| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Shew185_4110 |
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| Symbol | |
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| ID | 5369940 |
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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 | 4902308 |
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| End bp | 4905160 |
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| Gene Length | 2853 bp |
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| Protein Length | 950 aa |
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| Translation table | 11 |
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| GC content | 50% |
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| IMG OID | 640832376 |
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| Product | molybdopterin oxidoreductase |
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| Protein accession | YP_001368290 |
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| Protein GI | 153002609 |
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| COG category | [C] Energy production and conversion
[R] General function prediction only |
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| COG ID | [COG0243] Anaerobic dehydrogenases, typically selenocysteine-containing
[COG3383] Uncharacterized anaerobic dehydrogenase |
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| TIGRFAM ID | [TIGR01409] Tat (twin-arginine translocation) pathway signal sequence |
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Plasmid Coverage information |
| Num covering plasmid clones | 29 |
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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 | ATGAAGTTAA CTCGCAAGTC TAGTGTCGCC CCAGTGGCAG ACAAACCAGC GTTAGGCATT
AGCCGTCGTC AATTTATGAA GCACGCAGGT ATCGCCACCG GTGGTATTGC GGCGGCATCA
CTAATGGGCA CAGGCATGAT GCGTCGCGTC GAAGCCAAAG AAGTGCCACA TGATGCCCCT
ATCGAAGTCA AACGTACTAT TTGTAGTGCC TGCGCCGTCG GTTGTGGTCT GTATGCCGAA
GTACAAAATG GCGTGTGGAC GGGTCAAGAA CCTGCATTCG ATCATCCCTT CAACGCCGGT
GGTCACTGCG CTAAAGGTGC GGCACTGCGT GAGCATGGCC ATGGCGAAAA ACGCCTGAAA
TACCCAATGA AATTGGTTGA TGGCAAGTGG AAAAAAATCT CTTGGGAAGA TGCGATTAAC
GAAGTGGGCG ACCAAATGCT CAACATTCGT AAAGAATCCG GCCCAGACTC AGTGTACTTC
ATGGGTAGCG CTAAGTTCTC TAACGAAGGT TGCTACATGT ACCGCAAACT GGCGGCCATG
TGGGGCACAA ACAACGTCGA CCATTCAGCT CGTATTTGTC ACTCTACCAC GGTAGCCGGT
GTTGCTAACA CTTGGGGCTA CGGTGCGCAA ACTAACTCCT TTAACGATAT CCAAAACGCG
AATGCGATTT TCTTTATCGG TGCTAACCCT GCAGAAGCCC ACCCAGTGGC GATGCAACAT
ATCCTGATCG CTAAAGAAAG AAACAACGCT AAGTTGATCG TAGTTGATCC ACGTTTTTCT
CGCACCGCGG CGCATTCAGA TCTGCACTGT GCATTGCGTC CAGGTACTGA TATTCCGTTT
ATCTACGGTA TGTTATGGCA CATTTTTGAA AACGGTTGGG AGGATAAAAC CTTTATCCAA
CAACGTGTTT TCGAGATGGA CACCATTCGC GCCGAGGCGA AAAAATTTCC ACCTAAAGAA
GTGGAAAACA TCACAGGTGT GAGTGAAGCC GAGGTTTATC AAGCCGCGAA ACTCATGGCT
GATAACCGCC CAGGTACTGT GATCTGGTGT ATGGGTGGTA CTCAACACCA CGTCGGTAAC
GCCAACACCC GCGCTTACTG TATTCTGCAA TTAGCACTAG GTAACATGGG CGTGTCAGGC
GGCGGAACGA ACATTTTCCG TGGTCACGAT AACGTGCAAG GCGCGACTGA CTTAGGTTTG
TTGTTCGATA ACTTACCGGG TTACTACGGC TTAACAACAG GTGCTTGGAC TCACTGGACC
CACGTGTGGG ATCTAGACAT GGAATGGATG AAAGGCCGTT TCGATCAAGG CACTTATCTT
GGCCGTGAAC CTATGACTAC GCCGGGTATC CCTTGTTCCC GCTGGCACGA TGGTGTGCTA
GAAGAAAAAG GCAAACTCGC GCAGCAAGAT AACATTCGCA TGGCGTTTTT CTGGGGACAA
TCGGTGAACA CCGAAACCCG CCAACGTGAT GTGCGTGATG CCTTAGACAA GATGGACACA
GTGGTGGTAG TCGATCCATT CCCAACTATG GCAGGTGTGA TGCATCGCCG TAAGAATGGT
GTTTACTTGC TACCAGCAGC GACACAATTT GAAACTGAAG GCTCAGTTTC TAACTCTGGC
CGTAGTCAAC AATGGCGCGA GAAAGTTATA GAGCCATTGT TTGAATCTAA AACCGATATC
GAAATCATGT ATCGCTTAGC GCAAAAACTC GGTTTTGCTG AGCAGTACAC TAAACGCATC
GCTAAAGAAA ATGATTTGCC TGTGATTGAA GACATCACCC GCGAAATCAA CCGCGGCATG
TGGACTATCG GTATGACGGG CCAAAGCCCA GAACGCCTGA AACTACACAC CCAAAACTGG
GGCACCTTCA GCAACAAGAC GCTGGAAGCC GCAGGCGGCC CAGCGAAAGG CGAAACCTAC
GGTTTACCTT GGCCATGTTG GGGCACGCCA GAAGCGAAAC ACCCCGGCAC CCAAATTCTT
TACGATCAAT CCAAACACGT TAAAGACGGT GGCGGTAACT TCCGTGCCCG TTACGGCGTT
GAATACAATG GTAAAAACCT ATTGGCCGAA GGCTCTTTCT CTAAAGGTGC TGAAATCCAA
GACGGTTATC CAGAGTTCTC CGACAAGCTG CTCAAACAAC TCGGATGGTG GGATGATCTG
ACGGCGGCAG AAAAAGCCGA AGCCGAAGGC AGAAACTGGA AGACAGATTT GTCCGGCGGC
ATAGTTCGCG TAGCGATCAA GCATGGCTGT ATTCCTTTCG GTAACGCTAA AGCCCGTTGT
ATTGTTTGGA CTTTCCCAGA CCAAGCGCCA GTTCACCGCG AACCGTTATA CACGCCGCGC
CGTGACTTAG TGGCCAAATA CCCAACCTAT GCCGACATGC AAGTGCACCG TCTGCCTACG
CTGTATAAGT CAATCCAAGA CAAAGACATG AGCGGCAAGT ACCCACTGGT ACTGACCTCA
GGCCGTCTGG TTGAATACGA AGGTGGTGGT GAAGAATCTC GTTGTAACCC TTGGCTAGCT
GAACTTCAAC AGGAAATGTT TGTTGAGATA AGCCCTGCCG ATGCAGCTGA TCGCGGCATT
CGTAACGGTG AAGACGTCTG GTTAGAAGGC GCCGAAGGTG GCCGCATTAA GGTACAAGCT
ATGGTGACGC CACGCGTTAA ACCTGGCGTG ACCTTTATGC CATATCACTT TGCGGGTGTG
ATGCACGGTG AAAGTTTAGC GTCTAATTAT CCAGAGGGCA CAGTACCTTA CGTTATCGGT
GAATCCGCTA ACACTGCGCT GACCTATGGT TATGATCCTG TGACGCAAAT GCAGGAAACC
AAGGCATCAC TGTGTCAGAT CGTTAAAGCG TAA
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| Protein sequence | MKLTRKSSVA PVADKPALGI SRRQFMKHAG IATGGIAAAS LMGTGMMRRV EAKEVPHDAP
IEVKRTICSA CAVGCGLYAE VQNGVWTGQE PAFDHPFNAG GHCAKGAALR EHGHGEKRLK
YPMKLVDGKW KKISWEDAIN EVGDQMLNIR KESGPDSVYF MGSAKFSNEG CYMYRKLAAM
WGTNNVDHSA RICHSTTVAG VANTWGYGAQ TNSFNDIQNA NAIFFIGANP AEAHPVAMQH
ILIAKERNNA KLIVVDPRFS RTAAHSDLHC ALRPGTDIPF IYGMLWHIFE NGWEDKTFIQ
QRVFEMDTIR AEAKKFPPKE VENITGVSEA EVYQAAKLMA DNRPGTVIWC MGGTQHHVGN
ANTRAYCILQ LALGNMGVSG GGTNIFRGHD NVQGATDLGL LFDNLPGYYG LTTGAWTHWT
HVWDLDMEWM KGRFDQGTYL GREPMTTPGI PCSRWHDGVL EEKGKLAQQD NIRMAFFWGQ
SVNTETRQRD VRDALDKMDT VVVVDPFPTM AGVMHRRKNG VYLLPAATQF ETEGSVSNSG
RSQQWREKVI EPLFESKTDI EIMYRLAQKL GFAEQYTKRI AKENDLPVIE DITREINRGM
WTIGMTGQSP ERLKLHTQNW GTFSNKTLEA AGGPAKGETY GLPWPCWGTP EAKHPGTQIL
YDQSKHVKDG GGNFRARYGV EYNGKNLLAE GSFSKGAEIQ DGYPEFSDKL LKQLGWWDDL
TAAEKAEAEG RNWKTDLSGG IVRVAIKHGC IPFGNAKARC IVWTFPDQAP VHREPLYTPR
RDLVAKYPTY ADMQVHRLPT LYKSIQDKDM SGKYPLVLTS GRLVEYEGGG EESRCNPWLA
ELQQEMFVEI SPADAADRGI RNGEDVWLEG AEGGRIKVQA MVTPRVKPGV TFMPYHFAGV
MHGESLASNY PEGTVPYVIG ESANTALTYG YDPVTQMQET KASLCQIVKA
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