Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Swoo_4813 |
Symbol | |
ID | 6119190 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Shewanella woodyi ATCC 51908 |
Kingdom | Bacteria |
Replicon accession | NC_010506 |
Strand | - |
Start bp | 5798799 |
End bp | 5801648 |
Gene Length | 2850 bp |
Protein Length | 949 aa |
Translation table | 11 |
GC content | 49% |
IMG OID | 641636394 |
Product | molybdopterin oxidoreductase |
Protein accession | YP_001763157 |
Protein GI | 170729131 |
COG category | [C] Energy production and conversion [R] General function prediction only |
COG ID | [COG0243] Anaerobic dehydrogenases, typically selenocysteine-containing [COG3383] Uncharacterized anaerobic dehydrogenase |
TIGRFAM ID | [TIGR01409] Tat (twin-arginine translocation) pathway signal sequence |
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Plasmid Coverage information |
Num covering plasmid clones | 11 |
Plasmid unclonability p-value | 1 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | 14 |
Fosmid unclonability p-value | 0.517826 |
Fosmid Hitchhiker | No |
Fosmid clonability | normal |
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Sequence |
Gene sequence | ATGCGACTAA CTCGCAAAGC AGACCAGGCG GAAGTGGTAA AAAAACCAGC CTTAGGTCTT AATCGTCGTC AGTTCCTTCA GTCTGCAGGT CTTGCAACTG GTGGTATTGC CGCGGCATCT ATGCTTGGCG CTGGAATGAT GCGTAAAGCG CAGGCGAAAG AGGTGCCACA TGATGCACCG ACCGAAACTA AGCGTACTAT CTGTTCTCAC TGTTCAGTGG GTTGTGGTGT TTATGCTGAA GTGCAAAATG GTGTTTGGAC TGGTCAGGAG CCTGCATTTG ATCATCCATT TAACGCTGGT GGTCACTGTG CAAAAGGTGC GGCCCTTCGT GAACATGGTC ACGGTGAGAA GCGTCTTAAA TACCCAATGA AACTCGAGGG TGGCAAATGG AAGAAGATCT CTTGGGATCA AGCCATTGAA GAGGTAGGTC AAAAAGCATT AGATATCCGT AAGGAATCAG GCCCAGATTC TGTGTTCTTC ATGGGTAGCG CGAAATTTTC AAACGAGCAA GCTTATCTGT ACCGCAAGTT CGCAGCGATG TGGGGCACTA ACAATGTCGA TCACTCAGCG CGTATTTGTC ACTCTACCAC TGTAGCCGGT GTTGCAAACA CTTGGGGCTA TGGTGCGCAA ACTAACTCTT TTAACGATAT CCGTAATGCT AAGGCGATGA TGTTCATCGG GTCTAACCCA TGTGAAGCGC ATCCAGTTGC CATGCAGCAT ATTCTGGCGG GTAAAGAGCG CGGCGCTAAG ATTATCGTCG TTGACCCTCG CTTTAGCCGT ACCGCGGCTA AGTCGGATGA ATATGTGCAT ATTCGTCCAG GTACCGATAT CCCATACATC TATGGTCTGC TTTGGCATAT TTTTGAAAAT AAATGGGAAG ATCAAACCTT TATCGACCAA CGTGTGTACG GTATGGAGCG TATTCGCGAA GAGGCTGCTA AGTGGAACCC TGCCGAAGTT GAGCTAGTGA CTAGCGTACC AGAGAAGCAG ATGCGCCGCG TGGCTAAGAT GCTTGCAGAG ACTAAGCCTG GTACCGTTGT TTGGTGTATG GGTGGTACTC AACACCATGT CGGTAATGCC AATACTCGTG CTTACTGTAT TCTCCAGCTT GCACTGGGTA ACATGGGTGT CTCTGGTGGT GGAACTAACA TCTTCCGTGG TCACGATAAC GTTCAGGGCG CCACCGACTT TGGTTTGCTG TTTGATACAC TTCCTGGCTA CTACGGCCTG AAAACAGGCT CTTGGAAGCA CTGGTGTAAT GTGTGGGATC TTGATTATGA GTGGGTTAAA AACCGCTTCG ATCAAGAGGA GCACTTAGGT CAGGTTCCAA TGAACTCAAC CGGTATCCCT TGTTCTCGCT GGCATGATGG TGTGCTTGAA GACAAGTCTA AGATTGCCCA GAAAGATAAT ATCCGTATGT CTTTCTTCTG GGGACAATCA GTTAACACCG AAACCCGTGG TCGTGAAGTG CGTGAAGCAC TGAATAAGAT GGACACAGTT GTGGTCGTTG ATCCGTTCCC GACTATGGCG GGTGTGATGC ATGAACGTAC CGATGGTGTG TATCTGCTTC CTGCTTCTAC TCAGTTTGAA ACCTACGGTT CTGTTTCCGC TTCTAACCGC TCACTGCAGT GGCGCTCACA AGTTATCGAA CCTCTATTCG AGTCTAAGCC TGATCACGTG ATTATGTGCA AGCTCGCCAA GAAATGGGGC ATAGATAAAG AGTTATTTAA GCATATTAAG GTCAATGGTG ACGAGCCACT GATTGAAGAT ATCACTCGTG AGTTCAACAA GGGTATGTGG ACCATTGGTT ACACAGGCCA GAGCCCTGAG CGTTTGAAGA TGCATCAGGA AAACTGGGGT ACCTTCGACA TTAAGTCCCT TGAAGCACCA GGTGGCCCAG CTAAGGGCGA AACCTACGGT CTGCCTTGGC CATGTTGGGG CACGCCAGAG ATGAAGCACC CTGGTTCGCA GATCTTGTAC CGCACAGGTC GTGAAGTGAA AAACGGTGGT GGTAACTTCC GTGCTCGTTA TGGTGTTGAA CATAACGGCA ATAACATTCT TGCGGAAGGT TCTTACTCTA AAGGCAGTGA GATCCAAGAC GGTTATCCTG AGTTTACCGC CGATATGCTT AAGCAGCTTG GCTGGTGGGA CGATCTGACA GCTGAAGAAA AGGTGGCTGC CGAAGGTAAA AACTGGAAGA CAGATATCTC TGGTGGTATT CAACGCGTGG CGATTAAGCA CGGTTGTATC CCTTACGGTA ACGCTAAAGC GCGTTGTATT GTTTGGAACT TCCCTGACGA TATTCCGTTG CACCGTGAGC CACTCTATAC GCCTCGTCGT GACTTGGTGG CTAAGTACCC GACTTATGAT GACCGTATGG TTGCGCGTCT TCCTACCCTG TATAAGTCTA TTCAGGAGCA GGATTTTGCC AAAGACTTCC CAATTGCACT GACCTCTGGT CGTTTAGTTG AGTATGAGGG TGGTGGTGAA GAGACTCGTT CTAACCCTTG GCTTGCCGAG TTGCAACAGG AGATGTTCAT CGAGATCAAC CCTGCTGATG CAGCGGATCG TGCACTTCGT GACGGTGATG AAGTTTGGGT TCACAGTCCA GAAGGCGCCA AAATTAAAGT TCAGGCCATG GTGACGCCAC GCGTTATCGC GGGAGAGTGC TTTATGCCTT ACCACTTCGC AGGTGTATTC GAAGGTAAGA GCTTAGAGAA AAACTACCCT GAAGGAACCG TACCTTATGT GATTGGCGAG TCAGCTAACA CGGTACTGAC CTATGGCTAT GACGTGGTGA CTCAGATGCA GGAAACAAAA GCATCTTTGT GTCAGATCAC TAAAGCCTAA
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Protein sequence | MRLTRKADQA EVVKKPALGL NRRQFLQSAG LATGGIAAAS MLGAGMMRKA QAKEVPHDAP TETKRTICSH CSVGCGVYAE VQNGVWTGQE PAFDHPFNAG GHCAKGAALR EHGHGEKRLK YPMKLEGGKW KKISWDQAIE EVGQKALDIR KESGPDSVFF MGSAKFSNEQ AYLYRKFAAM WGTNNVDHSA RICHSTTVAG VANTWGYGAQ TNSFNDIRNA KAMMFIGSNP CEAHPVAMQH ILAGKERGAK IIVVDPRFSR TAAKSDEYVH IRPGTDIPYI YGLLWHIFEN KWEDQTFIDQ RVYGMERIRE EAAKWNPAEV ELVTSVPEKQ MRRVAKMLAE TKPGTVVWCM GGTQHHVGNA NTRAYCILQL ALGNMGVSGG GTNIFRGHDN VQGATDFGLL FDTLPGYYGL KTGSWKHWCN VWDLDYEWVK NRFDQEEHLG QVPMNSTGIP CSRWHDGVLE DKSKIAQKDN IRMSFFWGQS VNTETRGREV REALNKMDTV VVVDPFPTMA GVMHERTDGV YLLPASTQFE TYGSVSASNR SLQWRSQVIE PLFESKPDHV IMCKLAKKWG IDKELFKHIK VNGDEPLIED ITREFNKGMW TIGYTGQSPE RLKMHQENWG TFDIKSLEAP GGPAKGETYG LPWPCWGTPE MKHPGSQILY RTGREVKNGG GNFRARYGVE HNGNNILAEG SYSKGSEIQD GYPEFTADML KQLGWWDDLT AEEKVAAEGK NWKTDISGGI QRVAIKHGCI PYGNAKARCI VWNFPDDIPL HREPLYTPRR DLVAKYPTYD DRMVARLPTL YKSIQEQDFA KDFPIALTSG RLVEYEGGGE ETRSNPWLAE LQQEMFIEIN PADAADRALR DGDEVWVHSP EGAKIKVQAM VTPRVIAGEC FMPYHFAGVF EGKSLEKNYP EGTVPYVIGE SANTVLTYGY DVVTQMQETK ASLCQITKA
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