| New model in OGS2.0 | DPOGS202693 |
|---|---|
| Genomic Position | scaffold50:- 37221-49188 |
| See gene structure | |
| CDS Length | 3489 |
| Paired RNAseq reads | 363 |
| Single RNAseq reads | 971 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA004861 (2e-89) |
| Best Drosophila hit | CG6428 (3e-139) |
| Best Human hit | 60 kDa lysophospholipase (7e-90) |
| Best NR hit (blastp) | lyso [Drosophila ananassae] (1e-154) |
| Best NR hit (blastx) | lyso [Drosophila ananassae] (5e-149) |
| GeneOntology terms | GO:0004622 lysophospholipase activity GO:0006520 cellular amino acid metabolic process GO:0004067 asparaginase activity |
| InterPro families | IPR006034 Asparaginase/glutaminase IPR020683 Ankyrin repeat-containing domain IPR020827 Asparaginase/glutaminase, conserved site IPR002110 Ankyrin repeat IPR006033 L-asparaginase, type I |
| Orthology group | MCL11177 |
Nucleotide sequence:
ATGATAGAATATGAAATTTTACTAGATTCTTCAAACATGGCTTTTGATGACTGGATTCAA
ATAGCGGAAGATGTCATGAAATATTACGACCAATATGATGGTTTCGTAGTTCTTCACGGT
ACTGACACACTGTCGTACACGGCGTCGGCCTTATCGTTTATGTTCGAAAATATTGGCAAA
AGCATTGTACTCACTGGCTCACAGATTCCAATATTTGAACCGAGGAGTGACGGGTCAGAT
AACTTGGTGTCATCGTTGCTCATAGCCGGTGGGCTGAACATACCAGAAGTCACCGTGTTT
TTTGGAAATAAACTTTATAGAGGAAATAGAACGAGAAAGATATCAGCTAACAACCTCAAC
GCCTTTAGCTCTCCGAATTGTGTGCCCCTAGTGGAAGTTGGTATCGACTTTGAAGTAAAC
AAAAAGGCGATATTCAAACCTACCAACAAAGAGAGATGTCACTTACATGCTAAAATGTCC
AAAAATGTTGGTCTTCTCAGGATATTTCCAAGTATAAGCACATCTTTGATTAGAGCATTC
TTTCAGCCTCCGATTGAAGGCGTAGTATTAGAAAGCTACGGGGCTGGCAACATCCCGTCT
AACCGTGAAGATCTGTTAACGGAAATATCAGCAGCTGTTAAGAGAGGAATGATTGTAGTT
AACATCACCCAATGCTTAAGAGGAGGAGTTGTGGCGGCCATGTACGAAACGGGAAAGTTT
TTATCAGAATGCGGAGTGGTGTCAGGTTACGACATGACGCCGGAGGCTGCTCTCGCCAAA
CTATCGTACGTGCTGTCCAAAACAGAATTGACGTACCAACAAAAAGTTGATATGATGGTG
ACAAATATAAGAGGAGAGTTAACAAAAACGTCATCAATATCAATCGAGGACGATACACTC
TTAGAAGCGTTGGCGTTAACTCTAAACATAGAATCACAAAATAAATTAGTTGAGGTGACA
GGAAAGGTATTTAATGCGCTTCTGTTGTATGCGATAGGAAAAAATGATGTTGGCGCCGTC
AAGATGATGCTGGACATGGGAGCAAATATTAACACAAAAAACTCTGATGGCAGCACTGTA
TTACATGAAGCTGTTCTTAAAGGAAATATGCAAATGATTGAGTATTTGTTGAAAAATGGC
GCTGAAGTTAATATTTGGACGAGATGTGGGGAGAGCCCTCTCTTAGCAGCTATTCACAAA
GATAACGTCGCTGTGATATGTCTACTACAAAAGTACGGAGCATGCCTCAGTAGCGAGGAT
AGGAAAATTGTGGCAGATATGTCTTCATTGGCAGCCAGGTGTGGAGATCTCAAAAAACTT
AAGACCTTGATCGCAGCGGGTTTAGATCTCAGTGCGCCAGATGAGATAGGGCAGAATCTA
TTGCATAAAGCCTCCGAGAGATATATTGTGTTTAAGAGCATTCATGGTTGTTATTTAAAC
ATGCAAAATGATAACTTACTTTACGGTGAAAATATAAGCGGAGAAATAAACGAGATCAAT
ATGAATAACGTCAGTCAGAAAATTGAGGCGAAAGTGAAAAAGGCTAGAAGTTTCGTTGAA
CTGTCTATATTAAACACGTCGAATTCGGTGAAGAGTTTGGGGAGGAATGAGAGACGTGTT
TTAGTTTTATACACCGGTGGCACCATCGGTATGGTGAAGAATAAAGATGGAGTTCTGGTG
CCACAAAAAGGAGCTTTTGAAAACCTCATTCGAGGGTACCCACAACTCCATGACATTATG
TCATGGCGCCAAAGACTAAGTGAACCCAATTTTGACACTTCCTTTCTTGTGTTGCCAGAG
GCCAAGGAATTGGATATGAGAATTTCTTATAAAATAATAGAGTACGAAAATTTACTGGAC
TCTTCGAACATGACTGAGCAAGAATGGATAAGAATAGCAGAAGATATAATGAAACACTAT
GAAGAGTATGACGGTTTCGTAGTTCTTCACGGTACTGACACATTATCATACACAGCATCT
GCCTTATCGTTTATGTTCGAAAATATTGGTAAGGGCATTGTACTCACTGGCTCACAGATT
CCAATATTTGAACCGAGGAGTGACGGGTCAGATAACTTGGTGTCATCGTTGCTCATAGCC
GGTGGACTGAACATACCAGAAGTCACCGTGTTCTTTGGAAATAAACTCTATAGAGGAAAT
AGAACAAGAAAGATATCAGTAAACAATTTATACGCATTTAACTCCCCGAATTGCGTCCCA
CTCGTCGAAGTTGGTATCGACTTTGAAGTAAATAAGAAGGCGATATTCAAACCAACAGTC
ATAGAGAGATGTCACTTACACGCTAAGATGTCCAAAAATGTCGGTCTTCTTAGGATATTC
CCTAGCATCAGCGCGTCCGTGGTTAGAACATTCTTTCAGCCGCCAATTGAAGGTGTGGTA
TTAGAAAGCTACGGTGCTGGCAACATACCATCGAACAGAGAGGATCTATTTTCGGAAATA
GCGGCAGCAGTAAAGAGAGGAATGATTGTTGTTAACATAACTCAATGCACCAGAGGCAGT
GTCATTTCTCCAATGTATGAGACTGGTAGATTAATATCGGAGTGCGGAGTGGTATCAGGT
TACGACATGACGCCAGAGGCTGCCCTCACTAAACTATCTTACGTGCTGTCCAAAACAGAA
CTCACTTATCAGCAGAAAGTTGACATGATGGTGACGAACATAAGAGGAGAATTAACAAAT
ACGTCATCTATAGCTATCGAGGACAATACTCTTATAGATGCTCTAGCATCAAGTTTGAAC
ATACAGTCACCAAAGAAATTAATAGAGGTGACAGAAAAAGTGTTCAGTGCTCTCTTGTTA
TATGCAATAGAACATGATGATCTCAGAGCTGTTAAGAAGATGCTGGCTCGCACCTCCGGA
CGCGAGCGCTGCGAGGCGCGAGACAAGACGCGAGGCGAGTCGCGAGCGACTATTTACACT
CTGACCTTGTGCTTCGGCTCGTGCTCCCTCTCGCGACTCGTACGCGAGTATATGGGTGCC
GACGTTAACGCTCAAAACTCAGAAGGCAAGACGGTGTTGTATGAAGCCATTCTGAGGGGA
AACATGCCTATTGTTGAGTATTTATTGAAGAGCGGTGCAAATGTCCACTTGAAAACAAGA
TGTGGCGAAACACCTCTCTTAACGGCTATACATAAGGATGACCACACAATAATATCTCTT
CTCCGACAATGTGGAGCGCACCTCGCTAACGTGGACACAAAACCAGTTGCTGAAATGCTA
TCACTAGCAGCCAGGAGTGGTGTAGTTCACAAACTGGAGAGCTTGAGAGCCGCGGGTTCG
GAACTCAATTTACCAGACGAGATCGGTCAAACACCCTTGCATAAGGCCGTTCTCTGTAAT
AATCCAGCGGTGGTCAGATATCTGTTATCGCAGGGAGTGGACAAAGAAACCAAAGACATC
CTTGGATTCACTCCGATGGATTGCGCGATAAAGTTGGAACTCACCAATATTATTGATATG
TTGAAATAA
Protein sequence:
MIEYEILLDSSNMAFDDWIQIAEDVMKYYDQYDGFVVLHGTDTLSYTASALSFMFENIGK
SIVLTGSQIPIFEPRSDGSDNLVSSLLIAGGLNIPEVTVFFGNKLYRGNRTRKISANNLN
AFSSPNCVPLVEVGIDFEVNKKAIFKPTNKERCHLHAKMSKNVGLLRIFPSISTSLIRAF
FQPPIEGVVLESYGAGNIPSNREDLLTEISAAVKRGMIVVNITQCLRGGVVAAMYETGKF
LSECGVVSGYDMTPEAALAKLSYVLSKTELTYQQKVDMMVTNIRGELTKTSSISIEDDTL
LEALALTLNIESQNKLVEVTGKVFNALLLYAIGKNDVGAVKMMLDMGANINTKNSDGSTV
LHEAVLKGNMQMIEYLLKNGAEVNIWTRCGESPLLAAIHKDNVAVICLLQKYGACLSSED
RKIVADMSSLAARCGDLKKLKTLIAAGLDLSAPDEIGQNLLHKASERYIVFKSIHGCYLN
MQNDNLLYGENISGEINEINMNNVSQKIEAKVKKARSFVELSILNTSNSVKSLGRNERRV
LVLYTGGTIGMVKNKDGVLVPQKGAFENLIRGYPQLHDIMSWRQRLSEPNFDTSFLVLPE
AKELDMRISYKIIEYENLLDSSNMTEQEWIRIAEDIMKHYEEYDGFVVLHGTDTLSYTAS
ALSFMFENIGKGIVLTGSQIPIFEPRSDGSDNLVSSLLIAGGLNIPEVTVFFGNKLYRGN
RTRKISVNNLYAFNSPNCVPLVEVGIDFEVNKKAIFKPTVIERCHLHAKMSKNVGLLRIF
PSISASVVRTFFQPPIEGVVLESYGAGNIPSNREDLFSEIAAAVKRGMIVVNITQCTRGS
VISPMYETGRLISECGVVSGYDMTPEAALTKLSYVLSKTELTYQQKVDMMVTNIRGELTN
TSSIAIEDNTLIDALASSLNIQSPKKLIEVTEKVFSALLLYAIEHDDLRAVKKMLARTSG
RERCEARDKTRGESRATIYTLTLCFGSCSLSRLVREYMGADVNAQNSEGKTVLYEAILRG
NMPIVEYLLKSGANVHLKTRCGETPLLTAIHKDDHTIISLLRQCGAHLANVDTKPVAEML
SLAARSGVVHKLESLRAAGSELNLPDEIGQTPLHKAVLCNNPAVVRYLLSQGVDKETKDI
LGFTPMDCAIKLELTNIIDMLK