| New model in OGS2.0 | DPOGS202524 |
|---|---|
| Genomic Position | scaffold563:+ 42882-52930 |
| See gene structure | |
| CDS Length | 4056 |
| Paired RNAseq reads | 4596 |
| Single RNAseq reads | 11883 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA001547 (0.0) |
| Best Drosophila hit | dynein heavy chain 64C, isoform A (0.0) |
| Best Human hit | cytoplasmic dynein 1 heavy chain 1 (0.0) |
| Best NR hit (blastp) | dynein heavy chain [Aedes aegypti] (0.0) |
| Best NR hit (blastx) | dynein heavy chain [Aedes aegypti] (0.0) |
| GeneOntology terms | GO:0005875 microtubule associated complex GO:0007018 microtubule-based movement GO:0042623 ATPase activity, coupled GO:0003777 microtubule motor activity GO:0048477 oogenesis GO:0007294 germarium-derived oocyte fate determination GO:0005868 cytoplasmic dynein complex GO:0003774 motor activity GO:0048134 germ-line cyst formation GO:0045169 fusome GO:0045478 fusome organization GO:0005938 cell cortex GO:0007405 neuroblast proliferation GO:0016319 mushroom body development GO:0008088 axon cargo transport GO:0048813 dendrite morphogenesis GO:0007301 female germline ring canal formation GO:0045172 germline ring canal GO:0007098 centrosome cycle GO:0008298 intracellular mRNA localization GO:0005737 cytoplasm GO:0007312 oocyte nucleus migration involved in oocyte dorsal/ventral axis specification GO:0040001 establishment of mitotic spindle localization GO:0005524 ATP binding GO:0007052 mitotic spindle organization GO:0043148 mitotic spindle stabilization GO:0007067 mitosis GO:0046604 positive regulation of mitotic centrosome separation GO:0051642 centrosome localization GO:0030723 ovarian fusome organization GO:0007282 cystoblast division GO:0051237 maintenance of RNA location GO:0007051 spindle organization GO:0005794 Golgi apparatus GO:0051683 establishment of Golgi localization GO:0007349 cellularization GO:0047497 mitochondrion transport along microtubule GO:0005739 mitochondrion GO:0006886 intracellular protein transport GO:0048311 mitochondrion distribution GO:0000776 kinetochore GO:0030071 regulation of mitotic metaphase/anaphase transition GO:0050658 RNA transport GO:0030529 ribonucleoprotein complex |
| InterPro families | IPR004273 Dynein heavy chain |
| Orthology group | MCL10004 |
Nucleotide sequence:
ATGGCCAACCCGCCTGCGAACGTCAAGGTGGCCTTGGAGTCGATCTGTCTCCTGCTGGGA
GAGAACGCCACTGACTGGAAAGCGATCCGGGCCGTCATCATGAGGGAGAACTTCATCAAC
AGCATCGTCTCCAACTTCTCAACGGAGGACATCACTGACGATGTCCGCGAGAAAATGAGG
ACGAGATATCTAAGTAACCCAGATTACAACTTCGAAAAAGTGAACAGAGCCAGTTTGGCC
TGTGGTCCTATGGTGAAATGGGCAATTGCGCAGATCGAATACGCAGACATGTTAAAACGC
GTTGAACCTCTGCGCAATGAACTGAAGGCGCTCGAAGATCAGGCACAGACCAACGTTAAG
TCAGGAAACGAAGTCCGAGATTTGATTGCACAGTTAGAGAAATCTATTGCATCCTATAAG
GAAGAATATGCTCAACTGATCAGCCAAGCGCAGGCTATTAAGACTGATCTAGAAAACGTG
CAGGCCAAGGTGGACAGATCTATTGCTCTGCTGAAGAGTTTGGGAATCGAACGTGAAAGA
TGGGAAGCAAGCTCGGAAACATTTAGGTCACAAATGAGTACTATCGTGGGAGACGTATTG
CTCTCCGCTGCGTTCATAGCCTACGGTGGATACTTCGACCAACACTATCGTCAGAACCTG
TTCTCAATGTGGAGCAGTCATTTGGCTGCAGCCAACATAAAATTCCGAGCGGACATAGCA
CGCACTGAATACCTTAGCAACCCCGACGAGCGACTCCGCTGGCAGGCCAACGCACTTCCC
ACTGACGAATTGTGTGTTGAAAACGCTATCATGCTCAGGCGCTTCAACCGTTACCCTCTC
ATCATCGATCCCTCGGGACAAGCCACTGAGTTCATAATGCGCGAGTTTAAAGAACGTAAG
ATAACAAAGACCTCCTTCCTCGACGACTCCTTCAGGAAGAACTTGGAATCAGCATTGCGT
TTCGGAAACCCACTTCTGGTGCAGGACGTCGAAAACTACGACCCAATTCTGAATCCAGTA
TTGAATAGAGAGCTCCGCCGCACTGGAGGACGAGTGCTGATCACTCTCGGCGACCAGGAT
ATCGATCTCAGTCCATCATTCGTAATTTTCTTAAGTACCAGGGACCCGACGGTAGAATTC
CCCCCCGATATGTGCTCCCGTGTGACTTTCGTCAACTTCACCGTCACTCGTTCATCGCTA
CAATCCCAATGTCTCCACCGAGTCCTCAAGGCGGAAAGACCAGACATAGACACCAAGCGC
TCAGACCTCCTTAAACTGCAGGGTGAGTTCCATTTGCGACTCCGACAGCTGGAAAAGTCT
CTACTGCAAGCTCTTAACGATGCTAAGGGTAAGATTCTGGACGATGACTCGGTTATTGCA
ACACTTGAGACACTTAAAAAAGAAGCTGGCGATATTGGGCAAAAGGTTGAAGAGACTGAC
AAAGTTATTGCTGAAATTGAAACGGTCAGCCAACAATATCTGCCGCTGTCCCAAGCCTGC
AGCAGTATCTACTTTACGATGGAGGCGCTACACCAAGTCCATTTCCTCTACCAGTACTCT
CTCAAGATGTTCCTCGATATATTCAGCTCGGTACTGACGAGTCCCGCCCTTAAAGGAGTA
ACCGATTACACCGCCAGGCTGAAAACTATCACTGAAGAATTGTTCATAGCAGTGTACGAG
CGCGTGGCTCGCGGCATGCTTCACACGGACCGTCTCACATTCGCCCTGTTACTGTGCCGC
ATACAACTCAAAGGTATAGGCGCTGAAGATACGCTGGACCAACAATTTGCCGTGTTCCTG
AGAGGAAGAGAAGGTTTCGTTGCGAATACTCCACCGTTGGAATCGCTCTCGCAACAACAG
AACGATGCCGCCGCTAGGCTGAGCTCGAGGATGGTAGCATTCCGTCGTCTGATGGAGAAG
GCTGGTTCGCTGCCGGAGTTGTCCGCGTGGTTGTCTCAGGCGGCACCCGAGCAGTGCGTG
CCGACTTTGTGGGACTGCGACGCCGCCTCGCCCCCGCCCCCACATGCACTGGCTATGTAC
CGCTTACTATTAATACAGGCGTTCCGGCCGGACCGTGTGATAGCGGCGGCCACTCAGCTG
GTGTCGTCAGTGCTGGGTCCTCAGTTCATGTCCCGCGCTGAGACTGAGCTGGATCTCTGC
AGCATCACCGAAAGCCAGCTCAACGCGACGACGCCCGCACTATTATGCTCAGTGCCCGGT
TATGATGCTAGTGGTCGTGTGGATGACATGGCCACTGATTTGAATAAGCCGCTGTCGAGT
ATCGCTATCGGTTCAGCGGAGGGTTTCAACCAGGCAGAGCGCGCCATCAACACTGCCTGC
AAAACTGGACGATGGGTGATGCTGAAGAACGTTCACCTTGCTCCTGTATGGTTGGTTCAG
TTAGAGAAGAAGCTTCACTCGCTTCAACCTCATCCCAATTTCCGTCTTTTCTTGACAACG
GAGATAAGTCCCAAGTTGCCCGTGAACCTACTGCGAGCTGGACGAGTGCTCGTGTTCGAG
CCACCTCCTGGCATTAGAGCAAATCTATTAAGGACTTTTGCTACTGTACCAGCGTCTCGC
ATGATGAAGCAACCTTCGGAACGAGCACGTCTATACTTTTTGCTGGCCTGGTTCCATGGC
ATCGTCCAAGAGCGTCTGCGCTACGTGCCTCTAGGATGGGCGAAGTACTACGAGTTCAAC
GAGTCAGACCTACGGGTGGCCTGCGATACTCTCGACACGTGGATAGACGCCACTGCTATG
GGCCGTACCAACTTACCCCCCGAAAAAGTTCCATGGGAGGCACTAGTGACCCTCCTCTCA
CAGTGTATCTACGGAGGTAAAATTGACAACTTGTTCGACCAACGTCTTCTGCACTCGTTC
CTTTGCAAGTTGTTCACTCCGAGGTCCTTCGATGCGGACTTTGCTCTTGTGGCTAATGTA
GACGGCGCTTCCGGTAACCAACGTCATATTACAATGCCGGACGGAAACAGACGAGATCAC
TTCCTTAAATGGATCGAAGAACTGTCAGACAGACAGACGCCGTCTTGGCTCGGTCTGCCC
AATAATGCTGAAAAGGTGCTGTTAACAACTCAAGGCAGCGACCTGGTGTCGAAATTATTG
AAGATGCAACAGTTAGAAGACGAAGAAGAGCTCGCATACAACGCGGCCAGCCAGGACCAC
GACCCCAATTCTATAGTAGTAGAGGGTGATGGAAGACCAGCTTGGATGAAGATATTGCAC
GAAACAGCCACCAGCTGGTTGCAGCTGCTGCCTAAGGAATTGCCAACTCTTCGTCGTTCA
GTCGAGAACATCAAGGACCCACTGTACCGTTTCTTCGAGCGCGAAGTGGCGGCCGGAGCG
TCACTGCTACAACAAGTGTTACACGACCTACGTAATGTGATCGCCATATGCCAGGGCGAG
ATGAAGCAGACGAATGAGACCCGTGCGATGGTGGGTTCACTAGTACGTGGCATGCTACCC
AGCGGCTGGCGCAGGTACGCCGTCGCTAGAGGCTGCACCGTACAGCAGTGGATCGACGAC
TTCGCGCGACGAGTCACCCAGCTCGCTACCGTGTCCAGTACACTGGCCGACCAAGGCGCC
AAGAGACTCCAGAGTATCCCAGTGTGGCTCGGCGGACTGCTCAATCCGGAAGCGTACATC
ACAGCCACACGTCAATGTGTCGCGCAGGCTAACTCGTGGTCCCTCGAAGAATTGAACCTA
CAGGTTACAATTCCCGACCCGGGGACTCCGACGGAGAACGCGCAGATGGAGTGGTCGTTC
TCAGTAACTGGCCTCAAACTACAAGGAGCGACCGTGAAAGGGAACCGTTTGTTGTTGACC
AACACCATCATGGTCGATCTGCCGCTCGTAGTGCTCACTTGGATAAGGGGCGCGGAGCCG
GCGGGCGCGGGTCAGTCATTGACCCTGCCGGTGTACTTGAACAGCGCTCGTTCAGAGCTG
TTGTTCACCGTCCGTCTGCCGATCGCCGCGGGTCAAGAGCCGCACGCCTTCTACGAGCGA
GGCGTCGCATTACTCACATCTACTGCACTCAACTAG
Protein sequence:
MANPPANVKVALESICLLLGENATDWKAIRAVIMRENFINSIVSNFSTEDITDDVREKMR
TRYLSNPDYNFEKVNRASLACGPMVKWAIAQIEYADMLKRVEPLRNELKALEDQAQTNVK
SGNEVRDLIAQLEKSIASYKEEYAQLISQAQAIKTDLENVQAKVDRSIALLKSLGIERER
WEASSETFRSQMSTIVGDVLLSAAFIAYGGYFDQHYRQNLFSMWSSHLAAANIKFRADIA
RTEYLSNPDERLRWQANALPTDELCVENAIMLRRFNRYPLIIDPSGQATEFIMREFKERK
ITKTSFLDDSFRKNLESALRFGNPLLVQDVENYDPILNPVLNRELRRTGGRVLITLGDQD
IDLSPSFVIFLSTRDPTVEFPPDMCSRVTFVNFTVTRSSLQSQCLHRVLKAERPDIDTKR
SDLLKLQGEFHLRLRQLEKSLLQALNDAKGKILDDDSVIATLETLKKEAGDIGQKVEETD
KVIAEIETVSQQYLPLSQACSSIYFTMEALHQVHFLYQYSLKMFLDIFSSVLTSPALKGV
TDYTARLKTITEELFIAVYERVARGMLHTDRLTFALLLCRIQLKGIGAEDTLDQQFAVFL
RGREGFVANTPPLESLSQQQNDAAARLSSRMVAFRRLMEKAGSLPELSAWLSQAAPEQCV
PTLWDCDAASPPPPHALAMYRLLLIQAFRPDRVIAAATQLVSSVLGPQFMSRAETELDLC
SITESQLNATTPALLCSVPGYDASGRVDDMATDLNKPLSSIAIGSAEGFNQAERAINTAC
KTGRWVMLKNVHLAPVWLVQLEKKLHSLQPHPNFRLFLTTEISPKLPVNLLRAGRVLVFE
PPPGIRANLLRTFATVPASRMMKQPSERARLYFLLAWFHGIVQERLRYVPLGWAKYYEFN
ESDLRVACDTLDTWIDATAMGRTNLPPEKVPWEALVTLLSQCIYGGKIDNLFDQRLLHSF
LCKLFTPRSFDADFALVANVDGASGNQRHITMPDGNRRDHFLKWIEELSDRQTPSWLGLP
NNAEKVLLTTQGSDLVSKLLKMQQLEDEEELAYNAASQDHDPNSIVVEGDGRPAWMKILH
ETATSWLQLLPKELPTLRRSVENIKDPLYRFFEREVAAGASLLQQVLHDLRNVIAICQGE
MKQTNETRAMVGSLVRGMLPSGWRRYAVARGCTVQQWIDDFARRVTQLATVSSTLADQGA
KRLQSIPVWLGGLLNPEAYITATRQCVAQANSWSLEELNLQVTIPDPGTPTENAQMEWSF
SVTGLKLQGATVKGNRLLLTNTIMVDLPLVVLTWIRGAEPAGAGQSLTLPVYLNSARSEL
LFTVRLPIAAGQEPHAFYERGVALLTSTALN