| New model in OGS2.0 | DPOGS204270 |
|---|---|
| Genomic Position | scaffold645:- 66305-84733 |
| See gene structure | |
| CDS Length | 4248 |
| Paired RNAseq reads | 3351 |
| Single RNAseq reads | 7547 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA007540 (2e-54) |
| Best Drosophila hit | GTPase-activating protein 1, isoform A (0.0) |
| Best Human hit | ras GTPase-activating protein 3 (1e-110) |
| Best NR hit (blastp) | GTPase-activating protein [Drosophila melanogaster] (0.0) |
| Best NR hit (blastx) | GA19811 [Drosophila pseudoobscura pseudoobscura] (0.0) |
| GeneOntology terms | GO:0007265 Ras protein signal transduction GO:0005099 Ras GTPase activator activity GO:0046580 negative regulation of Ras protein signal transduction GO:0005886 plasma membrane GO:0008595 anterior/posterior axis specification, embryo GO:0008293 torso signaling pathway GO:0007062 sister chromatid cohesion GO:0016321 female meiosis chromosome segregation GO:0007067 mitosis GO:0005622 intracellular GO:0051056 regulation of small GTPase mediated signal transduction GO:0045678 positive regulation of R7 cell differentiation GO:0007426 tracheal outgrowth, open tracheal system GO:0007476 imaginal disc-derived wing morphogenesis |
| InterPro families | IPR008936 Rho GTPase activation protein IPR008973 C2 calcium/lipid-binding domain, CaLB IPR001849 Pleckstrin homology domain IPR018029 C2 membrane targeting protein IPR001936 Ras GTPase-activating protein IPR001562 Zinc finger, Btk motif IPR000008 C2 calcium-dependent membrane targeting IPR023152 Ras GTPase-activating protein, conserved site IPR011993 Pleckstrin homology-type |
| Orthology group | MCL12442 |
Nucleotide sequence:
ATGGCGGACGAAACGCGTAAAGTGCGAGTAGAAGAAAGATTGAAAATTAAGATTGGTGAA
GCTAAGAATCTACCAGCTCGCAACAATGGCGCCGCCTCCCACCGAGATATATACTGCGTG
CTGTCACTCGACCAAGAAGAGATATTCCGAACATCCACAATGGAAAGAACACTTGACCCA
TTTTTCGGTGAGGAATTCCAGTTCGAGGTGCCGCGTCGGTTCAGATATCTTTCCATATAC
GTGTTCGATCGCGACAAACATCTCAAGCAGGACAAGGTGCTCGGGAAGGTCGCTATCAAA
CGTGAGGATCTCCAGAGGTACAATAACAAGGACCACTGGTTCGCTCTGCGACCAGTCGAC
GCGGATTCCGAGGTGCAAGGGAAGGCATATATCGAACTCACACTCGAGGATTCCAGGAAA
CGTCTGCGCATGGACCCCAAACCACCGGACTTGGACCCCGCGGACAACGGCTCGACGAAG
ACGAAAGCCAATAATTTAACTAGGTTATCAGAATATTGTAAAGAGAGCATTAGATTCGGT
TCGGGTTCGAGCACGAACAGGAAGAATCTACTAAGTCCGGTGTCGACTGAACCTTCGCTG
GCTCTTTCCCGATCGGAGAGTCTGAAGGACCGAGCTCAGTGGGCAGTGAGGACGAAACCG
CCCATGCATGCCATGTCCGAGTCGGACACGTCACCCACACCCACCGCCGCCGACTACTGG
TCGGACCCCGAGAGACACTGCGCTGCGAGAGTGGGCCCCGACACTCTGCGGCTTCGAGTG
CTGGAGTGCTCTGAACTCACAACCAAAAACGGCCAGTGCGACCCCTTCGCTCTCGTCACA
CTACTGTACTCGAACGGCCGGAGAGTCGAGAGGCGCACTAAACCCAAGAAGAAAACCGTC
AACCCTCAGTTTGATGAAATCTTCTGTTTTGATCTCGTGATGGAGGCTGATCCGAAGGAC
AAGGATGGTTCACAAACGGCCGGCGTAGCTTGTGAAGCGAGAGTGTCAGTGTGGCACGAC
GGAACCACACCAGTATTTCTAGGCGAAGTTAGGTTGCAGTTACGGCAGCCGGCGCCATCA
CCTCTATGTGCCTGGTACTTCCTAACGTCTCGCGCGGGCGGAGCCCTATCCCGCGGCGCG
ACGCCCCCCGGGACTCGACTCTCAGCCGCTGGCAGCCCAACTCTGGGTTCCCTGCGGCTG
CTACTCCAGTACACCGTGGATCACGTGTTCCCATTGCACCACTACACTCAGCTCGAGGAC
CTGTTTCTCAGGAGCGTACATCAGAAGCCCATAACGACATCAGCCGTGTACATCCTGGGC
GAGATCGTGTCCAGCAAGACGGACGCCGCCCAGCCTCTGGTGCGGCTCTTCACGCATCAC
GACCTCATAGTGCCCATCGTCAAGGAGCTGGCCGACGCTGAAATATCAGTACTCACAGAC
GCGACGACGATATTCCGCGGGAACACTCTCGTGTCCAAGATGATGGACGAGGCGATGCGT
CTGACGGGCGCGTCCTACCTCCGCGGCGTGCTGAGGCCCACGCTGGCCGCCGTGCTCGCC
GAGCGGAAGCCGTGCGAGATAGACCCCGCCAGGGTCAAGCCGGCCGCCGCCGTAGCCACC
AACCTCGCCAACCTCAAGGATTACGTCGAAAGGGTGTTCTCAGCCATCACGGAGTCGTAC
GCGCAGTGCCCCGCCGGCATGTGTCGCCTGTTCGACGCCCTCCGGCAGTGCGCCGCCCGT
CACTTCCCCGCCAACGCCGAGGTCCGCTACTCGGTCGTCTCCGGGTTCATATTCCTGAGG
TTCTTCGCCCCCGCAATACTCGGACCTAAGCTCTTCGATCTTACCACTGAACAAATTGAT
CCACAAACAAACCGCACGCTAACCCTGATCTCCAAGACCATCCAGTCCCTCGGGAACCTG
GTGAGCAGTCGCTCCGCCCAGCAGGTCTGTAAGGAGGAGTACATGGCGGAACTGTACCGC
AGCTTCTGTACAACAAGACATGTACAGGCTATCAAACAGTTCCTCGAGATAATCTCAACC
AGCTCGGACACACAGAACAATAACGTCCAAGAGACACCAGTTCTGCTCAAAGAGGGTACG
ATGATCAAGCGGTCGGAGGGGGTGCGGGCGGGGGCGGGCTCTCCGCGGAGACGGTGGGCG
CGCTCCGCACACCCGCACTGCAAACGGAGGCACTTCCGGTTGACGAGCGGTGAGTTGTCG
TGGTCTCGGTGCGGCGCGCGGTCCGGTGCTCACCGCCTGGCGCTGTCCGGTGTCCTGAGC
GTGTCGCCCGTGGACTGCCCGCCGGCCGGGGCGCCGCTCGACGCTAATAACATCTTCCAA
ATAGTGCACCGCGAGCGTGTGTTGTTCGTACAGGCGAGTAACTGCGTGGAGCGAGCTGAG
TGGCTCAGGCTACTCTCGGCGCTGTGTCGACACTCGCCCACCGCACACCATCGAGGGTAC
TATGGAGATAACAGGTGGACGTGTTGTGGTCGTACTGAAGCGGACGCTGAGGGTTGTGGC
AGCGGCAGCGCTGCTCTAGCGCTGCGGTTAGACCCGGCGAGGGACTTACAGCGGCTGCAT
GCGCTCCTCGTCGCTCACGTGCAGCGGCTGGAGGAGCGACTCCATCGACCACCAGACGAC
ACGAGCCCTGAGGAGCGGGAAGCGGAGGCGGTGACGTTACGGGAGCTGGAGAAGATAATG
TTCGACCTTGAACATCGACACTGTATATACAGACGATCCTTGGCCAGGGAGACGAAGTAT
GGAAGCAAACAAGCTCCTATCGGCGATGACAACTATCTTCACCTCGCCGGAGCGGCCGGG
AGCGTGGACAGTGGGTCATTTTTCTTCCGAACGTGGAGAGGTGACTCGTCCCCAACGATC
GATCTCGACGGGAAGACGCTCCCGCTACAATCATCACACGACATCTGCTCCAGTACGGAG
TCCTTAAAACTGGCTCGGCACGGCGACGAGCGGTCCTCTGGCAAATCGAATAAGTCTACC
GGCAGCGGGTACCTCACTATGTCGTGTATCAAACACGAGCCGTCTGAAGATAGCGACGCC
TCCAACGACAGGCCGACACGACCGCCCAAGCCCGCGCGACTGTCACCCTTCCGCGCGCCC
CTCGCATGTCCCCCCGCTCCTCTCTCCGAGTACGTCGACGTCGAGCTTAAGCCCCCTGTA
CGAAGACCGAAGCCTGAGCCCACGCCGCCCAGGAGGCCCGACCACGATATATCGAACCGC
TGTAAGGAATACGAATTGATGGCTAACTTCATGAGCCACTCCCAGACGTCGGACGACGAC
GCGCCGCCGGCGGTCCCGCCGCGCGGTCAGACGATATCTCGAGTGCGTTTGCAGCCCAAA
CCCACTGACATAGATGTCACGAAGTCGGACGAACACGTTACGTTTCGGCAGAAACCGGCG
AGCGGCTCCACGGCCAGCCTGCCGCGAGGATCGTCAGCGGAGGAAACCAGGAATCTCTCG
GACGGCGAGGACGGTCGACCGCCCAGCAAAATAGACACCGTCTCCAACGACGACAGTCTC
CTCGACGAACTACAGAGGGACACTTACTGCGTACTGAAAGTGTGCGAAGACGAGGCTCCG
GTCGACGACGACTACCAGAATGCCAAGACCGAAGAGACGCAAGGAGGCAAAGACAAAGAG
GAGTACGGCATGTTCTCGAGGATCAGTCTGCAGAGGAAATCGAACCCTATCAAGACACAG
CCGAGCTCCATGAAACCGTTAAAAACTTCCAATTCCACGTCGAACGTCCAAGACGCCGGC
ACACATTCCTCCAGGCCGCTCACCGAACGACTGACTCCGTTTTTTCTGAAGAAGAAGCCG
AAAACGTCGGAGGACTCGAGCAAGCCGCGGAAAGAGGACAATTTAATCGGCCGGTTGACG
CCGCGGTTCGGCCAGTCGCGGCTGTACGGGCGCGGACAGTCGCTGGAGCTGGTGCCGCCG
GAGACTCGTCCGAGACGCATAGAACGTTCCGCCACCACCGTCACCATCCCCACGCGACCC
ATCAACTCCTCCATAGTGGCCAACCTGAAGTTTCTGACGCTGCATCGTTACGGAGCGACG
GACGAAGTGCAGTGCCACGCGTTCGTTCGCAGCGGAGAGGAACCCGGCGCCGGCGTGGGC
GGCGTGGGTGGCGTGAGCGACGTGAGCGCGCCCACGGAATCTGAAGACGATTCGTGGCGC
CGCGTCGGCGGCCCGCTCCTGACCGCCACTAGCGACATCCGCCTCTAG
Protein sequence:
MADETRKVRVEERLKIKIGEAKNLPARNNGAASHRDIYCVLSLDQEEIFRTSTMERTLDP
FFGEEFQFEVPRRFRYLSIYVFDRDKHLKQDKVLGKVAIKREDLQRYNNKDHWFALRPVD
ADSEVQGKAYIELTLEDSRKRLRMDPKPPDLDPADNGSTKTKANNLTRLSEYCKESIRFG
SGSSTNRKNLLSPVSTEPSLALSRSESLKDRAQWAVRTKPPMHAMSESDTSPTPTAADYW
SDPERHCAARVGPDTLRLRVLECSELTTKNGQCDPFALVTLLYSNGRRVERRTKPKKKTV
NPQFDEIFCFDLVMEADPKDKDGSQTAGVACEARVSVWHDGTTPVFLGEVRLQLRQPAPS
PLCAWYFLTSRAGGALSRGATPPGTRLSAAGSPTLGSLRLLLQYTVDHVFPLHHYTQLED
LFLRSVHQKPITTSAVYILGEIVSSKTDAAQPLVRLFTHHDLIVPIVKELADAEISVLTD
ATTIFRGNTLVSKMMDEAMRLTGASYLRGVLRPTLAAVLAERKPCEIDPARVKPAAAVAT
NLANLKDYVERVFSAITESYAQCPAGMCRLFDALRQCAARHFPANAEVRYSVVSGFIFLR
FFAPAILGPKLFDLTTEQIDPQTNRTLTLISKTIQSLGNLVSSRSAQQVCKEEYMAELYR
SFCTTRHVQAIKQFLEIISTSSDTQNNNVQETPVLLKEGTMIKRSEGVRAGAGSPRRRWA
RSAHPHCKRRHFRLTSGELSWSRCGARSGAHRLALSGVLSVSPVDCPPAGAPLDANNIFQ
IVHRERVLFVQASNCVERAEWLRLLSALCRHSPTAHHRGYYGDNRWTCCGRTEADAEGCG
SGSAALALRLDPARDLQRLHALLVAHVQRLEERLHRPPDDTSPEEREAEAVTLRELEKIM
FDLEHRHCIYRRSLARETKYGSKQAPIGDDNYLHLAGAAGSVDSGSFFFRTWRGDSSPTI
DLDGKTLPLQSSHDICSSTESLKLARHGDERSSGKSNKSTGSGYLTMSCIKHEPSEDSDA
SNDRPTRPPKPARLSPFRAPLACPPAPLSEYVDVELKPPVRRPKPEPTPPRRPDHDISNR
CKEYELMANFMSHSQTSDDDAPPAVPPRGQTISRVRLQPKPTDIDVTKSDEHVTFRQKPA
SGSTASLPRGSSAEETRNLSDGEDGRPPSKIDTVSNDDSLLDELQRDTYCVLKVCEDEAP
VDDDYQNAKTEETQGGKDKEEYGMFSRISLQRKSNPIKTQPSSMKPLKTSNSTSNVQDAG
THSSRPLTERLTPFFLKKKPKTSEDSSKPRKEDNLIGRLTPRFGQSRLYGRGQSLELVPP
ETRPRRIERSATTVTIPTRPINSSIVANLKFLTLHRYGATDEVQCHAFVRSGEEPGAGVG
GVGGVSDVSAPTESEDDSWRRVGGPLLTATSDIRL