New model in OGS2.0 | DPOGS207563  |
---|---|
Genomic Position | scaffold1735:+ 124-12396 |
See gene structure | |
CDS Length | 2940 |
Paired RNAseq reads   | 664 |
Single RNAseq reads   | 1816 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA004713 (0.0) |
Best Drosophila hit   | RhoGAP93B (2e-153) |
Best Human hit | rho GTPase-activating protein 39 (8e-98) |
Best NR hit (blastp)   | hypothetical protein AaeL_AAEL006191 [Aedes aegypti] (0.0) |
Best NR hit (blastx)   | hypothetical protein AaeL_AAEL006191 [Aedes aegypti] (9e-170) |
GeneOntology terms    | GO:0007165 signal transduction GO:0005856 cytoskeleton GO:0005515 protein binding GO:0007411 axon guidance |
InterPro families    | IPR000198 Rho GTPase-activating protein domain IPR000857 MyTH4 domain IPR008936 Rho GTPase activation protein IPR001202 WW/Rsp5/WWP |
Orthology group | MCL13314 |
Nucleotide sequence:
GGTGTGAAAGTGAAACGCACAGACTCTTCTCAATGGTGGGAATTATTTGACATCAATACT
CATAGGTTTTACTATTATAATGCATCTACTCAGACCACTGTTTGGCATAGACCAACAGAT
TGTGATATTATACCACTAGCGAAATTACAAACATTGAAACAGAATACCGATCCTCAAAAG
AGAAGAGAGACATCAACACAAACAAATCAAGCAGTGCCGCAGGTTCCATCGACACTAGAT
CCAATCAGTAGCAATGGCAACAGCACGGCAGCAAGTGCTAATAAACTGTCACCAAATAAC
ACAAAGAGTGTTACCATCACACAGACCAGCCCCGTTAGAACAAGAAGATCTAATTATCAT
CAACGTAGTGCCCAGCAGAGGAGAAAACAGCAAGAGTTAAGTGCGTGTGGCGCGGCTTGT
ACTCCTCAGCTGCGCAAGCGCAGTTCGGCCCAGCCTCACGAACCAGACAAGTGGTCCCCT
CACACCGCTCTCAATCGTAGCGGAAGTTTTATTTCACCACGAAAAGATGCTTCAGACGAC
TCGATGCACGAGAAGTACTTTAAATCTGTCGAGAGCACGCCGCTAACGAGGCGTAAGGCG
AGCGCGGCTCGTCCGTCACTAGTGTCGTCTATTTCGTTGGCTGAGAACACTCGCGCCATG
CACTCGCTGGAGAGACCTCACCTGTCACGACACACTAAGGACCGCTACTCCGACAGGCAT
CTAGACAAAGAGCGTCTAGCCGAGCTTGAGCGAATGGAGCGGTATCCTGAGAAGCAGGCT
GTATACAGTGTGGACAAACCCTTCAGACAAACCAGCCTGGATCTCCGTCACAACGCCTCC
AGCTGGCATCCACCGCGAGAATTTACTAGACGTCAACAAGCCGAACCCGAGCGTTATACC
TCCAGCAAGACGTCAGTGTCCTCTGGCAGTAGCAAACAAAGGTCCAACGAGCAACATAAC
TTCATGAGGCTGTCTTCCGCCAACGAACAGGACAATATAGCTGCTGTAAATTATAAAATG
AAATGCGTCAGCTTGGAGCCGACGTTGACAGAGCCTAATGTACAGAAACACAATCAACGT
CTAGAGAAAACAACGACGCCCAGGGATAGAACGAAATCACGACGTCACAAGCGTGTGGAG
GAGGAAGCGGCCTTGGAGGGTGACGAGGAGGACGAGGACGGGTCGCCGCTGTACTGTAAC
TGGGACCTTAGAGGCATGCAGCACTTACTCCCTCTACAGGACTACATAATACAGCAGGCT
AAACTATCCAGTCGCGGTCGTTATGCGGGTTCGGATTCTGACGGTGAGTCCGGGAGCTCG
AGGTCGCGGTCGGGTTCGGAGTCCCGGTCTCTATCCGGACACGAGCCTGACAACGAGTCC
TCCGACGGCGGCGCGCGGACTCCTGACGACGATGACGGCTCAGGGGTCTACCTCCCGCAC
ACGTACGGAACACACAGACCGACCGACGCCGAATATATGAACCACGGGGTCGCCTATTAT
AATACGTTCGTTGGATTCGATCGACAACCCTCGCCTGGTATACACAGGACGTCGTCCTTG
GGTGGTTCGGGTGCTCCTGCGGTGTCCTCTGGTACGGGGAACACGAGTGCGGGCGAGTGC
AGCCGAGCGGACGCCTTGTATAGTCCCGTGAGGTCGCACCCACATTCGCACTCCCACTCG
CATCCACACTCGCACCCACACACCCACCTACACCCGCCGCCCGAACAGGATATAGAGATA
TTCGCAAAGGACAATCTCAATTTCAACAAAGGAATATTCAGGAGAAAGGCGTCAGTCCGT
GACATGCTTTCTTGGACGTCATCATCGATTAGCGCCCCCATGGTGGGAGCGGAATGGGAC
AAGACTCATAAAAAGGCCGCCATAGATCTGTTCCGACTCGTACAGATATACATGGGAGAC
CGCAAAGCCCGCCCCGGTATGACGCTCAACTCTGTTGCCCAGGATATACTTCACGCAACC
TTCACCAATGAGAAATTGCGTGACGAGCTGTACGTGCAGCTGTGTCGTCAGACTACAGAG
AACCCTCTCCGCGACTCGCTGCTCCGCGGTTGGGAGCTGCTGGCTGTGTGTCTCGCGTTC
GTGCCGCCCTCGCCGGCCTTCCAGCCAGCACTCACCAACTACGTCAACAGACACCGCGAT
CCGGCCTTCGCGGATTGTTTCCCTGAGGTTGGTAAATGGCCTATTCACGTCCAGGTGTCA
CACTATGCGAGCGTGGCATGTAAGAGATTGGAGAGGATCGGCTTCGGAGGAAAAAGGCAA
CCAAGAAAACCGAGTACTGAAGATATTGATCAAGCGAGAATTCAAATATTCAGGCAGTCG
ATGTTCGGTAACACGCTCGCGGAAGTGATGGTGTTACAAAAAGAGAGATTCCCTCACCGA
CAGCTACCCTGGGTTCAAGTGGCGCTGTCCCAACAAGTGTTACAACTCAATGGTAGAGAG
ACTGAGGGGATATTTAGAGTGTCAGCTGACGTGGACGAGGTCAACGCCCTTAAAGCTAAA
ATAGATAATTGGGAACTGCCAGATGCATCTATGCTTACGGATGCTCATGCGCCAGCCAGT
CTACTGAAACTATGGTATCGTGAATTGTATGAACCTTTGATACCTGACTCCCTGTACTCG
GCGTGCGTCGCTTCGGGCGGGGATTTCCCGGCCTGCGAGCGAGCCCTACAAAGACTACCG
CCGCTGAATAGACTTGTACTTACATACTTAATAAGTTTCCTGCAGCAATTTACGGCACCG
GAAGTGGTAAGTCAGACGAAGATGGACTCAGCGAATCTGGCTATGGTGTTCGCTCCAAAC
TGTCTCCGATGTACGTCACAGGACCCCCGCGTGATCCTGGAGAACGCTAGGAAGGAAATG
ACCTTTCTGAAAACTCTCATCACAAACCTCGATACATCCCACGTCCAAGATCTCCTGTGA
Protein sequence:
GVKVKRTDSSQWWELFDINTHRFYYYNASTQTTVWHRPTDCDIIPLAKLQTLKQNTDPQK
RRETSTQTNQAVPQVPSTLDPISSNGNSTAASANKLSPNNTKSVTITQTSPVRTRRSNYH
QRSAQQRRKQQELSACGAACTPQLRKRSSAQPHEPDKWSPHTALNRSGSFISPRKDASDD
SMHEKYFKSVESTPLTRRKASAARPSLVSSISLAENTRAMHSLERPHLSRHTKDRYSDRH
LDKERLAELERMERYPEKQAVYSVDKPFRQTSLDLRHNASSWHPPREFTRRQQAEPERYT
SSKTSVSSGSSKQRSNEQHNFMRLSSANEQDNIAAVNYKMKCVSLEPTLTEPNVQKHNQR
LEKTTTPRDRTKSRRHKRVEEEAALEGDEEDEDGSPLYCNWDLRGMQHLLPLQDYIIQQA
KLSSRGRYAGSDSDGESGSSRSRSGSESRSLSGHEPDNESSDGGARTPDDDDGSGVYLPH
TYGTHRPTDAEYMNHGVAYYNTFVGFDRQPSPGIHRTSSLGGSGAPAVSSGTGNTSAGEC
SRADALYSPVRSHPHSHSHSHPHSHPHTHLHPPPEQDIEIFAKDNLNFNKGIFRRKASVR
DMLSWTSSSISAPMVGAEWDKTHKKAAIDLFRLVQIYMGDRKARPGMTLNSVAQDILHAT
FTNEKLRDELYVQLCRQTTENPLRDSLLRGWELLAVCLAFVPPSPAFQPALTNYVNRHRD
PAFADCFPEVGKWPIHVQVSHYASVACKRLERIGFGGKRQPRKPSTEDIDQARIQIFRQS
MFGNTLAEVMVLQKERFPHRQLPWVQVALSQQVLQLNGRETEGIFRVSADVDEVNALKAK
IDNWELPDASMLTDAHAPASLLKLWYRELYEPLIPDSLYSACVASGGDFPACERALQRLP
PLNRLVLTYLISFLQQFTAPEVVSQTKMDSANLAMVFAPNCLRCTSQDPRVILENARKEM
TFLKTLITNLDTSHVQDLL