| New model in OGS2.0 | DPOGS203785 |
|---|---|
| Genomic Position | scaffold510:- 93859-106653 |
| See gene structure | |
| CDS Length | 6333 |
| Paired RNAseq reads | 298 |
| Single RNAseq reads | 885 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA003690 (5e-16) |
| Best Drosophila hit | CG9492 (0.0) |
| Best Human hit | dynein heavy chain 8, axonemal (0.0) |
| Best NR hit (blastp) | hypothetical protein TcasGA2_TC003808 [Tribolium castaneum] (0.0) |
| Best NR hit (blastx) | hypothetical protein TcasGA2_TC003808 [Tribolium castaneum] (0.0) |
| GeneOntology terms | GO:0030286 dynein complex GO:0005874 microtubule GO:0003774 motor activity GO:0005524 ATP binding GO:0000166 nucleotide binding GO:0007018 microtubule-based movement GO:0017111 nucleoside-triphosphatase activity GO:0016887 ATPase activity GO:0003777 microtubule motor activity GO:0009434 microtubule-based flagellum GO:0005737 cytoplasm GO:0003674 molecular_function GO:0008150 biological_process |
| InterPro families | IPR013602 Dynein heavy chain, N-terminal domain-2 IPR013594 Dynein heavy chain, N-terminal domain-1 |
| Orthology group | MCL10004 |
Nucleotide sequence:
ATGTCTGGAGAAGCTGGCGATAAACCTGCTGAAGGTGGTGAAAATCCTGCAGGGGATCCT
CCCGAACCTGGCGAGAATACTGCGGAAGCACCTCAAGAAGAAGGTGAACAGGCAAATGCA
GGAGCTGTAGAAGAAACTGCTGTGAAAATAGATGAAGTGGCTAGAAAAATGTCACGTAAG
AAATCAGTGGTAGCTTCCACATCAGCTCTGGGTGTACAAAGTATAATAGATATAGACAGA
ACCGCTCTAGAAGCTATTCTCGATGTCAGTTCACGATTACAGGACATTCAGAAAAAAAGC
AAAATATCTATGAGCACACTGGCCTTAGGTCACGAGTCTTATAAAGATAAACAAGCGAAA
GCTAAAGAAGCTCGCAGTAATAGAATGGGAGGAGTAAAATCACAAAGTAGATTTCTGCTA
GAGAATGCAGCTGAAATTTTAAATAAGACCATAGAATATGTTATGGAAGGTGTTTATGAT
GCTGATATTCATATTGATATATTGGATAGTGCATTAGTAGAGGGGGGGAGAAATTGTTTC
GTTCTCTGTGATGCTCTGCTGCCACCTTTAAAAATGGAGTCGGGAAGGTTCGTGCCAAAT
CAAAAAGGTAAGATGGAGAGAACTTACATATCAGATGCGGCGACAATTGGAACGGAGGGT
ATGTGTGTGGCCATGTATCGCATCAAGAATAAAGCTATTGATATAAAAAATGTGGCGGAA
GACTATTTTTTAGTGTTATTTGATATGAACCAAGAAACAGAGAACGTCGTATCTGGTATA
TTCAAGACCATGAAAAGAGTTTACGTTCCAGCCATACAAACGTGTCAAGCTTGGGGAGAT
CTTAATCCACCAAACCCCAGGAGTACTGATATTATCAAAACATATATTTCCAAAATAATG
CTCTTCATCGATTATCTTGCCAAAACTAAGATTGATTTGGATTGCTGTACAAAGTTTAAG
ATAAATCTAGTTCTGTATGAGGAAGAGCTTTCTGATTTAGAGAAGATGAAAGCTGCAATA
ACAAAGACTCATGTTTTGGAAGAAATTTGTTTTTATGTCAAACAGTGGGTTAAACAAATT
ACAATGGTGTTGGTACAAAGTCAGCAGCTGCGCCGTGAGCCTTCGAATATAGGCCCTTTA
GCAGAGCTTGACCACTGGCGCAGGCAATTGACGTCATTTACATCTATCATAGAACACATC
AAGAGCGATCCATGCCAAATGTACATACATACTCTCATACGAGCCAAGTCTAAGCTCCTT
AAGAAATGGCGAATGTTAGATAATCAAGTAACAGATTACTACAATGAAGCTTTCGATAAT
GTTAGATATCTGTACGCTCTGGAAAAATACTGCGAACCTTTATACAGATGTGATCCATTG
ACCATGCAGCAGTACTTACCGGGATTGATTTACACTGTACGAATGATTTTCGCAACTTCC
CGCTACTATAATACCACGAAACAGATATCCACGTTGCTTGTTAAAGTAACTAACCAAATT
CTTAATATGTGCATGGATTATTTGACTAATGGCGACAGAAAAACTATATGGAATCAAGAC
AAACTTAATTTTATCAGTAAGGCTAAGTTATGTCTGAATCTGTATAGTTTTTATCGTGAA
TGCTATAACGAAACTCAGATGGAAATGATGGAAGCGGCCGATGAACGTCCATTTGATTGT
TCCGAAATGTATATTTTCGGAAAATTTGAAACATTCCGAAAGCGATTGCTTAAGATCATA
GATTTGTTTCAAACATACATCACTTACTACGTTCTCAACAAAACAACTCTAGAAGGAATT
GAAGAGTACGCCGTAAACTTTAATAAACTTTTTAAAGTCATATCATCTAAAACGTACGAC
GCTTTAGACCACAGGCGACCAGACTTCGACAAGGATTATAAGACTTACAAAGACAATGTT
GCGACACAAGAACTACTGTTAGAGAATTTTATGATTGCGAGTGTTAACAAATGTCCAACG
ACTGAAATAGCATTGCATTTATTGGAAAGGTTTAAGAGACTTAAGTTAGACTGCTTGTAT
CTTGAGGATCAGTATTACGATCTGATTAGCAAGTACACAGCGGAGATTGAAGCTATCCGA
GATAGGTACAATGAAGAAAGAGAAAATCCTGACTTACCACGTAATATGCCTCCGGTTTCT
GGAAGGGTGATGTGGATAAGATTCTATGATAAAAATATAAAGTGTCCCATGAAAGAGTTT
ATGAAACATCACGAGGTCATAACTCATATGGTGCGCCTTGGCTTGATCGCACCTCTACTG
ATACGCCATCCTGTCACCAATTTATTCATTGTCAACTTCAACATCTATATTCCTGAATGT
ATAAGGGAGGTGGAATATATGTGGCAGTTAGGTTTGAGTGTTCCTGATTCAGCGCAAATC
GTAGCGTACTCCAAGGACAAAATATTTGCTGACTATGAACGTATAAAATTTTTGGTCGAG
CGCAACAATCAGATACGGAGGAGTATGCCAAAACTCTACCTGCCGTTGTTGCGAGCACAG
CTGATTAAGCTTGACCAAGCCTTTCAGCCGGGACTGTCCATAATAACATGGACCTCTTTA
GAGATACCCTCCTATTGTGATAACATTGAGACTGTACTCGACGAAGTTGATCTGTTTATT
AAAGAGGTAGTAGATATGAAAGAGGCACGTATAGATGCCATTTTGCAATCAATAGCGACG
ACTTTATTAGTGTACCTGCCTAAGACCGCAGTGGATCCCAATTCATTTTATGAAGAAAAT
TTGATACGGCGGGATGAAATCGCCAATGAAATACAGCAAAAATCTTGGAACGCTGAGCTG
GCTGTAATAGAACTCATAAATAAGTTCTTAGATAGCGTTCCATCGAAACAAATCCGAGAT
TTAAAAGATAACTGGTTGGATACAGAAAAGGCGTTGAAACAGGTAACATCAGCTACAAGA
GTGTTCCCAGAAGATGCAGCGTTTATGGAGATTGAAAATCCCGATAGATTTGAACCGATG
CACGCTATAAATGAATGCAATGAGCTTTTTGCATACTTCGCCACAAAATGTCTGGAAGCA
CTTATAAAATGTACGAGACAAAGTTTGGACCTACTAAGAAAACGAGCATCGGTTTCCAGC
TTTTTGACTATGACAACGGATCCCGAAGAACAAAAAAAACTAAAACCTCTCATGCTCACG
ATGATGTATTTGGAAATTCCCAAAATTCTTATAAAGCCCTCCTTGGAAGAAATCCAGTCA
GCGTTCTCACAGGTTGTGTTGAATTGCATTATGGATATTCATCGCAACGTATACATGTGG
GGTCAACAAGAGTTGATTAAAAAGGAGAAAATGGGAGAGCATTCATTGACTGCTGCTAGG
AGCATGAGTGCTACATCGAGATCTGGCTCAACTTTAATTGGTATCAGAAGTTATTTTAGA
ATGGTTTCTGAACATAAGGACATAGTCCGTGCTGTCATGGCGCTGCAAGGCATGATGTAC
AAATTTAAGCCGGATATAGAAAAGCTTTTGACTGGCTATGGTCGATTTTCACATTTGTGG
GCCGAAGATAGAGTTAAACAAGTTCAGGATTTTGTCGACACAAACCCTCTTAACGTTATA
ATCAGAGATATGTTTAAAAAATACGAAAATCAAACGGACGAAGTTGTTCATCTCCCAGAA
AGACATATTATTGGTTCTATTCAAATAGACATGGAAAAAATTAAGTTGGCTTTGCATATT
GAATCGATAGAATGGAAACGTATTCTGGGTAAATTATTAAGTCAGGCTTATAGAGAAAGA
GTTCTCAAGATGATGCAGTTCATAAACGACCGCATGAAGGCCATGAGCAAGAAGATAAAA
GACTTAGACGACGTCCGCGTTGCTATGATATGTTTGGAATTAATAAGGGAAGAGTTCATT
GGAATGGATATCGAGCTAGATTTGATCGAAGAGAGCTATGCTACATTTAGTCAGTTCAAT
ATTGATATTCCAAAAGAGGACGCTGATATGGTTTATGGTTTGCGCTATGCTTTCCAAAAT
ATGCTACTAACTTCTCAACAAGTGCAACAGAGAATAGTAGATATGCAGGGCCCATTGCAA
ACGGAATTGAGCGATGGTGTGGCAGCATTTAACGTCGACGTACTTAAGTTTGATGCTGAT
TACGATGCGTTCGGGCCAATGACCCCTGGTCTATCAGCAAGAGAAGCGAGACTAGTGATT
ATGTTCCAATCGCGGTTTGATGAATTATGGAGAAGATTTGAAATGTACTCCAATGGTGAA
AAATTGTTCGGTATGGAAGTCAAAGACTACCCTATACTTCATCAGAAAAAGAAAGAATTT
AATCTGCTAAGTAAACTATACAGTCTATACCTCGCCGTTATGAACTCTATAGACGGTTAC
TTTGAAACGCCATGGGTTTCAATTGACATTGAACAAATTGTCTCACAGCTGGCAGAATTT
GATTTAAGATGTCGAAAATTACCTCGAGGTATGAAAGATTGGCCAGCATTTATTGATTTG
AAAAATAAAATCGATGACTTTAATCAAACTTGTCCTCTACTGGAGCTTATGGCGGATAAG
TCCATGAAAGATAGACACTGGAAGAGATTAGAGAATCTCATGCATTGTGTCTTGGATGTG
GAATCTCCGTCGTTCCTTCTGGCTGACGTTATGGAAGCACCTTTACTGAAATACAAAGAA
GATGTTGAGGATATATGTATTAGTGCCGTCAAAGAAAAAGACATTGAAGCTAAATTAAAA
CAAGTTATAGCAGATTGGGCCGTAGTAGATCTTACTTTCGCTCCATTTAAGAACAGAGGA
GAACTGCTTATCAAACCTCAGGAGACTCTCGATATTATAACTTTGCTTGAAGATTCTTTG
ATGGTTTTGAATTCTTTAGCGTCAAATAGATACAATGCTCCATTTAAGCGAGATATTTTA
TTATGGATCAACAAACTGGTTGGTACAACAGAGATCCTGGAGAAGTGGTTGCAAGTTCAG
AACTTATGGATGTATTTAGAGGCCGTTTTCGTCGGTGGAGACATTGCTAAGCAATTGCCA
GCGGAGGCTAAGCGTTTTGCTACAATTGACAAGACATATGTAAAAATAATGTATCGTGCT
CGTGATATTGTAAATTGCGTGGAAACTTGCGTTTCTGACGATACTTTGAAACAATTACTT
CCGCATCTAATTGAACAATTAGAGGCATGTCAGAAGTCGCTTACTGGGTATTTGGAGACA
AAGCGATTAATCTTTCCGAGATTTTTCTTTGTTTCCGATCCAGTTCTACTGGAAATTCTG
GGTCAAGCATCAAATCCACAATCTATTCAGCCACATTTGCCAAGTATATTTGATGCAATG
TATACGGTAGACTTTGATGATAAGGATCGTATTATAAACATGAATTCTGACAACGGTGAA
ACGATTCCGCTTGAACGACCAGTTAATTGTCTTGGAGGCGTCGAGATATGGCTTAATACT
TTGCTGGATACAATGAAAGATACAGTGCGAAACATGATAGCTAATATAGCTCAGGCAATG
GCTGGAGATCCTGAATTTGAGTTTTTGTCAGGATTTTGGAATTTCCCTGGGCAGGCAAGT
TTGTTAGGAATGCAAATATTGTGGACAAGCGACGCGGAGTACGCTCTAAAGAAGGCTAGA
GTTGATAGATATATTATGAGGCTTACAAATCAAAAGAATTTAGATTTATTAAACGGATTA
ATCGATCAAACTGTGAAGGATTTAGTGCCGCTCGATAGAACAAGGGTCGAAACTATGATC
ACTATACACGTTCACCAGAGGGATATATTTGACGACTTGGTGAAACTGAGAATAAAAACG
CCGACAGATTTTGAATGGCAAAAACAAGCTCGATTTTATTATTTCGAGGATACTGATGAA
TGTATTGTATCAATAACAGACGTTGACTTCATTTATCAGGACGAGTATCTAGGGATCACG
GAACGTTTAGTAATCACGCCATTGACTGATCGTTGTTACATAACCCTATCTCAAGCTATT
GGTATGAGCATGGGCGGAGCGCCCGCGGGACCAGCTGGTACAGGGAAAACTGAGACCACC
AAAGACATGGGGCGAACGCTCGGGAAGCTTGTTATTGTCTTCAACTGCTCAGATCAAATG
GACTTCAGAGGCTTGGGGCGTATATATAAAGGATTAGCACAGTCTGGTACTTGGGGATGT
TTTGACGAATTTAACAGAATTGAACTGCCCGTTCTTTCAGTAGCTGCACAGCAAATTTAT
ATTTGCTTAACTGCCCGCAGAGAAAAGAAGGAATTCTTTATTTTTAGGTATATATTCAAG
ATAATTATTTACGAGTATATAGAAGGATTATAA
Protein sequence:
MSGEAGDKPAEGGENPAGDPPEPGENTAEAPQEEGEQANAGAVEETAVKIDEVARKMSRK
KSVVASTSALGVQSIIDIDRTALEAILDVSSRLQDIQKKSKISMSTLALGHESYKDKQAK
AKEARSNRMGGVKSQSRFLLENAAEILNKTIEYVMEGVYDADIHIDILDSALVEGGRNCF
VLCDALLPPLKMESGRFVPNQKGKMERTYISDAATIGTEGMCVAMYRIKNKAIDIKNVAE
DYFLVLFDMNQETENVVSGIFKTMKRVYVPAIQTCQAWGDLNPPNPRSTDIIKTYISKIM
LFIDYLAKTKIDLDCCTKFKINLVLYEEELSDLEKMKAAITKTHVLEEICFYVKQWVKQI
TMVLVQSQQLRREPSNIGPLAELDHWRRQLTSFTSIIEHIKSDPCQMYIHTLIRAKSKLL
KKWRMLDNQVTDYYNEAFDNVRYLYALEKYCEPLYRCDPLTMQQYLPGLIYTVRMIFATS
RYYNTTKQISTLLVKVTNQILNMCMDYLTNGDRKTIWNQDKLNFISKAKLCLNLYSFYRE
CYNETQMEMMEAADERPFDCSEMYIFGKFETFRKRLLKIIDLFQTYITYYVLNKTTLEGI
EEYAVNFNKLFKVISSKTYDALDHRRPDFDKDYKTYKDNVATQELLLENFMIASVNKCPT
TEIALHLLERFKRLKLDCLYLEDQYYDLISKYTAEIEAIRDRYNEERENPDLPRNMPPVS
GRVMWIRFYDKNIKCPMKEFMKHHEVITHMVRLGLIAPLLIRHPVTNLFIVNFNIYIPEC
IREVEYMWQLGLSVPDSAQIVAYSKDKIFADYERIKFLVERNNQIRRSMPKLYLPLLRAQ
LIKLDQAFQPGLSIITWTSLEIPSYCDNIETVLDEVDLFIKEVVDMKEARIDAILQSIAT
TLLVYLPKTAVDPNSFYEENLIRRDEIANEIQQKSWNAELAVIELINKFLDSVPSKQIRD
LKDNWLDTEKALKQVTSATRVFPEDAAFMEIENPDRFEPMHAINECNELFAYFATKCLEA
LIKCTRQSLDLLRKRASVSSFLTMTTDPEEQKKLKPLMLTMMYLEIPKILIKPSLEEIQS
AFSQVVLNCIMDIHRNVYMWGQQELIKKEKMGEHSLTAARSMSATSRSGSTLIGIRSYFR
MVSEHKDIVRAVMALQGMMYKFKPDIEKLLTGYGRFSHLWAEDRVKQVQDFVDTNPLNVI
IRDMFKKYENQTDEVVHLPERHIIGSIQIDMEKIKLALHIESIEWKRILGKLLSQAYRER
VLKMMQFINDRMKAMSKKIKDLDDVRVAMICLELIREEFIGMDIELDLIEESYATFSQFN
IDIPKEDADMVYGLRYAFQNMLLTSQQVQQRIVDMQGPLQTELSDGVAAFNVDVLKFDAD
YDAFGPMTPGLSAREARLVIMFQSRFDELWRRFEMYSNGEKLFGMEVKDYPILHQKKKEF
NLLSKLYSLYLAVMNSIDGYFETPWVSIDIEQIVSQLAEFDLRCRKLPRGMKDWPAFIDL
KNKIDDFNQTCPLLELMADKSMKDRHWKRLENLMHCVLDVESPSFLLADVMEAPLLKYKE
DVEDICISAVKEKDIEAKLKQVIADWAVVDLTFAPFKNRGELLIKPQETLDIITLLEDSL
MVLNSLASNRYNAPFKRDILLWINKLVGTTEILEKWLQVQNLWMYLEAVFVGGDIAKQLP
AEAKRFATIDKTYVKIMYRARDIVNCVETCVSDDTLKQLLPHLIEQLEACQKSLTGYLET
KRLIFPRFFFVSDPVLLEILGQASNPQSIQPHLPSIFDAMYTVDFDDKDRIINMNSDNGE
TIPLERPVNCLGGVEIWLNTLLDTMKDTVRNMIANIAQAMAGDPEFEFLSGFWNFPGQAS
LLGMQILWTSDAEYALKKARVDRYIMRLTNQKNLDLLNGLIDQTVKDLVPLDRTRVETMI
TIHVHQRDIFDDLVKLRIKTPTDFEWQKQARFYYFEDTDECIVSITDVDFIYQDEYLGIT
ERLVITPLTDRCYITLSQAIGMSMGGAPAGPAGTGKTETTKDMGRTLGKLVIVFNCSDQM
DFRGLGRIYKGLAQSGTWGCFDEFNRIELPVLSVAAQQIYICLTARREKKEFFIFRYIFK
IIIYEYIEGL