| New model in OGS2.0 | DPOGS203671 |
|---|---|
| Genomic Position | scaffold120:- 369674-373122 |
| See gene structure | |
| CDS Length | 2622 |
| Paired RNAseq reads | 494 |
| Single RNAseq reads | 1231 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA003467 (0.0) |
| Best Drosophila hit | Leucyl-tRNA synthetase (0.0) |
| Best Human hit | probable leucyl-tRNA synthetase, mitochondrial precursor (1e-170) |
| Best NR hit (blastp) | leucyl-tRNA synthetase [Culex quinquefasciatus] (0.0) |
| Best NR hit (blastx) | leucyl-tRNA synthetase [Culex quinquefasciatus] (0.0) |
| GeneOntology terms | GO:0006429 leucyl-tRNA aminoacylation GO:0004823 leucine-tRNA ligase activity GO:0005739 mitochondrion GO:0005759 mitochondrial matrix GO:0005524 ATP binding GO:0007040 lysosome organization |
| InterPro families | IPR001412 Aminoacyl-tRNA synthetase, class I, conserved site IPR002302 Leucyl-tRNA synthetase, class Ia, bacterial/mitochondrial IPR009080 Aminoacyl-tRNA synthetase, class 1a, anticodon-binding IPR014729 Rossmann-like alpha/beta/alpha sandwich fold IPR009008 Valyl/Leucyl/Isoleucyl-tRNA synthetase, class Ia, editing domain IPR002300 Aminoacyl-tRNA synthetase, class Ia IPR015413 Aminoacyl-tRNA synthetase, class I (M) IPR013155 Valyl/Leucyl/Isoleucyl-tRNA synthetase, class I, anticodon-binding |
| Orthology group | MCL13470 |
Nucleotide sequence:
ATGTCTATTATGAAATCATGTAGAAACTTATTACTAAAAGAAAAAACACTTCTGTTCCAT
CGATTCAGTAGATATAAAAGCTGTCTTGGTTTATGGGAACAAGATATTTCAACTGAAATT
AAACTAAACATAGAAAGACACTGGTCTCCTGAAGTGCTGGCTAATGAAAAGCTAATTACA
AACGAAAATAAAGTCTATATTCTTTCAATGTTTCCATATCCATCTGGTAATTTACATATG
GGACATGTCAGAGTATATTCAATATCTGACTCTATAGCAAGGATACAAAAATTACAAGGC
AAAAATGTTATACATCCAATTGGCTGGGATGCATTTGGCCTGCCAGCTGAGAATGCAGCT
TTAGAACGCAACATCTTGCCTCAAAAGTGGACAGACTCAAATATCAAGGCAATGAAAAAT
CAATTATTACAACTTGGATTGAATTTTGATTGGGAAAGAGAAATTAGCACATGTAATCCA
GATTACTATAAATGGACTCAGTACATATTTTTAAAGTTATTTGAAAATGGCTTGGCATAC
CAAAGTAAGGCAAAAGTGAATTGGGATCCTGTGGACAATACAGTACTTGCTGATGAACAA
GTTGATGACAATGGTTGTTCATGGAGGTCTGGTGCTAAAGTTGAGAAGAAAACTTTAACC
CAATGGTTTATTAAAACCACTAAGTATGCCAAACAACTATATGATGGCTTAAGTAGTGAT
TCTTTAGGGAATTGGAAGGATATTATCAATCTACAGAAGCACTGGATAGGAGAATGTGAT
GGTGTAGTGGTTAGCTTTAAGGTAAAAATTAAAAATAAAGTTCAGCATTTAGAGATATGG
TCTTCGGAACCCTACAAATTTATTCACGGTGATTACATATTTATGAAGAAAGATAACGCA
ATGTTACAAGAGTTAAGTCATGAAGAAATAAATAATTTAAAGTGTTATAACCCAGTATCA
GAAAAGGAAATATCTGTTTATGTATGTGATGATGTAAACTATCCTGAGGGTAGAGATGTG
TATATAGCCAGTCCATCAGTTGATGCTGATGATTACAAGCTAATCAGATGTCTAAACATT
CCCTTAGACATTCAAAGAATAGATATCAATTGTAATAAAGAAAATGAAAAAGGAATAAAA
CTAGCACAAAGTAAAAAAGTTGGTGGGTATTATTCAAGTTCAAAATTAAAAGATTGGCTT
ATATCCAGACAAAGGTATTGGGGAACACCAATACCTATTATACATTGTCCATCTTGTGGT
GCTGTTCCTGTACCTTATGAAGACTTACCAGTTGTTTTACCTGAAAAGAAAACTGATGAA
GCCTCTTTAAGTCTGTCAAGTATTGAGTCATGGGTGAATTGTAAGTGTCCACAATGCTCA
GGCAATGCTAGAAGGGAATGTGATACAATGGACACATTTGTAGATTCTTCCTGGTACTAT
TATCGGTACCTAGACCCACAAAATAAACAAGCGCCATTTAATATAAAGTCATTGGCTGGG
GTTACTCCTGCAAACTGTTATATAGGTGGTAAGGAACATGCAGTACTCCACCTTTATTAT
GCTCGTTTTATGAGTTACTTTTTACACTCAATAGGTTTGACTCCCACACAAGAACCTTTC
AAAAAACTTTTAGTCCAAGGCATGATTATGGGACAGTCTTATAAAGTAAAATCCACAGGA
AAATATATACCACCTGATGAAGTTGAACAGGTTGGTAAAGGATACAAGGAAAAAGCAACA
GGAGAGACCGTGTTAGCTCAGTGGGAGAAGATGAGCAAGTCTAAATTCAATGGAGAAAAC
CCTCAAAGATTATTAACAGAATATGGATGTGACACCACCAGATTATTGATACTTTCCGAT
GTTCCTCCTGAGACAAGTAGGAAGTGGTCAGATGCTACCCTTCCTGGAGCTTTAAATTGG
CAGCATAGACTGTGGAGGACAATTAGAGAATTTTTAAAACACCGAAATAATCCTGAATTA
TTTAATAACACTACTCTGGGAAGCCAAGTAGAGGAATTCGATACGAGGACATGGAATTCA
AGAAATTATTTCATTGCTACAGCAACATATCATTTCTTGCATACACAAAAACTTAGCGTA
GGAATATCGAGACTGCAAAGTTTGACGGCGATTTTGAGGAATAATGTACCTCCACTAGTT
GTGGCCAACAGCAAAGAGTTCGAGTTAGCCCTAGCGAATCTTATTGTCATGTTGTCGCCG
ATAACACCACATTTCTGTTCGGAACTTTGGGCTGGATTCCTCTCAGCTCCACATAGGCTC
TCAAATAATATAGACGCAATCGATTGGAATAAAGAAGTTCTTCAACAAAAGTGGCCCAAA
GTAGATTCTAAGTATCCATTATCTTTTCTATGCAAGGTCGATGGAGCTGATCGTTGTGAT
TTAAAAATTATAGGCCACGAATTAAATAATATGACAGAAGAAAAAGCCCTCGAAATTATG
CTTAAAGAAAAACTTGTAAAAGACAGAATTAAGACTGACATAATTAAAACTAAATATGAA
TTATACCCCGACTGTCGTGCAATATTACACATATTTACGGAAAGATCAGCAAAAGTCAAG
AAAAATAAAATAGACGAGGAATTAAAGAGATCTCAAGCATAA
Protein sequence:
MSIMKSCRNLLLKEKTLLFHRFSRYKSCLGLWEQDISTEIKLNIERHWSPEVLANEKLIT
NENKVYILSMFPYPSGNLHMGHVRVYSISDSIARIQKLQGKNVIHPIGWDAFGLPAENAA
LERNILPQKWTDSNIKAMKNQLLQLGLNFDWEREISTCNPDYYKWTQYIFLKLFENGLAY
QSKAKVNWDPVDNTVLADEQVDDNGCSWRSGAKVEKKTLTQWFIKTTKYAKQLYDGLSSD
SLGNWKDIINLQKHWIGECDGVVVSFKVKIKNKVQHLEIWSSEPYKFIHGDYIFMKKDNA
MLQELSHEEINNLKCYNPVSEKEISVYVCDDVNYPEGRDVYIASPSVDADDYKLIRCLNI
PLDIQRIDINCNKENEKGIKLAQSKKVGGYYSSSKLKDWLISRQRYWGTPIPIIHCPSCG
AVPVPYEDLPVVLPEKKTDEASLSLSSIESWVNCKCPQCSGNARRECDTMDTFVDSSWYY
YRYLDPQNKQAPFNIKSLAGVTPANCYIGGKEHAVLHLYYARFMSYFLHSIGLTPTQEPF
KKLLVQGMIMGQSYKVKSTGKYIPPDEVEQVGKGYKEKATGETVLAQWEKMSKSKFNGEN
PQRLLTEYGCDTTRLLILSDVPPETSRKWSDATLPGALNWQHRLWRTIREFLKHRNNPEL
FNNTTLGSQVEEFDTRTWNSRNYFIATATYHFLHTQKLSVGISRLQSLTAILRNNVPPLV
VANSKEFELALANLIVMLSPITPHFCSELWAGFLSAPHRLSNNIDAIDWNKEVLQQKWPK
VDSKYPLSFLCKVDGADRCDLKIIGHELNNMTEEKALEIMLKEKLVKDRIKTDIIKTKYE
LYPDCRAILHIFTERSAKVKKNKIDEELKRSQA