAAEFQATIKSMHIMGMNNEDFNSIFRIVSAVLL
FGSMQFKQERNSDQATLPDNTVAQKIAHLLGLSVTEMTKAFLKPRIKVGRDFVTKAQTKE
QVEFSVEAIGKACYERLFRWLVNRINRSLDRTKRQGASFIGILDMAGFEIFELNSFEQLC
INYTNEKLQQLFNHTMFILEQEEYQREGIEWKFIDFGLDLQPTIDLIDKPMGIMALLDEE
CWFPKATDKTFVEKLVSSHSVHPKFMKTDFRGVADFSIIHYAGKVDYSAAKWLMKNMDPL
NENVVSLLQSSQDPFVCHIWKDAEIVGMAQQAMTDTQFGKRIRNGMFRTVSQLYKEQLTK
LMATLRNTNPNFVRCIIPNHEKRAGKIEAPLVLDQLRCNGVLEGIRICRQGFPNRIPFQE
FRQRYELLTPNIIPKGFMDGKKACEQMIEALELDHNLYRVGQSKIFFRAGVLAHLEEERD
YKITDLIVNFQAFCRGFLARRNYQKRLQQLSAIRIIQRNCAAYLKLRNWQWWRLYIKVKP
LLEVTKQEEKLTQKEDELRLIREQLDSQLKLCQEYEAKYQQASVEKTELAEQLQAELELC
AEAEESRARAAARKQELEELLHDLEGRIEEEEERCVALQQEKKKLQLNIQDVMEQLEEEE
AARQKLQLERVQCDAKIKKLEEDLALSDDTNQKLLKEKKVLEERANDLSQALAEEEEKAK
HLSKLKAKQESAIAELEEKLLKDHQLRQEVDRTKRKLETELQDVKEQLVERKAQLEELQI
VLKKREEELVAANARADEESSQRNNAQKAAREAQAALDEAREDLDHERAARSKAEKLRRD
LNEELEALKSELLDSLDTTAAQQELRSKREQEVAVLKKSLEEEAGAHEAALADQRHKHSQ
ELQLLNEQHEQLKKAKAGLEKAKQVLEAENADLATELKSASAARAESERRRKQAEAQLQE
VAAKLQDVDRARAELAERCVRLQSESEQALQQLEAAELKASAAAKQAATAGANHVELQAQ
LEEETKQKLSLQTKLRAVEQQLEQARDQLDEEEEAKGNLEKQVAMLTQQVADAKKKAEEE
AEVAAALEEQRKKLSKDVEALHCQLEEKQQANDKIEKSKKKIQEELEDANIELAAQRAKV
LELEKKQKNFDKVVSEERAVAERNAAERDAAEREARDKETRVLSLTRDLDQAAEKIEELE
RSKRLLQSELDELANTQGTADKNVHELEKAKRALESQLAELKAQNEEIEDDLQLTEDAKL
RLEVNMQAMRAQFERDLQAKEEAGEEKRRGIVKQLRELEAELEEERKQRAAAAANRKKME
ADLKDAEQALHLANKVKEDAVKQAKKLTAQLKEAVREAEEARAGREEAAATSREAERRVK
ALEAEALQHAEELAAAERARRHAEVERDDRDDELTAAAAKATLLIDEKKRLEARITALEE
DLDEEQSNNEILNDRLRKAQNQIDQLTMELGTEKAATQKLESSKLVLERQNKELKAKFAE
LETSGRAKTKSMITSLELKVQNLEEQLEAESRERLAQQKASRKLDKKMKELALQLEEERR
HSDQYKEQIEKMNSRVKTLKREVDAADEEVQRERAAKRKAQRELDDLLEAQETLSRECTN
LRNKLRPSLADDSD