| New model in OGS2.0 | DPOGS210452 |
|---|---|
| Genomic Position | scaffold933:- 27369-36084 |
| See gene structure | |
| CDS Length | 4491 |
| Paired RNAseq reads | 62 |
| Single RNAseq reads | 171 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA001859 (0.0) |
| Best Drosophila hit | dynein heavy chain at 89D, isoform B (4e-80) |
| Best Human hit | dynein heavy chain 10, axonemal (2e-74) |
| Best NR hit (blastp) | ciliary dynein heavy chain, putative [Pediculus humanus corporis] (0.0) |
| Best NR hit (blastx) | ciliary dynein heavy chain, putative [Pediculus humanus corporis] (0.0) |
| GeneOntology terms | GO:0005875 microtubule associated complex GO:0003774 motor activity GO:0005858 axonemal dynein complex GO:0007018 microtubule-based movement GO:0042623 ATPase activity, coupled GO:0003777 microtubule motor activity GO:0005524 ATP binding GO:0016887 ATPase activity |
| InterPro families | IPR013594 Dynein heavy chain, N-terminal domain-1 |
| Orthology group | MCL10004 |
Nucleotide sequence:
ATGGTGGAAGAAGGAGATGTCAAACAAAAACTAGCAACATTCATCACATCACCCCTGAAA
CCGAATGAATTGTCGTTAGATAAAAGAACGTTTTATGTCGCAAAAATAATAGTGGACAAA
CTTATTCACGAAGATAAAGAATTCACTGAGTGGCGAATCATTCCACCACCACCGCCTCCC
CCACCATCGGGTAAAAAAGGTAAAAAAGGCAAGAAAAAAGGAGCAGCCGTACCAGAACCT
GAACCCGAAGAAATGGAAGAAGATAAAAAGTCTAAAAGCATGAAAAATGCTGAGCTTGAA
GAAGATGAAGAAGTTAACACGGTAGCTGGAGCTGTCACAGATATATTCGATATCGACGAA
GGAATGAAAACGGAAATAGATTTACGAATAGAGGAAGAAGAACCTCCCGTCGTAGCCGAA
GACCTATACTCGTTTCCACCACCTCCCGAAGATTTAGATCCAGCAGTGGATGGTACATTA
GAATTTTACACTGTCATTCGACCAGTTCCACGTATTATTCAATATCCAAAATTAGTGCCA
GTTTTTGGTGCATTCGTACCACAAGTAACGCACCGTAACCGAAGGTATCTCTATTTCATC
AGACAAACCCAGGACGAAATACCGCTTTCGGACAGTGATTACAAAACAAAGCTCAAGATG
CCGGAATACGTATTGGTTGGATTAACATCAGGGAAAGTTCTCATGAGTTTGGGATTACAA
TTAAAGGAGTCCTTTATTTTGCTGTTCACTCGTCAATTTCGTGAAATTCACTCAATGACT
GTAGAGCCATCTACTACGACGCTGTCTCGTCAGGTATCATACGCTGGGAAACACTATGAA
ATGCGTGACACTACTTCAGAGGTAAATTATTTGCGACCTTCAGACTACCGTAGAATGTCC
AATATTGTCAGAGGGGAAAATGCAGAACGAAGAATCAAAAATATGAGATCCGAATCTAAG
GCTTATTCATTTAAGTTTAAAGTTACAAGGCCGACTTCCTCAGTTCTCCAAAGGGAAGAG
TCTGAATTCGAAGCGCCAGTAGTTGATATCCAAAAACCACAAAAAGAAGACAAGCCGGCG
GCGTCCGAGGTTATTCATGACATTCAAGATCTTGTTGGAATCGTTGATTGGACGATACAG
CACATAGAAGGTGAAATAAAACTTCCAATGCCGAATATACCAGCTCTCACAGAGGAGCTC
CACCCGGGGCATGTGGCGTTTAAAGATCCTGAATTGACTGCACAATTGGAGGAAGCTGTC
ATTATGTGGGAGACGCATATTGATAATACTATATCTGCTTGCTTGGGAAAGACCCGCGAA
GGTGAAGGTCCAGTTGCTGAATATAAATACTGGCGTGAGAGGGACGCAGAAATATCACTA
TTGGTTGAGCAATTGAAGCAACCTATGGTCGTCAAAATTCTAGCTCTGCTCAAGAAGTCG
TCTTCCACGATTATAATGGGTTTCGACAATTACAAAGAAAGACTTATGGAACAATATAAT
CTAGCCGGCGATAATCTGAAATTTCTATCGACCTTGATGCGTTTCTTTACGATAATAGAA
GATGATTCGCCACTTCAAAATGTAATAGACATGTTACCTGAAATGGTCGAAAGCATTTAC
ATGATGTGGGTGTTGTCTAAAGGCTATCGCAATGACGAGACCATGATACCCTTATTAGGA
AGAATATCGTGGGCTTTATGTGACAAACTTGAAAGATTTTTAAACGTGCACAAACTGTTT
GACAAACCCAATGAAGAAATACTTTCATTAGCTCGTGCTGGACAGAAAATAATGGAAATG
TGGCATACGTTATATAAAGAAACAAGAAGAAATATCGAGGTTAGTGGTAAAGGAGCACGC
TGGGAGTTTGATCAGCCCCTATTATTCACTAGGACTGATTACATCGGAACAGTGGCTAGA
GACCTAGGAGATGTTATTCAGGTTCTCATCGACTTTGAGCGAATATTTGGTAATGAACTT
AAGTCCATAATTAGTGATCCAACCCAGATTGATGATGTTCGTAAACGTGTGAAAAGGCTG
GTATTTCCTATACGAACTATAGATTTTAGTGTTTTTGTATTTGACAATAAAGAGAACTGG
GATGTTATCATGGGAGACTTTTGGACAGAAGTTAGATATTTAGAAGACGAAGCGAAAAAT
TACATTAACCACAGTTTTGGAAACTTAAGGTCTGCTGAAGAAGCCCTAGACGTACTTCTT
AAGTTCTTAGAATTTGATACCAGAGAGTCAATAAGAAAACAGTTATCCACAAAGTTTGAT
TATATTATGCGACAGTTTATCAAAGAAATTACGGTTATTGAGGACAGATTTACCCGCTTC
CGAAAAAATCCACCTTTGCTGCGGAATCACCCACCAGTTGCCGGTGCAATCTACTGGGCT
AGAGCACTATTTAACAAAATAAAAAGGCCTATCATGAAGTTCCAAAAGATACCTGAACTT
AACAATTGCGAAGAAAAGAAAACTGCTTTCTTACAATATAAAGCGTTTTCTAAAGTTATT
AAAGAATATGAAGAGGCCAAATATCAGGACTGGGTAAAGGATGCCTCGGACTTTGTAGAT
AATATAATGAAGAAAAACATTCTACATGTGGTCTTCAAAAAAGAAGAGGAACCAATACCC
ACAAAAGGACGAGGTATGCAACTAACTGCTGCAGGAAGAGCCCATGTGGCTAAGAAAAAG
GCTTCAAATTTGTCAATAAAACCTATTGATGTTGTTAATAAGGAAATAGCTGATAAACGC
AAAAGAGACAAAGCTTTAATGTTAATGAGGATTCCTGGGCAGCATTACGAAAATGTCAGA
TCACCGAGTTCTATATCACTACTGGCAAAGGAAGGATTAACTGATGTAACTTGGAGAGAT
ATGACTGTACATAAGTTGATGCAAGAGTACGGGCTAGAGTTTGAACCTAACTTTGATAAA
CATATTTTTCTAATTATACATGAAGCTGAACTCATGGAAAGGCTTGGCTTTGATCTGCCA
TCCAATATTCGAGATGTGTCAATGCAAAAGGCTCGACTTTACTATGAACTGGAAGCTTTA
CAGAATGTGATTGAAAAGTACAACGCCAGCTCGACATCGCTCAGTCCATCCGAAACTTAT
CTGATGAAGAAACATTTACTAGACATGGAAAGGCACATTTTGCCAGGATTAACTAGAATT
ACCTGGACAGCTTTAGGAATTAATGATTATATCAAAGATATAACTAAAGGCGAGAACTCA
TTGAAAGCTGTGTATCAGCAATTGAAAATGGTTGAAAAGGAAATACAGTTTTTACTTGAC
CAAATCCAAATGTTTGACTTGTTCCCATTCGTTAAACCCAAAGATTACGTCAATCCAGTG
ACTAAAGAACCCGATGACACGTGGCTGTACCCTTGTAAGGCTTATTTCGTCGAAGTAGAA
AATGAACGTCTAGAACGTTTAGCAATTTTGTCCCGTCTATATGACCGTATTGGACCCAAC
CTCATGAAACTGGAGTACTTAATACTTGGAACGAGTACAGGTCGTTCGGAGGTTATGTCT
TCATACTATACGCACTGGGAGAAAAAAATATTTAAAACTCTAGTAGGATTGACACTGGAG
AACCTGCAAGATTTTCAAAGAACCCTTAGTGAGAAGAGACCGATCTTTCAAGTCGATGCA
GTCTTAGTACCTCCTGATATAACAATGCGGCCTACAGCCCCTGAAGTGTGTAACATTCTT
GGTTACAACATCAAACATTTTCTTAATAGGCTAACTACATTTCCACGTTGGATGAAGAAA
ACTTGTATCCCCTGTCCTCCACAAAGAATAGCCGAGGCGACTGGGAACGAGTTTTATGTG
TTTTCATATTTTGAAGATATTTTACGAGTTGTATCAATCAACGATATAACTCTTCTTATT
CAGGATACCATATACCGACTTACTCAAGATATCAATGTTTATATTCAAAAGTGGCAAAAA
TATAATCATCTTTGGGCATTTGATAAGAACCTTTCCTGCGAAAAGTATATTCAAAAGCAC
GAGCAAATACATAAATATGACGAAAAGTTCTTTTTCTTTGAAGATATCATATCAGATTTA
GATAACCATAATAAATTTGTGGACATCGGAGCCATAAGAGTTAACTTGCGTCCAATAATA
CAGCAAGTTCAGGGCCATTCGCAAGAGTGGAAGAATATTTTAGGGCAATGTATAGCTTCT
AAAACTAGGATGAATATGTATGATTTGAAAAATCAAATGGAAGACTTCAAACTGGTAATG
GCAACGATAACTCAAGTGCAACAGCTCACTATTACCGCTGAGGTGAAGTTCCGAAACATG
CAGGAGATCTTTCACATGTTAAGACAGCATGACATAGAAGTAGAAGACGGAGATTTAGAT
TTTGCTAAAAATCTCGAAGCATCCTGGGGCACTTTGTATCAAACGTCTCTGTTTAGAGGT
AATACTTTAGAACAGACAAAAAGAGAAATTCTCAAAGCTGAATGTTGGTGA
Protein sequence:
MVEEGDVKQKLATFITSPLKPNELSLDKRTFYVAKIIVDKLIHEDKEFTEWRIIPPPPPP
PPSGKKGKKGKKKGAAVPEPEPEEMEEDKKSKSMKNAELEEDEEVNTVAGAVTDIFDIDE
GMKTEIDLRIEEEEPPVVAEDLYSFPPPPEDLDPAVDGTLEFYTVIRPVPRIIQYPKLVP
VFGAFVPQVTHRNRRYLYFIRQTQDEIPLSDSDYKTKLKMPEYVLVGLTSGKVLMSLGLQ
LKESFILLFTRQFREIHSMTVEPSTTTLSRQVSYAGKHYEMRDTTSEVNYLRPSDYRRMS
NIVRGENAERRIKNMRSESKAYSFKFKVTRPTSSVLQREESEFEAPVVDIQKPQKEDKPA
ASEVIHDIQDLVGIVDWTIQHIEGEIKLPMPNIPALTEELHPGHVAFKDPELTAQLEEAV
IMWETHIDNTISACLGKTREGEGPVAEYKYWRERDAEISLLVEQLKQPMVVKILALLKKS
SSTIIMGFDNYKERLMEQYNLAGDNLKFLSTLMRFFTIIEDDSPLQNVIDMLPEMVESIY
MMWVLSKGYRNDETMIPLLGRISWALCDKLERFLNVHKLFDKPNEEILSLARAGQKIMEM
WHTLYKETRRNIEVSGKGARWEFDQPLLFTRTDYIGTVARDLGDVIQVLIDFERIFGNEL
KSIISDPTQIDDVRKRVKRLVFPIRTIDFSVFVFDNKENWDVIMGDFWTEVRYLEDEAKN
YINHSFGNLRSAEEALDVLLKFLEFDTRESIRKQLSTKFDYIMRQFIKEITVIEDRFTRF
RKNPPLLRNHPPVAGAIYWARALFNKIKRPIMKFQKIPELNNCEEKKTAFLQYKAFSKVI
KEYEEAKYQDWVKDASDFVDNIMKKNILHVVFKKEEEPIPTKGRGMQLTAAGRAHVAKKK
ASNLSIKPIDVVNKEIADKRKRDKALMLMRIPGQHYENVRSPSSISLLAKEGLTDVTWRD
MTVHKLMQEYGLEFEPNFDKHIFLIIHEAELMERLGFDLPSNIRDVSMQKARLYYELEAL
QNVIEKYNASSTSLSPSETYLMKKHLLDMERHILPGLTRITWTALGINDYIKDITKGENS
LKAVYQQLKMVEKEIQFLLDQIQMFDLFPFVKPKDYVNPVTKEPDDTWLYPCKAYFVEVE
NERLERLAILSRLYDRIGPNLMKLEYLILGTSTGRSEVMSSYYTHWEKKIFKTLVGLTLE
NLQDFQRTLSEKRPIFQVDAVLVPPDITMRPTAPEVCNILGYNIKHFLNRLTTFPRWMKK
TCIPCPPQRIAEATGNEFYVFSYFEDILRVVSINDITLLIQDTIYRLTQDINVYIQKWQK
YNHLWAFDKNLSCEKYIQKHEQIHKYDEKFFFFEDIISDLDNHNKFVDIGAIRVNLRPII
QQVQGHSQEWKNILGQCIASKTRMNMYDLKNQMEDFKLVMATITQVQQLTITAEVKFRNM
QEIFHMLRQHDIEVEDGDLDFAKNLEASWGTLYQTSLFRGNTLEQTKREILKAECW