New model in OGS2.0 | DPOGS210452  |
---|---|
Genomic Position | scaffold8805:+ 124-8963 |
See gene structure | |
CDS Length | 3732 |
Paired RNAseq reads   | 28 |
Single RNAseq reads   | 79 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA001859 (1e-106) |
Best Drosophila hit   | dynein heavy chain at 89D, isoform C (0.0) |
Best Human hit | dynein heavy chain 10, axonemal (2e-148) |
Best NR hit (blastp)   | hypothetical protein TcasGA2_TC009719 [Tribolium castaneum] (0.0) |
Best NR hit (blastx)   | hypothetical protein TcasGA2_TC009719 [Tribolium castaneum] (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    | IPR013602 Dynein heavy chain, N-terminal domain-2 IPR013594 Dynein heavy chain, N-terminal domain-1 |
Orthology group | MCL10004 |
Nucleotide sequence:
ATGAATCCAAACTTCCATTACAGCAAACCCAATGAAGAAATACTTTCATTAGCTCGTGCT
GGACAGAAAATAATGGAAATGTGGCATACGTTATATAAAGAAACAAGAAGAAATATCGAG
GTTAGTGGTAAAGGAGCACGCTGGGAGTTTGATCAGCCCCTATTATTCACTAGGACTGAT
TACATCGGAACAGTGGCTAGAGACCTAGGAGATGTTATTCAGGTTCTCATCGACTTTGAG
CGAATATTTGGTAATGAACTTAAGTCCATAATTAGTGATCCAACCCAGATTGACGATGTT
CGTAAACGTGTGAAAAGGCTGGTATTTCCTATACGAACTATAGATTTTAGCGTTTTTGTA
TTTGACAATAAAGAGAACTGGGATGTTATCATGGGAGACTTTTGGACAGAAGTTAGATAT
TTAGAAGACGAAGCGAAAAATTACATTAACCACAGTTTTGGAAACTTAAGGTCTGCTGAA
GAAGCCCTAGACGTACTTCTTAAGTTCTTAGAATTTGATACCAGAGAGTCAATAAGAAAA
CAGTTATCCACAAAGTTTGATTATATTATGCGACAGTTTATCAAAGAAATTACGGTTATT
GAGGACAGATTTACCCGCTTCCGAAAAAATCCACCTTTGCTGCGGAATCACCCACCAGTT
GCCGGTGCAATCTACTGGGCTAGAGCACTATTTAACAAAATAAAAAGGCCTATCATGAAG
TTCCAAAAGATACCTGAACTTAACAATTGCGAAGAAAAGAAAACTGCTTTCTTACAATAT
AAAGCGTTTTCTAAAGTTATTAAAGAATATGAAGAGGCCAAATATCAGGACTGGGTAAAG
GATGCCTCGGACTTTGTAGATAATATAATGAAGAAAAACATTCTACATGTGGTCTTCAAA
AAAGAAGAGGAACCAATACCCACAAAAGGACGAGGTATGCAACTAACTGCTGCAGGAAGA
GCCCATGTGGCTAAGAAAAAGGCTTCAAATTTGTCAATAAAACCTATTGATGTTGTTAAT
AAGGAAATAGCTGATAAACGCAAAAGAGACAAAGCTTGCTTTGATCTGCCATCCAATATT
CGAGATGTGTCAATGCAAAAGGCTCGACTTTACTATGAACTGGAAGCTTTACAGAATGTG
ATTGAAAAGTACAACGCCAGCTCGACATCGCTCAGTCCATCCGAAACTTATCTGATGAAG
AAACATTTACTAGACATGGAAAGGCACATTTTGCCAGGATTAACTAGAATTACCTGGACA
GCTTTAGGAATTAATGATTATATCAAAGATATAACTAAAGGCGAGAACTCATTGAAAGCT
GTGTATCAGCAATTGAAAATGGTTGAAAAGGAAATACAGTTTTTACTTGACCAAATCCAA
ATGTTTGACTTGTTCCCATTCGTTAAACCCAAAGATTACGTCAATCCAGTGACTAAAGAA
CCCGATGACACGTGGCTGTACCCTTGTAAGGCTTATTTCGTCGAAGTAGAAAATGAACGT
CTAGAACGTTTAGCAATTTTGTCCCGTCTATATGACCGTATTGGACCCAACCTCATGAAA
CTGGAGTACTTAATACTTGGAACGAGTACAGGTCGTTCGGAGGTTATGTCTTCATACTAT
ACGCACTGGGAGAAAAAAATATTTAAAACTCTAGTAGGATTGACACTGGAGAACCTGCAA
GATTTTCAAAGAACCCTTAGTGAGAAGAGACCGATCTTTCAAGTCGATGCAGTCTTAGTA
CCTCCTGATATAACAATGCGGCCTACAGCCCCTGAAGTTTATATCATATCAGATTTAGAT
AACCATAATAAATTTGTGGACATCGGAGCCATAAGAGTTAACTTGCGTCCTATAATACAG
CAAGTTCAGGGCCATTCGCAAGAGTGGAAGAATATTTTAGGGCAATGTATAGCTTCTAAA
ACTAGGATGAATATGTATGATTTGAAAAATCAAATGGAATCACTCCGCATGACAATGAAT
ATGAACATCAAAGGTTTGGAGGACTTCAAACTGGTAATGGCAACGATAACTCAAGTGCAA
CAGCTCACTATTACCGCTGAGGTGAAGTTCCGAAACATGCAGGAGATCTTTCACATGTTA
AGACAGCATGACATAGAAGTAGAAGACGGAGATTTAGATTTTGCTAAAAATCTCGAAGCA
TCCTGGGGCACTTTGTATCAAACGTCTCTGTTTAGAGGTAATACTTTAGAACAGACGAAA
GAGAAATTCTCAAAGCTGAATGTTGGTGAAATATCCAAATTCCTCAAAGAATTGGACGAT
TTCGTTGAAAAGTTTGACAGAGAAGGACCTTCCACTGTTGGAGAAGATTTAGACAGAGGA
TTGCTACTTATGGAGGAATATACAAAAGTTTTTGATGAATTGGAATCTAGAAAAAAAATG
TTACAAGCAGCAGAGCAACTATTTGATAATCCGCTTGCTGATTTTGCAACATTTAATCGC
GCCAAATCAGACTTCCAAGCAATGGAGCAGATATATAAAATATATAAAGCTCAAAAGAAT
GCGAGAGAAGTATGGGCTAAGACATTATGGGTTAATTTAAATCCTCAAGCACTCGTGGAT
GGCATTGAGCAATTCTTTAAGGAATACAGAAAACTACCAAAGACTGTACGTCTTACTCCC
ACTGGTCTAATGTTGGATCTTAAGATGAAACAATTCAAGAACGTTGTACCTCTTATGGTT
TCTTTAAAGAATGAAGCAATGAGAGAACGTCATTGGAAAGAGTTGATGGTTAAAACTGGT
CAAGAATTCGACATGTCTCCGGAAAGATTTACTTTGGAAAACATGTTTGCTATGGAACTT
CACAAATATCAAGATGTCGCTGAAGAAATTGTCAACCATGCCATAAAGGAACTCTCAATC
GAACGCGGCGTCCGAGAAGTACAGGAAACATGGGCAAATATCGCATTCACAGTTTCAAGA
CACTTTAATCGTGGTGAAGACCGCGGATACACGCTCAATCCATGCGATGAAATAATTGTA
AAAGTTGATGACGACGCCATGTCCTTACAAAGCATGGCTGCCTCGCAATTCATAGGCCCA
TTCCTATCAGTAGTTCAGACATGGGATCGTCGCTTGGCTCTCATATCAGAGGTAATAGAG
GAATGGATGGCAACACAGCGCAAGTGGCTGTATCTAGAAGGTATATTTGTAGGGGGAGAT
ATTCGTGTGCAATTGCCGGATGAAGCCAAAAAATTTGACGATATCGACAAATCCTTTAGA
AAGATCATGTTGGACACTGCGAAACGACTTAATGTGGTGGATTGCTGCACAATAAGTGGA
AGATTGGAAGAATTTATAAACTTGGGATTGGGTTTACAGAAGTGTCAAAAATCTCTAAAC
GACTACTTGGATTCAAAGAGAAGAATTTTTCCGAGATTTTTCTTCATATCTACAGATGAA
CTTCTGTCGATTTTGGGAAGCAGCGAGTGTAGTTGTGTCCAAGAACACATGATAAAGATG
TTTGACAACATAAGGGCTTTAGACTTATACGTGGATCACACAAATCGCCCCGTTGCCGCT
AAAATGATTTCAGCCGAAGGAGAGATAATGGATTTCCGATACGTAGTCTACACAGAAGGC
CGAGTCGAGGACTGGATGAATTTAGTTCTAAACGAAATGCGAAAACTGAGTGGATTTTGG
AGTACCAAGGTATGGTATGCCTTGCAGCAAACGGAGTCTGGTGGACCGCGGAAACTGAAG
AGACATTTATAA
Protein sequence:
MNPNFHYSKPNEEILSLARAGQKIMEMWHTLYKETRRNIEVSGKGARWEFDQPLLFTRTD
YIGTVARDLGDVIQVLIDFERIFGNELKSIISDPTQIDDVRKRVKRLVFPIRTIDFSVFV
FDNKENWDVIMGDFWTEVRYLEDEAKNYINHSFGNLRSAEEALDVLLKFLEFDTRESIRK
QLSTKFDYIMRQFIKEITVIEDRFTRFRKNPPLLRNHPPVAGAIYWARALFNKIKRPIMK
FQKIPELNNCEEKKTAFLQYKAFSKVIKEYEEAKYQDWVKDASDFVDNIMKKNILHVVFK
KEEEPIPTKGRGMQLTAAGRAHVAKKKASNLSIKPIDVVNKEIADKRKRDKACFDLPSNI
RDVSMQKARLYYELEALQNVIEKYNASSTSLSPSETYLMKKHLLDMERHILPGLTRITWT
ALGINDYIKDITKGENSLKAVYQQLKMVEKEIQFLLDQIQMFDLFPFVKPKDYVNPVTKE
PDDTWLYPCKAYFVEVENERLERLAILSRLYDRIGPNLMKLEYLILGTSTGRSEVMSSYY
THWEKKIFKTLVGLTLENLQDFQRTLSEKRPIFQVDAVLVPPDITMRPTAPEVYIISDLD
NHNKFVDIGAIRVNLRPIIQQVQGHSQEWKNILGQCIASKTRMNMYDLKNQMESLRMTMN
MNIKGLEDFKLVMATITQVQQLTITAEVKFRNMQEIFHMLRQHDIEVEDGDLDFAKNLEA
SWGTLYQTSLFRGNTLEQTKEKFSKLNVGEISKFLKELDDFVEKFDREGPSTVGEDLDRG
LLLMEEYTKVFDELESRKKMLQAAEQLFDNPLADFATFNRAKSDFQAMEQIYKIYKAQKN
AREVWAKTLWVNLNPQALVDGIEQFFKEYRKLPKTVRLTPTGLMLDLKMKQFKNVVPLMV
SLKNEAMRERHWKELMVKTGQEFDMSPERFTLENMFAMELHKYQDVAEEIVNHAIKELSI
ERGVREVQETWANIAFTVSRHFNRGEDRGYTLNPCDEIIVKVDDDAMSLQSMAASQFIGP
FLSVVQTWDRRLALISEVIEEWMATQRKWLYLEGIFVGGDIRVQLPDEAKKFDDIDKSFR
KIMLDTAKRLNVVDCCTISGRLEEFINLGLGLQKCQKSLNDYLDSKRRIFPRFFFISTDE
LLSILGSSECSCVQEHMIKMFDNIRALDLYVDHTNRPVAAKMISAEGEIMDFRYVVYTEG
RVEDWMNLVLNEMRKLSGFWSTKVWYALQQTESGGPRKLKRHL