New model in OGS2.0 | DPOGS214633  |
---|---|
Genomic Position | scaffold207:+ 115442-130593 |
See gene structure | |
CDS Length | 3747 |
Paired RNAseq reads   | 1617 |
Single RNAseq reads   | 3996 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA005049 (0.0) |
Best Drosophila hit   | CG5521, isoform B (1e-73) |
Best Human hit | ral GTPase-activating protein subunit alpha-1 isoform 2 (3e-94) |
Best NR hit (blastp)   | PREDICTED: similar to tuberin [Tribolium castaneum] (0.0) |
Best NR hit (blastx)   | PREDICTED: similar to tuberin [Tribolium castaneum] (0.0) |
GeneOntology terms    | GO:0005096 GTPase activator activity GO:0005622 intracellular GO:0051056 regulation of small GTPase mediated signal transduction |
InterPro families   | ND |
Orthology group | MCL10769 |
Nucleotide sequence:
ATGTTTACCAAAAAATCTCATCAGGATGTCAAAAAATCGACTGTTAAAATACAGGATTCC
AAAAAGGATTCCACCACTAGACTTAAACATTTAAAAATCGTTTTAGAACATTATGATGTG
GATGAAGCCAAAAATTATTTCGAAAATAATTTTAGCCATGTGTATTTCATTTTATATGAC
AACTTTATATTAGCAGAGAATAATTTAAGACAAAGAGAACTTCCGTTTCACCTAGTTCAC
AAAGCGGGCAGAGAAGAATTAGAAGGTGCTTTGTCCCTTCTAGAAAAGGTATTATGTCTT
CTACCGGAACTGATTGGTAAAAGATGGCAGTTACACTCCCTGACACGAATATTTTCAAAA
CTGCTCCACAGTGGAAATTCACAGAAACTAAGAGCGGAAGCCATACGCTATTTCTTGCTA
TGGTATCAAGCTCTAGGCGACAATGCCACGGCAGAAGCTCACAGGATGTTCGCGACCCTC
GTGCCAGGTTTGCCAGACACCTGTATACAATCCATAGGCTCGCCGTTTAAACCCAAACCT
TTCGACGTCGTCACCAACATATCCAGCGACACGGGTGACTTTAAAATGGAGGACATAATG
CATCATCCAAATTTCAACACAACAGCCGACAGCGTCAAGAAGGTCGTGGTGGAACAAACG
CCAACTGGTATTATGGGGAAGTTGGCGAATGTATCGGCCTCCATCTTCCATGATACAAAC
GCTCTAAACCCTGTCCAAAGCGTCGACATCCAACCATTATTAACAGCGAACGCCAACGAA
AAAATCGTGGACAATGAAACTAAGTACTTTTTCGAAATACTACTAGATGGGATGGCAACA
TCCGTCACTAAAATACACTGGAAGGACCGATCCCACGCGAAGGCTATGAGGTCGTTTGCT
TTCCTATTGGAGAAATTTAAAATATACTACCTGCCTATTATTTGTCCTCAGTTCAACCAC
AAGAACTCACTGTACAAACCGAATCTAGAGCTCCCTGTCCAACACACTATACTAGAAGAT
GATTTCGTACATTGTCGTGTGATACTCATAAAATGGGTGGCCAGTTACGCTCACTATATG
AAGAAGCCTGGCAGTGAAGGTGGCCAACCCTCTTCTATGACCAGTACCAGTTCCCATCAG
CCTCACTCAGGGACCCCAACCCCCGCCGCGTCACTACATCACGAGGAAGAGACCTCTTTC
ACTGTGGGACACCCCTCAGACTCTAGCAGAGCGTCCTCTCACGATTCCACTTCTATAACA
CCACATCCGAGTCTGGAATCAGGTGGCGCTGAAGAGCTGGTCTCCGAGGCGGCAGTTCGT
GATGTACTGTGTTGTTGGTCCCGTGAACATGTGGACTTCACCGTGGAGGTGCTCCGTCAA
GGCTTCCTTCTGCCGTTCAGCCACGCACCAGCTATAAGGAGAGTCATCGCTCTTTATAAG
GACTGGATTCAAATGAATGTGGCAGAAATTCCTCCGTTCCTAATGGAAAGTACACTAGAG
CCGTCAGGAGAGCCCCTCGCTCCTCCGAGACGTCTTCGGAATGATTCTTATCTGGGAGCC
GTCGGGAGAGACAACGTTATGGTCCGAGCTGGCATGCAGAACGTTCTGCAGGTGTTCATG
ACGCAAGCAGCGAACGTGTTCGTGGGCGGGTCCGGCGGCCCGGGGGCGGAGCCTCACCTG
CTGGACGAACAGACGGACACCTGCAAGCGGGTCCTCAACATATACAGATACATGGTCATG
CATATAGCCATGGATGCCAGCTCATGGGAACAGTTACTGCTGGTGTTGCTACAAATAACG
TCCTTGGTGTTGACGAAGGTTCCACCAAAGAGTAAAGGTTACACGCTAGGTGGATCTTTG
GCCCCGGCGTTGTTCCAGACTTTGATAGTGACCTGGATTAAAGCCAACCTGAACGTAGCT
GTGAGGTCTGAACTGTGGCAGGACTTCATGGAGCTCCTCACGAGACTGACTCACTGGGAG
GACCTCATTAAGGAGTGGGCGAAAACTATGGAGACCCTGACGCGCGTGCTGGCGCGACAC
GTGTACTCGCTAGAGCTGTCAGAGGCGACGGCCGAGGGTCGAGGTCGCGGCCGGCGCCCT
GTGCCCGCGCCGGCTCCCTGCAGGCCGCAGCCCCTGCGACCGCCCGCACGGAACGCAGGC
AAGTCCCGGATGTCTGGCGAGTCGTCCCGAAAAGAAGTCGCCCGACGACTGGCGCGAGCA
AGAAGCGATCCGCATCTCAACAGACATACAGACGACACCAAAGATTCATCAAGCGTCAAG
CCGAGGCGCTGGTATTCGCTGGACTCGCTGAGGCAATCATCACAACAAGAGGAGAGAGAT
TCCGCCAGCGGTTCAAGGTCGCCCTCACCGGCGCCCTCCAGCGGCGTAGAGAGCAGCTCC
ATCAAAGATTCACCTCTACAGATAGATCTGGCATCAGACGGGGGAAATGTTGAATGGTCG
GAGACCGACTCAAACACGGGCGGGTTGATGGGCGTGGGCGCTTCGTGTGGGATGAGCGCG
GTCTGTTCGTCCGGCGTGGGCGCTCCGTCGGGCGTGGGCGTGGTGCTGGGCGGCACGGCT
CGCGGCTGGTTGCCGGACGTCGCCTGCGTGCTGTGGCGACGCATGTTGGCGGCGCTGGGA
GACCCCAACGCTCTCAGAGACCCTCAAGCCCATCACAACCTGTTCAAGTACCTCGTACAT
TTGAATGCGACCTTGATCAAGATAAGTCAGAATCAAACTCTCAATGGCAACACGGAGATC
CACGTGCCCTTCAACCTGGTGGCGGGCTGGTGTCTCGAGGCGGAGGCGCTTCCCCCATCA
CACAGGGCTGGTAAATTGGTGGCACTGCGTTTGCTCTGCGAGTCGACGGCTGCGCAGGCG
CAGGGCCCGGGAGCTCCCACCAGCTGCTCCGGCAGACCACACCTCGCTCACCTACAACTG
TACCAGCGAGCACTACATCACGGTCTAACAGGCGAAGACCGGTCTGTAGTGGATGTTCTC
GTGGAGCACGCGGCTCCCCGCTACCTCTCGCTAGCCCTGGATGGATACTCGCTGCTGCTC
CTGGATTTCGTTCACGCATCAACAGTCGTGCTGAACTCCTCTGACATGGGACCCTCGTGT
CCTCGCACCGCTGCCGTCACGTTCCTGGGGTCCCTGCTAGCGTTACCCGACGAGCTGATG
AACGCTCCCATGCTGCAGCCCTACCCCCATCAGTATAACACAGTGTCATGTCCTGACTTG
AAGGAACACGTGCTGAACATAGTGGTTCGCGTGTGTCGCCGCGAGGGGTCGGCGGCGGCG
CGGTGTGCCGGCGCATGCGCCCTGGCGGCCCACGTGGCGCACCTCCTGGCTGAGAGGGCG
GAGGCACCGCGGCTACCCTCATACGTGACCTGCTTGCTACAGATGCTCATGGTGGGTGGA
CCTATGAAAAATAAGACTATAGCTAAGGTTGTCAGCGATGCTGTGCTGGTGCTGGCTGAT
TACACCGACCGGATAGTTGAGTTATATCCGGGGCTAGTAGAGAAGATAATAAAGTGGATA
TGCGCGTGTCTGGCGCAAATCTCCAGTGTCAGTGGGCGGGAGTCGGTGAAGCCGTTGGCG
GGCTCCCTGCTGCTGTGTCTGGCGGAGTACGCGGTGCGCTGCGGACCAGCCCGCCTGCTG
GCGCATCGCGAGGACGGGGGCTCGCTGCTGCTGCTTGTGTTCAAGGTAATGGCAATGTTA
CTCCGGGACTTGTATGATGAAGACTAA
Protein sequence:
MFTKKSHQDVKKSTVKIQDSKKDSTTRLKHLKIVLEHYDVDEAKNYFENNFSHVYFILYD
NFILAENNLRQRELPFHLVHKAGREELEGALSLLEKVLCLLPELIGKRWQLHSLTRIFSK
LLHSGNSQKLRAEAIRYFLLWYQALGDNATAEAHRMFATLVPGLPDTCIQSIGSPFKPKP
FDVVTNISSDTGDFKMEDIMHHPNFNTTADSVKKVVVEQTPTGIMGKLANVSASIFHDTN
ALNPVQSVDIQPLLTANANEKIVDNETKYFFEILLDGMATSVTKIHWKDRSHAKAMRSFA
FLLEKFKIYYLPIICPQFNHKNSLYKPNLELPVQHTILEDDFVHCRVILIKWVASYAHYM
KKPGSEGGQPSSMTSTSSHQPHSGTPTPAASLHHEEETSFTVGHPSDSSRASSHDSTSIT
PHPSLESGGAEELVSEAAVRDVLCCWSREHVDFTVEVLRQGFLLPFSHAPAIRRVIALYK
DWIQMNVAEIPPFLMESTLEPSGEPLAPPRRLRNDSYLGAVGRDNVMVRAGMQNVLQVFM
TQAANVFVGGSGGPGAEPHLLDEQTDTCKRVLNIYRYMVMHIAMDASSWEQLLLVLLQIT
SLVLTKVPPKSKGYTLGGSLAPALFQTLIVTWIKANLNVAVRSELWQDFMELLTRLTHWE
DLIKEWAKTMETLTRVLARHVYSLELSEATAEGRGRGRRPVPAPAPCRPQPLRPPARNAG
KSRMSGESSRKEVARRLARARSDPHLNRHTDDTKDSSSVKPRRWYSLDSLRQSSQQEERD
SASGSRSPSPAPSSGVESSSIKDSPLQIDLASDGGNVEWSETDSNTGGLMGVGASCGMSA
VCSSGVGAPSGVGVVLGGTARGWLPDVACVLWRRMLAALGDPNALRDPQAHHNLFKYLVH
LNATLIKISQNQTLNGNTEIHVPFNLVAGWCLEAEALPPSHRAGKLVALRLLCESTAAQA
QGPGAPTSCSGRPHLAHLQLYQRALHHGLTGEDRSVVDVLVEHAAPRYLSLALDGYSLLL
LDFVHASTVVLNSSDMGPSCPRTAAVTFLGSLLALPDELMNAPMLQPYPHQYNTVSCPDL
KEHVLNIVVRVCRREGSAAARCAGACALAAHVAHLLAERAEAPRLPSYVTCLLQMLMVGG
PMKNKTIAKVVSDAVLVLADYTDRIVELYPGLVEKIIKWICACLAQISSVSGRESVKPLA
GSLLLCLAEYAVRCGPARLLAHREDGGSLLLLVFKVMAMLLRDLYDED