New model in OGS2.0 | DPOGS211814  |
---|---|
Genomic Position | scaffold662:- 25461-34117 |
See gene structure | |
CDS Length | 2907 |
Paired RNAseq reads   | 2282 |
Single RNAseq reads   | 5712 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA008154 (3e-93) |
Best Drosophila hit   | optic atrophy 1-like, isoform A (0.0) |
Best Human hit | dynamin-like 120 kDa protein, mitochondrial isoform 8 (0.0) |
Best NR hit (blastp)   | PREDICTED: similar to CG8479-PA, isoform A isoform 2 [Apis mellifera] (0.0) |
Best NR hit (blastx)   | PREDICTED: similar to CG8479-PA, isoform A isoform 2 [Apis mellifera] (0.0) |
GeneOntology terms    | GO:0005525 GTP binding GO:0003924 GTPase activity GO:0035073 pupariation GO:0008053 mitochondrial fusion |
InterPro families    | IPR001401 Dynamin, GTPase domain IPR022812 Dynamin |
Orthology group | MCL14735 |
Nucleotide sequence:
ATGTCTCTCAAGAAGACGCCGTCAATAGTGGATCAGCGGGCGGTCGCGTTTACAATCTGG
ACAGGTAGAAGTGTGTTGTTCAATAGGCCAGTACCAAACCAGATTCCCCGTCGTCGATAT
GGCATGCTGATAGCAAGAGCCGTGCGAGGTGTTCTTAAGATACGTTACTTGGTGTTGGGA
GGCGCTGTTGGTGGTGGAATGACACTTAATAAGAAATATTCAGAATGGAAAGACGGTCTT
CCTGATATGGGTTGGTTAAATGATTTGTTACCTGACAATGATCAATGGGACAGATTCACT
ACCACACTTATTACCGCCAAAGACAGGATCGGAGACCAGCTACAGATCGGTGTGCCACTG
ACGCTGTCGGTCTCAGATCCTCGTCTCCGGGAGGCTGGTCGTGCGCGAGCGGCTGAACTG
AGGGACTGGCTCTCACAGAGGTACGAGGATGCAGTAGCGGCAGCTGCTGTTAATAATACT
AGTATTGAACCAGCTCCGAAGATCGTGAACAACCTTCAAAGTAAACCTGCACCACAGACA
GCGTCCGCTCGTACCGCGGCAGAAGAAGCTGCTGCCTATGAAAAACGAGTGCACGTGCTC
CAAGAGGAGGTGCTAGCGTTGCAAGCGAGATATCAAAGAGAGTTGCAGCGACTAGAACAA
GAGAACAGAGAATTGCGACAGCAGAATATGCTGCTTAGACAGGGACGACAACCTACTACC
AAGAAAATGAAGCGATCCCTCATCGACATGTATTCGTCGGTGTTGGACGAGCTGGCAGGC
TGGGAGTCGGGGGAGGCGGGCCGGCTGCCGAGGGTCGTGGTGGTAGGGGACCAGTCCGCG
GGGAAGACCTCTGTGCTGGAGATGATCGCACAGGCCAGGATCTTCCCGAGGGGAGCGGGG
GAGATGTGTACCAGGGATGTGGCTCCGGTGAAAGTGACCCTATCAGAGGGTCCCTACCAC
GTCGCCCAGTTCAGAGATTCATCCAGAGAGTTCGACCTCAACAAGGAATCTGATCTTGCT
GATCTGAGAAAGGAAGTTGAGCTGCGCATGCGCAATAGTGTCCGCGGGGGGAGAACCGTG
TCTAGTGACGTCATCGCCATGTCCGTGAGGGGTCCGGGACTGCCCCGCATGGTGCTGGTG
GACTTGCCAGGTGTCATATCGACGCAGACCGTGGACATGGCGGCGGACACGAGGGAGGCG
ATCAAACAGATGACCAAACAGTACATGGACAACCCCAACGCGATCATACTGTGTATACAG
GACGGGTCGGTGGACGCCGAGCGCAGCAACGTGACGGACCTCGTGGCCTCCTGCGACCCT
CAAGGGAAGAGGACCATCTTTGTGCTGACCAAAGTGGACTTGGCTGAGGAGAATCTCGCC
AACCCTAACAGGATCCGTCGCATCCTGGAAGGCAAGCTGTTCCCTATGAAGGCGCTCGGC
TACTACGCCGTAGTGACCGGCCGCAGCAGGAAGGACGACTCCATACAGAGCATCAGGGAG
TACGAAGAGCGGTTCTTCAGATCCTCGAAACTGTTTAAAGAGGGTCTGGTGGCGGCGGGG
CAGGTGACGACCCGCAACCTGTCCCTGGGCGTGGCGGATTGCTTCTGGCGGATGGTCCGC
GACACGGTGGAACAACAGGCCGACGCCTTCAAGGCCATGAGGTTCAACCTGGAGACGGAG
TGGAAGAACACCTTCCCCAGGCAGCGAGAGCTGGACCGCGACGAGCTGTTCGAGCGAGCT
CGAGCCGAGCTGTTGGACCAGTCAGCTGAACTGTCGGCTGTTCCTCCTCCGGCCTGGGAA
CAGAGGCTCACGGCTGAACTGTGGACCTCCACACATGACAGGGTCTTCGGAGGAATATAC
CTGCCGGCGGCGGCACTCGCACATGATGACGTCGGTCGTCCTAAGGCAACACAGTTGAAA
TATAAGCAACCCGGCTCTGATAGGAACCCGGCGATATGGCTCGATCCATACGATTTTGAT
TTCAATAAATTCAACACGTCCGTCGATATAAAACTCCGTGAGTGGGCGGAGAGTGAGCTC
GCCAAACAATCCATACAGGCTGGTAGAGACGCGCTAAGGGAAGAGTTCATAGAACTGCTC
GCGAGGTCCCAGGACACAGATCCTATTTACGAGCCTGTAAAACGAGCAGCCGTCGAAGAA
GCTCTCAACAGACATCAGTGGGAGGAGAGGGCCCAGGATGTTCTGCGCGTGCTACAACTG
AACGCCCTCCAGGACAGATGTGTTCGTTCCCGCGGCGACTGGGACGCGGCCGTGGCCCTC
ATGGAGACCGCCCTCAAGGAGAAGCGAGACGACGTGCAGAGGGAGCTCCGGAACATGACA
GGTCCGGGCTTCCGTGAGCGTTGGCTTCGTTGGGCGTCGACCACTGAGGAGCAACAGAGA
CGGGCTGAAGTACGCACCGAGCTGGAGAGACTCGGCTCCTGCAGACCCTCGCTGGCCTAC
GACGAGGTGGTAGCGGTTCGCGACAACCTTCGTCGTAGAGGAGTGGAGGTCGACAACGAA
TACATCAGAGAGACTTGGAAGCCGGTGTATCTCAATAACTTCCTGTCCCGAGCCCAGTCT
CGCGCTAACGACTGTAAGAAGAGCTTCTATCTTTACTCACAACAGAACGGCGCTGAGAAG
GAGTGTTGTGAGGTGGTGATGTTCTGGCGCGTGCAGGCCGCTCTCCGGACCACGGCCAAC
GCTCTCCGGCAACAGATCAGCAACAGAGAGGCGGCGCGACTGGACAGGGACCTACGGGAA
GTTCTGGACGAGATGGCGGCAGATCCTGATTTAAAGAAGAAACTGTTATCTGGAAGAAGA
GTTGAACTAGCAGAAGAACTGAAGCGAGTCAGACAAGTACAAGAAAAACTAGAGGAATTT
ATCGAGGCATTAAACAAAGAGAAGTAA
Protein sequence:
MSLKKTPSIVDQRAVAFTIWTGRSVLFNRPVPNQIPRRRYGMLIARAVRGVLKIRYLVLG
GAVGGGMTLNKKYSEWKDGLPDMGWLNDLLPDNDQWDRFTTTLITAKDRIGDQLQIGVPL
TLSVSDPRLREAGRARAAELRDWLSQRYEDAVAAAAVNNTSIEPAPKIVNNLQSKPAPQT
ASARTAAEEAAAYEKRVHVLQEEVLALQARYQRELQRLEQENRELRQQNMLLRQGRQPTT
KKMKRSLIDMYSSVLDELAGWESGEAGRLPRVVVVGDQSAGKTSVLEMIAQARIFPRGAG
EMCTRDVAPVKVTLSEGPYHVAQFRDSSREFDLNKESDLADLRKEVELRMRNSVRGGRTV
SSDVIAMSVRGPGLPRMVLVDLPGVISTQTVDMAADTREAIKQMTKQYMDNPNAIILCIQ
DGSVDAERSNVTDLVASCDPQGKRTIFVLTKVDLAEENLANPNRIRRILEGKLFPMKALG
YYAVVTGRSRKDDSIQSIREYEERFFRSSKLFKEGLVAAGQVTTRNLSLGVADCFWRMVR
DTVEQQADAFKAMRFNLETEWKNTFPRQRELDRDELFERARAELLDQSAELSAVPPPAWE
QRLTAELWTSTHDRVFGGIYLPAAALAHDDVGRPKATQLKYKQPGSDRNPAIWLDPYDFD
FNKFNTSVDIKLREWAESELAKQSIQAGRDALREEFIELLARSQDTDPIYEPVKRAAVEE
ALNRHQWEERAQDVLRVLQLNALQDRCVRSRGDWDAAVALMETALKEKRDDVQRELRNMT
GPGFRERWLRWASTTEEQQRRAEVRTELERLGSCRPSLAYDEVVAVRDNLRRRGVEVDNE
YIRETWKPVYLNNFLSRAQSRANDCKKSFYLYSQQNGAEKECCEVVMFWRVQAALRTTAN
ALRQQISNREAARLDRDLREVLDEMAADPDLKKKLLSGRRVELAEELKRVRQVQEKLEEF
IEALNKEK