New model in OGS2.0 | DPOGS215111  |
---|---|
Genomic Position | scaffold2892:+ 858-17368 |
See gene structure | |
CDS Length | 4413 |
Paired RNAseq reads   | 1252 |
Single RNAseq reads   | 3273 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA009601 (0.0) |
Best Drosophila hit   | phospholipase C at 21C, isoform C (4e-11) |
Best Human hit | 1-phosphatidylinositol-4,5-bisphosphate phosphodiesterase epsilon-1 isoform 2 (6e-23) |
Best NR hit (blastp)   | endonuclease-reverse transcriptase HmRTE-e01 [Heliconius melpomene] (0.0) |
Best NR hit (blastx)   | endonuclease-reverse transcriptase HmRTE-e01 [Heliconius melpomene] (0.0) |
GeneOntology terms    | GO:0004871 signal transducer activity GO:0005509 calcium ion binding |
InterPro families    | IPR000909 Phospholipase C, phosphatidylinositol-specific , X domain IPR000477 Reverse transcriptase IPR015359 Phospholipase C, phosphoinositol-specific, EF-hand-like IPR005135 Endonuclease/exonuclease/phosphatase IPR011992 EF-hand-like domain IPR017946 PLC-like phosphodiesterase, TIM beta/alpha-barrel domain |
Orthology group | MCL10012 |
Nucleotide sequence:
ATGATACACGCAGGAGTTTGTGGAGAGATCCTCTCAGCCACTCCATCCTTAACGAGTCAC
TCAGTTGCCGCTACTCCGACCCACAGAAGAGATTTCAAACGCGAGTCCACTAAGGACGAA
AGATCATCGACAAAAAGGGATGCGAGGCGGGATTCCAAACGAGATCAGTCCAGTCCTTTA
AGAGAGAGTTCCAAACGGGAATCGAGATATAGCGAGCCGAGCCGACAAGTGTACATAGCT
TCATTTGATGAAGAGGGGGAGCAGTTCCGACGAGTGGGTCCTGAGGGTCTGGTGAACTTG
GAGAAGGTTTATCGAACCCAGGCAGTCATGGACCACATCGCCAGCTTCCACCAGCACAGA
TATAGCCTAGCCAGGACCACAGCGCCGCTGTTTGGAGATTATTTAAGAACAGCTATAGCA
TCGTGCGAGGAACCGGTGTTCGTCCAACCAGCACAAAAGACCACGGGTTCCGACTTCGAG
AACGAGGCCTTATACGAGCTAGAGGGCGGGGGATACACGCCAGTACAACCCTTGCCCCAT
GATCATGGAGTGACCATGTTCCCTCTAGCGCCACAGAATGGGGAAAGAATGGATAGGCAC
GTGTTACAGATAATGCAGCATGGTACTGCATGTGTGGTGGGAGAGGCTGAGTGGAGTGGA
GCCCTGGCGCATCTACGACTGGAGCGATCGTGTGCTCTGCTGACTTGGAGCCGAACAGCT
CACAGACCCCACTCCTATCATGGTGATGCTGTGTCAGAAAATGTTCAACAACCAGAAATA
AGTCTTTCTTACAATCCCGAGGAAGTTATACCTCTGAAATACTCAGGTAACTTGGCACAT
GAAAACGAAGCTGGCGTCGTTGGAGACGAAGGCTTCGTGGATCTACAGTGCGTGAAGGAT
CTTCGTCTCTGCGGTAAACTGCTCGAGCCGCGTGACGTGTTCGAATTGTGCGCAAACGCG
CGGCGACACGGTCTGGAGACTGGCCAGAGACCGCACATCATATCTCTAGTCTATGGAAAG
ACGTTAAGCGACAATCGGACGGTGCATTTTCTGCTGCCGCCGTATTCGTTTCGGGTCTGG
GCTGTGGGACTCCACGCTGTCGTCAAAGCTCTAATCAGTCAGACGAAACTTGCCGACAGA
AGTCTCGCGTGGTTGAAAAACAAATACACAGCTCTGTATTACGAAGATGGTTGCTGTTGT
GAACCACTCGTCTCTGATGCTATACGGGTGTTCGGCGGTCGAGAGTCAGTTGGGGGCAGT
TCCTCTCAATCAACACCAGTGAGATACACAGAATCCCACACGGACTCTAGCAGAAGTAGT
GGCATCAAGTTCAAGAAGAATAAATCTACGTCAGAGCTTAAAAGCTCTCCAAAAAGCAGC
GGTTCACATCCCTCAGGAACGAGAAGTGAGGACGAAGTACAGCCGTCACCAAGACACAGT
TCGTACTCAGCTGCTTCAAGCGCTCGGCACAGCAGCCTCACAGCCAGTTTTATATCAAAC
TCACCAAATAGAAGCAGTTTAAGAAGACTGGAGACTAGTGAAAGGTTTTGGGAGAATCTC
AAGCACCTACGGACTGGTTCTGTCGGATATGACACACAACTAGACTTCATGGACTTTGTT
TCTTTATTTAGAAGTTTTAGTCTAGTGATGAGATCCGAGCTTCGGGAGGTGTTCTCACAG
CTGGCTGTACCGCGATCTCGTGGAGCACTCCTGGCGGAGAAGAGCAGAAGTTCTCCAGAG
CTGTTCAGCAGAGGAGGGGTGAGGAGTGGTTTGTTGACCAGGAACGGATCTTTGGACCTG
GAGCCGCCAAGTGATAAAGTTGGGAGAAAGAAAGCCTTCGATATTCTAGCAGCTGCAGCA
TTACCAGGGGCCAGTCCAGATGTGAGTGACAGGGTCTTGACGTTACCCACTTTAGGAAAA
TTCTGTGAAACCAGACAAAACGAACCGAAGACTGAACAAAAATTAAAGGATATTATTTAT
AGACACGAACCAGACCCTGCCTTACGATCAGAAAACTGCTTGTCTTTCGAAGGATTCGTC
AGATTCCTAACAGATAAAGACAATTACGCCTTCGTACCTGAACAAATGAGGGCGAATAAT
TTGTCTGGCAAAGAAACTGAAGAAGAGGCTGAATCCAAGGACATGACGGGTCCTCTCAGC
GAGTACTACATCGCAAGCAGCCATAATACCTACCTCACTGGACACCAGCTGAAAGGAGAA
TCGTCCGTGGAATTATACAGTCAGCCTTGGGCATACGGGTACGCGACCCCGGATCCTCGA
GCCACCACTTTCATACCTCTATCCTCAGTCCATGAAGGTGACGGCAGTCGCTCCGTTAAA
ACCACTCCCGCTACTCTTATGGTTGCAAAAGTTTATGGACTGGGTACGGCTAGGGCGTCG
CCGATAAACGACGCGCAGGCACATCGCCCTACACCTGCGATAAGTGGGCAAGGGCTACCG
TGTCAAGTACGGGCACGGCTAAAGACGTTAGTACCCCAAAGGAAACTCCGCTTTGCAACG
TGGAATATTGGCTCTCTAACCGGACGATGCAGAGAACTCGCAGATGTACTCATGAGACGT
CGGGTCCAGTGTGCGTTCCTCCAGGAAACTCGCTGGAAGGGCAATAAGTCTCGGAACATC
GGACAGGGTTACCGGCTGATATACACTGGGTCGCCTTCAGGTAAAGCTGGTGTAGCGGTA
GTGCTATCTGAGGAGCTTCGGAATGGTCTTCTTGAAGTTGATCGTCGCTGCGACCGCCTG
ATGCGGGTGCGGGTACTGATCGAGGGAGTGATTACTAACTTGATCAGTGCTTATACTCCT
CAGGCTGGATGTAGCGGGTCCGAAAAAGAGTCATTCTGGGAGCAATTTGAAGAGGTTCTA
CGTGCTATACCAGCTGCTGAAGTAATCATAGTTGGGGGGGACTTAAATGGCCACGTAGGT
AGGGCTGCGGAAACGTTTGACCGTGTACACGGTGGTTTTGGTTATGGTCGCCGCAATGCA
GAGGGAGAAAATATTCTCAGAACCTGTATTGCGTCTGACTTAGCCGTCGTGAACACGTTC
TTCCAAAAGACTCCACAGCACCTTATCACGTATAAGAGCGGGTCCCACTCAACCCAAATA
GATTACCTGCTGACCAGACGGTGTCATATCGGCAAGGTGACTAACTGTAAAGTCATTCCT
GGTGAAAGCCTGACGGCCCAACATCGACTTCTTGTCATGGACTATGTCGTTACCCCGAAA
AAGAAAGTGGCCGAGAAACGTAAGCCTCGCATCAGGTGGTGGTTGCTGAATGGAACGATG
CAGACCAGCTTTCGGGCAGAGGTTGAGAGTCAAAATCTGTCGACTAATACCGAAACTGCT
CAGGAAGTTTGGGATCGAGCCCAGTCAGCAATTATCACAGCAGGTAAACGAGTTCTAGGC
CTTTCTAAGGGAGGACGGGTCATTGACAAGGAGACATGGTGGTGGAATGACGAAGTGCAG
GAGGTGATTCGTGAAAAGAAGACTGCCTTTAAGAAGTGGCAGCAATCAAACTCTCCTGAA
GACAGACTAGAGTACATAGCAGCGAAACGTGCCAGTAAAAGGGCTGTTGCCAGAGCCCGC
AGTGATAGGTTATCACCATTATATGATACACTTGAAACTGCGGAGGGGCAGAAGCTCATT
TACAAATTGGCACGAGCTCGGGATAAGGCGACGCAAGATATCGCAAAATGTCTTAGCGTC
AAAGATTCCCAAGGCACGTTGCTGTGTAATCATGCCTCTGTGAAGGAGAGATGGAGATGC
TACTTCAAGGAGTTGCTAAATACTCAGCACCCGTGCAGTCTTCCAACCGAAATACCTCCT
AATCTTGGACTTATTGCCCCGATAACACCTGACGAAACTCGGAATTGTCTTCGACGCATG
AAGAATCGGAAAGCGGTGGGACCTGACGATATTCCGATCGAAGCGTGGAAATCATTGGGC
TCTCTTGGTGTGCTCATACTGACGGACCTTTTTAACCGCGTCTTGAACACTGGGACTATG
CCACATCAGTGGCGTTATAGTTACATTACCCCTATATACAAAGGCAGGGGCAGTGTTCAA
GATTGTGGTAGTTATAGGGGCGTTAAGATCATGAGTCACACCATGAAGCTCTTTGAGCGT
ATGATCGACCTCAGGCTCCGCCGAGAGTGTACTGTCTCGGAATGTCAATATGGATTTCAG
CCAGGATCGGGCACCTTGGACGCCATCTTTGCCATCAGAACTCTGATGGAGGCATACAGG
GAAAAAAGGAGAGCTCTGCATGTCGCATTCCTAGATCTGCAGAAGGCCTTTGACTGCGTG
CCTCGTCAATGTATCTGGTGGGCATTGCGATTCAAAGGGATCCCTCATCAAATACAGTGC
CAAAGGAAGAACAGGCGAGATCCTTTACCGTAA
Protein sequence:
MIHAGVCGEILSATPSLTSHSVAATPTHRRDFKRESTKDERSSTKRDARRDSKRDQSSPL
RESSKRESRYSEPSRQVYIASFDEEGEQFRRVGPEGLVNLEKVYRTQAVMDHIASFHQHR
YSLARTTAPLFGDYLRTAIASCEEPVFVQPAQKTTGSDFENEALYELEGGGYTPVQPLPH
DHGVTMFPLAPQNGERMDRHVLQIMQHGTACVVGEAEWSGALAHLRLERSCALLTWSRTA
HRPHSYHGDAVSENVQQPEISLSYNPEEVIPLKYSGNLAHENEAGVVGDEGFVDLQCVKD
LRLCGKLLEPRDVFELCANARRHGLETGQRPHIISLVYGKTLSDNRTVHFLLPPYSFRVW
AVGLHAVVKALISQTKLADRSLAWLKNKYTALYYEDGCCCEPLVSDAIRVFGGRESVGGS
SSQSTPVRYTESHTDSSRSSGIKFKKNKSTSELKSSPKSSGSHPSGTRSEDEVQPSPRHS
SYSAASSARHSSLTASFISNSPNRSSLRRLETSERFWENLKHLRTGSVGYDTQLDFMDFV
SLFRSFSLVMRSELREVFSQLAVPRSRGALLAEKSRSSPELFSRGGVRSGLLTRNGSLDL
EPPSDKVGRKKAFDILAAAALPGASPDVSDRVLTLPTLGKFCETRQNEPKTEQKLKDIIY
RHEPDPALRSENCLSFEGFVRFLTDKDNYAFVPEQMRANNLSGKETEEEAESKDMTGPLS
EYYIASSHNTYLTGHQLKGESSVELYSQPWAYGYATPDPRATTFIPLSSVHEGDGSRSVK
TTPATLMVAKVYGLGTARASPINDAQAHRPTPAISGQGLPCQVRARLKTLVPQRKLRFAT
WNIGSLTGRCRELADVLMRRRVQCAFLQETRWKGNKSRNIGQGYRLIYTGSPSGKAGVAV
VLSEELRNGLLEVDRRCDRLMRVRVLIEGVITNLISAYTPQAGCSGSEKESFWEQFEEVL
RAIPAAEVIIVGGDLNGHVGRAAETFDRVHGGFGYGRRNAEGENILRTCIASDLAVVNTF
FQKTPQHLITYKSGSHSTQIDYLLTRRCHIGKVTNCKVIPGESLTAQHRLLVMDYVVTPK
KKVAEKRKPRIRWWLLNGTMQTSFRAEVESQNLSTNTETAQEVWDRAQSAIITAGKRVLG
LSKGGRVIDKETWWWNDEVQEVIREKKTAFKKWQQSNSPEDRLEYIAAKRASKRAVARAR
SDRLSPLYDTLETAEGQKLIYKLARARDKATQDIAKCLSVKDSQGTLLCNHASVKERWRC
YFKELLNTQHPCSLPTEIPPNLGLIAPITPDETRNCLRRMKNRKAVGPDDIPIEAWKSLG
SLGVLILTDLFNRVLNTGTMPHQWRYSYITPIYKGRGSVQDCGSYRGVKIMSHTMKLFER
MIDLRLRRECTVSECQYGFQPGSGTLDAIFAIRTLMEAYREKRRALHVAFLDLQKAFDCV
PRQCIWWALRFKGIPHQIQCQRKNRRDPLP