| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Shew185_0645 |
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| Symbol | groEL |
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| ID | 5372586 |
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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 | Shewanella baltica OS185 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_009665 |
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| Strand | + |
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| Start bp | 784424 |
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| End bp | 786061 |
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| Gene Length | 1638 bp |
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| Protein Length | 545 aa |
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| Translation table | 11 |
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| GC content | 48% |
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| IMG OID | 640828843 |
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| Product | chaperonin GroEL |
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| Protein accession | YP_001364869 |
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| Protein GI | 152999188 |
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| COG category | [O] Posttranslational modification, protein turnover, chaperones |
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| COG ID | [COG0459] Chaperonin GroEL (HSP60 family) |
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| TIGRFAM ID | [TIGR02348] chaperonin GroL |
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Plasmid Coverage information |
| Num covering plasmid clones | 22 |
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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 | ATGGCAGCTA AAGAAGTTGT ATTTGGTAAT GACGCTCGCG TAAGAATGCT GGCTGGCGTA
AACATTCTCG CAAACGCAGT AAAAGTGACC TTAGGCCCTA AAGGCCGTAA CGTGGTATTA
GACAAGAGCT TCGGCTCACC TCTGATCACT AAAGACGGTG TGTCTGTTGC CAAAGAAATC
GAGTTAGAAG ACAAATTCGA AAACATGGGC GCGCAAATGG TGAAAGAAGT TGCTTCTAAA
GCCAACGACG CCGCCGGTGA TGGTACTACT ACTGCAACTG TACTGGCTCA AGCCATTGTT
GTTGAAGGCT TAAAAGCCGT TGCAGCCGGT ATGAACCCTA TGGATCTGAA GCGCGGTATC
GACAAAGCCG TTATCGCTGC AGTTGCTGAA TTAAAAGCCT TATCACAACC TTGTGCCGAC
TCAAAAGCGA TTGCACAAGT TGCGACTATT TCTGCAAACT CTGACGAATC TATCGGCGAA
ATCATCGCAA CTGCGATGGA AAAAGTCGGC AAAGAAGGCG TGATCACAGT TGAAGAAGGC
CAAGCGTTAG AAAACGAATT GGACGTAGTA GAAGGTATGC AGTTTGATCG TGGCTACCTA
TCTCCATACT TCATCAACAA GCCAGAAACC GGCAGCGTTG AGTTAGACCA CCCATTCGTA
CTGTTAGTAG ACAAGAAAAT CTCTAATATT CGCGAACTGT TACCTATCCT TGAAGGTCTG
GCAAAAACCG GTAAGCCATT GCTTATCGTT GCTGAAGACG TTGAAGGCGA AGCATTAGCA
ACTTTAGTTG TGAACAATAT GCGCGGTATC GTGAAAGTGG CTGCGGTTAA AGCACCTGGC
TTTGGCGATC GTCGTAAGGC AATGCTACAA GACGTAGCAA TCCTGACTGG CGGTACTGTT
ATTGCTGAAG AAATCGGCCT AGAGCTTGAA AAAGCAACGT TGGAAGATTT AGGTACTGCT
AAGCGTGTTG TGATCACTAA AGACAACACC ACCATCATCG ATGGTAACGG CGAGCAAACA
CAAATTGCTG CTCGTGTAAG CCAAATCAAA CAACAAGTTG AAGAATCAAC TTCTGACTAC
GACAAAGAAA AACTGCAAGA GCGTATGGCT AAATTAGCCG GCGGCGTAGC AGTAATCAAA
GTTGGCGCAG CGACTGAAGT TGAAATGAAA GAGAAAAAAG CCCGCGTTGA AGATGCACTG
CATGCAACTC GCGCTGCGGT AGAAGAAGGC GTGGTTCCTG GCGGCGGTGT TGCTCTGGTT
CGCGTAGCTT CTAAGATCGC TGACGTTGAA GTATTAAACG AAGACCAAAA ACACGGTGTG
GTTATCGCAC TGCGTGCAAT GGAAGCGCCA CTGCGTCAAA TCGCCACTAA CGCGGGTGAA
GAAGCGTCAG TTGTTGCTAA CACAGTGAAG AACGGCAGCG GTAACTATGG TTACAACGCC
GGCAACGACA CTTACGGTGA CATGTTAGAA ATGGGTATCC TTGACCCAAC TAAAGTGACC
CGTTGTGCAT TGCAATTCGC TGCGTCAATC GCAGGTCTGA TGATCACTAC AGAAGCTATG
GTTGCTGAGA TCCCACAAAA TGCTAGCCAA GATATGGGCG GTATGGGTGG GATGGGCGGA
ATGGGCGGCA TGATGTAA
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| Protein sequence | MAAKEVVFGN DARVRMLAGV NILANAVKVT LGPKGRNVVL DKSFGSPLIT KDGVSVAKEI
ELEDKFENMG AQMVKEVASK ANDAAGDGTT TATVLAQAIV VEGLKAVAAG MNPMDLKRGI
DKAVIAAVAE LKALSQPCAD SKAIAQVATI SANSDESIGE IIATAMEKVG KEGVITVEEG
QALENELDVV EGMQFDRGYL SPYFINKPET GSVELDHPFV LLVDKKISNI RELLPILEGL
AKTGKPLLIV AEDVEGEALA TLVVNNMRGI VKVAAVKAPG FGDRRKAMLQ DVAILTGGTV
IAEEIGLELE KATLEDLGTA KRVVITKDNT TIIDGNGEQT QIAARVSQIK QQVEESTSDY
DKEKLQERMA KLAGGVAVIK VGAATEVEMK EKKARVEDAL HATRAAVEEG VVPGGGVALV
RVASKIADVE VLNEDQKHGV VIALRAMEAP LRQIATNAGE EASVVANTVK NGSGNYGYNA
GNDTYGDMLE MGILDPTKVT RCALQFAASI AGLMITTEAM VAEIPQNASQ DMGGMGGMGG
MGGMM
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