| New model in OGS2.0 | DPOGS207690 |
|---|---|
| Genomic Position | scaffold816:- 10804-22227 |
| See gene structure | |
| CDS Length | 4389 |
| Paired RNAseq reads | 931 |
| Single RNAseq reads | 2812 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA000169 (2e-121) |
| Best Drosophila hit | CG4585 (1e-76) |
| Best Human hit | probable ATP-dependent RNA helicase DHX35 isoform 1 (7e-16) |
| Best NR hit (blastp) | conserved hypothetical protein [Culex quinquefasciatus] (5e-85) |
| Best NR hit (blastx) | GK19100 [Drosophila willistoni] (2e-81) |
| GeneOntology terms | GO:0016780 phosphotransferase activity, for other substituted phosphate groups GO:0016020 membrane GO:0008654 phospholipid biosynthetic process |
| InterPro families | IPR000462 CDP-alcohol phosphatidyltransferase |
| Orthology group | MCL19832 |
Nucleotide sequence:
ATGATTTTTCATATACTGCTTATTAACTTGTCTCCTATTTTAGCTGAAAATGAGCTCGTT
AAGCCATTACCTTTGGAAGTATCACAACATTTAGGAACACAACTTCCGCAATTACCACAA
ATGAATGTGGCTGCAGATTATGCAGAAGATTTGTTTACGGATATCCAACCAAATAACGTT
TATTCCAATCGCTTAAGTAATGTTAAGGATATTGCCCGATATTGCCCTCATACAGAAATT
GTCTCCAGACATCTTAACAGACTTTGTAGCAAACCGAAATGTGATAATAAAATCAAAGCA
GTATTAAAAAACTACTATAGTCTTCTTATGAGTGCACTAAATTATAAACAAGATTTAAAT
ACAGTAAACAGTAACGTGGACCTAAATAACCAGTTGAATGACATTAATACACTGGCACAG
AAAATATTAATGAATAGAAATAATAACGTTAAAATTAAAATATCCTTTGAATACGAATTG
CCAACACTACAACAAAATAAATGTGACCAGCTCTGTAACGCTCTCGAGAAGTATGCAAAT
ACAATGAATAATGGACTACTGAACGTTGATGATGACAGGGATGCGGTAAAAGCTTATGAC
TACTTGATTACCAAACCAGATGACGTCTTGTACAATTATCCCGCAACCTTACCCACAGAC
AATCAGTCGCAGAAACCTTTACCAATAAGAATAACTAGTAATGACGAACCAAATTTGGAC
TCTCTTTCAAATCCAGCGTACGCGAAATTACCAAATTTAAATACTTTACAAGACTTATTA
CCAAACTTAGGGGGAAATATAAATCAGAATCCCTTACAAAACGAATTACCAGTGATGAAG
GAAGCTATACAGCAATCACCTACTATTCCTTCAACAAATGTATTACCTGTACCAAATACA
GAAAATTCTAAATATAATCCTCTGAATAATATAATCCCTCCATTACAAACTTCTGATACT
ATTTACCCTTGGAATTCAATTTCGTCCCAACCATCTCAACAATACCTGCCATCTCCGTTT
TCAAATCCTACAAATACATTAAGTTATCCTCAACCCTTGCCTATAAATTGGAAAGCAACC
GAAAATTCTTACCCTTTCAGTCCTAAGTCGAAGCCTCTTCCGGACAGTTATTCAGTAAAA
GCAATTTATAATCCCTCACAGAACTTCCCACTTAAGGGACAAGATCCGTTAGAAGTATCA
AATAATAATCCTTTAAGTAACTTACAGCCTTTTGTAAGACCTGAAGAGCCTTATCCTGAA
GAATTGTCACCTGGGTTACCTGGCCAAAATTTACCAGGTGCTGACAACTTGAGTCCTTTA
CAAAATACACTCTTACTCCAAAATCCAAAAAATATCGATTCCTATCCATCAAACTCATTG
CCATCACCACTGAATTTTGATCTCTTGCCAAATTCAGCGCTTTATCCACAAAATCTTTTA
GAAAACGCAAATTCTAATTCCCCAAAGGAATTACTGTCACTACCATTAAGTCCCTTACAG
GCTACGGATTATTATCCCAACCAAAACATTTTACCTGTGTTACAGAGTCCTACAGAACCA
CCTTCTAATAATTTACAAAACTTACTACCCTTGCCTATTAATCCCCCAAAAAAATTATAT
TCCAAACCACTAGAAATATTATCTTTACAACTTAATCCCTTAAATATTTATAATAATCCA
GCCAACAAACCAATTATCGGATATGATAACTCCTATCCTGAGCAAAACTTGGTAGATCAG
CAACAAAATGTTATGCAAACCCAGAATTTATTACAAAATATATCGCAATCACTACAAAGT
TTTACTGGAAATAAAAAGTACCAAGAATATGTAAACGCGTTAAACAGGAAATACTATGAC
TTACAAAGTTATCAGAATCTCAAGAAAAATTATAACGTAAATATGGATTTAACAAAATCT
GCGGATCAAGAAGCGGATGTCTCTACACATAACTTTAATAAAGCCTATTCTACGTTTGCG
TTCAGTAAAAATAATATGATACTGAAACAACTAAATGAATTGTATAACAACAGACAACAA
CAAAATGTTGGACAATTGACGACTGAAAATCCAATACTATCATATGTACTTAAACTGAAT
TGGAATTTAGAACCAAACGTGTTGTCAAACCTAAACCAAAAACAAAGTACAAATATCGAA
ATGGATTCGTCATCCCAAACACAACAAAATAGTTATAATTACTACAATCAATATTCAGGT
TTGAGTAAAGGACTATATCCTCAAGCGGTTCAAACAGACAGAAATCTTTTAAATCAAGGA
ATTGAAAATCTATCAAAAAATAACATTCCAACCGCGTCGTTGTTAAGCGGTCTAAATAAC
GCGTTATACAATTCCCATGACAAATACATGAACCAATTGCAAACTTCTTTATATAATAGT
CCCGTTCAGGTACCAAATTCTTATTACAATAATAATTTGAATATTGCAAACGCTAATAAA
CTAACAGAAAAATACAATGTTCAATTACAACATTTGCATCGGTTGCTTGCTGTGTCGAAT
CTGTACAAATTGAATTCAACACCAAACAGAAACAGCTTTGTTGAATTGACGTACAAACTG
AGGCACGACAGGCCAATACTTGATCCTTACTATTACGTGAAATACAGATTACCATACGGG
ACATTCTTGTCAAATATAAGAAATTTACTAGTTAAAATACCGAATCTCAGAAACAGTCCT
AATCATGACATTTTAATGGGTTCAGATATATCAGAAGCTTCCAATGATCTGAAGAAAGTC
AACAAAAATGATCTATTGAAACTTATAACAAGCGACGGGACCTTGATAAAAGCGAATTTA
GTCGAGACAGATAACACAAACCTTGATGAGAACTTAAAAATAGTTAGACAGTTGAATGCG
AACATACCACTTCATAGTATCTTCAAAACAGATGGTAATGCGACAAAAGTCTCTGGACAA
ATGATAAATCCTCTTACAGATTATTTGAGGGCCCAACAAAAATATCTTCAACATTTACAA
AAAAGTTTAGGTAGGAATGAATATAACACAGATCCGTATCCGGCACAGGCTGTACTAAGT
TACAATCAAAATCCCAAACAGCCAAGCCAACAGCCACAAAACAATGCATTCCTTGGATCC
AAATATAACAGCTATTTAGCTCCAAATACTCTTCGCCCAGGCGACGATAACTTATATCCG
GTTAAAAACAAAGATGGCATCATAGAAACTTTTATAAATCCAAACGTCGATGCCGCACTT
ACGGTAGACAATGACTCGAAGACGAACTTCGTCTATAATAGATACCATCATCTTCCTTTG
GAGTCTCAGAGACAGAAGCTGCCAGTTTTTCAATATCGGAACCACATTCTTTACCTTATG
GAGAAATATCAAACATTGATATTAATCGGTGAGACGGGATGTGGAAAGTCAACTCAAGTA
CCCCAGGAGAGCTCGACTCGTACGTCGAGGACCCAGCTGAATTACGAAGATGTAGTCTGG
ATTCCTTGCAGCGTGAATCCATTATGCCATCCGACTGTTAAATCGTTGATGGTAGACCAC
GTCAATCACTACATATATGGACCTCTGTGCTCGCTACTCGACATAGGTTTGGGTATATCG
GAAAGAATTTTATTTATAACGCCCAATATGATATCTATATTCCATGTGTTCATAGCATGT
GTTGGAGCTAAGCTTTTGACCTGTCAGAGTTTAGTCGCAAGAAGAATCGCGGTGGTACTG
TTCCAGATGAGAATGTTTCTGGATGATTTGGACGGTCATGTAGCGAGAGAGAGGAAACAT
ATAAAGGGGGAGAGATCCGAGGTAGGGACACTTGGTTATTGGGTTGATGGCCTGTGTGAT
CTTCTAGGTGTCGTGGCTATGATGTTGGGGATCTTGATTTATTTGAAGAATAACCCCCCG
CGTCGCGGTTACAAAGGCACGCCAGTGAGCACGCTGCCCTATCACCAGTTGAAAGAGATA
AATTCTAATGAAGATATCGAGAAAGAGAATGTTGAAATCGGTATATCGTATAAAACGAAG
GTCACCTTCCAGAGGATAGCTCAGGTTATCGGCCTCTTTTCCGGCCAGATGTTGCTGTCC
TCGCTAGCCTGGAACAGATATATAGATCTGTATCAGGACATATTAGAAAATTCCACAGAA
TACGATGTATTGAGACGCGAGAGTACTTTTCGTTCTGGTATTTTCTTCTCAGCGACATCT
CTATGGAGGATAGTGAACCCTCACAGCTATCTGCATCTCCTGTCTCTGTCCGTGTTTTGC
GATAAGACCTGGCCATTCCTAAGAACCGTCCATTACGCTGGATACGGCTGTTTGGTTATA
ACGGTTGCCATATCAGAATATTTGGTACAAAATATAAGAACTTCCGTCATAACCGGAAAT
GACGTGTGA
Protein sequence:
MIFHILLINLSPILAENELVKPLPLEVSQHLGTQLPQLPQMNVAADYAEDLFTDIQPNNV
YSNRLSNVKDIARYCPHTEIVSRHLNRLCSKPKCDNKIKAVLKNYYSLLMSALNYKQDLN
TVNSNVDLNNQLNDINTLAQKILMNRNNNVKIKISFEYELPTLQQNKCDQLCNALEKYAN
TMNNGLLNVDDDRDAVKAYDYLITKPDDVLYNYPATLPTDNQSQKPLPIRITSNDEPNLD
SLSNPAYAKLPNLNTLQDLLPNLGGNINQNPLQNELPVMKEAIQQSPTIPSTNVLPVPNT
ENSKYNPLNNIIPPLQTSDTIYPWNSISSQPSQQYLPSPFSNPTNTLSYPQPLPINWKAT
ENSYPFSPKSKPLPDSYSVKAIYNPSQNFPLKGQDPLEVSNNNPLSNLQPFVRPEEPYPE
ELSPGLPGQNLPGADNLSPLQNTLLLQNPKNIDSYPSNSLPSPLNFDLLPNSALYPQNLL
ENANSNSPKELLSLPLSPLQATDYYPNQNILPVLQSPTEPPSNNLQNLLPLPINPPKKLY
SKPLEILSLQLNPLNIYNNPANKPIIGYDNSYPEQNLVDQQQNVMQTQNLLQNISQSLQS
FTGNKKYQEYVNALNRKYYDLQSYQNLKKNYNVNMDLTKSADQEADVSTHNFNKAYSTFA
FSKNNMILKQLNELYNNRQQQNVGQLTTENPILSYVLKLNWNLEPNVLSNLNQKQSTNIE
MDSSSQTQQNSYNYYNQYSGLSKGLYPQAVQTDRNLLNQGIENLSKNNIPTASLLSGLNN
ALYNSHDKYMNQLQTSLYNSPVQVPNSYYNNNLNIANANKLTEKYNVQLQHLHRLLAVSN
LYKLNSTPNRNSFVELTYKLRHDRPILDPYYYVKYRLPYGTFLSNIRNLLVKIPNLRNSP
NHDILMGSDISEASNDLKKVNKNDLLKLITSDGTLIKANLVETDNTNLDENLKIVRQLNA
NIPLHSIFKTDGNATKVSGQMINPLTDYLRAQQKYLQHLQKSLGRNEYNTDPYPAQAVLS
YNQNPKQPSQQPQNNAFLGSKYNSYLAPNTLRPGDDNLYPVKNKDGIIETFINPNVDAAL
TVDNDSKTNFVYNRYHHLPLESQRQKLPVFQYRNHILYLMEKYQTLILIGETGCGKSTQV
PQESSTRTSRTQLNYEDVVWIPCSVNPLCHPTVKSLMVDHVNHYIYGPLCSLLDIGLGIS
ERILFITPNMISIFHVFIACVGAKLLTCQSLVARRIAVVLFQMRMFLDDLDGHVARERKH
IKGERSEVGTLGYWVDGLCDLLGVVAMMLGILIYLKNNPPRRGYKGTPVSTLPYHQLKEI
NSNEDIEKENVEIGISYKTKVTFQRIAQVIGLFSGQMLLSSLAWNRYIDLYQDILENSTE
YDVLRRESTFRSGIFFSATSLWRIVNPHSYLHLLSLSVFCDKTWPFLRTVHYAGYGCLVI
TVAISEYLVQNIRTSVITGNDV