| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Dtox_2078 |
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| Symbol | |
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| ID | 8429060 |
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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 | Desulfotomaculum acetoxidans DSM 771 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_013216 |
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| Strand | + |
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| Start bp | 2255248 |
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| End bp | 2257701 |
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| Gene Length | 2454 bp |
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| Protein Length | 817 aa |
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| Translation table | 11 |
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| GC content | 44% |
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| IMG OID | 645034399 |
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| Product | heavy metal translocating P-type ATPase |
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| Protein accession | YP_003191530 |
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| Protein GI | 258515308 |
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| COG category | [P] Inorganic ion transport and metabolism |
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| COG ID | [COG2217] Cation transport ATPase |
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| TIGRFAM ID | [TIGR00003] copper ion binding protein
[TIGR01494] ATPase, P-type (transporting), HAD superfamily, subfamily IC
[TIGR01511] copper-(or silver)-translocating P-type ATPase
[TIGR01525] heavy metal translocating P-type ATPase |
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Plasmid Coverage information |
| Num covering plasmid clones | 17 |
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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 | 21 |
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| Fosmid unclonability p-value | 0.972968 |
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| Fosmid Hitchhiker | No |
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| Fosmid clonability | normal |
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Sequence |
| Gene sequence | ATGATTGGTG AAAACTCTAT GAGAGCGCAA AGTTTGCCTG CTGAAAACCT TGTATTCAAG
ATTTCCGGCA TGTCCTGTGC AGCCTGTGCT CGCAGGATTG AAAAAGCTTT GTCAGGTATA
GAAGGGATTG CTGAGGCGGG AGTGAACTTG GCTGCAGAGA CAGCTTCGGT AAAATACGAC
CCAAATTCGG TTACTGTTGA ACAAATGATG GATAGAATAA AAAAATTGGG TTTTGAAGTA
GTCACAGAAA AAATTGATAT AAACATCTCA GGTATGAGTT GTGCGGCCTG TGCCGGTAGA
ATAGAGGGAA AACTAAACAA GACAGGCGGT GTTATAAAAG CCACGGTTAA CCTGGCTACT
GAAAAAGCTT TTATAGAGTA TAACGCTGCC CAGGTTAATT TAGCTGATAT TAAACAAGTA
ATCAATAATC TAGGTTTTAA AGTCGTCCAT GAGGATAGCG GTCTTCCTGT AGATACTGAA
AAGAACAGGC GCCAATCGGA AATAAACAGA CAGAAAAAGT TATTTGCTTT TTCTGCTGTG
TTATCATTTC CACTGTTTTT GTTTATGCTG GCTATGGTGA CTAAATCGCA TCACTTTTTC
CCGGCTATTA TCATGAATCC TTATTTTCAG TTTGCTTTGG CTACACCGGT ACAGTTCGGG
CCAGGTTACT TTTTTTACAG GGATGCTTAT CTAACCTTAA AGAGTAAGGG AGCCAATATG
TCTGTACTGG TAGCACTTGG TACCTCTGCC GCTTATTTTT ACAGTGTGGC TGTTACCTTT
TTCGGCAGCC GTCTGGGACT TAATGAGGTC TATTATGAAG CGGGTGCTCT GGTAATTACT
CTGGTATTGC TCGGTAAAAT GCTTGAATCC ATAGCCAAAG GTAAGACCTC GGAGGCTATC
AAGAAATTAA TGGGCCTGCA GCCTAAGACG GCCCGGATTA TTAAAAACGG CCAAGAAGTC
GAAATTCAGG TCGATGAAGT TAGAGTAGGT GATCTGGTGG TAGTTCGTCC CGGTGAAAAA
ATTCCGGTTG ACGGAATTGT TCGGGAGGGG ATCTCCAGTA TAGACGAATC GATGCTCACC
GGTGAGAGTA TGCCTGTTGA TAAAAAAACC GGTGACCAGG TGGTTGCAGC TACTATAAAT
AAACTGGGCA CCTTTAAATT TGAAGCGATC AAGGTTGGCA GAGACACTGC TCTGGCTCAA
ATAATTAAAA TTGTCGAATC AGCACAGGGT TCCAAAGCTC CTATACAGAG AATGGCCGAC
ATTATTTCCG GTTATTTCGT TCCGGCGGTG GTTGCTATGG CTCTGTTAAC TTTTGCCTCT
TGGTATTTAA TTGGGACACC CGGTGATTTT ACCAGGGCGC TGGTTAACTT TACAGCCGTA
TTGGTAATAG CCTGTCCCTG CGCGCTTGGC CTGGCAACTC CCACATCAAT CATGGTGGGT
ACAGGAAAAG GGGCGGAAAA CGGTATTTTA ATTAGAGGCG GCGAACATTT AGAACGTGTG
CATAAGCTAA ATACGCTGGT TTTGGACAAG ACCGGCACTA TAACTAAAGG CAAACCGGAA
TTGACTGATA TAATTTCCTT GTATGAATAC CAGGGTCAAG AAAATACCTT GCTTACCATG
GCAGCCGGTG CTGAAAAGGG TTCGGAACAC CCTCTGGCCC GTGCGGTAAT CAATGCTGCG
TTAGAGAGAA ACCTTGCCAT TAAGGAACCT GAAATTTTTC AAGCCGTTCC GGGGCATGGT
GTAGAGGCTC ATATAGAAGG TCAAAAGGTG CTTCTGGGAA CTAAAAAACT AATGTTGGAG
CACGGAGTAA ATGTTAATAA AATTACCAGT GATATAGAAC GACTGGAGAG TCAAGGTAAA
ACTGTCGTTA TTCTGAGCAT AGATGAGCAA CCGGCTGGTC TGCTGGCTAT TGCTGATACT
GTAAAAGAAG AATCACAGGC TGCTATTGCA GCACTGCAGG CTATGGGCTT GGAAGTTTGG
ATGATTACCG GGGATAACCA GCGAACAGCT CATACTATTG GTCAACAAGT AGGAATAAGT
AATATTCTGG CTGAGGTTTT GCCGGAGGAG AAAGCCAGCG AAATTAAAAA ACTCCAGTCT
CAGGGCAGGA TTGTCGGCAT GGTGGGTGAC GGTATTAACG ATGCTCCGGC GCTGGTTGTG
GCCGATGTTG GCTTTGCTAT AGGTACAGGC ACGGATGTAG CTATGGAGGC AGCTGATATA
ACCTTGATGA GAGGGGACTT GTGGGGCCTG GTTAACAGTA TAAAATTAAG CCGGGCAACC
ATTATTAATA TCAAACAAAA CCTGTTCTGG GCGCTCATAT ATAATACTAT AGGCATACCC
GTGGCAGCAT TGGGATTTTT AAACCCTGTG CTTGCCGGTG CAGCTATGGC CTTCAGTTCT
GTATCAGTGG TTTCCAACGC TCTGCGTCTA AAGAATTTCA AGTTTAACCA TTAG
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| Protein sequence | MIGENSMRAQ SLPAENLVFK ISGMSCAACA RRIEKALSGI EGIAEAGVNL AAETASVKYD
PNSVTVEQMM DRIKKLGFEV VTEKIDINIS GMSCAACAGR IEGKLNKTGG VIKATVNLAT
EKAFIEYNAA QVNLADIKQV INNLGFKVVH EDSGLPVDTE KNRRQSEINR QKKLFAFSAV
LSFPLFLFML AMVTKSHHFF PAIIMNPYFQ FALATPVQFG PGYFFYRDAY LTLKSKGANM
SVLVALGTSA AYFYSVAVTF FGSRLGLNEV YYEAGALVIT LVLLGKMLES IAKGKTSEAI
KKLMGLQPKT ARIIKNGQEV EIQVDEVRVG DLVVVRPGEK IPVDGIVREG ISSIDESMLT
GESMPVDKKT GDQVVAATIN KLGTFKFEAI KVGRDTALAQ IIKIVESAQG SKAPIQRMAD
IISGYFVPAV VAMALLTFAS WYLIGTPGDF TRALVNFTAV LVIACPCALG LATPTSIMVG
TGKGAENGIL IRGGEHLERV HKLNTLVLDK TGTITKGKPE LTDIISLYEY QGQENTLLTM
AAGAEKGSEH PLARAVINAA LERNLAIKEP EIFQAVPGHG VEAHIEGQKV LLGTKKLMLE
HGVNVNKITS DIERLESQGK TVVILSIDEQ PAGLLAIADT VKEESQAAIA ALQAMGLEVW
MITGDNQRTA HTIGQQVGIS NILAEVLPEE KASEIKKLQS QGRIVGMVGD GINDAPALVV
ADVGFAIGTG TDVAMEAADI TLMRGDLWGL VNSIKLSRAT IINIKQNLFW ALIYNTIGIP
VAALGFLNPV LAGAAMAFSS VSVVSNALRL KNFKFNH
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