| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Shel_22740 |
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| Symbol | |
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| ID | 8396163 |
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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 | Slackia heliotrinireducens DSM 20476 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_013165 |
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| Strand | + |
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| Start bp | 2521371 |
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| End bp | 2524532 |
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| Gene Length | 3162 bp |
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| Protein Length | 1053 aa |
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| Translation table | 11 |
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| GC content | 64% |
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| IMG OID | 644987022 |
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| Product | anaerobic dehydrogenase, typically selenocysteine-containing |
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| Protein accession | YP_003144633 |
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| Protein GI | 257064961 |
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| COG category | [C] Energy production and conversion |
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| COG ID | [COG0243] Anaerobic dehydrogenases, typically selenocysteine-containing |
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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 | 9 |
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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 | 19 |
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| Fosmid unclonability p-value | 0.945653 |
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| Fosmid Hitchhiker | No |
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| Fosmid clonability | normal |
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Sequence |
| Gene sequence | ATGGGTAAAT TGACCATGAC GCGCCGCTCG TTCGCGAAGC TGTCTGCAAT GACCATCGCC
GCAGCTGCCG TTGCGGAATC GGTCGTCCCC GCCGCCGTCC TTGCCGACGA CGCCGCTGCA
GACGAATCCG CCGGCGAAAT CAAGCGTATC CGTTCTTGCT GCCGTGGTTG CGGCAAGATG
GAATGCGGCG TTTGGGTCAC CGTCCAGAAC GGACGCGTCA TCAAGACCGA AGGCGACCAG
TCTTCGTTCC AGTCGTCCGG CAACCATTGC TCCAAGGGCC AGGCATCCAT TCAGGCATGC
TACCACCCCG CTCGCATGTA CCATCCCATG AAGCGCACGA ACCCCAAGGG CGAAGATCCC
GGCTGGGTCC GCATCTCGTG GGAAGAGGCG ATGGATACCA TCGGCGAGAA GTTCAACGAG
GCCATCAACC AGTACGGCGG GCAGACCTGC TTCGGCATGT GCGGCACGTC CCGTCAGTGG
GTGTACGGCC CCTACGCATT CTACAAGTGG CTGTTCGATA GCCCCAACGC CCACGTAGCA
TCCTCGATCT GCAAGGGCCC CCGTCGTCTG ATGGGCTGGC TCACCTCCAT CGACGGCGCG
CCTTGGTTCG CCCTGCGCGA CGGCCCGCGC GTCTACGTCC AGTGGGGCAC CGCTCCCGAG
AACTCCAACT ACGACGACTC CTGCCGTAAC ATCGTCGACA AGATGACCGA GGCCGACGTG
CACATCTGCA TCGACCCGCG CCTGTCCGGT TCTGGCAAGG AAGCCGACTA CTGGCTGAAC
CTGGAGCCCG CCACCGACGG CGCCCTGGCG CTGTGCTGGC AGCACATCAT CCTCGAGCAT
GACCTGGTCG ACTGGGAATT CGTGAAGCGC TGGACCAACG CCCCCATCCT GGTAGTCGAA
GACATGGAGC CCACGGGCGG CCGTTACTTC ACGCTGTCCA CGGCGCTCAC CGTGGCCCCT
GCGGACCTGC TCGGCGAGAA GCTGAAGACC CGCCTGCTCA AGGAGAGCGA CCTGGTCGAA
GGCGGCAGCT GCCGTAAGTT CATGGCTTGG AACAAGAAGG CCAACGACGG CAAGGGCGGC
CTGACCTATT GGGACACCGA CGCCACGCAG TGGGAAGGCT GCCATCACAC GGCGCCCACC
CGCGACCAGA TGGAAGTCAT CTACGAAGGA ACCTCCCAGG AAGGCTACCT GCCTCCGCTG
TCCTACCACG AGCTGGAAGA AGCCGGCATC GACTTCGACC TGTACGAGGC CCACGAGGTC
ACGCTGGCCG ACGGCACCAA GCACATGGCC CGTCCGGTTT GGGCGTACTT CGCCGACTCC
GTCAAGGATT GCACCGTCGA ATGGTGCTCC GAGATCACCA AGCTCGATCC GAAGCTGATC
GAAGAGTCCT GCCTCGCCTG GGCGACCCGC CCCGAAGGCC AGTCCTACGG CAACGGCGGC
ATCCATCTGA ACCTGTCGCC TGACCAGGAA GGCAACTGCA CGCAGACCGT GCGCGCCATC
CTGAACCTGT CCTACACCAC GGGCAACTTC GACGGCCCCG CCGGCAACCG CGGCCTGTCC
CGCACCCCTG TCGACGAGCA ATCCACCGCC GCTCCCGGCT CCAACATGCC GCAGAACGTC
AAGAAGCAGC TCAAGGGTCT GGGCGTACCG ATTCCGTACT ACCCCGACGA GCAGATTGAC
ATGATGAACA TCCCCGACAC CTACGAGACC TATTCCAACA TGGTCGGTGC CGACAAGTTC
CCGCTGCTCG CGCTGTACAA CGAATGGGCC GACCCCGCCA GCATCTTCGA GGCCATCCTC
ACCGGCGATC CCTATCCGAT CCGCGTCGGC ATCAACGAGG CCGGTTCGTT CATGAACCAG
TGCAACGCCA ACATGGCCTG GGACGCCCTG TCCAAGCTGG ACTTCTGGGT TGACCTGAAC
ATGTTCCACC ATCCCTCCAC CGAGATGGCC GACATCGTTC TGCCCGTCGC CCACTGGCTC
GAGATCAACA ACATCCGCGT GTCGCAGGGC GCTTCCGGCG GCATCGGCAT GACCTGCCGT
GCGGTCGACC CGCCGGCCGA CGCCAAGTTC GACTACGACG TCAACCGCCT GCTGTACGAA
TCCTTCGAGA AGCAGGGCAA CATCAACGGT ATCTGGACCA ACATCGCTGC CGACGGCCCC
GGCGCCTACG AAAGCGACGA GCGTCTGGAA GAGTGGTTCC GCGCCCACAA CGAGGTGGAC
GGCTTCGACG CCCGTTACCC CGGCTGCAAG TGGCAGCACA TGCAGGACTA CGTGGACGAC
TTCCAGGAGC ATGGCTGGTT CAACGCCAAG GTCCTGGAGC CCAACCGTTG GGGCACCTAC
CGTCGTTTCG AGACCGGCTG GATGCGCATG GGCAAGGACG CCTGCACCGC CGCTCCCTGG
AGCGCCGACG AGAACGGCCA GCCCACCGAC GCCAACTTCG GCTGCCCGAC CCCTTCGGGC
CTGGTCGAAA TCTGGCCGAT GATGTTCGAA TACTACTGCC TCGACAAGGC CAACGAGTTC
GAGCCCGGCA AGTTCGACGT CATGAAGGAA ATCATGCCGA ACTACGAACC CTGCGTCTCC
GCCCCCGGCG GCGAATGGGA GACCGAGACC TCCGCTGAGG AGTACCCGAT CATCCTCACC
ACCGGCCGCC GCATCCCGGT GTACTTCCAC TCCGAGCATC GCCAGCTCCC CTGGTGCCGC
GAACTGTGGC CGGCCCCGCG TCTGGAGCTC AACCCCGTGG ACGCCGAGAA GCTGGGTCTG
CAGCAGGGCG ACTGGGCCTG GATCGAAGTG GAGCCCCACA CCGAGATGGG CAAGAAGTAC
TGCTCCGCCA TCCGCGAGGT CGTAGACATC TACGAAGGTA TCGCCCCTGG CTGGGCCAAC
GCCGAGCACG GCTGGTGGTA TCCCGAGCTG CCGGCTCCGA CCCATGGTTT CGACCTGGTC
AACGCCGAAT GCCTGTGGGA TCCCGAGGCC CGCGACAAGT TCATCGCAAG CTCGCACATG
CGCGGCGTCC GCTGCAAGAT CTACAAGGCC ACGGCCGAGA ACAGCCCCAA CGGCAACCCG
ATTCCGTGCG CCAACGAAGA CGGCACCCAG ATCATCTACG ACAGCAGCGA TCCTCGCCTG
AAGGAATGGC TGCCTGATTA CGACATCCGG AAGGAGGCGT AA
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| Protein sequence | MGKLTMTRRS FAKLSAMTIA AAAVAESVVP AAVLADDAAA DESAGEIKRI RSCCRGCGKM
ECGVWVTVQN GRVIKTEGDQ SSFQSSGNHC SKGQASIQAC YHPARMYHPM KRTNPKGEDP
GWVRISWEEA MDTIGEKFNE AINQYGGQTC FGMCGTSRQW VYGPYAFYKW LFDSPNAHVA
SSICKGPRRL MGWLTSIDGA PWFALRDGPR VYVQWGTAPE NSNYDDSCRN IVDKMTEADV
HICIDPRLSG SGKEADYWLN LEPATDGALA LCWQHIILEH DLVDWEFVKR WTNAPILVVE
DMEPTGGRYF TLSTALTVAP ADLLGEKLKT RLLKESDLVE GGSCRKFMAW NKKANDGKGG
LTYWDTDATQ WEGCHHTAPT RDQMEVIYEG TSQEGYLPPL SYHELEEAGI DFDLYEAHEV
TLADGTKHMA RPVWAYFADS VKDCTVEWCS EITKLDPKLI EESCLAWATR PEGQSYGNGG
IHLNLSPDQE GNCTQTVRAI LNLSYTTGNF DGPAGNRGLS RTPVDEQSTA APGSNMPQNV
KKQLKGLGVP IPYYPDEQID MMNIPDTYET YSNMVGADKF PLLALYNEWA DPASIFEAIL
TGDPYPIRVG INEAGSFMNQ CNANMAWDAL SKLDFWVDLN MFHHPSTEMA DIVLPVAHWL
EINNIRVSQG ASGGIGMTCR AVDPPADAKF DYDVNRLLYE SFEKQGNING IWTNIAADGP
GAYESDERLE EWFRAHNEVD GFDARYPGCK WQHMQDYVDD FQEHGWFNAK VLEPNRWGTY
RRFETGWMRM GKDACTAAPW SADENGQPTD ANFGCPTPSG LVEIWPMMFE YYCLDKANEF
EPGKFDVMKE IMPNYEPCVS APGGEWETET SAEEYPIILT TGRRIPVYFH SEHRQLPWCR
ELWPAPRLEL NPVDAEKLGL QQGDWAWIEV EPHTEMGKKY CSAIREVVDI YEGIAPGWAN
AEHGWWYPEL PAPTHGFDLV NAECLWDPEA RDKFIASSHM RGVRCKIYKA TAENSPNGNP
IPCANEDGTQ IIYDSSDPRL KEWLPDYDIR KEA
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