New model in OGS2.0 | DPOGS202795  |
---|---|
Genomic Position | scaffold4446:- 4760-22219 |
See gene structure | |
CDS Length | 6021 |
Paired RNAseq reads   | 351 |
Single RNAseq reads   | 852 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA010475 (0.0) |
Best Drosophila hit   | male fertility factor kl2 (0.0) |
Best Human hit | dynein heavy chain 2, axonemal (0.0) |
Best NR hit (blastp)   | PREDICTED: similar to dynein axonemal heavy chain-like protein [Tribolium castaneum] (0.0) |
Best NR hit (blastx)   | PREDICTED: similar to dynein axonemal heavy chain-like protein [Tribolium castaneum] (0.0) |
GeneOntology terms    | GO:0005737 cytoplasm GO:0005856 cytoskeleton GO:0000166 nucleotide binding GO:0005929 cilium GO:0030286 dynein complex GO:0042995 cell projection GO:0005874 microtubule GO:0003774 motor activity GO:0005524 ATP binding GO:0007018 microtubule-based movement GO:0017111 nucleoside-triphosphatase activity GO:0016887 ATPase activity GO:0003777 microtubule motor activity |
InterPro families   | IPR004273 Dynein heavy chain |
Orthology group | MCL10004 |
Nucleotide sequence:
ATGTTCAACAATATAGCTGCTAAGCTGCTGCCAACTCCCAGCAAGATGCATTATCTGTTT
AACTTGAGAGATATATCCAAAATATTTCAGGGTTTACTGAGAAGCAACAAAGACTACCAG
AACACTAAACCACGGTTTTTAAGGCTGTGGGTCCACGAGTGCTTCAGAGTGTTCGGTGAT
CGTTTGACCGAAGAAAAGGACCGAGATTGGTTCATGAATCACATGGGTGACATGTTGGGT
AAGCACTTCGAGCTGACCTTCCACGCGCTCTGCCCCTCCAAGAGCCCGCCCATCTTCGGA
CACTTCCTCAATCCCTTCGAGGTGTACGACGATTTGAATGACCCCAACGCTTTAAGAAAG
TACATAGCGAAACCAGATGGAGGAGTACAACAGCTGCCCGGGCGTCGTGAAGATGGACCT
GGTGCTGTTCAAGGACGCCATCGAACACATCTGCCGCATCGTGCGCGTCATCTCGCAGCA
GCGAGGGAACATGCTCTGCGCGGCTCCGGTCGACAAAGTTTAACCCGAGTAGCGTCCTAC
ATCTGCGAGTGCAACTCGTTCCAAGTCGTGGTTACCAAGACCTACGGCGTCAAAGATTTC
CGAGAAGATTTGAAGGTGCTATACACAAGCTGCGGAGTAGACACTAAGAAGACTACATTT
ATTTTTTGCGACACTCAGATAGTCGAGGAAACATTCACAGAGATCGTCAACAATTTGCTC
AGCAGCGGAGAGGTCACCAACCTTTACAAACCTGATGAATTTGAAGACATTAAATCGGCT
CTGGAGAAGCCCATGAAGAACGCGAATATACTACAGACAGCTGAGAGCGTGTATCTGTTC
TTGGTAGAGCGAGTGAGAGCCAACATGCGGATAGTGCTGTGCTTCAGTCCCATTGGAGAT
GAATTTAGGAATCGCATTCGTCAGTACCCTGCACTTATCAATGCTACAACCACGAATTGG
TTCCTGGAATGGCCGCGGGAGGCGCTGCTCGAGGTCGCCTATAAGTTTCTTGATGGAGTA
GAGCTGTTGGCTTCTATCACTGGAACCAGGGTTCGCAGGAAGGAGTCCCTGGTGGAGAGT
CGAGAGGATAGCATGAGGGCGGCAGTAGCGTCGACAATGTCGCTGATACACTCGTCCGTG
GGGCGCGCGTCCGTTAAGATGTGGCAGGAGATGAGGCGAACCAACTACGTGACGCCCACC
AACTACCTCGAGCTGGTGGCCGGATACAAGGAAATGCTCAAGAGCAAACGAATTGAGATT
GCTCTGCAAGCGAACAAGCTTCGGAACGGCCTGGGGAAGGTCGAGGAGACGACTAACTTA
GTGGGGCAGATGTCGGAAGAACTCGCTCTCGCTCAGGTTCAAGTCGCTGAGTACACGGAG
CAGTGTATAGAGTATATGGGCGTGATCAACGTGCAGCAACGCAACGCTGACGAGCAGCAA
CGCAGTGTGGCCGCGCGCAGCAAGAAGACCATGGAGGAGGAGGTGCAGTGCAAGAAGCTG
GCCGATGCCGCCATGAGAGACCTCGCCAGCGCCATGCCAGCTCTCGAGGAAGCCGTTAAG
GCTTTAGACGCTTTGAACAAGAAGGACATCACTGAGGTCAAGTCTTACGCCAAGCCGCCG
CAGAAGGTGGAGATGGTCTTGGAAGCTGTGCTTATATTGCTCCAGAAAGAACCAACCTGG
GCTGAGGCGAAGAGACAACTCGGTGATCAGTACTTCTTAGATCGGTTGCGTGATTTCGAC
AAAGATAACATATCTGACAAGACGTTGAAAAAGATTGGAACTTACACCGCCAAGCCAGAT
TTTGATCCAGAGATCGTTGGCACTGTGTCGCTAGCGGCCAAGTCGCTGTGTTTGTGGGTG
CGGGCTATAGAGAAATATGGGAAAGTTTACAAAATAGTGAAACCGAAAAAGGAACGTCTA
GAAGAAGCGCTGGAGTCTTTGAGGGAGAAACAAAGGATATTGGCCGAAGCCCGCGCCAGG
CTGAGGGAGCTGAGTGAGATGATCGCCCGCCTGCAGAAGGAGTACGACGAGAAACTGGCG
CAGAAGGAGGAGCTGGAGAGGAAGTCGCGTCTGCTACAGCTCAAGCTGGAGAGAGCTGAG
GCTCTCATCACAGGCTTATCTGGTGAAAGGGAAAGATGGGAACAAACCGTGGAACGTCTC
GACAAGGAGTTCGAGAACCTTCCAGGGGACTGTCTGATTGCGACCGGCTTTGTGGCTTAC
CTCGGACCCTTCATCTCCGAATACCGGGAAGACCTCATGGGTGACTGGTTCAGAGAGGTT
TTCGACCAAACTCTACCAGTGACGATGGACTTGAGCATGAAGACGTTTCTTCTCGATGAC
GCTACGCTCAGAGATTGGAATTATATGGGACTGCCAGATGATAACTTCAGCGCCGAGAAT
GGTATCATCGTAGTCCGAGCGACTCGCTGGCCGCTGGCGGTCGACCCTCAGGGACAGGCG
CTCATTTGGATCTCACGCCTGGAGGAAAACAACCAGATACAGATAGTGGACTTTGGTCAG
CCGAACTACCTTAAGATCATGGAGAATTGTTTATCGCAAGGCAAACCTATCATCATTCAA
AACGTCGGGGAAGTTCTCGATCCGTCCATCGCTCCGATATTGGACAAAGCGATTGTCAAA
ATCGGTTCCGATATGGTCATCAAGTTCAATGAGAAAATGGTCCCATACAATCCAGAATTC
AAGATGTACTTGACCACTAAGTTAGGTAATCCTGTTTATAGTCCGGAAACCTTGACGAAG
ACGACGATGGTGAACTTCGCGGTGAAGGAGCAGGGTCTGACGTCACAGCTGCTGAGCATC
GTAGTGAGGAAGGAGAGGCCGCAGCTCGAGCAGATGAAGGACACCCTGGTCATGACCATA
GCCAATAATAAGAAAGTACTTATGGACCTGGAGAACGACCTCCTGCGCATCATGTACGAG
TCGCAGGTGCCTCTGTTGGAGAACGAAGAACTGTTCCAGACGTTGCAGGTGTCGCAGAGG
ACATCCCTCGAGGTGAAGGAAGCTCTCATCACCTCGCAAGATACTGAAAAAGAAATCGAT
GCGGCGAGACAGGGTTACGTACCCGTAGCAACTCGAGCTGCGGTTCTGTTCTTCGCTCTC
AACGACCTAGCTCGTATCGACCCCATGTACCAGTTCTCCCTGGACGCCTACAACGATCTC
TTCACCTACTCCATCGACCGAAGCCCTAAGGGCGGCGACCTCGAGGACCGGATCACTAAC
TTGAATGAATTCCACACCTTCGCCGTGTACAAGAACACATGTCGCGCGGTGTTTGAGAGA
CACAAGCTGTTGCTGTCTTTCCACATGGTGTCCCGAATCCTGTTCCAGGCCGGCAAGATG
AGCAACCACGAGTACCTGTTCCTGCTGAAGGGCGGAGTGGTGCTGGATCGATCTGAACAA
CCCGATAACCCTACCAATTGGTTGCCGGAAGACTGCTGGGACAACATTACAGAGCTGGAC
AAACTGCCGGGCTTCCACGGCATCTGTGATACTTTTGAGACCTTCTCCAAGGAGTGGAAG
GAGTGGTACCTGCATCCTGAGCCGGAGTCACAGCCGCTCATAGGCGAATGGAACGAGATT
TGCAACGAGTTCCAACGCATCCTGTTGGTGCGGTCGCTGCGCGTGGATCGCGTGTCGTCC
TGTGTAGCGGCCTACGTCGTTAACACGCTCGGCCCGCGGTACGTCGAACCCCCCGTCCTG
GACATACGGGCTGCTTGGGAAGAGTCTACCTGGAAGACGTCTCTGCTGTTCGTGTTGTCC
CCGGGCGTTGACCCCACGTCGGCCTTGATCCAGCTAGCCACCGATACAAAGATGTTCGAT
AAGTTCCAATCACTTAGCTTGGGTCAAGGTCAGGCGCCCACTGCTGCCAGGATGTTGAGT
CAGGGTATGAAGGAAGGTGGCTGGGTGTTCCTGGCAAACTGTCACCTGGCGTGCGTATGG
CTCGGCGCGCTGCGAGGCCTCGACAACCCCAAGATACACCCGCGGTTCCGGTTGTGGCTG
TCGTCGATGCCTGATGACAAGTTCCCTCTCAACATACTGCAGAGGAGCATCAAGATGACC
ACAGAACCACCTCAGGGCTTGAAGGGCAACCTCGTCCGTATATTCGCGAACCTCAACGAG
GAGAAGTTCGACCAGGCCACCCCCAAGTATCGACGTCTGTTGTTCTGTGTGTCCTTCTTC
CACTGTTCCCTCATAGCTCGCAAACGGTTCCGACAACTTGGATATAACGCTGTTTACAGC
TTCAATGATTCTGATTTTGAGGTATCCGATAACCTCCTAGCAAATTATCTGGAAGAGTAT
GAGGAGGTCCCTTGGGATGCCCTGCGCTACTTATTCTCTATCATCAACTACGGCGGTCAC
ATCACCGACGACTGGGACAAGCGAGTTCTCATCGCATACATCAACCAGTTCTTCTGCGAG
GAAGCCCTCGATACGCCATTCTATAGGTTGTCCAGTATCCCAGCCTACCACCTCCCCCGC
GACGGTAGCCTGGAATCGTACCGCGACTTCCTGGACCTCCTGCCGGCCTCCGAGCGAGCC
GAATCCGTCGGCCAGCACGCCTCCGCTGATGTAGCGACACTCGCACAGGGCTTGAAGGGC
AACCTCGTCCGTATATTCGCGAACCTCAACGAGGAGAAGTTCGACCAGGCCACCCCCAAG
TATCGACGTCTGTTGTTCTGTGTGTCCTTCTTCCACTGTTCCCTCATAGCTCGCAAACGG
TTCCGACAACTTGGATATAACGCTGTTTACAGCTTCAACGATTCTGATTTTGAGGTATCC
GATAACCTCCTAGCCAATTATCTGGAAGAGTACGAGGAGGTCCCTTGGGATGCCCTGCGC
TACTTATTCTCTATCATCAACTACGGCGGTCACATCACCGACGACTGGGACAAGCGAGTG
CTCATCGCATACATCAACCAGTTCTTCTGCGAGGAAGCCCTCGATACGCCATTCTATAGG
TTATCCAGTATCCCAGCCTACCACCTCCCCCGCGACGGTAGCCTGGAATCGTACCGCGAC
TTCCTGGACCTCCTGCCGGCCTCCGAGCGAGCCGAATCCGTCGGCCAGCACGCCTCCGCT
GACGTAGCGACACTCGCACAGGACGCCCGCATAATGTGCTCCACGTTGTTCGCGCTCGCC
TCCACCGGCGGCGGCGGGGCGGGGGGAGGGGAGGATCAAAAGGTCGATGAGCTGGCTGCG
GAGATGCTGTCGAAGTTGCCGAGTCGTATAGACGTGGAGACCACGGAGAGGATGATGGGT
CCGGAGATCGTGATGCCCATGTGTGTCAGTCTGCTGCAGGAGATCGGATACTACAATGTG
CTCATCAGCACCATCATCGCCGGCCTCAAGGAACTGCGACGTGCCATTGAGGGTCTGGTG
GTGATGTCCGAGATGTTGGAGATCATGTACACGTGTATATTCGAGGGCCGCGTGCCGTCC
TTCTGGCAGAAAGGTCGTCCGTCTATAAAGCCGTTGGGCGCGTGGTGTAGGGAGCTGTTC
CTCCGCGGCTCTCACCTGACGTCGTGGTCCAACGCGCCCCGCTCTCCCCCCACCCTCTGC
TGGCTGCCGTCCCTCGTCGCGCCGACAGGATTCCTCACCGCTGTGATGCAGACGACAGCG
CGCGGGGAGAGCTGGCCCATCGACACTCTGTGCTGGGAGTTCACAGTCATGCCGCTGGAG
GAGACTGCCTTCGTCAGACCGCCCCGAGACGGCGGGGTTTACATACGGGGTCTGTTCCTG
GAGGGCGCCAGTTGGTTCCGGAAGGACGGTCACCTGCAGGAGCCGCTTCCCATGCAGCTG
GTGTTCCCCATGACTCCGATACACTTCAAACCCATACGAGCCACCGGGAGGCGCCTGAGA
AATCGTTACGTATGTCCCTGTTACTACTACCCTCTCCGTATGGGCGCCTTCGTGGTGGCC
GTCGACCTTCACTCCGGCAAGGAGTCTTCCGATTTCTGGGTCAAGCGAGGCACCGCGCTG
CTTTGCACTCTGGCCACTTAA
Protein sequence:
MFNNIAAKLLPTPSKMHYLFNLRDISKIFQGLLRSNKDYQNTKPRFLRLWVHECFRVFGD
RLTEEKDRDWFMNHMGDMLGKHFELTFHALCPSKSPPIFGHFLNPFEVYDDLNDPNALRK
YIAKPDGGVQQLPGRREDGPGAVQGRHRTHLPHRARHLAAAREHALRGSGRQSLTRVASY
ICECNSFQVVVTKTYGVKDFREDLKVLYTSCGVDTKKTTFIFCDTQIVEETFTEIVNNLL
SSGEVTNLYKPDEFEDIKSALEKPMKNANILQTAESVYLFLVERVRANMRIVLCFSPIGD
EFRNRIRQYPALINATTTNWFLEWPREALLEVAYKFLDGVELLASITGTRVRRKESLVES
REDSMRAAVASTMSLIHSSVGRASVKMWQEMRRTNYVTPTNYLELVAGYKEMLKSKRIEI
ALQANKLRNGLGKVEETTNLVGQMSEELALAQVQVAEYTEQCIEYMGVINVQQRNADEQQ
RSVAARSKKTMEEEVQCKKLADAAMRDLASAMPALEEAVKALDALNKKDITEVKSYAKPP
QKVEMVLEAVLILLQKEPTWAEAKRQLGDQYFLDRLRDFDKDNISDKTLKKIGTYTAKPD
FDPEIVGTVSLAAKSLCLWVRAIEKYGKVYKIVKPKKERLEEALESLREKQRILAEARAR
LRELSEMIARLQKEYDEKLAQKEELERKSRLLQLKLERAEALITGLSGERERWEQTVERL
DKEFENLPGDCLIATGFVAYLGPFISEYREDLMGDWFREVFDQTLPVTMDLSMKTFLLDD
ATLRDWNYMGLPDDNFSAENGIIVVRATRWPLAVDPQGQALIWISRLEENNQIQIVDFGQ
PNYLKIMENCLSQGKPIIIQNVGEVLDPSIAPILDKAIVKIGSDMVIKFNEKMVPYNPEF
KMYLTTKLGNPVYSPETLTKTTMVNFAVKEQGLTSQLLSIVVRKERPQLEQMKDTLVMTI
ANNKKVLMDLENDLLRIMYESQVPLLENEELFQTLQVSQRTSLEVKEALITSQDTEKEID
AARQGYVPVATRAAVLFFALNDLARIDPMYQFSLDAYNDLFTYSIDRSPKGGDLEDRITN
LNEFHTFAVYKNTCRAVFERHKLLLSFHMVSRILFQAGKMSNHEYLFLLKGGVVLDRSEQ
PDNPTNWLPEDCWDNITELDKLPGFHGICDTFETFSKEWKEWYLHPEPESQPLIGEWNEI
CNEFQRILLVRSLRVDRVSSCVAAYVVNTLGPRYVEPPVLDIRAAWEESTWKTSLLFVLS
PGVDPTSALIQLATDTKMFDKFQSLSLGQGQAPTAARMLSQGMKEGGWVFLANCHLACVW
LGALRGLDNPKIHPRFRLWLSSMPDDKFPLNILQRSIKMTTEPPQGLKGNLVRIFANLNE
EKFDQATPKYRRLLFCVSFFHCSLIARKRFRQLGYNAVYSFNDSDFEVSDNLLANYLEEY
EEVPWDALRYLFSIINYGGHITDDWDKRVLIAYINQFFCEEALDTPFYRLSSIPAYHLPR
DGSLESYRDFLDLLPASERAESVGQHASADVATLAQGLKGNLVRIFANLNEEKFDQATPK
YRRLLFCVSFFHCSLIARKRFRQLGYNAVYSFNDSDFEVSDNLLANYLEEYEEVPWDALR
YLFSIINYGGHITDDWDKRVLIAYINQFFCEEALDTPFYRLSSIPAYHLPRDGSLESYRD
FLDLLPASERAESVGQHASADVATLAQDARIMCSTLFALASTGGGGAGGGEDQKVDELAA
EMLSKLPSRIDVETTERMMGPEIVMPMCVSLLQEIGYYNVLISTIIAGLKELRRAIEGLV
VMSEMLEIMYTCIFEGRVPSFWQKGRPSIKPLGAWCRELFLRGSHLTSWSNAPRSPPTLC
WLPSLVAPTGFLTAVMQTTARGESWPIDTLCWEFTVMPLEETAFVRPPRDGGVYIRGLFL
EGASWFRKDGHLQEPLPMQLVFPMTPIHFKPIRATGRRLRNRYVCPCYYYPLRMGAFVVA
VDLHSGKESSDFWVKRGTALLCTLAT