Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Oter_4432 |
Symbol | |
ID | 6205296 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Opitutus terrae PB90-1 |
Kingdom | Bacteria |
Replicon accession | NC_010571 |
Strand | + |
Start bp | 5722977 |
End bp | 5726303 |
Gene Length | 3327 bp |
Protein Length | 1108 aa |
Translation table | 11 |
GC content | 59% |
IMG OID | 641694098 |
Product | CzcA family heavy metal efflux protein |
Protein accession | YP_001821303 |
Protein GI | 182416237 |
COG category | [P] Inorganic ion transport and metabolism |
COG ID | [COG3696] Putative silver efflux pump |
TIGRFAM ID | [TIGR00914] heavy metal efflux pump (cobalt-zinc-cadmium) |
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Plasmid Coverage information |
Num covering plasmid clones | 12 |
Plasmid unclonability p-value | 1 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | 10 |
Fosmid unclonability p-value | 0.91419 |
Fosmid Hitchhiker | No |
Fosmid clonability | normal |
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Sequence |
Gene sequence | ATGCTCAAGG CCATCATCGA ATTCTCGCTC AAGAACAAGT TTCTGGTTCT CGCCGCCACC GCGGCTCTGA TCCTGGGCGG CATTTACTCG CTGCGGAATA TCCCGCTCGA TGCCATTCCC GACCTCTCGG ACACGCAGGT TATCATTTAC ACCGAGTGGC CCGGCCAGGC GCCGCAGCTC GTGCAGGATC AAGTCACTTA TCCGCTCACG ACGAAGATGC TGTCCGTGCC GAAATCGAAA GTCGTGCGGG GCTATTCGTT CTACGGGTTT TCGTTCGTCT ACGTCATCTT CGAGGACGGC ACTGATCCTT ACTGGGCGCG CAGCCGTGTG CTCGAATACC TGAGCGGCTT GCAGGCTAGT CTGCCGAAAA ACGTGACACC CACCCTCGGG CCGGACGCCA CGGGCGTGGG CTGGGCGTTC ATGTATTCGC TCAACTCGAC GAAGCACGAC TTGGCTGAAC TGCGCAGCAT GCAGGACTGG TTCCTTCGGT ACCAACTTGC CAGCGTGGAA GGGGTGGCAG AAATCGCCTC CGTTGGCGGG TTCGTGAAGC AATATCACAT CACGGTCGAT CCGCACCGGC TCCACGCCTA CAATCTCTCG ATCAGCGATG TCGCGATGGC CGTGGAGAAG AGCAATGGCG AGGTCGGGGG CAGGTCCGTG GAAATGGCCG AGAAGGAATT CATCCTGCGC GTTAAAGGCT ACGTCACCGA CGTGGAGATG CTGAAGAAAG TGGCGGTGGG ACGAGGACCC GGCGGCACAC CGATCCTTCT CGGAGAGGTG GCAAATGTGC AGCTCGGGCC GGATATGCGC CGTGGCATTG CCGAACTCAA CGGCGAAGGC GAGACGGTCG GCGGCGTGGT GGTGGTTCGC TATGGAGTCG ACACGCGTCA GGTCATTCAA GCCGTCAAGG CCCGACTCGA CCAAGCCATG AAGAGCTTGC CGGAAGGCGT TACCTACTCG ATCGCCTATG ATCGCACCGC GCTCATCGAC CGCGCCGTCA AGACGCTCAA GGAGAAACTA ATCGAGGAGA GCATCGTCGT CGCGCTGGTG TGCCTGATCT TCCTCATGCA TCTGCGCAGC GCGTTTGTGG CAATCGTGAT CCTGCCGATC GCGGTCTTGG CTTCGATTTC TATCATGTAT GGCCAAGGGC TCAGTGCGAA CATCATGTCG CTTGGAGGTA TTGCGATCGC TGTCGGTGCG ATGGTCGATG CGGCGATCAT CATGATTGAA AACGCGCACA AGCACATCGA GCACGATGGG GGAAAGAAAC CGCACTGGGA TATAATCCGC GATGCCGCAG TCGAGGTGGG CCCCACGCTG TTCTATTCGC TCCTCGTGAT CACGGTTTCC TTCCTGCCAG TGTTTACGTT GCAGGCCCAG GAAGGTCGGA TGTTCAAGCC GCTGGCTTTC ACGAAAACCT ACTCAATGGG GGCGGCTGCG CTCTTATCGA TCACGCTCGC TCCGGTGCTC ATGGGCTTTT TCATTCGCGG GAAAATTCCG GCCGAGGAAA AGAATCCAGT GAACCGTTTC CTCATCTGGC TTTATCATCC GGTGCTCGAT CTGATGATCA AGTTCCGGTG GTGGGTCATC ACCATCGCAG CGGTGGTCGT GCTCTGGGTG TTTATGCCGT GGAATGCGAT CGTTTCCCGT GTTCTGCCCG ATGGCGCGGC CAAAGAAGTC GCGCTGAAAA TGGGCAAGGC ATTTCCGTAT CAGAATCTCG GCTCCGAGTT CATGCCGCCG CTTTATGAAG GCGACCTGCT CTACATGCCG ACGACATTTC CCGGAATTTC GCCGACCAAG GCGCGCGAAA TAATCCAACA AACCGACCAG ATCATAAAGT CGTTCGCCGA GGTGCATCAT GTATTCGGCA AGATCGGGCG GGCGGAATCA GCGACCGATC CCGCGCCGAT GGACATGATC GAGACGACAA TCATGTTGAA ACCCGAGGAG GAGTGGCCGG AAGTCGATAT CAAGGACATG GACGGGAAGG TCGTCGCCCA CCGTCGGCGG ACAATCGAGG AACTCACCAC CGCATTGAAC AATGCCGTGC AGATTCCCGG GCTCACCAAC GCGTGGACCA TGCCTATCAA AACACGTATC GACATGCTGG CCACGGGGAT CAAGACCCCG GTAGGCATCA AGGTGGCTGG ACCCGATCTC AAAGAGTTGG AACGAATCGC CAGTCAGATC GAAGGTGTGA TTCGTCGAGC GCCTGGCACG AGCAGCGTGT TTGCCGAGCG GGTCATGGGC GGTAACTATG TGGAGTTCGA CATCGATCGC GACGCGATTG CCCGCTACGG CCTCACCCTT GGCGAGGTTC AGGAGGTGCT GCAGGTTGCG TTGGGCGGCA TGCCGCTAAC GACAACGGTC GAAGGGCTCG AACGTTATGG TGTCATTCTG CGCTATGAGC GAGACTATCG TGAGAATCTC GAGGCGTTAC GTGAAATCCT CATCCCGGTC AAAGCGGCGG GGACAGGCAG CGCGATGGGA GGTGGCAACG GGAACGGTTC ACTCGCCGCC CAAGTTCCAC TGAGCCAGTT GGCGCAGGTG CGTGTTGTTG CTGCCCCGAT GGGCATCAAG AGCGAAGCCG CGGTGCCGAA CGCTTGGATT TACGTCGATG TTCAAGGCGT AGACCTGGGC AACTATGTCC GCGGCGCGCA GCAGACGGTG AACGACGCAA TCCAACGAGG TGAAATCAAG ATCCCGACCG GCTACAGCAT TTTCTGGAGC GGACAATATG AATATATGCA GCGCGCACAA CAACGGCTCA TGATCGTGGT GCCTCTCACG CTGTTCGTCA TCATCTTTAT CATCTACCTC AACACGCAGT CGTGGATCAA AACCGGCATC GTGCTGCTCG CCGTGCCGTT CTCCCTTGTA GGCGCGTTCT GGGCGCTTTA CCTCCTCGAC TACAACATGA GCGTGGCGGT TTGGGTCGGC ATTATCGCCC TGGCGGGCCT GGACGCCGAG ACGGGCGTGG TGATGCTCCT GTACCTGGAT CTGGCATACG ATGACTGGAA GAAGAAGGGG AAGATGCTCA CAACTTTCGA TCTGCGCGAC GCAATCTACC ATGGGGCGGT GAAACGCGTG CGACCGAAAG CCATGACAGC GGCGGTCATC ATCGCGGGTC TGCTGCCGAT TCTCTGGAGT CACGGCACCG GCGCCGACAC GATGAAGCGG ATCGCAGTTC CGATGGTTGG CGGCGTCATC ACCTCAACGT TGATGGAACT GCTCGTGTAT CCGGCGATCT TCTTCCTCTG GCGCCGTCGC AGCCTGCCGC CGCCGCCAGC AGCGCCCACG GCTCTGCCCG CCGAGGCTCA GACATGA
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Protein sequence | MLKAIIEFSL KNKFLVLAAT AALILGGIYS LRNIPLDAIP DLSDTQVIIY TEWPGQAPQL VQDQVTYPLT TKMLSVPKSK VVRGYSFYGF SFVYVIFEDG TDPYWARSRV LEYLSGLQAS LPKNVTPTLG PDATGVGWAF MYSLNSTKHD LAELRSMQDW FLRYQLASVE GVAEIASVGG FVKQYHITVD PHRLHAYNLS ISDVAMAVEK SNGEVGGRSV EMAEKEFILR VKGYVTDVEM LKKVAVGRGP GGTPILLGEV ANVQLGPDMR RGIAELNGEG ETVGGVVVVR YGVDTRQVIQ AVKARLDQAM KSLPEGVTYS IAYDRTALID RAVKTLKEKL IEESIVVALV CLIFLMHLRS AFVAIVILPI AVLASISIMY GQGLSANIMS LGGIAIAVGA MVDAAIIMIE NAHKHIEHDG GKKPHWDIIR DAAVEVGPTL FYSLLVITVS FLPVFTLQAQ EGRMFKPLAF TKTYSMGAAA LLSITLAPVL MGFFIRGKIP AEEKNPVNRF LIWLYHPVLD LMIKFRWWVI TIAAVVVLWV FMPWNAIVSR VLPDGAAKEV ALKMGKAFPY QNLGSEFMPP LYEGDLLYMP TTFPGISPTK AREIIQQTDQ IIKSFAEVHH VFGKIGRAES ATDPAPMDMI ETTIMLKPEE EWPEVDIKDM DGKVVAHRRR TIEELTTALN NAVQIPGLTN AWTMPIKTRI DMLATGIKTP VGIKVAGPDL KELERIASQI EGVIRRAPGT SSVFAERVMG GNYVEFDIDR DAIARYGLTL GEVQEVLQVA LGGMPLTTTV EGLERYGVIL RYERDYRENL EALREILIPV KAAGTGSAMG GGNGNGSLAA QVPLSQLAQV RVVAAPMGIK SEAAVPNAWI YVDVQGVDLG NYVRGAQQTV NDAIQRGEIK IPTGYSIFWS GQYEYMQRAQ QRLMIVVPLT LFVIIFIIYL NTQSWIKTGI VLLAVPFSLV GAFWALYLLD YNMSVAVWVG IIALAGLDAE TGVVMLLYLD LAYDDWKKKG KMLTTFDLRD AIYHGAVKRV RPKAMTAAVI IAGLLPILWS HGTGADTMKR IAVPMVGGVI TSTLMELLVY PAIFFLWRRR SLPPPPAAPT ALPAEAQT
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