Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | VIBHAR_01222 |
Symbol | leuS |
ID | 5554910 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Vibrio harveyi ATCC BAA-1116 |
Kingdom | Bacteria |
Replicon accession | NC_009783 |
Strand | - |
Start bp | 1240905 |
End bp | 1243493 |
Gene Length | 2589 bp |
Protein Length | 862 aa |
Translation table | 11 |
GC content | 47% |
IMG OID | 640906714 |
Product | leucyl-tRNA synthetase |
Protein accession | YP_001444438 |
Protein GI | 156973531 |
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 | n/a |
Plasmid unclonability p-value | n/a |
Plasmid hitchhiking | n/a |
Plasmid clonability | n/a |
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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 | ATGCAAGAAC AATACAATCC ACAAGACCTT GAACAGAAAG TTCAAAAGCA CTGGGATGAC AACAAGACCT TTGTTGTAAG TGAAGACCCA AACAAAGAAA AATTCTACTG TCTATCCATG TTCCCATACC CAAGTGGTCG ACTGCACATG GGTCACGTGC GTAACTACAC CATCGGTGAC GTAGTATCTC GTTTCCAACG CCTACAAGGC AAAAACGTAA TGCAACCAAT CGGTTGGGAT GCGTTTGGTC TACCTGCAGA AAACGCAGCG GTTAAAAACA ACACCGCGCC TGCACCTTGG ACTTACGAAA ACATCGAATA CATGAAGAAC CAACTTAAGC TTCTAGGCTT TGGTTACGAT TGGAACCGTG AATTCGCAAC ATGTACACCT GAGTACTACC GTTGGGAACA AGAGTTCTTC ACGAAGCTTT ACGAGAAAGG TCTGGTTTAC AAGAAGACTT CTTCTGTTAA CTGGTGTCCA AACGACCAAA CTGTTCTTGC AAACGAACAG GTTGAAGACG GCTGCTGCTG GCGTTGTGAC ACGCCTGTAG AGCAAAAAGA AATTCCTCAG TGGTTCATCA AGATCACAGA ATACGCTCAA GAACTGCTTG ACGATCTAGA CAAGCTTGAA GGTTGGCCAG AAATGGTGAA AACCATGCAG CGCAACTGGA TCGGTCGTTC TGAAGGTGTT GAGCTGCGAT TTGCCTTAAA AGACAGTGAA GTGAAAGGTC AACAAGACCT AGAAGTTTAC ACAACTCGTC CAGACACTCT AATGGGTGTG ACTTACGTTG GTATCGCAGC AGGTCACCCT CTAGCAACTA TCGCAGCTGA GAACAACCCA GAACTAGCAG CGTTCATCGA AGAGTGTAAG AACACCAAAG TTGCAGAAGC TGAGCTTGCG ACAATGGAGA AGAAAGGTAT GGCGACTGGC CTTACTGCTA TTCACCCATT GAACGGCCGT GAAGTTCCTG TTTACGTAGC AAACTTCGTA TTGATGGACT ACGGTACAGG CGCTGTAATG GCAGTACCTG CGCACGACCA ACGTGACTTC GAGTTCGCAA CTAAGTACGG TCTAGACATC GTGCCTGTTA TCAAGCCAGT TGATGGCAGT GAGCTAGACA CCTCTGAAGC AGCATACACA GAGAAAGGTG TACTGTTCGA TTCAGGTGAA TTCGACGGTC TAGAATTCCA AGCGGCGTTC GATGCAATCG CAGCAAAGCT AGAAGCAGAA GGCAAAGGCA CTAAGACAGT TAACTTCCGT CTACGTGACT GGGGAGTATC TCGTCAACGT TACTGGGGTG CGCCAATCCC TATGGTAACC ACTGAAGACG GTGAAGTTCA CCCAGTACCA GCTGACCAAC TACCAGTAAT CCTTCCAGAA GACGTGGTAA TGGACGGCGT AACTAGCCCA ATCAAAGCAG ACAAAGAATG GGCGAAGACA ACTTTCAACG GCGAACCTGC TCTACGTGAG ACAGATACGT TCGACACGTT CATGGAGTCT TCTTGGTACT ACGCACGTTA CTGTTCACCA CAAGCTGACG ACATCCTAGC TCCAGAAAAA GCAAACTACT GGCTACCAGT AGACCAGTAC ATCGGTGGTA TCGAGCACGC TTGTATGCAC CTACTGTACT CTCGCTTCTT CCACAAACTA CTACGTGATG CTGGCTACGT AACGTCTGAC GAACCGTTCA AGCAACTACT GTGTCAAGGT ATGGTACTAG CAGACGCGTT CTACTTCGAG AACGAGAAAG GCGGTAAAGA GTGGGTTGCA CCAACAGATG TTGCTGTTGA GCGTGACGGT AAAGGCCGCA TCACTTCTGC GAAAGACACT GAAGGCCGCG ATGTTACACA CTCAGGCATG ATCAAAATGT CTAAGTCAAA AAACAACGGT ATCGACCCTC AAGAGATGGT AGATAAGTAC GGTGCAGACA CAGTACGTCT ATTCATGATG TTCGCGTCTC CTGCAGACAT GACACTTGAA TGGCAAGAGT CTGGCGTAGA AGGTGCTAAC CGCTTCCTGA AACGTGTTTG GAAACTAGTA AACGAGCACA CATCAAAAGG TGCAGCAGAA GCAGTAGATG CAGCAGCACT TTCTGGTGAC CAAAAAGCTC TTCGTCGTGA TGTTCACAAA ACTATCGCGA AAGTGACTGA TGATATCGAT CGCCGTCAAA CGTTCAACAC AGCAATTGCT GCAATCATGG AACTGATGAA CAAGCTAGCG AAAGCGCCTC AAGAATCTGC ACAAGATCGT GTAATCCTTG ATGAAGCGCT AAAAGCTGTT GTTGCCATGC TTTACCCAAT CACTCCGCAC ATCTCATACG AACTATGGGC TGCGCTAGGT GAAGCTGACA TCGATAATGC AGCATGGCCA ACGTTCGACG AGAAAGCACT GGTTGAAGAC GAGAAAACTA TCGTTGTTCA AGTAAACGGT AAGCTACGTG CGAAACTGAC TGTTGCTGCA GACGCAACGA AAGAACAAGT AGAAGAGCTT GGTCTAAACG ACGAAAATGT TACTAAGTTC ACAGATGGCC TAACTATCCG TAAAGTAATT TACGTACCAG GTAAACTGTT GAACATCGTT GCAAACTAG
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Protein sequence | MQEQYNPQDL EQKVQKHWDD NKTFVVSEDP NKEKFYCLSM FPYPSGRLHM GHVRNYTIGD VVSRFQRLQG KNVMQPIGWD AFGLPAENAA VKNNTAPAPW TYENIEYMKN QLKLLGFGYD WNREFATCTP EYYRWEQEFF TKLYEKGLVY KKTSSVNWCP NDQTVLANEQ VEDGCCWRCD TPVEQKEIPQ WFIKITEYAQ ELLDDLDKLE GWPEMVKTMQ RNWIGRSEGV ELRFALKDSE VKGQQDLEVY TTRPDTLMGV TYVGIAAGHP LATIAAENNP ELAAFIEECK NTKVAEAELA TMEKKGMATG LTAIHPLNGR EVPVYVANFV LMDYGTGAVM AVPAHDQRDF EFATKYGLDI VPVIKPVDGS ELDTSEAAYT EKGVLFDSGE FDGLEFQAAF DAIAAKLEAE GKGTKTVNFR LRDWGVSRQR YWGAPIPMVT TEDGEVHPVP ADQLPVILPE DVVMDGVTSP IKADKEWAKT TFNGEPALRE TDTFDTFMES SWYYARYCSP QADDILAPEK ANYWLPVDQY IGGIEHACMH LLYSRFFHKL LRDAGYVTSD EPFKQLLCQG MVLADAFYFE NEKGGKEWVA PTDVAVERDG KGRITSAKDT EGRDVTHSGM IKMSKSKNNG IDPQEMVDKY GADTVRLFMM FASPADMTLE WQESGVEGAN RFLKRVWKLV NEHTSKGAAE AVDAAALSGD QKALRRDVHK TIAKVTDDID RRQTFNTAIA AIMELMNKLA KAPQESAQDR VILDEALKAV VAMLYPITPH ISYELWAALG EADIDNAAWP TFDEKALVED EKTIVVQVNG KLRAKLTVAA DATKEQVEEL GLNDENVTKF TDGLTIRKVI YVPGKLLNIV AN
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