| New model in OGS2.0 | DPOGS206600 |
|---|---|
| Genomic Position | scaffold775:- 42139-84468 |
| See gene structure | |
| CDS Length | 4512 |
| Paired RNAseq reads | 92 |
| Single RNAseq reads | 223 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA008326 (4e-86) |
| Best Drosophila hit | CG42629 (0.0) |
| Best Human hit | rap1 GTPase-activating protein 1 isoform a (1e-63) |
| Best NR hit (blastp) | hypothetical protein TcasGA2_TC007721 [Tribolium castaneum] (0.0) |
| Best NR hit (blastx) | AGAP002115-PA [Anopheles gambiae str. PEST] (0.0) |
| GeneOntology terms | GO:0005096 GTPase activator activity GO:0005515 protein binding GO:0051056 regulation of small GTPase mediated signal transduction GO:0005622 intracellular GO:0043087 regulation of GTPase activity |
| InterPro families | IPR011333 BTB/POZ fold IPR001781 Zinc finger, LIM-type IPR000331 Rap/ran-GAP IPR013069 BTB/POZ IPR000210 BTB/POZ-like |
| Orthology group | MCL14234 |
Nucleotide sequence:
ATGACGGCGATATGCTTCGTCTGCAATTTACCGATACTATCACACCAAGTTGGTTTGGTG
TGGGCAGGAGGGAATGGATGGGACGAACTCACAAGATCCAATTTGGAAGAATCTACCCTT
AGACAGCGGCTTGGGAACCGCAGGGATTCTGCAGCCCAAGTGTGTTGCTTATCACCACCA
GAGCCCGATGTCTCGGATCAACCCAGGGGTGGTCCCCGCCGTCGTCGTTCGTCGCTTGCT
CAACTTACCGACATACTTCGCGAATGGGGTGGTGGGAGCAGCGCACCCAGACGTCAAAGA
GCTCCCTTATCCAGACGAGAGACATTGGCAGACTTAGCTCGCTCCTTACCTTGGGCCCGA
CATGAACCACCCCCTCGTCGTCGACGCGAATCGTCAGCGGATTCTGGAATTAAATCCTCA
GTGTCTAAACGCCGGGATTCCAGAGCTGTCCCTCATGATTTTAAAACAGATTTTCCCAAC
AGCTTAGATCGCAAAGATTCTATAGCTGTAATGACAAACAGAGAACGCAGGGTTAAACGA
AGAGGATCTGGAGATGGTAAAGATCGGCGTGATTCGGTCGATGGTCACCGACATCGACGT
GATTCCTTAGCGACTCCCCCACCGCGTATAGTCGCCACTCACAAAAAGAGACGAGGTTCT
CCACCGACACCGGGTCCGCCATCTTTCGTAGATGCATCATCCGATCCTGGTCCATCAACT
CATCCGCCCTCTGTGACAGTAGTAACAGTGCACGAGCCAAGTCGCTCAGATGGAGAATGC
CCACCAATGACTATGCCAACAATTATCACATCAGCAGTAACACCTTCGCCAACTTCACCA
ACTGTACCCACATCCAATGCAACACAGACTACTCAAGCCACTCAGGCTACCCAGTCTGCA
CAGGGTACTCAAGTTACTCCTGGTGGAAAAACACCTCCACAATTAGGTGGCAGGCGAGAT
TCTACCACCCAATGTGGTCGAGCTAGACGAGATTCACGAGCTACGGCTAGTCCAGAACGA
AGATTAGGCAGATTACAAAGACAAGCAACTGCTTTTGATGACCCCACTGGTCCACCTGGA
ACCCGTCGCAGAGATTCCGGACCTACACTGGAACCGGATGATGCAGGCCGAGCCAGACGT
GACTCGTTAAGTCCTGACTCAGCACGGCCAAAAAGGGAAAGAAACCAGTTGAGTCCTGAT
CGCGCAGGGGGTGGTGAACTTAGCCCATCAGCCGCTCGTCGAAGAAGTCGCCTAAGACGC
CAAGCTTCATGTGCCAGAGTTGGTCGAGCAAGAAGTCCTGAGTCGAGCTCGTGTTCAAGC
CGAGATCCAAGCCCTTGTGCACGACCTCCTGAGAGAACGATGTTTAGGAGACAATCGACC
ACGGAAGAGATATTGATAGCACGTGGTTTTAGACGTCAATCTACAACAGAAGAAATGATA
CGATGTCGTAATTTTCGAAGACAAAGCTCCCAGAGTGATGACGCTTGTATGCGTGCTCGT
GGTCGCCGAGATTCTTCAACACAAATACTCGATGGCACTATTGGTACCATGACGGTAGAA
ACTACGAGTACATTCTTTGACTCCAGTACACAAACTGAGCCATCCCCGTTGTACGACAAC
AACCATTATCACGAGGAATGCCTTCGTTGCAACTCCTGCGGGTTGAATCTCACCGGACCA
AATCAAAAACGTGCTCGCCGTTTCAAGAATCAGATTCTCTGCGATTTGCACTTCGCGGAC
GTGGCGCTGATGGAGTGCAGTGACTTCATGCAACAGCTTCGCAGCTTCAAACCCCAGTCG
CTTGGATGTGCTGTCGCCAGGCGAAAGTCGTCGACTACCCTCATATTCCCTTTGCCTCCT
CAAGCTTGCTCAGATGAGTTCTGCGAAGAATACCCTCACAATCTGATTCCAACACCGGGA
TACTGGATCGAGTGCTCGCGTCAGAAGATTACCACAGACACGATTTGGGATGAATCAGAA
TCTGAACACGACAGCGGTCCAGATAGAGATGATTCAGATCGACGTAGGAGATCGGGTTCC
TTGGACGAAGCCGCAGAGGATAGCAGCGATAACGGTGGAAGTACGCCGAAGAAGAAAACA
GCTATCGAAGAACAATGGGAAAGATCTGGTGGCTTCGAACTTACATCAGTTGAACAGGAA
ACTTACGAAAAATACTTCTACGGCACTGAACATTGGAACTATTTCACCAATGACGAAGAC
TTGGGCCCCGTTATACTTTCAATAAAGCAAGAAACTCTTAATGCAAGAGACCAATTCAGA
ATTCTCGTCCGAGCGATCAGCTATACTGTACATGGCCTAATACCCGCATCCTGTGTCTTC
GCTGACCGCTACAATCGCGAAGAAGTGGTCAGATCTCTAGGCAAAGAGGTCAATATCAAC
CCACCTCTCATGCTGGGACAACTGCCCGATACCCCTGAGGAACTACTAAAATTGGACCAA
GTTTTTATAAAATCAGAACTGAAAGTTGGTGTGATATATGTGAAGGAAAATCAATACACC
GAAGAAGAAATTTTGGACAATAATGAGAACTCACCACTTTTTGAAGAGTTCTTACAAGTT
CTCGGCGAAAAAGTTCGTCTTAAAGGATTCGACAAATACAAAGGCGGGCTTGATACCGTT
CACGATCTCACAGGATTGTATTCAGTTTACACAAACTGGAGGAGCATTGAGATCATGTTT
CACGTTTCAACTCTTCTGCCGTATGAGAAACATGACGCACAGAAATTACAACGAAAACGT
CACATCGGAAATGACATTGTATGTGTCGTATTCTTAGAAGCCGATAATACAGCCTTTTCA
CCAGCCTGCATAAAGAGTCATTTCTTACACACATTTATTTTAGTGCGAGTGTCTGCTAAA
ATTAAAAGGCGTCCCACTAGATATGAAGTGTCGGTCGTGACCCGAGACGAGGTGGGAGCT
TACAAGCCCTACTTGTGGGAGCAAAGTGTGTTTGATAAAGGACCTATGTTCAGAGAATGG
TTACTTACTAAAATTGTAAATGGTGAGCGAGCTTCGTATTCAGCACCTAAGTTTGCTCGA
ATGCAGGAACGTACTCGAAGCCAAATGTTAGAAGACATAGTCGCCAATTTGCAGAATCAC
GCAGAAACTGGACAGATCCCTAAGCCTTACCGACGAGGATCTTGGCGTCCAATTGGTCAC
ATGCGACCGTCATCGCCATTGTTAGACTCCGTTAGGGATCAGTTCGAGGACTACGACCAA
CTGGCCAAAGATTTTACAAGAGTTTTCCTCAACAGTGAACTAAATGCTGCTCAAAATGCA
CAACTTTTCGATGTAGTATTCATGGTTGGGCAATCTAAACAGAAAACGAAATTTATCGGT
GTCCGTGCAATACTAGGTGTGAGGAGCAGGGTATTCCAAGAAATGCTGTACGGCATACAA
ACTGGTTTCGGCTCCCCTCAAGTGCCGGTAGCTGAACTGTTGGCTCGACCCGCACCCACG
CTTCTGTCTCCCACGCCACGACAAAAAAGTAGCAACTTCTTACAAGTACCTGACATTGAA
TCTCCAAGACCCAAAAGCGTTCCCAGTTCTCCTATGGTTAAACGTGCTTTCTCCCGCCTC
GGCACCATAACAGCTGGATGGGGTCGATCTATCAGGAAACAACATTCTCAACTCAATGTT
GATGATAAGAAAAAATGGGCTAGCTCACAAGACTGTTCAAATAAAGAAAGTAAGGACAAA
GACAAAGAAAAAAATGCAGCTTTGGCAGTTCCACGTCTCTCAGTGTGTGCTGATGCTCAA
AAAGTAGACCGAGCAAAGCTTGCTCAAACTGAGTTCTCGATAATCGAATTCGATCCTGAG
ACCTTTCGGATCTTGCTGGACTACTTACACACGGGTAGCTGTCCTCTCACTTGCGCCTCC
ATACCGGGACTCATCTGTGCTGCGGAACACTACGACCTGCCTGAACTTCTGCAGGCTTGC
TTCCATCACGCGAAGCAGTTCCTTAGGATTGAAGTGGTCTGTACCATGCTGATCTCGTTG
GAAAATTACTACTGGCGTTACACATCAGCTTCTGAGCTGGTCAATATGATTCTGGCATTT
ATAGAACAACGGGCATATGCTCTTTTCCAAACTTCGGAGTTTCTTAACCTATCCGAATCG
ATGGTACAGATGATAATGTGCAGGAACCTGGAAGTACCAGAAGTTAGAAAATTCGAAGCA
ATGCTTAGTTGGGCTCGCAATAAAATCAAATCAAGGTCTACGAACAAGACTGACGCCAAG
AATGAGTTCAAATGTATAATGGAGCGATTAGCTAGAGATTTGAAATTATACAGGATCTCA
CCCCAAGAATTGATAAAAGTGGTTCTTCCCTCAAAAGCAATCAAAAATGAACGTATCCTC
GAAACGTTGATGTATCAAGCCAACTCGGGAATGTACAGAATTCAGGACAGCTACATCGAG
GCTTGTCAGCAACGCCTACAGAAACAGGATTCGAGATTCTCCGAATTTGAAAGTTTTGAT
TACGGTATATAA
Protein sequence:
MTAICFVCNLPILSHQVGLVWAGGNGWDELTRSNLEESTLRQRLGNRRDSAAQVCCLSPP
EPDVSDQPRGGPRRRRSSLAQLTDILREWGGGSSAPRRQRAPLSRRETLADLARSLPWAR
HEPPPRRRRESSADSGIKSSVSKRRDSRAVPHDFKTDFPNSLDRKDSIAVMTNRERRVKR
RGSGDGKDRRDSVDGHRHRRDSLATPPPRIVATHKKRRGSPPTPGPPSFVDASSDPGPST
HPPSVTVVTVHEPSRSDGECPPMTMPTIITSAVTPSPTSPTVPTSNATQTTQATQATQSA
QGTQVTPGGKTPPQLGGRRDSTTQCGRARRDSRATASPERRLGRLQRQATAFDDPTGPPG
TRRRDSGPTLEPDDAGRARRDSLSPDSARPKRERNQLSPDRAGGGELSPSAARRRSRLRR
QASCARVGRARSPESSSCSSRDPSPCARPPERTMFRRQSTTEEILIARGFRRQSTTEEMI
RCRNFRRQSSQSDDACMRARGRRDSSTQILDGTIGTMTVETTSTFFDSSTQTEPSPLYDN
NHYHEECLRCNSCGLNLTGPNQKRARRFKNQILCDLHFADVALMECSDFMQQLRSFKPQS
LGCAVARRKSSTTLIFPLPPQACSDEFCEEYPHNLIPTPGYWIECSRQKITTDTIWDESE
SEHDSGPDRDDSDRRRRSGSLDEAAEDSSDNGGSTPKKKTAIEEQWERSGGFELTSVEQE
TYEKYFYGTEHWNYFTNDEDLGPVILSIKQETLNARDQFRILVRAISYTVHGLIPASCVF
ADRYNREEVVRSLGKEVNINPPLMLGQLPDTPEELLKLDQVFIKSELKVGVIYVKENQYT
EEEILDNNENSPLFEEFLQVLGEKVRLKGFDKYKGGLDTVHDLTGLYSVYTNWRSIEIMF
HVSTLLPYEKHDAQKLQRKRHIGNDIVCVVFLEADNTAFSPACIKSHFLHTFILVRVSAK
IKRRPTRYEVSVVTRDEVGAYKPYLWEQSVFDKGPMFREWLLTKIVNGERASYSAPKFAR
MQERTRSQMLEDIVANLQNHAETGQIPKPYRRGSWRPIGHMRPSSPLLDSVRDQFEDYDQ
LAKDFTRVFLNSELNAAQNAQLFDVVFMVGQSKQKTKFIGVRAILGVRSRVFQEMLYGIQ
TGFGSPQVPVAELLARPAPTLLSPTPRQKSSNFLQVPDIESPRPKSVPSSPMVKRAFSRL
GTITAGWGRSIRKQHSQLNVDDKKKWASSQDCSNKESKDKDKEKNAALAVPRLSVCADAQ
KVDRAKLAQTEFSIIEFDPETFRILLDYLHTGSCPLTCASIPGLICAAEHYDLPELLQAC
FHHAKQFLRIEVVCTMLISLENYYWRYTSASELVNMILAFIEQRAYALFQTSEFLNLSES
MVQMIMCRNLEVPEVRKFEAMLSWARNKIKSRSTNKTDAKNEFKCIMERLARDLKLYRIS
PQELIKVVLPSKAIKNERILETLMYQANSGMYRIQDSYIEACQQRLQKQDSRFSEFESFD
YGI