Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Maeo_0233 |
Symbol | leuS |
ID | 5326548 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Methanococcus aeolicus Nankai-3 |
Kingdom | Archaea |
Replicon accession | NC_009635 |
Strand | - |
Start bp | 255593 |
End bp | 258502 |
Gene Length | 2910 bp |
Protein Length | 969 aa |
Translation table | 11 |
GC content | 31% |
IMG OID | 640787629 |
Product | leucyl-tRNA synthetase |
Protein accession | YP_001324437 |
Protein GI | 150400671 |
COG category | [J] Translation, ribosomal structure and biogenesis |
COG ID | [COG0495] Leucyl-tRNA synthetase |
TIGRFAM ID | [TIGR00395] leucyl-tRNA synthetase, archaeal and cytosolic family |
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Plasmid Coverage information |
Num covering plasmid clones | 12 |
Plasmid unclonability p-value | 1 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | n/a |
Fosmid unclonability p-value | n/a |
Fosmid Hitchhiker | n/a |
Fosmid clonability | n/a |
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Sequence |
Gene sequence | ATGAGCGTTG ATTTTGTTAA GATTGCGGAA AAATGGCAAA AAAGATGGGA AGAAGATAAA ATATTTGAAA ATCCATCTAA ATTAAAATAT ACGGAACAAG AAAAAAAAGA TAAATTTTTT ATTACAGCAG CATTTCCTTA TTTAAATGGA GTGCTCCATG CTGGACATTT AAGAACTTTT ACAATTCCCG AAATAACGGC AAGATACCAA AGAATGAATA ATAAAACAGT ATTATGGACT TTTGGTTTTC ATGTTAGTGG AACCCCAATT ATTGGATTGG CGGAGCTCCT AAAAAAACAG GCACCAGAAA CTATTTGGGC ATACAACAAA CTTCATAATA TTCCTATGGG GGAGCTCCAA ACACTCACAA CACCAGAAAA TATAGTAAAT TATTTTTCAA AAAAGGCTAC GGAATCATTT AAAAAAATGG GATTTGCTCT TGATTGGAGA AGGAACTTTA AAACAGATGA CGAAACATTT AAAAAATTTG TAGAATGGCA ATTTTTAAAA TTAAAAGAGA AAAATTTAAT AGTAAAAGGT TCGCACCCTG TTAGATATTG CCCAAGTTGT GATAATCCTG TGGAAGACCA CGATTTATTA AAGGGGGAGG AGGCAACACT TCAAGAATAT ATATTGTTGA AATTTAAAAC AAAATTAAAT ATCGAAATAG ACGGCGAAGA TAAAGAATAT GAATGTATAA TCCCAATGGC CACACTTAGA CCAGAAACAA TATATGGAGT AGTCAATGCT TGGATAAATC CAAATGATAC ATACCACATA ATAAAGGTTT ATGATGAAGT GCAAAGCCAA GAGGAAGGTA GCGACGAAAT ATCGTTAAAA TATAATGGCA TTTGGATAGT AAGTAAAGAA GCCTCAGATA AACTTAAAAA TCAAGATAGA ACAGTAGAAT TAATAAAAGA AATAAAGGGA GAGGAATTGG TAGGAAAAAT TGTAATAAAT CCAGTAAATA ATAAGGAGGT TCCACTATAT CCTGCTGATT TTGTGAGCTC CGAAATGGGA ACAGGCTGTG TAATGAGTGT TCCAGCACAT GCTCCAAAGG ATTTTGTAGC ACTTAGGGAT TACTACAGTA GCATTAATAA AGAATTAACT GATGATGAAT TAATATCCCT TATAAAAATA GATGGATATG GAAAATATCC TGCAAAGGAA ATTGTAGAAA AAATGGGCAT AACAAACCAA AAGGACGAAA AATTAGAGGA TGCCACACAT ACAATTTATA AACAGGAATT TCACAAGGGG ATATTAAATG AAAATTGTGG AGAATATGAG GGAATTGCCG TAAGGGACAT TAAAGACAAG TTAGCAAGTG ATTTTATAAA TAACAATATG GCCGAAACAC TTCAAGAATT TTCCATTCCA GAAGTGGTAT GTAGATGCGG TGAAAAATGT ATTGTAAAAA CTGTTAAAGG GCAATGGTTT ATTACATATT CTGATTTAGA ATGGAAAAAA AAGGCACATA ATTGGGTAGA TAAAATGAAT TTTGTGCCTG AAACTATAAG GATGGATTTC CACAATAAAA TTGATTGGAT GAAGGATAAA GCCTGTGCAA GGAAAAAAGG ACTTGGAACA AGGTTTCCAT TTGATAAAGA TTGGGTTATT GAAAGTCTTT CAGATAGTAC TCTATATATG GCATATTATA CAGTGGCAAA AACAATAAAT ACCAACAATA TATTGCCAGA ACAACTTATT CCAGAGTTGT TTGACTATGT ATATTATGGA AAAGGAGATA TAAACGAAAT ATCCAATAAT ACAAAAATAC CTGTTGAGTT AATAAATGAA ATGAGAAATG AATTTGAATA TTATTATCCG CTTGATTGGA GATGTTCGGC AAAAGACCTT GTTCCAAATC ATTTAACATT TATGATATTT AACCATGTGG CTTTATTTGA TGATGAAAAA TACTACCCAA AGGGAATTGT TGTAAATGGC TATGTAACTA TTGAAGGTAA AAAATTGTCT AAATCAAAAG GTCCTGTTCT TCCTATTGAG GAGGTTGCAA CAAATTATGG TCCTGATGTA GGTAGGTTTT ACATTACAAC ATGTGCGGAG CTCCCCCACG ATGCAGATGT TAAATTTAAA GAAATGGAAC ATGCAAGGGA TAATTTAATT AGATTTTATG AATTGGCAAC AGAGTTAAAG GATACAGAAA AAACAATAAC AGAATTATCC ACCATTGATA AATGGCTATT GCATAAAGTT CATTCTGATT TAAAAATAAT AAATGAATCA TATAATGAAT TCCAGCTTAG AAAAATAGGA ACTTTATTTT ATGGTTTAAC TCATAATTTG AAGTGGTATA AAAGAAGAGG AGGAAATAAC AACCAGCTAT TAAAATATGT TGTTGAAATA TGGACAAAGG TATTGGCACC AATTACACCC CATTTATGCG AAGAAATTTG GGAGATGTTT GGATATAATA AAAATAATAA TTATATATCA AATGAAACAT TCCCGCAACT AGATAATAGT TATATAAATG AAAATTGTGA ATTGGGGGAA GAATTCATAA AAAACACAAT GGACGATATA AGAAATATAA TAAATATAGC AAATATCGCC CCAAAAACTA TTTATTTATA TACTGCTGAT GACTGGAAAT TTGAAGTTTT AAAAATTATG ATGGAAAATA AAGGAGCTCC CGTTAATAAA ATGATGCCAT TGATTATGAA AAATGCAGAA TTAAGAAGAT ATGGAAAAGA AATTCCAAAA TTAATAAATG AAATAGTTAA AAATGGAATT TCTAACCCAA TAGACGAAGA GAACATATTA AATGATGCAA AACAATTCCT TGAAAATGAA TTCCAATGTA AAATAATTGT GAATGGGGAA GACATTGGAA ATAAAAAGAG ATTTGCAATT CCAAATAAAG TTGCTATTTA TATTGAATAA
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Protein sequence | MSVDFVKIAE KWQKRWEEDK IFENPSKLKY TEQEKKDKFF ITAAFPYLNG VLHAGHLRTF TIPEITARYQ RMNNKTVLWT FGFHVSGTPI IGLAELLKKQ APETIWAYNK LHNIPMGELQ TLTTPENIVN YFSKKATESF KKMGFALDWR RNFKTDDETF KKFVEWQFLK LKEKNLIVKG SHPVRYCPSC DNPVEDHDLL KGEEATLQEY ILLKFKTKLN IEIDGEDKEY ECIIPMATLR PETIYGVVNA WINPNDTYHI IKVYDEVQSQ EEGSDEISLK YNGIWIVSKE ASDKLKNQDR TVELIKEIKG EELVGKIVIN PVNNKEVPLY PADFVSSEMG TGCVMSVPAH APKDFVALRD YYSSINKELT DDELISLIKI DGYGKYPAKE IVEKMGITNQ KDEKLEDATH TIYKQEFHKG ILNENCGEYE GIAVRDIKDK LASDFINNNM AETLQEFSIP EVVCRCGEKC IVKTVKGQWF ITYSDLEWKK KAHNWVDKMN FVPETIRMDF HNKIDWMKDK ACARKKGLGT RFPFDKDWVI ESLSDSTLYM AYYTVAKTIN TNNILPEQLI PELFDYVYYG KGDINEISNN TKIPVELINE MRNEFEYYYP LDWRCSAKDL VPNHLTFMIF NHVALFDDEK YYPKGIVVNG YVTIEGKKLS KSKGPVLPIE EVATNYGPDV GRFYITTCAE LPHDADVKFK EMEHARDNLI RFYELATELK DTEKTITELS TIDKWLLHKV HSDLKIINES YNEFQLRKIG TLFYGLTHNL KWYKRRGGNN NQLLKYVVEI WTKVLAPITP HLCEEIWEMF GYNKNNNYIS NETFPQLDNS YINENCELGE EFIKNTMDDI RNIINIANIA PKTIYLYTAD DWKFEVLKIM MENKGAPVNK MMPLIMKNAE LRRYGKEIPK LINEIVKNGI SNPIDEENIL NDAKQFLENE FQCKIIVNGE DIGNKKRFAI PNKVAIYIE
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