New model in OGS2.0 | DPOGS214948  |
---|---|
Genomic Position | scaffold103:+ 45018-60894 |
See gene structure | |
CDS Length | 6366 |
Paired RNAseq reads   | 3157 |
Single RNAseq reads   | 7486 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA004845 (0.0) |
Best Drosophila hit   | Myo28B1, isoform B (3e-134) |
Best Human hit | myosin-VIIa isoform 1 (2e-137) |
Best NR hit (blastp)   | PREDICTED: similar to myosin [Nasonia vitripennis] (0.0) |
Best NR hit (blastx)   | hypothetical protein TcasGA2_TC008923 [Tribolium castaneum] (0.0) |
GeneOntology terms    | GO:0000166 nucleotide binding GO:0001750 photoreceptor outer segment GO:0001845 phagolysosome assembly GO:0001917 photoreceptor inner segment GO:0003774 motor activity GO:0003779 actin binding GO:0005515 protein binding GO:0005516 calmodulin binding GO:0005524 ATP binding GO:0005737 cytoplasm GO:0005765 lysosomal membrane GO:0005829 cytosol GO:0005856 cytoskeleton GO:0005902 microvillus GO:0006909 phagocytosis GO:0007040 lysosome organization GO:0007600 sensory perception GO:0007601 visual perception GO:0007605 sensory perception of sound GO:0016324 apical plasma membrane GO:0016459 myosin complex GO:0019904 protein domain specific binding GO:0030030 cell projection organization GO:0030048 actin filament-based movement GO:0030898 actin-dependent ATPase activity GO:0031477 myosin VII complex GO:0032420 stereocilium GO:0042470 melanosome GO:0042472 inner ear morphogenesis GO:0042490 mechanoreceptor differentiation GO:0042491 auditory receptor cell differentiation GO:0043531 ADP binding GO:0045202 synapse GO:0048563 post-embryonic organ morphogenesis GO:0048839 inner ear development GO:0050953 sensory perception of light stimulus GO:0050957 equilibrioception GO:0051875 pigment granule localization GO:0051904 pigment granule transport GO:0060088 auditory receptor cell stereocilium organization GO:0060113 inner ear receptor cell differentiation |
InterPro families    | IPR014352 FERM/acyl-CoA-binding protein, 3-helical bundle IPR001609 Myosin head, motor domain IPR019748 FERM central domain IPR000299 FERM domain IPR000048 IQ motif, EF-hand binding site IPR000857 MyTH4 domain IPR019749 Band 4.1 domain |
Orthology group | MCL14408 |
Nucleotide sequence:
ATGGAAGAGCGTGAGCCGAAGGGCCCCGGCGTGCCCGATATGACTATGATGCCGCAGATC
ACAGAACTGGCGATCAACGATAACCTCAAGCGGCGCTACATACACGACCTTATATACACG
TACACAGGTTCGATTCTAGTCGCAGTGAATCCGTACAAGGAGTTAGGATGCTACAACATG
GAGGATATGCAAAATTTCCGAGGCAAAGCCTTCGGGACTCTCCCACCCCACGTGTTCGCT
CTCGCCGAGTCCGCCTATAGTTCACTCCAGAATGGCGAAAAGAACCAATCCGTAGTTATA
TCTGGGGAGAGCGGTGCTGGTAAGACGGAGACCACAAAGCTGATCTTGCAGTACCTGTGC
GCGGCGGGGGGGCAGGCATCATGGGCTGAACAACAGATTCTCGAAGCTAACACTGTATTA
GAGGCTTTTGGTAATGCTAAGACCGTGCGGAACGACAATTCGTCCCGGTTTGGGAAGTTT
GTTGAGGTAAGGCTTGATCATCGGGGCGGCATCAGGGGCGCAGTCCTCAGAGACTTTCTG
CTGGAACGAGCTAGGATCACGGGACCGGCTCCCAGAGAGACCAACTACCATGTGTTCTAT
CAACTCGTCGAAGGTGCCAAGCACAACGCAGAACTCCGCAACACATTGCGTCTCCGAGAC
GACGTCCAATTCAAGTACTTGAGGCCAGAAGATGAAGAGGCCCGCCGCGGTCGAGTCGGC
GAACAGGGGAAGCTGGAGGCGCTGCAGCTTGCACTCACTGTGCTACAGGTCCCGCCACAC
ATGTGCGAGGGTCTGTTCAAAGTACTTGCTGCCGTGCTGTGGTTAGGAAATATACAATTC
CAAGATGTGGACGGTGAACGCACGACCCTAGCGCCCGAAGACTCGGAGGCGGTGGACGCG
GTCGCCAGCCTGCTAGGGCTGGCACCACCCACCGCCCAACGAGTGCTGTTAGAGAGACAG
ATCAATGTTAGAGGAAATGTCACAGACATACCGCTACGATTACATGAGGCAAGAGAGAAC
CGTCACGCAATGGCCCGTGCGTTGTACTCGCGTACGTTCGCATGGCTCGTCCGTCACGTG
AACAGCTGTTCAGCGCCAGGCCGAGAGGCACGGCGAGCACTGGGGGTCCTCGACATTTTC
GGCTTCGAGAACTTCGCATCCAACTCCTTAGAACAACTTTGCATCAACTACGCCAACGAG
AAATTACATATGTTCTTCAATAATTACGTCTTCGCGCTTGAGCAGGAAATCTATCGTCAA
GAAGGAATTAAATATAACCAAATTCAATTCACGGACAACGCGGTCTGCCTGGAGCTGTTA
GAGAAACCGCCTAGGAGTCTGCTGAAGCTGCTCAGCGAACAGTGCCATATGCCAAAGGGA
TCGGACGGTGCCTATCTCACGAACATACAAGGCGAATTCGGTGATCACCAGAGTTTTGTG
AAAGGATCGCGGAGGAAATGGGAGGAGGAATTCGGAGTGCAACACTACGCTGGCACAGTG
ACGTACAGCGTGCATGGATTTGTCGATAAAAATAGAGACACGCAGCAGGACGCGTTTATC
GATCATTTGAGTCGGTCCGCCAATCCCTTTGTAAGAGAACTAGCTGATTACGTACAAGAC
TTAGCGCCACCTGGACATGATATATCCCTTTCAAGCCCAGGATCAACCAGCACAACTCAG
AGAGGTACTTCGAAAGGCCGACCCACGGTTGTCGATACATTCAGAGCTCAATTACAGTCA
TTAGTCGATATGTTACAAGCTACTGACGTGTGGTACGTCCGCTGCATAAAGCCCAATGAG
AACAAGGTGGCTGGCAAATACAACGACCAGCTGGTCCTGGAACAGCTGAGGTACCTGGGT
ATGAACGAAATCGTTCGTATCCGTCGGGACGGCTTCCCTGTTCACCTTCCTACGCCGCTA
TTCGGAGCCCGGTACAGATGTCTCCTGCCCCATCCCAGACCGGCGACACCGCTCACCAAG
GACATAATGGCGTTGGTGGATGCGCCCGATGACGATTGGCAAATAGGACACACAAAGATA
TTCATGAGGAGTTCCGTTCATGGTCCGCTTGAAGCTAGAAGGACGGCACTACTGCATAAG
TCGGCGCTATTGATACAAAAGTGGTACAAGGGATCGATCAAACGCCGTCAGTACCTGCAA
TGGCGTCGCGCGGCCGTAGTACTTCAAGCCGCTTGGCGAGGATGGTTCGAGCGGGCGGCC
TTCCTGAGGTTGCGTAGGGCCGCACTCACGCTGCAGAGGCACCTTAGAGGGGCCTTCGCC
AGGGAAGTGGCTGCAGCGTTACGAGAGATGAAGATGGTTAACCAGGAGATCAAGCTGAGA
GAAGAGAGGAATAGTATGGTAGAAAAAGCAGCTGCAGAACGCGCTGAACTCGAAAACATG
GCGGACCATCTGCGTGGTATACCTTGTAACCCTCGCGCCGAGTCCGTCAACCTAGATAAC
CTGTTCGACTTCCTGGCTGATGTACCAGCGCAGAGAGGCGCTCCGGATGGCCAACCAGAT
CACCAACCCTCCATCGCTGAAATCGGAGACTGCATGGAGCGACTGGCTGATGATCTCAAT
CACGAGTTGGAGACGGTGCTAGCGGAAGAAATGATCGAACTCAACAAAGCCCACACGGAA
GCCCAACGCAAACCTGACGGAGCGCCGTCTGAATCTATCCCACCGCCTACATCACTGGCT
CTCACATCTATCCTGCATCCCGCGACTCCTGTCACACCCAACCCGCTGACGAACGGCGTG
TCCAATGGCATGTCGCCGGTGACTCTGTCGTCGTCAATAACCAATGGGCTGTCTCCGACT
CACGAGATGACGTCATCGCTCACCAATGGTGACGTGATGTCGTCCTCTCTAGTGATGCCA
CCGCCACCATCGATAGAGCCCAGCGTTGAAGACTCCCCGGTGTTCCCACCACCTCCTTCG
TGTTCTCTTCCAGAACCAGCTGGACCACCGCCGCCACCACCTTTAATCAAAGATACAACC
CCACCAGAACTAACCAACGGGATAATACCAAACGGAAAAGTCTCCATAATAAAAGACAAG
GAGCCTATATACGAATCGGTGATACCAAGGCCCAACACGGACCCGTCCCTAGTGACTTCA
CCACCACCACCACCGCCGCCACCAGGACACCCGCCGTCAGATAATGGTTTCTCCCCATCG
ACCAAAAACTTGGATGATCAGAACGAAGCCCCGCTCCCGCCGTTACCGAGCAATGTGACG
TCACCGGAAACAAATGACACCATTTCCCCAACACCCATGGACTCATGTACCAGCCCGCCG
CCTGTACTGAATGGAGATTCAAATAACTCTGAACGTAATGCCCGCCGTAAAGAACGAGTA
GAGCGTCGCCTGCACCAGCTGGAGGCTCCTCCCACCAACGTGGAAGCGCCGGCGGATGGA
AACGATCTCACGGAGTTCGCTAAGATGTACTTCAACGATCACCCGCGGTCACCAGAAGGC
ACAATAATGGCAACCCTAACGCGTAAGAGCAAGTCTATGGAGCTGTTGACTAAAGAGGAA
ATGATAACGTATCACAAAGGGAACAACATTCCGACATCACACATACAACTACACGACCCC
GACAGCGTCACCGCAGCTGTTAATATATTCAGAGACTTATGCCGGTACATGAGAGGCGAA
CTGACAGCAGAGAAGGAAACTCAAGTCATACAATCCATAATAGGAAAAGGATTGGAGAGG
GAGGAGCTGCGGGACGAGATACTGGTTCAGTGTGTACGTCAGATCACAGAATGTCCGGTA
GAGGAGTGGGCGGAGCGTGTGTGGCTGATTCTTTGTCTGTGCGCGGTGGCCTGGCAGCCC
AGCCGCGGCCTGGCTCGCTACTACTGCTGCTGGCTGAGAGCGCGGGCTAGACCTGTGACG
TCACCGGCTTCCACTGGCTCAGTGACTTCAGTGGCGTCGGTCACGAGCACCGCCAGGGCT
GCCCACTGTGCTCAGTGGTGCCTCGACAACTGCAGGGGTGCCGCGCCTAGACAACTACCG
CCCAGTACTGTGGAGATTGCTGCTATGCGTCGTCTCGGCACAATAGTCTGCAGGTTCTTC
TTCCTAGACGGTCGCACGAAGGCGATCGACGTGCACCCCGCAGACACGGCTGCCGCGGCC
GCAGCTCGCCTCGCCGACAAGCTGGGTCTGGCGCCACCAGCTCGAGCTGGCTGGGCCGTG
TACCAGCAACGCGCCGGTACTGAGGAACATGTACGGGCCACGCAGTATCTGTATGATGTC
ATCGCTGCTTGGGAAATGCAACAAGGACCGGGGGGTGGCTCGGCGGACAACCGGTTCGTG
TTCAAGAGACGATTGTTCCGCGGCGGGCGAGAACTGCCCCACGACCCCGTCGAAGTAGCC
CTGTTATACGCGCAGGCGGTCCACAGCGTTGTCAAGTTGGACGAGTTCCCGGTATCAGAG
AAGGTGGCGCTCCAACTGGCGGGACTTCAGGCTCAGGTGTCGCTAGGGGAGCCCCCGCCG
AGCCCGCCGCCACCACACACGAGGGCCTACTACTCACACCCGGACCAGTTCCTTCCGCCG
CGGATCGCTAAACAACGAGCTTCCCATCAATGGGCCACGATACTGGCCCAAGCCCATCGT
CAGTACGGCGCAGGCAGAGCTGAGCTGACGGCGAAGGCCTTGTATCTGTCGTGTGTGATG
CAATATCCGCTTTACGGAGTCACACTGTTTCCTGTCACCTATAAGGGTTATTGGGCACAT
GGTCCGAACGTACTTCTGGGGGTGGGTGCGGAGGGCGTGGTGCTGGTGAGACCCGCTGAT
AAAGTGGTGCTGGCGGAGTATCCTTACACCAACATAGCCGCCATACTGATGGATCCCGTC
GACAACGGACTCACCCTGAGCTTGACGCACCACGGCCAGCACGATGGACTCAGCTGCTGT
ACTGGTTATTTTATTTTGTGTTGCCAACATGCGGCGTGGTTGATGGCGGCGTACAGTCCG
GCCCTGGGCGGAGGGCTGGCCGAGGAGGCGCCGCGCCGCGCCCCGCCGGCTGCCGAGCGA
GCGCGTCTTGCCGCGGCGCTGCGGGCCGCGCGCCGAGCGCTCGTCGACTCCGCGCTGCTT
AGGCGACCGCAGGACATCGCGCCTGGTGCTGCTGGTTTCCTTAGGAACACGCTCAGGAGA
TTAAGTAAGCACAGACTAGAGCGTGTCAGACTGGACCTGAGTGCGGATGGTCAGGGCGAG
TGTTACAAAGGTTTCCCGCCCTCTTACTGGACCTGGGCCCGCAGTCTGCCACACTCACTC
ACTAAGCTCAATGAAGCCGAGGAGGTCGCCGCCATGCAGATATTCAAGGATATAATGAGT
CACGCTGGTCTGAGCAGCAACACCGGCAGCACGTCCAGCCTCGCCACCAACAGCAGTGTG
GCGAGTCACGACAGCGACAGTGATGACCGCGTGTCGCTCGCTCAAGCGCTGCTGCAGCGC
TGCCTGCAGAAAGACACGCTGCTGTGTGAGCTGTACGCACAGCTTATTAAACAGACAACT
GAGCATCCCGAGCCTAGTTCTCGGGTGGCTGCGCGTCATTGGTCGCTGCTGTGTGCCGCA
GTGGGGGCAGCACTGCCGCCTGCAAAGCCGCTGAGACGTGTGCTGCTCGCACACTTGCGG
TACCGGGCCGCAGCGCTACACAATACTGAGGAGGGACGGTTCGCGCGCCGAGCCGAGCAG
GTGGCGCTAAGCATAGCCCAGGTGCCGCGTCGTCTAGCAGCACCTTCCAAGGAGGAGCTG
CTGTGTGCCGCTGCCCGCCGGCCGATGCACGTGCGGGTGCTGTTGCTGGACGGGAAGCAG
CACGGGCTGGTGTTCGGCCCCGCCGCCACCGCCGACCACCTCGTCGACATGCTCAGGGAT
AAGATCGGACTTAGCGACGCTGCTACTGGTTACGCTCTGTACGAGGTGTGCGCCAACTCG
AGCCCGGCGGGCGCGGGCGAGCGCGCACTGGCGGGAGCGGAGCGCGCGGGGGACGTGCTC
GCACGGTGGGAGAAGGCCGGGGCTACGGCCGCCGCCTGCAGGCTAGTGTTCAAGAAGCGT
CTGTTCCTGGGCGAGCGTCCGCTGCACACGGCCTGCGTCGCTGAAATGGAGCTGCTGTAC
TATCAAGTACTACACGCTGTGAGACACGACCGGTTGCCCATCGAGACGGACGAGGCTGTG
ATGGTAGCAGCGCTTCACGCCCAGGTGGTGAAGGGTGACTGTCTCGGCGGCGGCGAGGAG
TGTGCGGCGGCGGCGGGCGCGGCCTGGCACTGCGCGGCACGGAACCCCACGCGGCTATGC
AACGAGCCCTCACACTCGCCTCCTCCTGGCCGCTCACACGAGCCACAATCTTTGATGTCA
TGGTAA
Protein sequence:
MEEREPKGPGVPDMTMMPQITELAINDNLKRRYIHDLIYTYTGSILVAVNPYKELGCYNM
EDMQNFRGKAFGTLPPHVFALAESAYSSLQNGEKNQSVVISGESGAGKTETTKLILQYLC
AAGGQASWAEQQILEANTVLEAFGNAKTVRNDNSSRFGKFVEVRLDHRGGIRGAVLRDFL
LERARITGPAPRETNYHVFYQLVEGAKHNAELRNTLRLRDDVQFKYLRPEDEEARRGRVG
EQGKLEALQLALTVLQVPPHMCEGLFKVLAAVLWLGNIQFQDVDGERTTLAPEDSEAVDA
VASLLGLAPPTAQRVLLERQINVRGNVTDIPLRLHEARENRHAMARALYSRTFAWLVRHV
NSCSAPGREARRALGVLDIFGFENFASNSLEQLCINYANEKLHMFFNNYVFALEQEIYRQ
EGIKYNQIQFTDNAVCLELLEKPPRSLLKLLSEQCHMPKGSDGAYLTNIQGEFGDHQSFV
KGSRRKWEEEFGVQHYAGTVTYSVHGFVDKNRDTQQDAFIDHLSRSANPFVRELADYVQD
LAPPGHDISLSSPGSTSTTQRGTSKGRPTVVDTFRAQLQSLVDMLQATDVWYVRCIKPNE
NKVAGKYNDQLVLEQLRYLGMNEIVRIRRDGFPVHLPTPLFGARYRCLLPHPRPATPLTK
DIMALVDAPDDDWQIGHTKIFMRSSVHGPLEARRTALLHKSALLIQKWYKGSIKRRQYLQ
WRRAAVVLQAAWRGWFERAAFLRLRRAALTLQRHLRGAFAREVAAALREMKMVNQEIKLR
EERNSMVEKAAAERAELENMADHLRGIPCNPRAESVNLDNLFDFLADVPAQRGAPDGQPD
HQPSIAEIGDCMERLADDLNHELETVLAEEMIELNKAHTEAQRKPDGAPSESIPPPTSLA
LTSILHPATPVTPNPLTNGVSNGMSPVTLSSSITNGLSPTHEMTSSLTNGDVMSSSLVMP
PPPSIEPSVEDSPVFPPPPSCSLPEPAGPPPPPPLIKDTTPPELTNGIIPNGKVSIIKDK
EPIYESVIPRPNTDPSLVTSPPPPPPPPGHPPSDNGFSPSTKNLDDQNEAPLPPLPSNVT
SPETNDTISPTPMDSCTSPPPVLNGDSNNSERNARRKERVERRLHQLEAPPTNVEAPADG
NDLTEFAKMYFNDHPRSPEGTIMATLTRKSKSMELLTKEEMITYHKGNNIPTSHIQLHDP
DSVTAAVNIFRDLCRYMRGELTAEKETQVIQSIIGKGLEREELRDEILVQCVRQITECPV
EEWAERVWLILCLCAVAWQPSRGLARYYCCWLRARARPVTSPASTGSVTSVASVTSTARA
AHCAQWCLDNCRGAAPRQLPPSTVEIAAMRRLGTIVCRFFFLDGRTKAIDVHPADTAAAA
AARLADKLGLAPPARAGWAVYQQRAGTEEHVRATQYLYDVIAAWEMQQGPGGGSADNRFV
FKRRLFRGGRELPHDPVEVALLYAQAVHSVVKLDEFPVSEKVALQLAGLQAQVSLGEPPP
SPPPPHTRAYYSHPDQFLPPRIAKQRASHQWATILAQAHRQYGAGRAELTAKALYLSCVM
QYPLYGVTLFPVTYKGYWAHGPNVLLGVGAEGVVLVRPADKVVLAEYPYTNIAAILMDPV
DNGLTLSLTHHGQHDGLSCCTGYFILCCQHAAWLMAAYSPALGGGLAEEAPRRAPPAAER
ARLAAALRAARRALVDSALLRRPQDIAPGAAGFLRNTLRRLSKHRLERVRLDLSADGQGE
CYKGFPPSYWTWARSLPHSLTKLNEAEEVAAMQIFKDIMSHAGLSSNTGSTSSLATNSSV
ASHDSDSDDRVSLAQALLQRCLQKDTLLCELYAQLIKQTTEHPEPSSRVAARHWSLLCAA
VGAALPPAKPLRRVLLAHLRYRAAALHNTEEGRFARRAEQVALSIAQVPRRLAAPSKEEL
LCAAARRPMHVRVLLLDGKQHGLVFGPAATADHLVDMLRDKIGLSDAATGYALYEVCANS
SPAGAGERALAGAERAGDVLARWEKAGATAAACRLVFKKRLFLGERPLHTACVAEMELLY
YQVLHAVRHDRLPIETDEAVMVAALHAQVVKGDCLGGGEECAAAAGAAWHCAARNPTRLC
NEPSHSPPPGRSHEPQSLMSW