New model in OGS2.0 | DPOGS201865  |
---|---|
Genomic Position | scaffold1798:- 17647-19659 |
See gene structure | |
CDS Length | 2013 |
Paired RNAseq reads   | 384 |
Single RNAseq reads   | 961 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA006041 (0.0) |
Best Drosophila hit   | CG3573 (1e-110) |
Best Human hit | type II inositol-1,4,5-trisphosphate 5-phosphatase precursor (1e-167) |
Best NR hit (blastp)   | PREDICTED: hypothetical protein [Nasonia vitripennis] (0.0) |
Best NR hit (blastx)   | PREDICTED: hypothetical protein [Nasonia vitripennis] (0.0) |
GeneOntology terms    | GO:0003674 molecular_function GO:0004437 inositol or phosphatidylinositol phosphatase activity GO:0005575 cellular_component GO:0005622 intracellular GO:0005829 cytosol GO:0007165 signal transduction GO:0007283 spermatogenesis GO:0008150 biological_process GO:0016021 integral to membrane GO:0030317 sperm motility GO:0070613 regulation of protein processing |
InterPro families    | IPR005135 Endonuclease/exonuclease/phosphatase IPR008936 Rho GTPase activation protein IPR000198 Rho GTPase-activating protein domain IPR000300 Inositol polyphosphate-related phosphatase IPR008962 PapD-like |
Orthology group | MCL11667 |
Nucleotide sequence:
ATGAGTGACAAAGAGAATGATTACACATTCACCAAAAAATTTACTGTTTTCTGTGGCACC
TGGAATGTCAATGATAAATCACCTGTGATACCTCTCAAAGGATGGTTAAGTGTGGATAAA
GAGCCACCTGATATATATGCCATAGGTTTTCAGGAATTAGACTTGTCCAAAGAAACCTTT
CTTTTTGACCAAACTGCAAGAGAAGATGAATGGTATAATGCCGTGTTAGGTTATGTGGAT
AGGAGAGCTAAATATGTTAAAGTTGAAAAGGTGAGACTAGTGGGCATGCTGCTCATAGTA
CTGATAAAGGAAAAGCATTTTTCACATGTACGTAATGTTATCTGTGACACGGTCGGTACT
GGTATAATGGGTAAGATGGGAAATAAGGGAGGAGTCTCTATAAGACTTGATTTACATAAC
ACTTCCATCTGTTTTGTCAATTCCCATTTGGCTGCACATGTTGAAGAGTATGAGAGACGA
AATCAAGACTTCAGGGACATTTGTAACAGAACAAGATTCATACAACCCAACCAACAGCCG
AAAGGTATAAAGGACCATGATCACATTTACTGGCTCGGCGATCTTAACTATCGCATAACG
GAGTTAGATCCGCAGAGTGTCAGGAAGCTTGTTAGTGAAAATAACTTTCTGCCGGTCTTG
GAACGAGATCAGTTAAAACAACAGCATAAAAATGGTAATGTTTTTTCTGGTTACACCGAA
GGGCCTATCACATTTAAACCTACATACAAATATGACCCTGGCACAGACAACTGGGACTCC
AGTGAAAAGAACAGGGCTCCTGCCTGGTGTGATAGAATATTTTGGAAAGGAAATAATATT
ATACAGTTAGCATACAGAAGTCATCCACCTCTAAATATAAGTGACCACAAACCTGTGTCC
GCCATATTCATGTCTGAAATAAAAATAATAGATGAAGAGAAGTATAGGAAAGTATATGAA
GAGGTGATCAAACAGTTAGATAAACTGGAGAATGAACTGATACCACAGGTTAAAGTGGAC
ATCACGGACATTGATTTTGGAACTGTTAAGTACTTGGAGTTGCAAGTAAGGACTATCACT
ATTAAGAACACTGGGAAACTGCCAGTGGAGTTTGAGTTCATTAAAAAATTGGATGAGGCA
AGCTTTTGCAAGGAATGGCTGATTGTTGAACCATACAAAAAATGTATCTGTGCCGACGAG
ACATGCGAAATTCAACTGAAGGTGCTTATAAATAAGACTTCGGCTTGTAAAATGAATGCC
GGAATTGACAAATTATATGATATATTAGTGTTACATCTGTATGGTGGCAAGGATATATTT
ATTACTGTCAATGGCACCTATGAAAGAAGTTGTTTCGGATGTTCCATTGAGGTTTTAGTT
AATTTAAACAAGCCAGTCAGAGAAATCCCAGTCGGGAAACTCATTGAGCTGGAGAGTAAG
AGAGATCAATGCATTTCTAATCATTCGACATATTCTATACCTAAAGAAATTTGGTTCCTC
GTTGACCACATTTACCTTCATGGACTGAAGGAGCCTAATCTGTTTGAACAGCCGGGTCTG
CACTCGGAAGTTCTACAAATCAGAGACTGGTTGGATACTGGATCTATAGATCCAATACCT
GGGAGCATTCATTCAGTTGCTGAGGCACTACTGCTTCTGCTGGAAAGTACAGCAGATCCA
ATAATACCATACAATCTTCAGTCAGTATGTCTTCGGGCTTCCGCCAACTATCTTCAGTGC
AAACAAATAATAATGGAATTGCCAGAATTTAGAAAGAACGTTTTTCTGTATTTGTGTGAA
TTCTTACAGGAGGCATTGCAGCACAGCGCGGAGAATGGTTTGGATTCTAAGACGCTGTCG
ACTCTATTCGGTGCTATATTCCTGAGGGACAACCCCAATGTGATCCAAGAACCTCAGTCC
AGAATAAACAAGCAAGTCATTGACAAGAAGAAAGCACATTTTGTGTATCATTTCTTAACA
AACGACCATAGTGATTTAATATTTGCAAGATAG
Protein sequence:
MSDKENDYTFTKKFTVFCGTWNVNDKSPVIPLKGWLSVDKEPPDIYAIGFQELDLSKETF
LFDQTAREDEWYNAVLGYVDRRAKYVKVEKVRLVGMLLIVLIKEKHFSHVRNVICDTVGT
GIMGKMGNKGGVSIRLDLHNTSICFVNSHLAAHVEEYERRNQDFRDICNRTRFIQPNQQP
KGIKDHDHIYWLGDLNYRITELDPQSVRKLVSENNFLPVLERDQLKQQHKNGNVFSGYTE
GPITFKPTYKYDPGTDNWDSSEKNRAPAWCDRIFWKGNNIIQLAYRSHPPLNISDHKPVS
AIFMSEIKIIDEEKYRKVYEEVIKQLDKLENELIPQVKVDITDIDFGTVKYLELQVRTIT
IKNTGKLPVEFEFIKKLDEASFCKEWLIVEPYKKCICADETCEIQLKVLINKTSACKMNA
GIDKLYDILVLHLYGGKDIFITVNGTYERSCFGCSIEVLVNLNKPVREIPVGKLIELESK
RDQCISNHSTYSIPKEIWFLVDHIYLHGLKEPNLFEQPGLHSEVLQIRDWLDTGSIDPIP
GSIHSVAEALLLLLESTADPIIPYNLQSVCLRASANYLQCKQIIMELPEFRKNVFLYLCE
FLQEALQHSAENGLDSKTLSTLFGAIFLRDNPNVIQEPQSRINKQVIDKKKAHFVYHFLT
NDHSDLIFAR