| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | STER_0335 |
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| Symbol | |
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| ID | 4438195 |
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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 | Streptococcus thermophilus LMD-9 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_008532 |
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| Strand | + |
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| Start bp | 286750 |
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| End bp | 289641 |
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| Gene Length | 2892 bp |
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| Protein Length | 963 aa |
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| Translation table | 11 |
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| GC content | 31% |
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| IMG OID | 639676068 |
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| Product | non-ribosomal peptide synthetase modules or related protein |
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| Protein accession | YP_819835 |
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| Protein GI | 116627216 |
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| COG category | [Q] Secondary metabolites biosynthesis, transport and catabolism |
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| COG ID | [COG1020] Non-ribosomal peptide synthetase modules and related proteins |
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| TIGRFAM ID | |
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| 
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Plasmid Coverage information |
| Num covering plasmid clones | 0 |
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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 | ATGACCATAT TAAAAACTTT TAGTGATACG GTGAAACAAT ATCCTTCTAA AGTTGCTGTT
ATGTATAGCG GAGGAGAGTT TACTTTTCAA GAAGTAGATG TGATGTCTAA TTTTATTGCT
AAGCAGCTAC TACTCAATAG CGATGAAGAG ACTGTACCTT TTTATATAGA AAAAAATAAG
TATGTTTTAC CAGTTGTTTT GGGGATAATG AAATCGGGTA AAATTCCGTT ACCTATAACA
AATAGTCTTG AGGTCAAAAT ATCATTAGAA CGTATTAGCG AAGTTGTCTT TGACGTGTTG
ATAAGTGATA GGGATGTTAA ACTTGAAAAT CATTCAGTAA CTCTTTTGGT CTTACCCAAA
AAATTAGAAA GTTACAGTGA GTATCAAGAA GTAGCTACAA CTAAAGAGAA TGAAATTGCA
CATATTATCT GTACTTCTGG AACTACTGGG GTTCCTAAAA AAGTATTTTT AACTGATGAT
AACATAGATT GGCTTGTAAA AGAATTTTAT AAAATTGTGA AGTTTACTTC CGAATCAAAA
TTTTTATTTA CAACTCCCTA TACTTTTGAT GTTTCATTAA CAGAGATTTT GGCACCTGTA
TATACGGGTG GTACTTTGGT TTGTTACGAT GGTGGGATTC AGAATATTAT TCGACTAGGA
GAAACAATTG AGCAAAAGAA GATAACTCAT TTATCATTAT CTCCGTCTTT TGCTGAAACT
ATTATTGATA TTAGTGGGCC AGAAGTATTC CAGAATTTAA GAGCGTTGTG TCTAGCAGGT
GAGACATTTC CTAGTTCATT AGCGAATAGG TTGAGAGGGC TTATTCAGCA AGGGTGTCGA
GTATTTAATT TATATGGGCC TTCAGAAACA ACAATTTATG CAACCTACTA TGAGTTGAAA
GATAGAAAAT ATAATACTGT TCCAATTGGT AAGCCTTTGC CTGGGGTTCA ACTAAAGATA
GCTTCTCAAA AAGAGAATTC TAAGATGGCA GAACTTCTAA TTGGTGGTAA TGGAGTAACG
GAAGGGTATA GACTACAACC CGAATTAAAT AAAGCTAAGT TTAAGTTGAT AGGTTCAAAT
AGGTACTATG TAACGGGGGA CTACGTTTAT TACCAAGGAG ATAACTTGGT ATTTAGTTCA
AGAATAGATA GCCAAGTCCA AGTAAATGGT ATTCGTATTG AATTAGATGA GGTAAAATCT
ATTGTAGATA AACTTAAAAC AGTTAAATCA TCACGAGTTG TTTTTTATAA GAAGAAACTT
GTCGTATTTT ATGAAGCCGA TTTGAATATT AAAGAAGATA TTATTAGAAG TTTACCTAGT
TACTTAAATC CGACGGTAGT TAAAGTTGAG AGTTATTATC TCAATCAGAA TAGAAAGTTG
GATGTTCCAA AAATGCTTGA GATATATTAT TATAAAAAAC AAAGTCAACA AGGAGATGAT
GTTAGAAAAA ATATTTTAGA TGTACTATCT AAATTTGAAA GAGTTGATAT CACAGATTTG
GATTCGTTAG AATTGGTTAG ATTTTATTTA GAGATTGAGG ATATCTTTGA TATTGAAATT
AAAGAAAATG ATTTTTATAG GCTAAAGAGT GTAGATTCGA TTGTGGACTA TATTAGAAAT
AAATCATTTT TTCAAGAACG TTCAACTGAG CCAAACGATA GTTTTACTAA AGAACATGAC
TTGGTTAATT TAGAGTATAA TCTCACAAAA ATGAATTATC GTTATTTGAA AAATATTATT
ACTCCTAGCC CGACACAAAA GAGACTTTAT AAAAACAATC AAAATCGTGT TATTGGTTTT
AATTTAGCAC TGGAAGAAGT GACTTATTTA GAATTGAATA AGCTGCACCA TATTATTAAA
TATTTAAGCT ATAAAATTGA TATATTTAGA CTTGTTGTCG AAAAGGAGCA AACTCGATTT
AGCATAGGTA TTGTGAATGA AGGAGATTAC TCACCTAATA TTATTGTACT AAATAATTTA
CCAACAGAGT TAGAATTACA AGGAATATTA GATAATATAG AAGTGATTCC TATTCCAATT
ATTGTGGTGG GAACAAGAGA TAAAAAAGTA AGATTTTATT TTCCATATCA TTCTATTGAT
GCATCATCAT TAAATAAACT TGGAGATACA GTATATCAAC TGTACGAAAA AAAGATAGTT
ATTGATGAAG TACCTAGTAG TTCACTGGTT GCTTTTTCGC AGTTTAAAAG GGAGGTGTTA
CAGAATGATG TCTCTGGGGA TGTTCTTGCT AGATTGCCAA AGATAAAGCC TGCTATTGAG
TTTGAGAAAT TAAATGATGA AGTTCAATGT TTTCAAGTTT CTTTACCAGA AGATATTAAA
GGAGACGATG TATATCTTTT TACAATTTAT GCTATCTCAC AGTGTATTTT AAGCGACTAT
AATCTGTCTG CTATATCTGG GGGTCTATCT TTGGATTTTA GAGATTATGA ACAGTTTGAT
GCGTATGACT TAATAGGAGA CATTCACAAG AAAATTCCAT TCCAAGTAAA TCGAACTGAA
ACTTTTGAGG AGTTTAAAAA CTCTCATTTC AAAATTTTGG AGATCTATCG TACAGGTATT
GATTACTATG AAATTGCAAT GTTAGGAAAT GATATGAGTG CTAAAGAAGT GCAAGAACGA
TTAAATAATC TGTCTCTATC AATAAATTTC ATTGGCGAAG CATTTAGGTT AAAAGATACT
ATTAATAATA TAATTGATGT TGATTTTGAT AAAAATTTTA TTAATGTATT TGTACATGAG
CGATTTGCAT ACGCAGTTAT AAAATCTGAG TTATTGAGTA ATAGTGTTTA TGACTTAATG
CATAAAGATA GCAAATTCGA GCTAAAAGTA ATTGATAAAA AACGACTGGA AAATGAGGAG
ACAAACCGAT GA
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| Protein sequence | MTILKTFSDT VKQYPSKVAV MYSGGEFTFQ EVDVMSNFIA KQLLLNSDEE TVPFYIEKNK
YVLPVVLGIM KSGKIPLPIT NSLEVKISLE RISEVVFDVL ISDRDVKLEN HSVTLLVLPK
KLESYSEYQE VATTKENEIA HIICTSGTTG VPKKVFLTDD NIDWLVKEFY KIVKFTSESK
FLFTTPYTFD VSLTEILAPV YTGGTLVCYD GGIQNIIRLG ETIEQKKITH LSLSPSFAET
IIDISGPEVF QNLRALCLAG ETFPSSLANR LRGLIQQGCR VFNLYGPSET TIYATYYELK
DRKYNTVPIG KPLPGVQLKI ASQKENSKMA ELLIGGNGVT EGYRLQPELN KAKFKLIGSN
RYYVTGDYVY YQGDNLVFSS RIDSQVQVNG IRIELDEVKS IVDKLKTVKS SRVVFYKKKL
VVFYEADLNI KEDIIRSLPS YLNPTVVKVE SYYLNQNRKL DVPKMLEIYY YKKQSQQGDD
VRKNILDVLS KFERVDITDL DSLELVRFYL EIEDIFDIEI KENDFYRLKS VDSIVDYIRN
KSFFQERSTE PNDSFTKEHD LVNLEYNLTK MNYRYLKNII TPSPTQKRLY KNNQNRVIGF
NLALEEVTYL ELNKLHHIIK YLSYKIDIFR LVVEKEQTRF SIGIVNEGDY SPNIIVLNNL
PTELELQGIL DNIEVIPIPI IVVGTRDKKV RFYFPYHSID ASSLNKLGDT VYQLYEKKIV
IDEVPSSSLV AFSQFKREVL QNDVSGDVLA RLPKIKPAIE FEKLNDEVQC FQVSLPEDIK
GDDVYLFTIY AISQCILSDY NLSAISGGLS LDFRDYEQFD AYDLIGDIHK KIPFQVNRTE
TFEEFKNSHF KILEIYRTGI DYYEIAMLGN DMSAKEVQER LNNLSLSINF IGEAFRLKDT
INNIIDVDFD KNFINVFVHE RFAYAVIKSE LLSNSVYDLM HKDSKFELKV IDKKRLENEE
TNR
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