| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Sputcn32_0337 |
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| Symbol | |
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| ID | 5081216 |
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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 putrefaciens CN-32 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_009438 |
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| Strand | - |
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| Start bp | 363238 |
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| End bp | 366087 |
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| Gene Length | 2850 bp |
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| Protein Length | 949 aa |
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| Translation table | 11 |
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| GC content | 47% |
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| IMG OID | 640497453 |
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| Product | molybdopterin oxidoreductase |
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| Protein accession | YP_001181868 |
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| Protein GI | 146291444 |
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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 | 16 |
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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 | ATGCGATTAA CCCGCAAAAC AGATCAGGTT GTCGAGCCTA AAGCATCGAC CCTGGGTCTC
AATCGTCGCC AATTCTTAAA ATCGGCAGGT CTTGCCACTG GTGGTATCGC CGCAGCTTCA
ATGCTGGGAA CAGGCATGAT GCGTAAAGCA GAAGCCAAAG ATATCCCTCA CAACGTTCCA
ACCGAAGTTA AACGTACCAT TTGTTCTCAC TGTGCTGTGG GCTGTGGTAT CTATGCTGAA
GTACAAAACG GGGTGTGGAC AGGTCAAGAA CCCGCATTCG ATCACCCATT CAACGCCGGC
GGCCACTGTG CTAAAGGTGC AGCACTGCGT GAGCATGGTC ATGGTGAAAA ACGCCTGAAA
TACCCAATGA AGTTAGAAGG CGGAAAATGG AAAAAGATCT CTTGGGATCA AGCCATTAAT
GAAGTAGGCG ATAAAATGGC CTCTATTCGT CAAGAATCTG GCCCAGACTC TATCTACTTC
ATGGGTAGTG CCAAGTTCTC AAACGAACAA GCTTATTTAT ATCGCAAATT TGCGGCACTG
TGGGGAACGA ACAACGTCGA CCATTCAGCC CGTATTTGTC ACTCTACCAC GGTAGCTGGT
GTTGCTAACA CTTGGGGCTA CGGTGCGCAA ACCAACTCAA TCAACGATAT TCGTAACTCT
AAGTGCATTA TGTTTATTGG GGCAAACCCC AGTGAAGCAC ACCCAGTTGC CATGCAGCAT
ATTTTGATTG GTAAAGAACG CGGTGCCAAA ATCATCGTAG TTGATCCACG TTTCACCCGT
ACTGCAGCTA AGTCTGACGA GTACGTGCAT ATCCGTCCTG GTACAGATAT TCCCTTCATT
TATGGCTTGT TATGGCACAT ATTCGAAAAC GGCTGGGAAG ATAAAGAGTT TATCAAGCAC
CGCGTTTACG GTATGGATCG CATCCGCGAA GAAGTGAAAA AGTACACCCC AGAAGAAGTT
GAAAATGTGG TGGGCGTACC TAAAGCCCAA ATGTATCGTG TTGCCAAGAT GATGGCTGAA
ACTAAACCTG GCACCATTGT TTGGTGTATG GGTGGTACGC AGCATCACGT CGGTAACTCG
AACACCCGTT CATACTGCAT GTTACAACTC GCTTTAGGTA ACATGGGTGT TCCTGGCGGC
GGTACTAACA TTTTCCGTGG CCACGATAAC GTACAAGGTG CAACCGACTT TGGTTTGTTA
TTTGATAACT TACCCGGTTA TTACGGTTTA ACTACCGCCG CATGGGATCA CTGGGCCAAT
GTATGGGATC TCGATCCTAA ATGGGTCTCA AGCCGTTTCG ACCAAGGTGA ATACTTAGGT
CAAACACCAC AAACTTCAAC AGGTATCCCA TGCTCTCGTT GGCACGATGG CGTGTTAGAA
GATAAAACCA AGATAGCGCA GAAAGACAAT ATTCGTCTGG CGTTCTTCTG GGGACAATCT
GTCAACACTG AAACCCGTGG CCGCGAAGTG CGTGAAGCAC TGAACAAAAT GGATACCGTC
GTTGTTGTCG ATCCATTCCC AACGATGGCA GGTGTAATGC ACCAACGTCA AGATGGTGTT
TATCTGCTGC CTGCTGCAAC CCAGTTTGAA ACCTATGGTT CTATCTCTGC AACCAACCGC
TCAGTTCAGT GGCGCTCTAA GGTAATAGAG CCGCTGTTCG AATCACTGCC AGATCATGTG
ATCATGTGCA AACTCGCTAA GAAAGTGGGT ATTGATAAAG AGTTGTTCAA ACAAATCAAA
GTCAATGGTG ATGAGCCTTT GATTGAAGAT ATTACCCGTG AATTTAACAA AGGTATGTGG
ACTATCGGTT ACACCGGACA AAGCCCAGAA CGTTTAAAAA TGCACCAAGA AAACTGGGGC
ACTTTTGATG CTGACAGCTT AGAAGCACCA GGCGGTCCAG CCAAAGGCGA AACCTATGGT
TTACCTTGGC CTTGTTGGGG TACACCAGAG ATGAAACATC CTGGAACCCA AATTCTGTAT
AACGAAGCCA AGCATGTTAA AGACGGCGGC GGTAACTTCC GTGCTCGTTA TGGTGTTGAA
CATGAAGGTA ACAACATTCT TGCTGAAGGA ACTTACTCTA AAGGCAGTGA GATCCAAGAT
GGCTATCCTG AATTTACCGC CGATATGCTT AAGCAATTAG GCTGGTGGGA TGACCTAACA
GCAGACGAGA AAAAACACGC CGAAGGCAAA AACTGGAAAA CTGATATTTC TGGCGGTATC
CAACGTGTTG CTATCAAACA CGGCTGTATC CCTTACGGTA ACGCTAAAGC TCGTTGTATT
GTCTGGACAT TCCCTGACGA TATTCCACGC CACCGCGAAC CACTTTACAC GCCTCGTCGT
GACTTAGTTG CTAAATACCC AACCTACGAA GACCGTATGG TTGCGCGTCT ACCGACGCTG
TATAAGTCAA TTCAAGACAA GGATTTTGCT AAAGACTTCC CACTGGCACT CACATCAGGC
CGTCTAGTGG AATACGAAGG TGGTGGTGAA GAATCCCGTT CTAACCCTTG GTTAGCTGAA
CTACAACAAG AAATGTTCAT CGAAATGAAC CCTGCTGATG CAGCGGATCG CGGTATTCGT
GACGGTGATA ATGTTTTTGT TCATGGTCCA GAAGGCGCCA AAATCACGGT TAAGGCAATG
GTAACACCAC GCGTAATTGC TGGTGAATGT TTTATGCCAT ACCACTTTGC AGGGGTGTTT
GAAGGTGAAA GTCTCGCGAA AAACTATCCA GAAGGCACAG TGCCTTATGT GATAGGCGAA
TCCGCAAACA CCATTTTAAC TTATGGCTAC GATGTTGTGA CTCAGATGCA AGAAACTAAG
TCCAGCCTCT GCCAAATTAG CAAAGCCTAA
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| Protein sequence | MRLTRKTDQV VEPKASTLGL NRRQFLKSAG LATGGIAAAS MLGTGMMRKA EAKDIPHNVP
TEVKRTICSH CAVGCGIYAE VQNGVWTGQE PAFDHPFNAG GHCAKGAALR EHGHGEKRLK
YPMKLEGGKW KKISWDQAIN EVGDKMASIR QESGPDSIYF MGSAKFSNEQ AYLYRKFAAL
WGTNNVDHSA RICHSTTVAG VANTWGYGAQ TNSINDIRNS KCIMFIGANP SEAHPVAMQH
ILIGKERGAK IIVVDPRFTR TAAKSDEYVH IRPGTDIPFI YGLLWHIFEN GWEDKEFIKH
RVYGMDRIRE EVKKYTPEEV ENVVGVPKAQ MYRVAKMMAE TKPGTIVWCM GGTQHHVGNS
NTRSYCMLQL ALGNMGVPGG GTNIFRGHDN VQGATDFGLL FDNLPGYYGL TTAAWDHWAN
VWDLDPKWVS SRFDQGEYLG QTPQTSTGIP CSRWHDGVLE DKTKIAQKDN IRLAFFWGQS
VNTETRGREV REALNKMDTV VVVDPFPTMA GVMHQRQDGV YLLPAATQFE TYGSISATNR
SVQWRSKVIE PLFESLPDHV IMCKLAKKVG IDKELFKQIK VNGDEPLIED ITREFNKGMW
TIGYTGQSPE RLKMHQENWG TFDADSLEAP GGPAKGETYG LPWPCWGTPE MKHPGTQILY
NEAKHVKDGG GNFRARYGVE HEGNNILAEG TYSKGSEIQD GYPEFTADML KQLGWWDDLT
ADEKKHAEGK NWKTDISGGI QRVAIKHGCI PYGNAKARCI VWTFPDDIPR HREPLYTPRR
DLVAKYPTYE DRMVARLPTL YKSIQDKDFA KDFPLALTSG RLVEYEGGGE ESRSNPWLAE
LQQEMFIEMN PADAADRGIR DGDNVFVHGP EGAKITVKAM VTPRVIAGEC FMPYHFAGVF
EGESLAKNYP EGTVPYVIGE SANTILTYGY DVVTQMQETK SSLCQISKA
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