| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | HS_1557 |
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| Symbol | leuS |
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| ID | 4241078 |
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| Type | CDS |
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| Is gene spliced | No |
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| Is pseudo gene | No |
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| Organism name | Haemophilus somnus 129PT |
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| Kingdom | Bacteria |
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| Replicon accession | NC_008309 |
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| Strand | - |
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| Start bp | 1753538 |
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| End bp | 1756120 |
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| Gene Length | 2583 bp |
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| Protein Length | 860 aa |
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| Translation table | 11 |
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| GC content | 40% |
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| IMG OID | 638105137 |
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| Product | leucyl-tRNA synthetase |
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| Protein accession | YP_719762 |
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| Protein GI | 113461693 |
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| COG category | [J] Translation, ribosomal structure and biogenesis |
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| COG ID | [COG0495] Leucyl-tRNA synthetase |
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| TIGRFAM ID | [TIGR00396] leucyl-tRNA synthetase, eubacterial and mitochondrial family |
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Plasmid Coverage information |
| Num covering plasmid clones | 6 |
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| Plasmid unclonability p-value | 1 |
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| Plasmid hitchhiking | No |
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| Plasmid clonability | normal |
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Fosmid Coverage information |
| Num covering fosmid clones | n/a |
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| Fosmid unclonability p-value | n/a |
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| Fosmid Hitchhiker | n/a |
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| Fosmid clonability | n/a |
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Sequence |
| Gene sequence | ATGCAAGAAC AATATCGTCC TGATCTTATC GAAGCAGACG TACAGAAATA TTGGGCTGAA
AAGAAAACAT TCAAAGCCGT TAAAGATCCT TCCAAAGAAA AATATTATTG TCTTTCCATG
TTTCCTTATC CTTCCGGTCG TTTACACATG GGGCATGTTC GTAACTATAC CATTGGCGAT
GTTATCTCCC GTTATCAACG AATGAACGGT AAAAATGTTT TACAGCCTAT GGGCTGGGAT
GCTTTTGGGT TGCCAGCAGA AGGTGCGGCA ATTAAAAATA AAACCGCACC GGCAAAATGG
ACTTATGAAA ATATCGAATA CATGAAAAAT CAGCTTAAAG TGTTGGGCTT CGGATTTGAC
TGGGATCGTG AAATTACCAC TTGTAAACCT GAATATTATA AATGGGAGCA ATGGTTTTTT
ACTGAGTTGT ATAAAAAAGG GTTAGTGTAT AAAAAAACCT CAACAGTAAA CTGGTGTCCG
AATGATGAAA CCGTTCTGGC AAATGAGCAA GTACATGAGG GGTGTTGTTG GCGTTGCGAT
ACCCCTGTGG AGCAAAAAGA AATTCCGCAA TGGTTTATTA AAATTACGGA CTATGCTGAA
CAATTATTAA GTGATTTAGA TCAGCTTCCT GAATGGCCGG ATATGGTAAA AACTATGCAA
CGTAACTGGA TAGGTCGCTC CGAAGGGGTT GAAATTACCT TTAACGTTGC TCATTCAGAT
CAAACCTTAA CAGTTTATAC AACCCGCCCG GATACTTTCT ATGGTGTTTC TTATTTAGCG
GTTGCGGCGG CACATCCGTT AGCTGAAAGT GCGGCAAAAA ATAATCCTGA ATTGGCTGCT
TTTATTCACG AGGCAAAAAA TACCAAAGTG GCTGAAGCGG AACTTGCCAC AATGGAGAAA
AAAGGCATGG CAACAGGATT GTATGCCGTT CATCCGATGA CAGGTAAACA GTTACCGATT
TGGGTAGCAA ATTTTGTGTT AATGCACTAC GGTACAGGTG CGGTTATGGC AGTTCCTGCA
CATGATCAAC GTGATTATGA ATTTGCACAA AAATATCAAT TGCCTTTATT CCCCGTGATT
AAGCCGGCGG ATAATTCTGC ATGGGATTTT TCAAAACAGG CTTATACTGA GCATGGTATC
ACCATTAATT CTGCTGAGTT TGACGGTTTG GATTTTGAGG CAACCTTTAA CGGTATTGCG
GATAAACTTG AAAAAATCGG TGTAGGAAAA CGCCAAGTAA ACTATCGTTT ACGTGACTGG
GGAGTTTCCC GTCAACGTTA TTGGGGAGCA CCAATTCCAA TGCTGACACT GGAAAATGGT
GATGTTGTAG TTGCCCCATT ACAGGACTTA CCAATTGTTT TGCCGGAAGA TGTAGTCATG
GACGGAGTAA AAAGTCCGAT TAAGGCTGAT CCTGAATGGG CAAAAACCAC TTATAACGGA
CAAGCAGCAT TAAAAGAAAC GGATACCTTT GATACTTTCA TGGAATCTTC TTGGTACTAT
GCACGCTATA CCTCTCCACA ATATCAACAA GCGATGTTAG ATGCAGATGA AGCGAATTAT
TGGCTACCGG TGGATCAATA TATTGGTGGC ATTGAACATG CAACCATGCA CCTATTATAT
TTCCGTTTCT TTCATAAATT GTTGCGAGAT GCCGGTTTCG TAACTTCTGA TGAGCCAAGC
AAAAAATTAC TGTGTCAAGG TATGGTACTT GCAGACGCAT TTTATTACAC CAGCCCAACC
AATGAGCGTA TTTGGGTATC GCCGACAAAA GTAACGTTAG AGCGTGATGA GAAAGGTCGT
ATTATCAAAG CTGTTGATGA TGAAGGTCAC GAGCTTGTTC ACAGTGGTAT GACCAAAATG
TCTAAGTCCA AAAATAATGG TATTGATCCG CAAGAAATGG TGGAGAAATA CGGTGCAGAT
ACAGTCCGTT TATTTATGAT GTTTGCTTCG CCGGCAGAAA TGACACTCGA ATGGCAAGAG
TCAGGAGTAG AGGGGGCAAA TCGTTTCTTA CGCCGCCTAT GGAATTTAGT TTTTGAATAC
AATCAAAATC CGGCACAAAC CGCATTAGAT CCTACCGCTC TTTCAGTCGA ACAAAAAGCA
TTGCGTCGTG ATGTACATAA AACTATTGCA AAAGTGAGCG ATGATATTGG TCGTCGCCAA
ACATTCAATA CCGCAATTGC GGCAATCATG GAATTAATGA ATAAACTCAC CAAAGCATCA
TTATCCAATG AGCAAGATCG TGCAGTAATG GCAGAAGCAT TGAATGCCGT TGTGCGTATG
CTTTATCCGA TTACACCACA TATTTGTTTC CAACTTTGGC AAGACTTAGG TAACGAAAGT
ACGATTGATT TTGCACCTTG GGTGATAGCC GATGCTGAAG CTATGGTTGA AGATGAAAAA
TTGGTTGTGA TACAAGTGAA TGGTAAAGTT CGTGCTAAAG TAACCGTTCC TGCTGATATG
TCGGAAGATG AAATTAAACA AGTTGCTTTA GCAGAAGAAA ATGTACAAAA ATTCTTGAAT
GGTTTAACTG TAGTTAAGAC CATTTATGTA CAGGGTAAAT TATTTAGCTT TGTAGCAAAA
TAA
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| Protein sequence | MQEQYRPDLI EADVQKYWAE KKTFKAVKDP SKEKYYCLSM FPYPSGRLHM GHVRNYTIGD
VISRYQRMNG KNVLQPMGWD AFGLPAEGAA IKNKTAPAKW TYENIEYMKN QLKVLGFGFD
WDREITTCKP EYYKWEQWFF TELYKKGLVY KKTSTVNWCP NDETVLANEQ VHEGCCWRCD
TPVEQKEIPQ WFIKITDYAE QLLSDLDQLP EWPDMVKTMQ RNWIGRSEGV EITFNVAHSD
QTLTVYTTRP DTFYGVSYLA VAAAHPLAES AAKNNPELAA FIHEAKNTKV AEAELATMEK
KGMATGLYAV HPMTGKQLPI WVANFVLMHY GTGAVMAVPA HDQRDYEFAQ KYQLPLFPVI
KPADNSAWDF SKQAYTEHGI TINSAEFDGL DFEATFNGIA DKLEKIGVGK RQVNYRLRDW
GVSRQRYWGA PIPMLTLENG DVVVAPLQDL PIVLPEDVVM DGVKSPIKAD PEWAKTTYNG
QAALKETDTF DTFMESSWYY ARYTSPQYQQ AMLDADEANY WLPVDQYIGG IEHATMHLLY
FRFFHKLLRD AGFVTSDEPS KKLLCQGMVL ADAFYYTSPT NERIWVSPTK VTLERDEKGR
IIKAVDDEGH ELVHSGMTKM SKSKNNGIDP QEMVEKYGAD TVRLFMMFAS PAEMTLEWQE
SGVEGANRFL RRLWNLVFEY NQNPAQTALD PTALSVEQKA LRRDVHKTIA KVSDDIGRRQ
TFNTAIAAIM ELMNKLTKAS LSNEQDRAVM AEALNAVVRM LYPITPHICF QLWQDLGNES
TIDFAPWVIA DAEAMVEDEK LVVIQVNGKV RAKVTVPADM SEDEIKQVAL AEENVQKFLN
GLTVVKTIYV QGKLFSFVAK
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