New model in OGS2.0 | DPOGS206365  |
---|---|
Genomic Position | scaffold1578:+ 36387-50451 |
See gene structure | |
CDS Length | 6009 |
Paired RNAseq reads   | 160052 |
Single RNAseq reads   | 469415 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA014227 (0.0) |
Best Drosophila hit   | myosin heavy chain, isoform P (0.0) |
Best Human hit | myosin-7 (0.0) |
Best NR hit (blastp)   | hypothetical protein TcasGA2_TC005924 [Tribolium castaneum] (0.0) |
Best NR hit (blastx)   | hypothetical protein TcasGA2_TC005924 [Tribolium castaneum] (0.0) |
GeneOntology terms    | GO:0006941 striated muscle contraction GO:0005863 striated myosin muscle thick filament GO:0005859 muscle myosin complex GO:0008307 structural constituent of muscle GO:0030017 sarcomere GO:0042803 protein homodimerization activity GO:0006936 muscle contraction GO:0040011 locomotion GO:0000146 microfilament motor activity GO:0042623 ATPase activity, coupled GO:0016459 myosin complex GO:0030241 skeletal muscle myosin thick filament assembly GO:0005524 ATP binding GO:0030239 myofibril assembly GO:0042692 muscle cell differentiation GO:0007427 epithelial cell migration, open tracheal system GO:0031672 A band |
InterPro families    | IPR000048 IQ motif, EF-hand binding site IPR009053 Prefoldin IPR002928 Myosin tail IPR001609 Myosin head, motor domain IPR015650 Heavy chain of Myosin |
Orthology group | MCL10079 |
Nucleotide sequence:
ATGGACTACAACATCGTATCACAAGGCAAGACTGTAATCCCTGGCGTCGACGACGGCGAG
GAAATGAAACTTACAGACCTAACGATGCTAAGCAACCGCATCTCGAACTTTCCTCTATTA
AGTCAAGGAACGACTAGGATACCTGGGGTCAACGACGCAGAGCAATTTGAACTCACGCTC
GGTAAGATTACAATTCCCAACGTCGATGATGGAGAAGAATGCGGTTTGACCGATCAAGCT
ATGGACGTTCTTGGTTTTACCCAAGAAGAAAAGGACAATGTATACAAGATCACCGCCGCT
GTAATGCACATGGGTTGTATGAAGTTCAAGCAGAGGGGTCGTGAGGAACAGGCAGAAGCT
GACGGCACTGAGGATGGTGACAAGGTTGCCAAGCTCCTCGGAGTCGATTGTGCGGATTTA
TACAAGAACTTGCTGAAGCCTCGCATCAAGGTCGGAAACGAGTTCGTCACCCAGGGTCGT
AACAAGGACCAGGTCATCAACTCCGTCGGTGCCCTTTGCAAGGGTGTGTTCGATCGTCTG
TTCAAGTGGCTCGTGAAGAAGTGTAACGAAACTCTAGACACCAAGCAGAAGAGACAACAC
TTCATTGGTGTACTGGATATTGCTGGTTTCGAGATCTTCGACTTTAATGGGTTCGAACAA
CTTTGTATTAACTTCACAAATGAAAAACTGCAACAATTTTTCAACCACCACATGTTTGTA
TTGGAACAAGAAGAGTACACTAAAGAAGGCATTCATTGGGAGTTCATTGACTTTGGGATG
GACTTATTAGCCTGCATTGACCTTATAGAAAAGTACAACGGTTTCGAGCAACTCTGCATT
AACTTCACAAATGAGAAGCTCCAGCAATTCTTTAACCACCACATGTTCGTACTCGAACAA
GAGGAGTACAAGAAGGAAGGCATCAACTGGGCTTTCATTGATTTCGGAATGGACTTGCTA
GCTTGTATCGATTTGATCGAGAAGTACAACGGTTTTGAACAACTCTGCATTAATTTCACC
AATGAGAAACTCCAGCAATTCTTTAACCACCATATGTTCGTGTTGGAGCAAGAAGAATAC
CAACGCGAAGGCATCGAATGGACTTTCATTGACTTTGGCATGGATCTTCAGAATTGCATT
GACCTTATAGAAAAGATCAATGGATTTAATCAGCTCTGCGTTAATTTTACGAATGAAAAA
TTGCAACAGTACTTTAATCATTTCATGTTCGTCCTAGAACAAGAGGAATATGAACGAGAA
GGGATATTATGGGAGTTCATAGATTTTGGTATAGATCTCCAACCTACAATAAATTTAATA
GAAAAGCCTATGGGTATCCTCTCAATTCTTGAGGAAGAGTCTATGTTCCCTAAAGCTACC
GATCAAACCTTCGTTGAAAAGTTGAACAACAACCACTTGGGTAAATCTGCTCCTTACCTG
AAGCCCAAACCCCCCAAGCCTGGTTGTCAAGCCGCCCACTTCGCCATCGGTCACTACGCC
GGAAATGTCGGCTACAACATCACTGGATGGCTTGAGAAGAACAAGGATCCCCTTAACGAC
ACTGTCGTAGACCAATTCAAGAAGGGTAGCAACAAACTGTTAGTCGAGATCTTTGCTGAT
CATCCCGGACAGTCCGGTGACGCCGGTGGTGGTGGTGGCAAGGGAGGTCGCGGTAAGAAG
GGAGGTGGTTTTGCTACTGTCTCCTCCGCGTACAGGGAACAACTGAACAACCTGATGACC
ACTCTGAGGTCGACTCAACCTCACTTCGTACGTTGTATCATTCCCAATGAAACGAAGACT
CCTGGTCTCATCGACTCTCACCTTGTTATGCACCAGCTGACCTGTAACGGTGTGCTTGAA
GGCATCCGTATTTGCCGTAAAGGTTTCCCCAACAGGATGGTATATCCCGACTTCAAGCTC
CGTTACATGATCCTTGCACCAGCGATCATGCAAGCTGAAAAAGATCCTAAAGAGGCAGCT
AGGAAGTGTCTCGAAGCCATCAACTTAGATCCCGAAAGCTATCGTATAGGTCACACGAAG
ATCCTGGCTCCACAAGCCTGCGCTAAGGAATCTGACCCTAAGAAAATCGCCCAAGTCATT
TTGGATACAACTGGCTTGGATGTCGAGTCATACCGTCTGGGTCACACGAAGGCATGTTTG
AAGTTTTCATACAAAATTCTGTGCCCGAACCTGGTCAAAGAACCAATAAGTGCTGAGAAA
GCCACCGAGAAAATTCTCGAACATACTGGCTTGGACTCGGAGTCTTTCAGGCTCGGAAAA
ACTAAGGTATTCTTCCGTGCCGGTGTCTTGGGTCAGATGGAAGAGTTGCGTGACGATAGG
CTGTCCAAGATTATCTCTTGGCTCCAAGCATACATCCGTGGTTACCTGTCCCGTAAGGAA
TACAAGAAGTTGCAGGAACAGAGATTGGCTCTCCAAGTTGTCCAGCGCAACTTGCGCAAG
TACTTGCAGCTCCGCACCTGGCCATGGTGGAAACTCTGGCAGAAGGTCAAGCCTCTTCTC
AACGTCACCCGCATCGAGGATGAAATCGCGAAATTGGAAGAGAAAGCACAAAAGGCCCAG
GAAGCCTTCGAAAAGGAAGAGAAACTCCGAAAGGAAGTCGAGGCCCTTAACAGCAAGCTT
CTGGAAGAGAAGCAAGCCCTTCTGTCTACACTTGAGGGAGAGAAGGGTTCTCTTTCCGAG
ACCCAAGAGCGTGCTGCTAAACTCCAGGCCCAAAAGGCTGACCTCGAGAGTCAACTTAGG
GATACTCAAGACCGTCTTACTCAAGAAGAAGATGCCCGTAACCAACTCTTCCAAGCCAAA
AAGAAGTTGGAGCAGGAAGTCTCCGGTCTTAAGAAGGACATTGAAGACCTCGAACTTTCC
GTCCAGAAGTCTGAACAGGATAAGGCAACTAAAGACCACCAAATCCGCAACTTGAATGAT
GAGATCGCCCACCAGGACGAGCTCATCAACAAACTCAACAAGGAAAAGAAACTCCAAGGT
GAATCCACTCAGAAGACAGCTGAAGAGTTGCAGGCTGCTGAAGACAAGGTCAACCATCTC
AACAAGGTTAAGCAAAAGCTTGAGCAAACTCTTGACGAACTCGAGGACTCTCTTGAGCGT
GAGAAGAAACTCCGCGCTGATGTTGAGAAACAGAGGAGGAAGGTTGAGGGTGACCTTAAA
CTTACACAAGAGGCTGTTTCCGACCTTGAACGCAACAAGAAGGAGCTCGAACAGACCATC
CAACGCAAGGACAAAGAAATCTCTTCCCTTACTGCCAAGCTTGAGGACGAACAGTCTTTG
GTTAGCAAGGTTCAGAAACAAATCAAGGAACTGCAGGCCCGTATCGAAGAATTGGAAGAG
GAAGTCGAATCCGAACGTCAAGCTCGCGCAAAGGCTGAGAAACAACGTGCTGACTTGGCT
CGCGAACTCGAAGAGTTGGGTGAGCGTCTTGAGGAAGCTGGTGGTGCAACCTCTGCTCAA
ATCGAGCTTAACAAGAAGCGTGAAGCCGAGCTTAGCAAGCTTCGTCGGGACTTGGAGGAA
GCTAACATTCAACATGAGTCTACCCTCGCTAACCTTCGCAAGAAGCACAACGATGCTGTT
GCGGAGATGGGCGAGCAGCTAGACCAGCTTAACAAACTGAAGGCTAAGGCTGAACATGAT
CGGGCTTCTTGCTACAACGAGCTCAACAACACCCGCGCAGCAATTGATCAAGTAGCAAGG
GAAAAGCGTTACCCTACTGAATATTTTGTTGTATTTTATCTACCCAGGGCTGAGAAAGAG
CGTTCTCAATACTTTAGCGAAGTCAATGACCTTCGCGCCGGTCTCGACCACTTATCCAAC
GAAAAGGCTGGCCAAGAGAAGATCGTCAAACAACTGCAACACCAACTTAATGAAGTACAA
GGTAGAGCTGATGAGGCCAACCGTACCCTCAATGACTTGGACGCCGCCAAGAAGAAGTTG
TCCATCGAGAACTCTGACCTTCTCCGTCAGTTGGAGGAGGCCGAGTCCCAGGTGTCTCAG
CTATCTAAGATCAAGGTGTCGCTTACCACTCAGTTGGAAGACACCAAGAGGCTTGCTGAC
GAGGAGGCTAGGGAACGTGCCACCCTTCTCGGCAAGTTCCGCAACCTCGAGCACGACTTG
GACAACATTCGTGAACAAGTTGAAGAGGAAGCCGAGGGCAAGGCTGACTTACAACGCCAA
TTATCTAAGGCCAACGCTGAAGCTCAATTATGGCGTTCCAAGTACGAGTCTGAAGGTGTC
GCTCGCTCCGAAGAACTTGAGGAAGCCAAGCGCAAACTCCAGGCCCGTCTTGCTGAAGCC
GAAGAGACCATTGAGTCCCTCAACCAGAAGGTCGTTGCTCTCGAAAAGACCAAGCAACGT
CTTGCCACCGAAGTCGAGGACCTGCAACTCGAGGTTGACCGTGCTACCGCTATTGCCAAC
GCAGCTGAGAAGAAACAGAAAGCCTTCGACAAGATCATTGGAGAATGGAAACTTAAGGTT
GATGACCTGGCAGCTGAACTTGATGCTAGCCAGAAGGAATGCCGCAATTACTCTACCGAA
CTGTTCCGTCTCAAGGGTGCCTATGAAGAAGGACAGGAACAACTTGAAGCTGTCCGCCGT
GAAAACAAGAACCTTGCCGATGAAGTTAAGGACTTGCTTGACCAAATCGGTGAAGGTGGT
CGCAACATTCACGAAATTGAGAAGGCTAGGAAACGTCTTGAAGCCGAGAAAGATGAACTC
CAAGCTGCTCTCGAGGAAGCTGAAGCTGCTCTTGAACAAGAAGAAAACAAGGTCCTCCGT
GCTCAACTTGAGTTGTCTCAAGTCAGACAAGAGATTGACAGGAGAATCCAAGAGAAGGAA
GAGGAATTCGAAAACACCCGCAAGAACCACCAACGTGCCCTGGACTCTATGCAAGCTTCC
CTCGAAGCAGAAGCCAAGGGTAAGGCTGAGGCCCTACGCATGAAGAAGAAGTTAGAAGCC
GATATCAATGAACTTGAAATCGCTCTTGACCACGCTAACAAGGCTAACGCTGAAGCACAG
AAGAACATTAAGCGCTACCAAGGACAGATCAAGGACCTCCAGACAGCTCTTGAAGAGGAA
CAACGTGCTCGTGATGACGCTCGTGAACAGCTTGGTATCTCAGAACGTCGTGCCAACGCT
CTTCAGAATGAACTTGAAGAGTCTCGTACTCTTCTTGAACAGGCTGACCGTGCTCGCCGC
CAGGCTGAACAAGAACTTGGCGATGCTCATGAACAGCTTAATGAGTTATCTGCCCAGAAC
GCTTCACTGTCTGCAGCCAAGAGGAAACTTGAATCTGAGCTCCAGACCCTTCACTCTGAC
CTCGACGAACTTCTCAATGAAGCTAAGAACTCTGAAGAGAAGGCAAAGAAGGCTATGGTT
GATGCCGCCAGGCTTGCTGACGAACTCCGCGCTGAACAGGAGCACGCTCAGACCCAGGAG
AAACTCCGTAAAGCCCTTGAACAACAAATCAAGGAATTGCAAGTCAGGCTTGACGAGGCT
GAGGCCAACGCACTTAAGGGAGGAAAGAAGGCCATCCAGAAACTCGAACAAAGGGTACGA
GAACTCGAGAACGAGCTCGACGGCGAACAAAGGAGACATGCTGATGCCCAGAAGAACCTG
CGTAAGGCTGAAAGACGCATTAAGGAACTGTCCTTCCAAGCTGAGGAAGACCGCAAGAAC
CACGAGCGTATGCAAGACCTTGTTGACAAACTGCAACAGAAGATCAAGACCTACAAGAGG
CAGATCGAGGAAGCCGAAGAAATCGCCGCCCTCAACTTGGCTAAATTCCGCAAAGCACAA
CAAGAGCTTGAGGAAGCCGAGGAAAGGGCAGACCTTGCTGAGCAGGCCATTAGCAAATTC
CGTGGCAAGGGACGTGCGGGATCTGCTGCGAGAGGAGTCAGTCCGGCGCCCCAACGCCAG
CGCCCCGCCCACGACGGCTTCGGCACCTTCCCACCAAGGTTCGACCTGGCGCTTGAAAAC
GATTTTTAA
Protein sequence:
MDYNIVSQGKTVIPGVDDGEEMKLTDLTMLSNRISNFPLLSQGTTRIPGVNDAEQFELTL
GKITIPNVDDGEECGLTDQAMDVLGFTQEEKDNVYKITAAVMHMGCMKFKQRGREEQAEA
DGTEDGDKVAKLLGVDCADLYKNLLKPRIKVGNEFVTQGRNKDQVINSVGALCKGVFDRL
FKWLVKKCNETLDTKQKRQHFIGVLDIAGFEIFDFNGFEQLCINFTNEKLQQFFNHHMFV
LEQEEYTKEGIHWEFIDFGMDLLACIDLIEKYNGFEQLCINFTNEKLQQFFNHHMFVLEQ
EEYKKEGINWAFIDFGMDLLACIDLIEKYNGFEQLCINFTNEKLQQFFNHHMFVLEQEEY
QREGIEWTFIDFGMDLQNCIDLIEKINGFNQLCVNFTNEKLQQYFNHFMFVLEQEEYERE
GILWEFIDFGIDLQPTINLIEKPMGILSILEEESMFPKATDQTFVEKLNNNHLGKSAPYL
KPKPPKPGCQAAHFAIGHYAGNVGYNITGWLEKNKDPLNDTVVDQFKKGSNKLLVEIFAD
HPGQSGDAGGGGGKGGRGKKGGGFATVSSAYREQLNNLMTTLRSTQPHFVRCIIPNETKT
PGLIDSHLVMHQLTCNGVLEGIRICRKGFPNRMVYPDFKLRYMILAPAIMQAEKDPKEAA
RKCLEAINLDPESYRIGHTKILAPQACAKESDPKKIAQVILDTTGLDVESYRLGHTKACL
KFSYKILCPNLVKEPISAEKATEKILEHTGLDSESFRLGKTKVFFRAGVLGQMEELRDDR
LSKIISWLQAYIRGYLSRKEYKKLQEQRLALQVVQRNLRKYLQLRTWPWWKLWQKVKPLL
NVTRIEDEIAKLEEKAQKAQEAFEKEEKLRKEVEALNSKLLEEKQALLSTLEGEKGSLSE
TQERAAKLQAQKADLESQLRDTQDRLTQEEDARNQLFQAKKKLEQEVSGLKKDIEDLELS
VQKSEQDKATKDHQIRNLNDEIAHQDELINKLNKEKKLQGESTQKTAEELQAAEDKVNHL
NKVKQKLEQTLDELEDSLEREKKLRADVEKQRRKVEGDLKLTQEAVSDLERNKKELEQTI
QRKDKEISSLTAKLEDEQSLVSKVQKQIKELQARIEELEEEVESERQARAKAEKQRADLA
RELEELGERLEEAGGATSAQIELNKKREAELSKLRRDLEEANIQHESTLANLRKKHNDAV
AEMGEQLDQLNKLKAKAEHDRASCYNELNNTRAAIDQVAREKRYPTEYFVVFYLPRAEKE
RSQYFSEVNDLRAGLDHLSNEKAGQEKIVKQLQHQLNEVQGRADEANRTLNDLDAAKKKL
SIENSDLLRQLEEAESQVSQLSKIKVSLTTQLEDTKRLADEEARERATLLGKFRNLEHDL
DNIREQVEEEAEGKADLQRQLSKANAEAQLWRSKYESEGVARSEELEEAKRKLQARLAEA
EETIESLNQKVVALEKTKQRLATEVEDLQLEVDRATAIANAAEKKQKAFDKIIGEWKLKV
DDLAAELDASQKECRNYSTELFRLKGAYEEGQEQLEAVRRENKNLADEVKDLLDQIGEGG
RNIHEIEKARKRLEAEKDELQAALEEAEAALEQEENKVLRAQLELSQVRQEIDRRIQEKE
EEFENTRKNHQRALDSMQASLEAEAKGKAEALRMKKKLEADINELEIALDHANKANAEAQ
KNIKRYQGQIKDLQTALEEEQRARDDAREQLGISERRANALQNELEESRTLLEQADRARR
QAEQELGDAHEQLNELSAQNASLSAAKRKLESELQTLHSDLDELLNEAKNSEEKAKKAMV
DAARLADELRAEQEHAQTQEKLRKALEQQIKELQVRLDEAEANALKGGKKAIQKLEQRVR
ELENELDGEQRRHADAQKNLRKAERRIKELSFQAEEDRKNHERMQDLVDKLQQKIKTYKR
QIEEAEEIAALNLAKFRKAQQELEEAEERADLAEQAISKFRGKGRAGSAARGVSPAPQRQ
RPAHDGFGTFPPRFDLALENDF