Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | YpAngola_A1842 |
Symbol | leuS |
ID | 5800313 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Yersinia pestis Angola |
Kingdom | Bacteria |
Replicon accession | NC_010159 |
Strand | + |
Start bp | 1909443 |
End bp | 1912025 |
Gene Length | 2583 bp |
Protein Length | 860 aa |
Translation table | 11 |
GC content | 51% |
IMG OID | 641339774 |
Product | leucyl-tRNA synthetase |
Protein accession | YP_001606329 |
Protein GI | 162421444 |
COG category | [J] Translation, ribosomal structure and biogenesis |
COG ID | [COG0495] Leucyl-tRNA synthetase |
TIGRFAM ID | [TIGR00396] leucyl-tRNA synthetase, eubacterial and mitochondrial family |
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Plasmid Coverage information |
Num covering plasmid clones | 25 |
Plasmid unclonability p-value | 1 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | 63 |
Fosmid unclonability p-value | 1 |
Fosmid Hitchhiker | No |
Fosmid clonability | normal |
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Sequence |
Gene sequence | ATGCAAGAGC AATACCGCCC AGAAGATATC GAAACGCAAG TACAGCTTCA CTGGCAAGAG AAGCAAACCT TTAAAGTCAC TGAAGACGCC AGCAAAGAAA AATATTATTG CCTATCTATG CTGCCATACC CTTCAGGACG CCTGCATATG GGGCACGTTC GTAATTACAC CATTGGCGAC GTTATCTCTC GTTACCAGCG TATGTTGGGC AAAAACGTCT TGCAGCCAAT TGGCTGGGAT GCGTTTGGCC TGCCCGCTGA AGGGGCTGCG GTAAAAAACA ATACCGCCCC CGCACCTTGG ACTTACGACA ACATCGAATA CATGAAGAAC CAGTTGAAAT TACTGGGCTT CGGCTATGAC TGGGATCGAG AAATTGCCAC CTGCAAACCT GATTATTATC GTTGGGAGCA GTGGTTCTTC ACCAAGTTGT ATGAAAAAGG AATGGTCTAC AAGAAGACCT CTGCGGTTAA CTGGTGTCCA CACGATCTCA CTGTGCTGGC TAACGAGCAG GTCATTGACG GCTGCTGCTG GCGTTGTGAC ACCAAAGTTG AACGTAAAGA GATCCCGCAG TGGTTTATCA AAATCACCGA TTACGCTGAG CAGTTGCTCA ACGATCTGGA CACGCTGGAA AGCTGGCCAG AGCAGGTGAA AACCATGCAA CGTAACTGGA TTGGCCGCTC TGAAGGGGTC GATATCGTTT TCGACGTCGT GGATAGCGAA GAGAAACTGT CTGTTTATAC CACCCGGCCA GACACCTTTA TGGGCGTGAC CTACGTAGCG GTTGCTGCTG GTCATCCTTT GTCATTGCAA GCGGCGGCGA CTAATCCGGC CCTGGCTGAT TTCGTTGCTG AATGCCGTAA TACCAAGGTT GCCGAAGCTG AAATGGCAAC CATGGAGAAA AAAGGCATGG CGACGGGTCT GTATGCCATC CATCCATTAA CTGGCGAGAA ACTGCCTATA TGGGCCGCTA ACTTTGTCTT GATGGATTAC GGTACTGGCG CAGTGATGGC CGTTCCGGGC CACGATGCAC GTGACTGGGA ATTTGCCACC AAATATAACC TGCCAATCAA ACCGGTTATT TTGGCCGCGG ATGGCAGTGA GCCAGACTTG AGTCAGGAAG CCATGACCGA GAAAGGCACG CTGTTTAACT CTGGTGAGTT TGATGGCCTG AATCATGAAG ATGGTTTTAA TGCCATTGCC GATAAACTGG TCGCACTCGG TGTTGGGCAG CGCAAAGTAA ACTATCGTCT GCGTGACTGG GGTGTTTCTC GCCAGCGTTA TTGGGGTGCC CCGATCCCAA TGGTTACGTT GGAAGATGGG ACTGTCGTTC CTACCCCAGA AGATCAACTG CCGGTTATCC TGCCAGAAGA TGTGGTAATG GACGGTATTT CCAGCCCGAT CAAGGCCGAT CCTGAGTGGG CTAAAACCAC CGTTAACGGT ATTCCGGGTC TGCGTGAAAC CGATACCTTC GATACCTTTA TGGAATCATC TTGGTATTAC GCGCGCTACA CCTGCCCGCA ATATGATGAC GGTATGCTGG ACCCCGCAGC CGCTAACTAC TGGTTACCTG TCGATCAGTA TGTTGGGGGC ATTGAACATG CCATTATGCA TCTGATGTAT TTCCGCTTCT TCCACAAATT ACTGCGTGAC GCCGGTCTGG TGGACTCCGA TGAACCCGCC AAACGCCTGT TATGTCAGGG GATGGTACTG GCTGACGCCT TCTATTACAC CGGTAATAAC GGTGAGCGTA TTTGGGTTTC ACCGGTCGAT GCGATTGTCG AACGTGATGA CAAAGGCCGT ATCGTTAAAG CTGTAGATGC GGAAGGCCAT GAGCTGGTGT ACGCCGGCAT GAGTAAAATG TCGAAATCGA AAAACAACGG TATCGACCCG CAAGTCATGG TAGAAAAATA CGGCGCGGAT ACCGTACGTC TGTTTATGAT GTTTGCCTCA CCAGCAGAAA TGACGCTGGA ATGGCAGGAG TCGGGCGTTG AAGGGGCTAA CCGCTTCCTG AAGCGTGTTT GGCGTCTGGC CTTTGATCAC ACCGCGAAAG GTGCAGTGAA GCCACTGGAT ATTGCCAGCC TGACTGAAGA ACAGAAATCC CTGCGTCGCG ACCTGCATAA AACCATTGCG AAAGTGACCG ATGATGTTGG CCGCCGTCAA ACCTTCAACA CGGCAATTGC TGCTGTGATG GAGTTGATGA ACAAGCTGGG CCGTGCACCT CAGGAAACGG AGCAAGACCG CGCACTGATG CAAGAAGCTT TACTGGCGGT AGTCCGGATG CTTTATCCAT TCACCCCTCA CGTCTGCTTC AGTTTGTGGC AAGCTTTGGG TGGAGAAGGC GATATCGATA CTGCGCCGTG GCCAATTGCT GATGAACAAG CGATGGTTGA AGACTCTAAA TTAGTGGTCG TACAGGTCAA TGGCAAAGTG CGTGGCAGAA TTACAGTGCC CGCCGATGCC ACTGAACAGC AAGTCCGTGA ACGCGCTGGT CAGGAGCACT TGGTGGCTAA ATATCTGGAT GGCATTACTG TACGTAAAGT CATCTATGTC CCTGGCAAAT TGCTTAATCT GGTTGTGGGT TAA
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Protein sequence | MQEQYRPEDI ETQVQLHWQE KQTFKVTEDA SKEKYYCLSM LPYPSGRLHM GHVRNYTIGD VISRYQRMLG KNVLQPIGWD AFGLPAEGAA VKNNTAPAPW TYDNIEYMKN QLKLLGFGYD WDREIATCKP DYYRWEQWFF TKLYEKGMVY KKTSAVNWCP HDLTVLANEQ VIDGCCWRCD TKVERKEIPQ WFIKITDYAE QLLNDLDTLE SWPEQVKTMQ RNWIGRSEGV DIVFDVVDSE EKLSVYTTRP DTFMGVTYVA VAAGHPLSLQ AAATNPALAD FVAECRNTKV AEAEMATMEK KGMATGLYAI HPLTGEKLPI WAANFVLMDY GTGAVMAVPG HDARDWEFAT KYNLPIKPVI LAADGSEPDL SQEAMTEKGT LFNSGEFDGL NHEDGFNAIA DKLVALGVGQ RKVNYRLRDW GVSRQRYWGA PIPMVTLEDG TVVPTPEDQL PVILPEDVVM DGISSPIKAD PEWAKTTVNG IPGLRETDTF DTFMESSWYY ARYTCPQYDD GMLDPAAANY WLPVDQYVGG IEHAIMHLMY FRFFHKLLRD AGLVDSDEPA KRLLCQGMVL ADAFYYTGNN GERIWVSPVD AIVERDDKGR IVKAVDAEGH ELVYAGMSKM SKSKNNGIDP QVMVEKYGAD TVRLFMMFAS PAEMTLEWQE SGVEGANRFL KRVWRLAFDH TAKGAVKPLD IASLTEEQKS LRRDLHKTIA KVTDDVGRRQ TFNTAIAAVM ELMNKLGRAP QETEQDRALM QEALLAVVRM LYPFTPHVCF SLWQALGGEG DIDTAPWPIA DEQAMVEDSK LVVVQVNGKV RGRITVPADA TEQQVRERAG QEHLVAKYLD GITVRKVIYV PGKLLNLVVG
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