| New model in OGS2.0 | DPOGS212033 |
|---|---|
| Genomic Position | scaffold1160:+ 12381-29711 |
| See gene structure | |
| CDS Length | 3027 |
| Paired RNAseq reads | 596 |
| Single RNAseq reads | 1557 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA010002 (0.0) |
| Best Drosophila hit | crossveinless c, isoform C (3e-135) |
| Best Human hit | rho GTPase-activating protein 7 isoform 4 (2e-107) |
| Best NR hit (blastp) | PREDICTED: similar to CG31319-PA [Nasonia vitripennis] (0.0) |
| Best NR hit (blastx) | PREDICTED: similar to CG31319-PA [Nasonia vitripennis] (0.0) |
| GeneOntology terms | GO:0005100 Rho GTPase activator activity GO:0005622 intracellular GO:0007165 signal transduction GO:0007391 dorsal closure GO:0007443 Malpighian tubule morphogenesis GO:0007494 midgut development GO:0005096 GTPase activator activity GO:0035277 spiracle morphogenesis, open tracheal system GO:0008258 head involution GO:0008586 imaginal disc-derived wing vein morphogenesis GO:0035160 maintenance of epithelial integrity, open tracheal system GO:0007424 open tracheal system development GO:0007427 epithelial cell migration, open tracheal system GO:0007173 epidermal growth factor receptor signaling pathway |
| InterPro families | IPR000198 Rho GTPase-activating protein domain IPR002913 Lipid-binding START IPR008936 Rho GTPase activation protein IPR023393 START-like domain |
| Orthology group | MCL10762 |
Nucleotide sequence:
ATGCAGAATGGGACCGTTTTTGAAGAAGATCTGCAATTTCCAATCGACGTGTCCGGAGTT
CAAAACGACCACCCATTTTTGGACGCGGACTCGCTCCAGTCATTGTTCAGACGACTCACC
GCCCTCAACAGATGTGCCACCATGAAGTTAGAGCATCATCATCATCAGAAGAGATCGAAC
GACTCTGACGACGAACAATGCGCATTAAGCGATAAATGGCAATACGAGAGAAAATCTCGA
AGATGGTCCCGGGTCGTGGAAATTACGCCTCAAGCACAAAGGAGATTACAGGTGATAGCA
GCCAGAGCGCTAGCAGAACGAGAGGCAAGAGAGGCAAGAGGTGAAGTGGAAGATGATGAG
GATGAAACTCTACCAACCATCAGGGTTGGTCTGGTTGACGCGGACGGACATTACACAGAC
GTAGAACCAGATCTTCTGACAGTACCCGGACACCATATGCAGTTACCAAGTGATAAAGAA
GATGAAGAGGACACTGGAACCAGGTTCAGGCGAACTGGGTCCGAAAGATTACGGGACGGG
GCGAAGGCGTTATTAAGGAGGGTCGAGTCGCTGAAAACGAGAAGAAGGAAACGGCAAAAC
AGAACGGAAGTTATCGTTTCATCGCCACACTTTCTGGACGTCAATCAGGACAAATATGCT
GATTTGAATTACATAGATATGACGCCCACTACTCCAACAGCCTTTCCCTTCCCGGACTTC
CACAGTTCGCCAGTCCATGCACCAGCTATACGTACGCAACCCCCTTCCCCCATGACGATA
ATGCCACCATCTCCCATCGCTCCCCTTGAACAATCCTTCGTGTTACACGCCCCTTTTGGT
GACGACAGTTCCAGTTATGCCTCTGATAACAGTATGGGATCAAGCAATAAAAGTTCTAAG
TCAAAACTGGGAAGGGCCAAACGAATCTTTCATAGAGGACTTAAAAGTGACGATTCGAGC
GCCTTGAGCGATTCCGAATGCCAGCCGGCTAGTTGGAGGCACAATTACTATAAAGAGCAT
AACACTCATCAAAATACTGAGGTTTATGTTGAACCTCCATCACCAGTTGAACTGAAGCCA
GATCCAGAAGTACTTCGAGAGGTCCAAAAATCACCAGCACATACAGCTCATAGACGCCAG
GCAATACGGACGAGTTCATTGAACTTGGGAAAGGACACACCAAAATTTCGTGATAGAAGT
CTCAAAAGGGAAAAATCAGCATCGAGAAGCTCCGAATTGGACAGTAGTCCGAACTCAGCG
GGGTCAAGGTCGCATGATGGTGACCACGATGACGATGATGACAGCCTGGATATAAAGACA
AAGAAAAGCAATATACAAAGATGGTACTCGTTCAGGACGAACGTACTTAACGGCGGCCCC
AAAGCAAATAATACTCTGCAGCCTGCCCCCAACCAAAAGAATCCTGAAACTTACTTGTCA
CGTCCGATGTCGTCGCTGTCGTGTGGTCAGCTGCATATACTGAGGAAGCTAGCGTTACTG
CGGCTGACAGCTTGTATGGAAAGATATTGTCCGTCGCATAAATCCGGTTGGAATTGGGAG
CTACCTAAACTTATAAGAAAGATCAAGACGCCAGATTACAAAGATAAGACAGTTTTCGGC
GTACCTCTGACAGTATCTCTACAGAGGACGGGTCACTCTTTGCCAAAACCGATTCAATGC
GCTCTCAATTGGCTGAAAAACAATGCATTAGAACAGATGGGTATATTCAGAAAGGCGGGA
GTAAAATCTCGAATAGCCAAACTGAGAGCCATGGTGGAGTCAGCGGGAGCGACTACAGCA
ACATTCGCCATCGAGAACATGAACACCATAGACCCAAACCAGTCTAGTTTGAACTTCGAC
GGCGCCCAGGCTCATGACGTAGCGGATATGGTGAAGCAGTACTTCAGAGAGCTCCCTGAT
GCTTTGCTGACTAACAAATTGAGTGAAACCTTCATCGCTATATTCCAACATGTTCCGGAG
CCGCTCAGGCCAGATGCCGTTCAATGTGCATTACTGCTTCTACCCGAGGAACATCTGGAG
GCCTTGCAGTCTCTACTCATTTTCTTAGCGGAGGTCGCGGAACACTCAACCACGAATCAA
ATGACGGCATCAAATTTGGCCGTTTGTTTTGCGCCGACGCTGTTAAGACTACACCACGCG
CCTCCGCAGACTGGTAGCACCAAAGAAGGAAATTCAAATAGAACCCTGATAGAGAGCGCC
CTTGACCAGCGCCAGATCAGCGAGTCCCGAGCAGCACACGCCTGCCTGCTGCTGCTGGTG
ACGCAGCACAAACAGCTGTTCCTCGCACCAGCTGATATGCTGGCCAGGTGCAAGTTCAAT
TACTTCGAGGAGAGCGTACCGGTATCGCTTGAAGAGTTGGGAGCTGATTTCAATCAAGAC
TGGAAAGGTTTTCAGCAAGCCTGCATCAAAGCTTTACTCAAAGAAGCCAAAGAGAAAACG
CGCGGCTGGATGTCAGTGTCGGGAGCGGCGCCTCACGTTGAGCTGTGCTGCAAGAAAGTG
GGAGACGGACATCCGTTGAGGTTGTGGAGGGCGACCACGGACGTGGAAGCTCCGCCGCAG
GAGGTGATGCAAAGGATACTCCGCGAGAGGCATATTTGGGACGATTCCCTTGTAAAGTGG
CGCGTGGCTGAAAAGTTGGGACCTAACGCAGAAGTCTTTCAATACATCACAGCATCCAGC
TTCAACTTGCCTCATAGGGACTATTGTGTGCTACGATCTTGGCAGCAGGGTGGCAGCGGC
GGCGGCGGTTGGTGCGCGGTGGCGGAGACGTCGGTAGCTCACGGGGCGGCGTCCGATGGA
GCCCGGGGCGTCGTCCTAGCTTCGAGATACCTCGCGCAGCCTGCGGGTAAAGGGCGCAGT
AGACTTGTACATCTCGCCAGGGTTGATACTATGGGACGTACTCCGGAATGGTACAACAAA
TGCTATGGTCATATCTGTGCATTGTACCTGGCCAGGATTCGAGCCTCCTTCAAGCATAAC
ACAGAAGGACCCGAATCGAATGTATGA
Protein sequence:
MQNGTVFEEDLQFPIDVSGVQNDHPFLDADSLQSLFRRLTALNRCATMKLEHHHHQKRSN
DSDDEQCALSDKWQYERKSRRWSRVVEITPQAQRRLQVIAARALAEREAREARGEVEDDE
DETLPTIRVGLVDADGHYTDVEPDLLTVPGHHMQLPSDKEDEEDTGTRFRRTGSERLRDG
AKALLRRVESLKTRRRKRQNRTEVIVSSPHFLDVNQDKYADLNYIDMTPTTPTAFPFPDF
HSSPVHAPAIRTQPPSPMTIMPPSPIAPLEQSFVLHAPFGDDSSSYASDNSMGSSNKSSK
SKLGRAKRIFHRGLKSDDSSALSDSECQPASWRHNYYKEHNTHQNTEVYVEPPSPVELKP
DPEVLREVQKSPAHTAHRRQAIRTSSLNLGKDTPKFRDRSLKREKSASRSSELDSSPNSA
GSRSHDGDHDDDDDSLDIKTKKSNIQRWYSFRTNVLNGGPKANNTLQPAPNQKNPETYLS
RPMSSLSCGQLHILRKLALLRLTACMERYCPSHKSGWNWELPKLIRKIKTPDYKDKTVFG
VPLTVSLQRTGHSLPKPIQCALNWLKNNALEQMGIFRKAGVKSRIAKLRAMVESAGATTA
TFAIENMNTIDPNQSSLNFDGAQAHDVADMVKQYFRELPDALLTNKLSETFIAIFQHVPE
PLRPDAVQCALLLLPEEHLEALQSLLIFLAEVAEHSTTNQMTASNLAVCFAPTLLRLHHA
PPQTGSTKEGNSNRTLIESALDQRQISESRAAHACLLLLVTQHKQLFLAPADMLARCKFN
YFEESVPVSLEELGADFNQDWKGFQQACIKALLKEAKEKTRGWMSVSGAAPHVELCCKKV
GDGHPLRLWRATTDVEAPPQEVMQRILRERHIWDDSLVKWRVAEKLGPNAEVFQYITASS
FNLPHRDYCVLRSWQQGGSGGGGWCAVAETSVAHGAASDGARGVVLASRYLAQPAGKGRS
RLVHLARVDTMGRTPEWYNKCYGHICALYLARIRASFKHNTEGPESNV