| New model in OGS2.0 | DPOGS203792 |
|---|---|
| Genomic Position | scaffold21:+ 57272-65190 |
| See gene structure | |
| CDS Length | 4890 |
| Paired RNAseq reads | 1712 |
| Single RNAseq reads | 4070 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA003700 (0.0) |
| Best Drosophila hit | muscle protein 20, isoform B (3e-08) |
| Best Human hit | ras GTPase-activating-like protein IQGAP1 (0.0) |
| Best NR hit (blastp) | PREDICTED: IQ motif containing GTPase activating protein 1 [Pongo abelii] (0.0) |
| Best NR hit (blastx) | PREDICTED: similar to IQ motif containing GTPase activating protein 2 [Nasonia vitripennis] (0.0) |
| GeneOntology terms | GO:0005515 protein binding GO:0031252 cell leading edge GO:0005634 nucleus GO:0019903 protein phosphatase binding GO:0007165 signal transduction GO:0005884 actin filament GO:0043005 neuron projection GO:0005886 plasma membrane GO:0005096 GTPase activator activity GO:0005730 nucleolus GO:0005737 cytoplasm GO:0005516 calmodulin binding GO:0005095 GTPase inhibitor activity GO:0005622 intracellular GO:0032403 protein complex binding GO:0051056 regulation of small GTPase mediated signal transduction GO:0005099 Ras GTPase activator activity |
| InterPro families | IPR008936 Rho GTPase activation protein IPR001715 Calponin homology domain IPR001936 Ras GTPase-activating protein IPR000048 IQ motif, EF-hand binding site IPR000593 RasGAP protein, C-terminal |
| Orthology group | MCL15161 |
Nucleotide sequence:
ATGGGAAAAGATATACTAATTGGAAAAATAGACGACGACAATGCAGATGTCCGAAAAACT
GCCCAGGAGATGGATGTTATCCGCCAGAGAACAATTGCTTATGAATATCTGTGCCGTTTG
GAGGAAGCTAAATTATGGATGGAAGCATGTCTTAGGGAGGAACTTCCTGCGGCGGTTGAA
TTTGAAGAGAATTTACGTAATGGAGTTTATTTAGCGAAGCTTGGCAATTTTATAGCTCCA
GACCTGTTACCCTTAACAAAGATTTATGATATTGACCAACGACAACCTATGATGGGATTG
CAATTTAAACACACAGATAATATTAATAAATTTTTACAAATTTTAAAAAAGACTGAATTG
CCTGTGACATTTCAACCCGAAACCACAGATATATATGATAACAAAAACATGCCAAAAGTT
ATTTACTGTTTGCATGCATTAAGCTCACATTTGTTTAAGCTCGGCAAGGCACCATTAATA
CACGATGTCTTTGGCAAAGCAGTCTTTACAGATGAACAATTGGACTCTGTTTCGAAAGAC
TTACAAAAGTGTAAGCATCCATTACCAATGTTTCATAAAATAAGCGGTATTTTATCAAAC
AATAACAATACAAATGACAATGTCAGCGTTCAGAATGCTTTGATTGAACTCAATAACCTA
CTTGACTCGGAGAAATCCATAACATGTGCATTGCTGAATCCAAATTTAAAAATTAAATAT
ATTCAGAACTATCTTATTGATCAATATAAAGAGGTTTTGAAAGCGGCGAAACGTGAAAAG
ACAGAAGTTGCACACAACCACTCACTGAATGGTAGTTATTCTCCCGATGACTATGATGAA
TTACTCACTCTGGTTGAAATTCAAGGTCATATAACGGCCACAAATTATAAACACCTCTGG
AAGACACTTTGTGCCGCATGTAGAAGTAATGACATTAATAAACTCCACAAGATTTTTACT
GAGGAGTGGGTGAAAATTAAAAATTATAACAGCGGTAACATAGATTTCTATTGTGACGTC
GTGCAAAACATCATAGAGAGTTGTAAAGATGTTGATGTGGAAAGTATAACGAATTGGCAC
AAAATTTTCCAAAACATTATAAATGATGGAAACATAAAATCAAAAGAACATTCGGAACAC
AAAGAAGCGATTGTCCAAGTGAATAAAGCGCTGGATGAAGGCACTCCCGATGATCTATAT
GACGCTCTTACAAGTCCAAAGCTCGGTCTTAGTTTTAAAATAGAAAAGTACGCTGCGCCT
CTATTGTTTGAAGAAATGAGATTGGAAAAGTGTGAATTGGATAAGAATCTTAATGAGAGT
GAAATAGCGGCAACGGCTTTATATTTGAATGACGTAGCGGCTGTGTCGGAAGCTGTTGAG
AGAGGTAATGAGATAGCTGTTTGGAATGCATTAAATTCTAAACAAATTAACTTAGAGGGA
CTCAGGCCACATTGTAGACGACGTTACTTGTCCGCTTTGATAAGCGCTCTGCAGGTTAAA
GTTAAAGAACAGTGTGAGTGTCCGCTGCTAACACTAGAGGATATCAAAGATACCCTTGAT
ATGGTCAACGTGAAGGATGACAATAATGATGAATTGATTGAAATTATCGATCAGATCAAT
AAAGCTGTGACCGATGAAAATTCCGAAGCTTTAATAACTTTGCTAAAAAGTTCCTGTCTC
AAACTACCCTCGACTTTGCATAGAGAGGAATATCCACTATACATGAGAACTTTGAAAAAG
AGATTGCTACAGAAGGAGTTAGAAAACTTATGGTTGGAAGACATCATTGGAGCCATCGAC
GATGTTAACACCGAATCGAAAAAGGTTAAGGAACTGACAGAGGAGATCATTCAATTAAAC
CTGGCTATAGTCAAAAATGATGTAAATGATTTCTGGAAAGCACTAAAATCACAGCAACTA
TCATGCTCTGAAATGATAGAGAGTTCCTGCAAAGAAGTGTATTTTCAAATGTTTTCTAAA
GCACTGAAAAAGAAAGGGCATCACATTTGCCCTTGGATAGTTTGCCATACCGAGGCCAGT
AACACGGTATACATCGACGTCGAATCCTATACATATAGTTGGAGTACACCCAAAGACTTC
GTGCCATACTCAAGATATCTTTCCAAAAAAGATGTTAAGGCCATCGTAGACAAGACAAAT
AAACATCACATAAATTCCTATAGATACAGAGAATTAGAGAAGACAATGACTAGATTTCAA
GCCCACTGCAAAGGATTCTTGATAAGAAAGTCAGTGACGAGACTGCTATTTTTTAAAGAC
AATGTTGATTCAATAATAAAGATCCAATCCTGGTGGAGACAAATTGTTGTTAATAGGAAA
TATGGCACGTTGTTAAAAATGAAGGCAATCGAAGCTAAACTTCTGCGTGAGAGGAAAAGA
AATCCTTGGGCTTGGTATAAAGTACAGGAACAAAAAATAATAAAGATTCAAGCTTTATGG
AGAGGGCGCAGGGCGCGTAATGCTTTCATATCTCTATTCCACTCTCCAAATCCTCCGCTC
AGGGTTCTAAAAAAATTCATTCCGGTATTAGACTTTACAACAGAAGATTACGACAGAGAG
ATGGAATTACAGACCCTTAAATCGGACGTTGTTCAGTCTATACGAAAGAATCAAGAGCTC
TCGAAGCAAATCGACGATATGGACCTAAAGATAGGGTTGTTGGTACAAAACCGTATAGCG
TTACAGGAGGTCGCCGCTCATGGTCTTAAATTAAATAATATATTACATCACCAATCGAAA
GTCATGCAAGCAGATGGGAGAGGCACTATGTTAGCTGTGAACACGGCTGTTAAAGGTTTA
AAATCACTAACAAAAGAAAGTAAAAGACTGCTAGATGGATATCAACATTTGTTCTACGAG
TTGCAAACAAATCCTACATATTTATCCAAACTACTTTTCTGCATACCCCAAAATAAAACC
AATTCGTTCCTCCAGAATGTCGTATTAAGTCTTTATAATTTCGGTGCGTACGCGAGAGAC
GAGTACTTGCTGTTGAAGCTGTTTAGGTTTACATTAGAAGAGGAAATAAGTTGCAAGGTC
ATGAAGCCGTTCGACATAATCGCCTCGACCCCGTTGGTGTTGAAAATGGCGGTAAGTCTG
TCGAGACAGCTGTCCGGTCTGAACAGCCTTCAAACGGTCATAGGACCTCTGGTGGAGAAA
ATTATAAACGATAAAGACTTAAACATAGAAACTGGACCGGTCGAAATATATAAAGCTTGG
AGGAATGAAACTGAAATGAAAACTGGGCAAATTTCGAAATTACCGTATATAGTGAGTCAA
GACGAAGCATTGAATTACCCAGAAGTGAAAACAAGACTCGACAAAGCACTGACTCAACTG
AAAACGGTCGTGACAATGTTCTTAGAAAAAATCACCAATTCTATGGAACTTCTACCATTT
TGCATAACATATATGGCACGTGTTTTACATCGGTCGTTGACAACAAAATTTCCTCATACA
CCAGAAAAGGATATTTTGAAAGTGATTGGAAATTTGGTATACTATCAATTTCTGAACGCT
GCTATAGTAGCACCGGATGCTTTTCATATTATAAACCTACCTATTGGCGGATCACTGACA
ACTGATCAACGAAAAAATCTTGCATCTGTCGCTAAGATTCTTCATTTCTCCGCAGCTAAA
AAAGGATTCGGTGAGGAATCCAATCACCTAAGATGCCTGAACCCCTTCATAGTGGAATGT
CACGAGCGGATGAAGGAGCTGTTCCGTCGCTGTTGTCGGGGCCCCACGCTCGAGGAGTAC
TTCGCAGTGGACGAATACACCGAGGCCACGCTACTGCATCACCCGCATATATACATCACT
GTTCAGGAAATAGTAGACACGCATGCTTTGCTGGTGGAGTACCAGGATGTGATAGCCGAG
CCTCAGGACCGACTGAACGAGCTGCTGGACGAACTGGGAGACGTCCCATCGGTGACACAG
CTGGCGGCCAGGGACGTGCCCGCTCAAGTTGGAGATACGGAAGAAAACGCTAGATTGGAA
GTGTGTCTGGCGCTCGTCAACAAATTCCAGGCTCCAGCCGACGATATGACGGATTTGAAC
AAACTTTTCATCAAGACCAAGGAATTGTGCGTTGCTGTGATACCCTTCCTTAACGGCGAA
CATTTGCTAGAGGCGCTCTGCATCGGTACGACAACAGAGCAACAAGAACAGTACAGCGAG
AAGGTTAAACGAAGGATTTATTCTGGTCAAGTACGGCCTGATGACGCATTGACTCTACGT
GAACACATCGCTAAGCTGAGACGGAATTTAGAAATGTTAGAAGACGAAGGCTACGTCACA
CGGGAGGACGGTTATCAAGCATTAATAACATCTATAGCTCTAGACCTGTGCAATAAAGGG
AAGTACAGACAAGCTCAAAGACGGGCGCTCTCTACATTGACGCGTACCAAACAGAGTTTG
CTCGAGAAAACCAAATATTACGAGGAGAAATGCAAATCATATGACCAGTATATTAAATCC
TGCTTGGATAATCTTCACACCGGAAAGAGAAGCGTACATGCCTGCTTACGGAGACCAGGA
AAAGACGTTCAAAAGTTGAAATCAAAGTTGACGATCAAATATTCCGCAACGAAATTACTG
GAGAAGGGCGTCCTGCTGGAAATAGACGGACTGTCGATGTCTCAATGCAAAAATGTTCAA
TTTGAAATCACACCGACAGATCATAATGGAGTTTTCACAATAACCGGCAAGTTTATGGGA
GTCGAAATGGAAACTATAGATGTGGACATTCAGGACTTATTACAGAAACAATATGAAGGT
TGCACCATCATGGATATGTTTGGTAAAGCTAAAATTAATGTTAATTTACTCATGTTCTTG
TTGAATAGTAAGTTTTATGGTAAGTCTTAG
Protein sequence:
MGKDILIGKIDDDNADVRKTAQEMDVIRQRTIAYEYLCRLEEAKLWMEACLREELPAAVE
FEENLRNGVYLAKLGNFIAPDLLPLTKIYDIDQRQPMMGLQFKHTDNINKFLQILKKTEL
PVTFQPETTDIYDNKNMPKVIYCLHALSSHLFKLGKAPLIHDVFGKAVFTDEQLDSVSKD
LQKCKHPLPMFHKISGILSNNNNTNDNVSVQNALIELNNLLDSEKSITCALLNPNLKIKY
IQNYLIDQYKEVLKAAKREKTEVAHNHSLNGSYSPDDYDELLTLVEIQGHITATNYKHLW
KTLCAACRSNDINKLHKIFTEEWVKIKNYNSGNIDFYCDVVQNIIESCKDVDVESITNWH
KIFQNIINDGNIKSKEHSEHKEAIVQVNKALDEGTPDDLYDALTSPKLGLSFKIEKYAAP
LLFEEMRLEKCELDKNLNESEIAATALYLNDVAAVSEAVERGNEIAVWNALNSKQINLEG
LRPHCRRRYLSALISALQVKVKEQCECPLLTLEDIKDTLDMVNVKDDNNDELIEIIDQIN
KAVTDENSEALITLLKSSCLKLPSTLHREEYPLYMRTLKKRLLQKELENLWLEDIIGAID
DVNTESKKVKELTEEIIQLNLAIVKNDVNDFWKALKSQQLSCSEMIESSCKEVYFQMFSK
ALKKKGHHICPWIVCHTEASNTVYIDVESYTYSWSTPKDFVPYSRYLSKKDVKAIVDKTN
KHHINSYRYRELEKTMTRFQAHCKGFLIRKSVTRLLFFKDNVDSIIKIQSWWRQIVVNRK
YGTLLKMKAIEAKLLRERKRNPWAWYKVQEQKIIKIQALWRGRRARNAFISLFHSPNPPL
RVLKKFIPVLDFTTEDYDREMELQTLKSDVVQSIRKNQELSKQIDDMDLKIGLLVQNRIA
LQEVAAHGLKLNNILHHQSKVMQADGRGTMLAVNTAVKGLKSLTKESKRLLDGYQHLFYE
LQTNPTYLSKLLFCIPQNKTNSFLQNVVLSLYNFGAYARDEYLLLKLFRFTLEEEISCKV
MKPFDIIASTPLVLKMAVSLSRQLSGLNSLQTVIGPLVEKIINDKDLNIETGPVEIYKAW
RNETEMKTGQISKLPYIVSQDEALNYPEVKTRLDKALTQLKTVVTMFLEKITNSMELLPF
CITYMARVLHRSLTTKFPHTPEKDILKVIGNLVYYQFLNAAIVAPDAFHIINLPIGGSLT
TDQRKNLASVAKILHFSAAKKGFGEESNHLRCLNPFIVECHERMKELFRRCCRGPTLEEY
FAVDEYTEATLLHHPHIYITVQEIVDTHALLVEYQDVIAEPQDRLNELLDELGDVPSVTQ
LAARDVPAQVGDTEENARLEVCLALVNKFQAPADDMTDLNKLFIKTKELCVAVIPFLNGE
HLLEALCIGTTTEQQEQYSEKVKRRIYSGQVRPDDALTLREHIAKLRRNLEMLEDEGYVT
REDGYQALITSIALDLCNKGKYRQAQRRALSTLTRTKQSLLEKTKYYEEKCKSYDQYIKS
CLDNLHTGKRSVHACLRRPGKDVQKLKSKLTIKYSATKLLEKGVLLEIDGLSMSQCKNVQ
FEITPTDHNGVFTITGKFMGVEMETIDVDIQDLLQKQYEGCTIMDMFGKAKINVNLLMFL
LNSKFYGKS