New model in OGS2.0 | DPOGS203982  |
---|---|
Genomic Position | scaffold2:+ 965055-974493 |
See gene structure | |
CDS Length | 3462 |
Paired RNAseq reads   | 721 |
Single RNAseq reads   | 1684 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA002123 (0.0) |
Best Drosophila hit   | CG42271, isoform C (5e-92) |
Best Human hit | type I inositol-3,4-bisphosphate 4-phosphatase isoform a (5e-54) |
Best NR hit (blastp)   | PREDICTED: similar to CG33249 CG33249-PA [Acyrthosiphon pisum] (0.0) |
Best NR hit (blastx)   | PREDICTED: similar to CG33249 CG33249-PA [Acyrthosiphon pisum] (0.0) |
GeneOntology terms    | GO:0005575 cellular_component GO:0016316 phosphatidylinositol-3,4-bisphosphate 4-phosphatase activity GO:0046856 phosphoinositide dephosphorylation |
InterPro families    | IPR008973 C2 calcium/lipid-binding domain, CaLB IPR011993 Pleckstrin homology-type |
Orthology group | MCL11700 |
Nucleotide sequence:
ATGAGATTTAACAAGCAGGAATTAAGTGCTCTAGCATCTTTAACATCGCAAAGTTATGAT
AAAGAAGGTGTAATGGTGCTAAAAGAAAAACAAGACGGCTTCTTTCGCCGCTCGGAAGGT
TGTTCTATTCGTTGGTTTCGTCTTAAGGGCAATTTACTATTTTATTTGAAAGGTCCTGAA
CCTTGGTATGAATCAGTAGGATTTATTGTGTTAGGCCAACATAAAATCCATATACAGACT
CAAGATGAAAATGGTTATTGGCCGTTCCATTTAGTTTGGGAGAATGGTATTTGCTATAGA
TTGGCAACATTTCATGAATCAGAGCGCACATTATGGCTAAAGGCTATTCACATGGCCCCT
TATGATGTAATAAGTTCACAAGTTATTGCACTTCGAGAAAAACTAAACAGAATAAGAGCT
ATTACAGACATAACAACATACAGGTTGCAGAAAGGAATTGTTTTAGATATGAATGAAGTA
CCCTTATGTGAGTTGGCCTTATCCTGTGATAATCTTCTGTGTGATGCCTATGGGTGTGCA
CCTTCTCCAGTAATTGTTATTTATGTTAAATATTCCAAAGGGCTTTGTGTGAAGTATGGC
ACAACCGAAATAGTAGATTCATGCAGCAACCCATGTTTTTCAAAAACAATACTATTTCGA
GCTAGTGATGGATTGTCAAGGGATGCTGTTGTAAAAATAGTTGTCTATGATGTCAAAGAA
AGGGTATCAGAAACATCAGTTCTAATGGGATCTACATCATTACAACTTAGCACTATACAG
GAAGCCCAGAGACTTAGGGTGGCGTTAATGACAAGAGAAAATAAAACAGTTGGTTTTGTT
ACAATAAATGGATGGAGTTTAGAACCATCTTACATAGGCACAAGTCCAAATCATACAAAT
GATAAAAACTGCATAGATATACCACAAAAATTGCTTTGTCATCGCCGTTCTCAGTCTTTA
CCACCAAGGTTAGGTTTGAAACTAAAGTTTCCATCATATGGAAATCTTTTAAAGCAGAAC
TTCGTCAACAGTCACCAAGTCACATACAGATTTCATTCTGGGCTAGGAGGTGATATCACT
GTTCATGAAATAATGGCAGAGCCAAAGCTATGCTATCAAATTCCAATACAGCTACTGGAC
ATTTATATTCAAAGAGAAAAGGAGCTTTTGGAGGAATTGTTATCAGTTGGAAATATTTGT
GGGCATTGGCAAACAAGACAATTAGATTTAGCTGGCACCCATGTCTCTTTATTGAAGCAC
TACTGTCATTCAAAGAGGTGTTTGCAACAAGCCGAACATGCATATTTCAAAGCCAGTTCT
AGAAAAGATGATTCTAGTTTGGAATTTGCACCAACAAATTTGCATCTGCAACGGATGTGG
GTGTACAATGACACTCTAAATAAAACAGGTTTTCATGACGTTATCACTGCTGGAGCATTT
GCTGCTCACACTCACAAAGCAGAAAGAACTGGTGGTCTTATAAGACTAGTTCAACAAGTG
AAGGACATAAGCAACACGAAAGCCGCTGCTAATTATGCGGCTGCGAATAAAATTCAGGCT
GAATATGATAATGTGCTTGCTTTATTACGTCTGAGAGATGAAATTATATCCGATGTTGAC
AGGATAATAGTACTTTTACAGGCAAATCAGAGGGATAAGGTTATACATGTAACTGAAGTT
ATTAAGGCCAAAGTTAAAAGCATGTTGGCATTGTGGGAACCGGGTGTTGTTGAAGAATCT
TTAGCAATCATAGGATGGCCTAAACACAATTGTGAAGATACTGAAAATCAAACGTTACTA
ACAATTCTTCGTTTAACTGAACAACTGAACATGTTCGACGCTAATTCCGATTGCGAGAAC
TTTGATGCATCTTCTAGTTCAAGTTCCAAGGACACCTCGCCGACCATGGACATAGCGTCA
TTTCCCACAAGCCTGCATAACATAAGCAACAGCAATCCTAAATTGGATACAAAGAACAAC
CACTTTGAATTGCAATTCTTTAACGATTACTTCAACAGCGAGGAACGTAATAAATTGAAT
CATTCGTTCAGATCGGTCCGGTCACCAACGAAACCGAAACTGAATGATGCTCACAGTTTT
TCATTCGATTCTAACCGACCAAGGCATGGTAGTTTGAGGCATGATTTTAAGAGTACGGCA
TCATTGGAACAAGTCTCATACAGATGTCTAATGGAAAGTTTGAGCGGGATGGATAAGAAA
AAGGGCGGTGATGTACGGAAGGAGTCTTCATCTTTACCGAGTATAGGACAGATTGATTCA
AGCACTAGAGAGGGAAATCTAGCGTTCTTAAAGAGTATATGGTCTGACGTCGACACAGCA
ATGACCTTGGTGTTAGAGGCAGCTGTCAATTATACGGAGAGAGATGAAGATGTGACGGAC
GAGGATTTGGATTGTTTGAAGCATTTGAGCGAGCGTTGCAAGCTGTCCGCTGGTGTACTG
TGTCGTTGGGCTCGTGTGGCTCACGCCGCGCTTCGACTGAGATGCGAGTCACCGGCTTGG
GGCAAGGAGAACGCAGCACTTCATATACGTAGGGACACGTGCTTCTCACAAGCTCTCTCA
ACCCTAACAGCTGGTCTCCTCTGCTGGTTCTGTTCAGTACCGAGCGAGACAGTTGTCAGG
GTGTTGACCTCAGAACTTGGGCCTCTGTGTGAGTTTGAGGGTCTACTGAGTCTTTATTCA
ACCGAGAAAGCCATGTGGGGTGATATGGTGGTAGCCGTTGAAGACCTACAGACTGTTGTT
TTCACTCTCACTAAAGTCGGGCACAGCAATATGTCTATACCACAAGTGTCTGGTAACAGG
GGAAATATAACAGTTCAAATACCAGTGTCGGATTCACTGTACAATAAATTTACTAATAAA
GAGCATTTGAGCTTCACAATCACAGCCGTATTTTTCAATATTGGTATCAACGAAAAGGCC
ACATTGGCGGAGGCCCTCGGTGAAACAACGCCTCAATATCACTCGAATAACGATAACCTT
GATCGACTTTTCAAATATTATTACAAGTACAATAAGATTTTCCCCACCGACCCCACAGCG
CCTAACAGAGCGTCGTCGAGAACAAAACCATTGGAAGAAGTTATGGAGAACCTAAGAATT
TCTGTACACAAGAAAATACCAAAGAATGTAGAAGTACTTCATCTGGCTGCTTTGGCGACG
AGACTTATGAATGGTATCAGATTCACGTCGTGTAAGAGCGCCAAGGATAGGACTGGTATG
TCGGTGACATTGGAACAATGTTCTGTGTTGGCATCGGAGTATCATCTCGCTGAGCACGAG
ATGAAGAAAGCTTTGAGCATTATGAGGAGCGAGGGATGTCGTCGGGAAAATACGTACAAA
AACATAGGTGTACGGAAATACGCGTTCACTAAGAAGCAAATGATGGCGCTTCCGGAGGAA
TACAGACCACCGACCGGCAGCTACGGGTCGTCGCAGACTTAG
Protein sequence:
MRFNKQELSALASLTSQSYDKEGVMVLKEKQDGFFRRSEGCSIRWFRLKGNLLFYLKGPE
PWYESVGFIVLGQHKIHIQTQDENGYWPFHLVWENGICYRLATFHESERTLWLKAIHMAP
YDVISSQVIALREKLNRIRAITDITTYRLQKGIVLDMNEVPLCELALSCDNLLCDAYGCA
PSPVIVIYVKYSKGLCVKYGTTEIVDSCSNPCFSKTILFRASDGLSRDAVVKIVVYDVKE
RVSETSVLMGSTSLQLSTIQEAQRLRVALMTRENKTVGFVTINGWSLEPSYIGTSPNHTN
DKNCIDIPQKLLCHRRSQSLPPRLGLKLKFPSYGNLLKQNFVNSHQVTYRFHSGLGGDIT
VHEIMAEPKLCYQIPIQLLDIYIQREKELLEELLSVGNICGHWQTRQLDLAGTHVSLLKH
YCHSKRCLQQAEHAYFKASSRKDDSSLEFAPTNLHLQRMWVYNDTLNKTGFHDVITAGAF
AAHTHKAERTGGLIRLVQQVKDISNTKAAANYAAANKIQAEYDNVLALLRLRDEIISDVD
RIIVLLQANQRDKVIHVTEVIKAKVKSMLALWEPGVVEESLAIIGWPKHNCEDTENQTLL
TILRLTEQLNMFDANSDCENFDASSSSSSKDTSPTMDIASFPTSLHNISNSNPKLDTKNN
HFELQFFNDYFNSEERNKLNHSFRSVRSPTKPKLNDAHSFSFDSNRPRHGSLRHDFKSTA
SLEQVSYRCLMESLSGMDKKKGGDVRKESSSLPSIGQIDSSTREGNLAFLKSIWSDVDTA
MTLVLEAAVNYTERDEDVTDEDLDCLKHLSERCKLSAGVLCRWARVAHAALRLRCESPAW
GKENAALHIRRDTCFSQALSTLTAGLLCWFCSVPSETVVRVLTSELGPLCEFEGLLSLYS
TEKAMWGDMVVAVEDLQTVVFTLTKVGHSNMSIPQVSGNRGNITVQIPVSDSLYNKFTNK
EHLSFTITAVFFNIGINEKATLAEALGETTPQYHSNNDNLDRLFKYYYKYNKIFPTDPTA
PNRASSRTKPLEEVMENLRISVHKKIPKNVEVLHLAALATRLMNGIRFTSCKSAKDRTGM
SVTLEQCSVLASEYHLAEHEMKKALSIMRSEGCRRENTYKNIGVRKYAFTKKQMMALPEE
YRPPTGSYGSSQT