New model in OGS2.0 | DPOGS208777  |
---|---|
Genomic Position | scaffold209:- 140420-147336 |
See gene structure | |
CDS Length | 1836 |
Paired RNAseq reads   | 318 |
Single RNAseq reads   | 1163 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA007636 (0.0) |
Best Drosophila hit   | vav, isoform C (2e-113) |
Best Human hit | guanine nucleotide exchange factor VAV2 isoform 2 (3e-55) |
Best NR hit (blastp)   | vav1 [Aedes aegypti] (3e-125) |
Best NR hit (blastx)   | PREDICTED: similar to vav CG7893-PA, isoform A [Apis mellifera] (6e-121) |
GeneOntology terms    | GO:0005085 guanyl-nucleotide exchange factor activity GO:0019992 diacylglycerol binding GO:0007266 Rho protein signal transduction GO:0005100 Rho GTPase activator activity GO:0007155 cell adhesion GO:0008360 regulation of cell shape GO:0007015 actin filament organization GO:0005515 protein binding GO:0035023 regulation of Rho protein signal transduction GO:0005089 Rho guanyl-nucleotide exchange factor activity GO:0005622 intracellular |
InterPro families    | IPR000219 Dbl homology (DH) domain IPR001849 Pleckstrin homology domain IPR000980 SH2 motif IPR001452 Src homology-3 domain IPR011993 Pleckstrin homology-type |
Orthology group | MCL10723 |
Nucleotide sequence:
GAGTTGCACGATATACACAACGGTCTACTCCGCCAGCTAAGGCTCGCGACCGACAATTGT
GTACCTGGCAGCGGAGCGCCGCGACTAGCGGACGTGTTCCTGGCGTGGCGGGAGCGGCTC
CTGCTGTATGGAGACTATTGCTCAAATCTCACAAACGCCCAGGACACGTTGAAAGCGCTC
GATGCAAGGGATTCCACATTCAGTAAGCAGCTACTGAAATGTCAAAAGGAGCACAGTGAC
GGTCGTATCCAGCTGCGCGACATCCTGTCGGTTCCCATGCAGCGTGTGCTCAAGTATCAT
CTGCTGCTGGACAAGCTGGTGCACGAGACCCAGCCGAACCACGAGGAGTTCCGCGGCTTG
GAGCGCGCCAAGGAAGCCATGGTGGACGTGGCTCAGTATATCAACGAGGTCAAGAGGGAC
AGCGAGGTGCTCGTGTTGCTGGCTAAGCTGCAGGAGAGTATAGTGGACTGGGACCGGTCG
GGCGCGGAGGGCGGGTCGCTGGCAGCTTACGGCCGCCTGCTGCTGGACGGAGAGCTGAAG
GTGAAGGCTCACGAGGACCAGAAGATGAGGATGAGATACGTGTTCGTGTTCGACAAGTAC
ATGCTGCTGTGCAAGCCCGTCAAGGTGATCTACACCACAGAGAACCAGTACTCGTACCGG
AAGGGCATCAAGCTGGCCGAGTACCGTGTGGAGGAGGGCGGGCCGCGGCGCTCGCTGAGG
GCGGACGCTCGCTGGACCGCGCACTTCTTCCTCGTCAGGCGGACCAAGGACGCCACCTAC
ACGCTTTACGCCAAGACGGAGGACTGTCGCCGGAAATGGCTGAAGGCCATCAACGACGCC
ATGTTAGTCACCGAACACTCTGACACCTTCGACTGCGTCATCAGGATCGTCGTAGTTCGT
TCATACTTACGCTGTGTTCACAGAGAGAATCTGGAGCCGCCCGGCTGTCGGCGGACCAAC
CACAAGTTCGTTCTTCACACCTTCGAGAAGCCGGCCACGTGTCATCACTGCTCCAAGTTC
CTCAAGGGCAGGATATTTCAGATAAAAGTGCTGTTAGTGATAGTTGTCGCTCCGTGTGCA
GGGCTACCTGTGTTCCGTGTGTGGAGCGTGCGCCCACAAGGAGTGCATCGCTCTGTCGGG
CCGCTGCGGGGGAGGGAGCGCCCCCGCCTGCACTACTACATGTGGTACGTGGGCGAGATG
AGCCGGGAGACGGCCACGTCCCGTCTGGAGCGCCGTGTGGACGGCACCTTCCTGCTGCGG
GTGAGGCCGCGCGCCGCGCTCCACGACACCCAAACTGACAACACGGTGAAACACATGCGA
GTGTGTCTGAAGCCCATCGACTCGGTGCCTCACTACTACCTATCCGAGTCCAGGTTCTTC
AGGAGCGTGGTCGAGCTGATATCCTACTACGAGAAGACGAGCTTGTCGGAGAACTTTGTC
GGAACCGACAACACGGTGAAACACATGCGAGTGTGTCTGAAGCCCATCGACTCGGTGCCT
CACTACTACCTGTCCGAGTCCAGGTTCTTCAGGAGCGTGGTCGAGCTGATATCCTACTAC
GAGAAGACGAGCTTGTCGGAGAACTTTGTCGGATTAAACTCGAACTTGCGATGGCCCTTC
CGCCGCGTGGTGGCGACTGTCATCCACGACTTCCGACCGCTAGAGGCGTCCCAGTTGGCG
CTCCGCCCCGGCGCGAAGGTGTTGGTGCTCAGCAAGGAAGGCGACGGCCGGGGCTGGTGG
AAAGGCCGCACGCTGGATAAGGGTGACCACCGCTCGGGCTACTTCCCCAAGGAGTGCGTC
CGCGAGGAGCCCGAGTGTATCGGAGCGTTAGACTGA
Protein sequence:
ELHDIHNGLLRQLRLATDNCVPGSGAPRLADVFLAWRERLLLYGDYCSNLTNAQDTLKAL
DARDSTFSKQLLKCQKEHSDGRIQLRDILSVPMQRVLKYHLLLDKLVHETQPNHEEFRGL
ERAKEAMVDVAQYINEVKRDSEVLVLLAKLQESIVDWDRSGAEGGSLAAYGRLLLDGELK
VKAHEDQKMRMRYVFVFDKYMLLCKPVKVIYTTENQYSYRKGIKLAEYRVEEGGPRRSLR
ADARWTAHFFLVRRTKDATYTLYAKTEDCRRKWLKAINDAMLVTEHSDTFDCVIRIVVVR
SYLRCVHRENLEPPGCRRTNHKFVLHTFEKPATCHHCSKFLKGRIFQIKVLLVIVVAPCA
GLPVFRVWSVRPQGVHRSVGPLRGRERPRLHYYMWYVGEMSRETATSRLERRVDGTFLLR
VRPRAALHDTQTDNTVKHMRVCLKPIDSVPHYYLSESRFFRSVVELISYYEKTSLSENFV
GTDNTVKHMRVCLKPIDSVPHYYLSESRFFRSVVELISYYEKTSLSENFVGLNSNLRWPF
RRVVATVIHDFRPLEASQLALRPGAKVLVLSKEGDGRGWWKGRTLDKGDHRSGYFPKECV
REEPECIGALD