Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Anae109_4264 |
Symbol | |
ID | 5375504 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Anaeromyxobacter sp. Fw109-5 |
Kingdom | Bacteria |
Replicon accession | NC_009675 |
Strand | + |
Start bp | 4999585 |
End bp | 5002863 |
Gene Length | 3279 bp |
Protein Length | 1092 aa |
Translation table | 11 |
GC content | 67% |
IMG OID | 640845792 |
Product | CzcA family heavy metal efflux protein |
Protein accession | YP_001381426 |
Protein GI | 153007101 |
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 | 15 |
Plasmid unclonability p-value | 1 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | 29 |
Fosmid unclonability p-value | 0.0061881 |
Fosmid Hitchhiker | No |
Fosmid clonability | decreased coverage |
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Sequence |
Gene sequence | ATGATCAAGG CCATCATCAG GTTCTCCGCG GAGAACAAGT ACCTCGTCGT CGCGGCCACG CTCGTGGCCC TGCTCGGCTC CGCCTGGGCG ATGCGGCACA TCCCGCTCGA CGCGGTCCCC GACCTCTCCG ACACCCAGGT GATCGTCTAC TCGAAGTGGG ACCGGAGCCC CGACATCGTC GAGGACCAGG TCACCTACCC GATCACCACC GCGCTCCTCG GGGCGCCGAA GGTGAAGGCG ATCCGGGGCT TCTCCGACTT CGGCTTCAGC TACGTGTACG TGATCTTCGA GGACGGCACG GACATGTACT GGGCGCGCAC GCGCGTGCTC GAGTACCTCT CGAAGATCAC CCCGCAGCTG CCGCAGGGCG TGACGACCGA GCTCGGCCCG GACGCGACGA GCGTGGGCTG GGTCTACCAG TACGCGCTCG TCGATCGGAC CGGACGCCAC TCGTCGGACG AGCTCCGGTC CTTCCAGGAC TGGTTCCTGC GCTACGCGGT GCAGAGCGTC CCGGGCGTGT CCGAGGTCGC GACCGTCGGC GGGCAGGTGC GCCAGTACCA GATCACCGTC AACCCCAACG CCCTCGCGAC CTACAAGCTG CCGCTCGACG CGGTCGTGAA CGCCGTCCGC ACCGGGAACA ACGACGTCGG CGGGCGGCTC GTCGAGTTCA GCGGCCGCGA GTACATGGTC CGCGGGCGCG GCTACGTGAA GAGCATCGCG GACCTCGAGA ACCTCGTCCT GCGCTCGGAG GGCGGCACGC CCGTCCTCGT GAAGGACGTC GCCACCGTCG CCCTCGGCCC CGAGATGCGC CGCGGCGTGG CCGACCTGGA CGGCGAGGGC GACGTCGTGG GCGGCATCGT CGTGATGCGC CACGGCGAGA ACGCGCTGAA CGTCATCGAG CGGATCGAGG CCAAGCTCGA GGAGGTGAAG CCGTCGCTGC CGGAGGGCGT CGAGCTCGTC ACGACCTACG ACCGGTCGGA GCTCATCGAG GAGGCGATCT CCACGGTGAA GCACAAGCTG GTCGAGGAGA TCATCGTCGT CTCGATCATC ATCCTCGTCT TCCTGTGGCA CATCCCCTCC GCGATCATCC CGATCATCAC CATCCCGGTG TCGGTCGCGC TCTCGTTCAT CCCCATGTAC TTCATGGGGA TCAACGCGAA CCTCATGTCG CTCGCCGGCA TCGCCATCTC CATCGGCGTG CTCGTGGACG GCGCCATCGT CGAGGTGGAG AACGCCTACA ACAAGATCCA TCACTGGCTG AAGGACGGGA GGAAGGGCGA CTTCCACCAC GTCCGGCTGG AGGCGCTGCT CGAGGTCGGG CCGGGGGTGT TCTTCTCGCT GCTCGTGATC GCCGTGGCGT TCATGCCGGT GTTCACGCTC GTCGACCAGG AGGGGCGCCT GTTCCGCCCC CTCGCCTTCT CGAAGAACCT CGCGATGGCG ATCGCGGCCT TCCTGGCGAT CACGCTCGAC CCCGCGATGC GCATGATGTT CGCGCGGATC GACGACTTCA CCTTCAAGCC GCGCTGGCTC GCCTGGCTCG CGAACAAGGC GCTCGTCGGC ACCTACTACT CCGAGGAGGC CCACCCGATC TCGAGGGCGC TCCACAGGGT GTACGAGCCG CCCTGCCGGT TCGTCCTGCG CCACCCCAGG GCCACCATCC TCGCGAGCGT GCTCCTCGTC GTGACCACCA TCCCCGTGTA CCTGTCGCTC GGCTCCGAGT TCATGCCGCA GCTGCGCGAG GGGACGATCC TCTACATGCC CTCGGCGGTC GAGCCCGGCA TGTCCGTGGC GGAGGCCCAG CAGGCGCTCC AGGTGCAGGA CAAGCTGCTG AAGACGTTCC CGGAGGTGGA GCGCGTGTTC GGGAAGGCCG GCCGCGCCAA CACCTCCACC GACCCGGCGC CCTTCACGAT GATGGAGACC ACGCTCATCC TGAAGCCGCA GTCGGAGTGG CGCGAGAAGC CGCGCTGGTA CTCGTCCTGG GCGCCGGACT GGCTGAAGGC CGTGCTGCGG CCGATCTGGA ACGACCGGAT CAGCCACGAG GAGCTCGAGA ACGAGATGGA CGCGGCGCTG CAGCTGCCCG GGATCTCGAA CGCCTGGACG ATGCCCATCA AGGGCCGGCT CGACATGCTC TCCACGGGGA TCCGCACACC CATCGGGATC AAGATCAGCG GCGCCGACCT GAAGACCATC GAGCAGATCG CGAAGGAGAC CGAGGCCGTC GTGAAGAAGG TGCCCGGCAC GCGGAGCGTC TACGCGGAGC GCGTCGCGGG CGGCTACTTC CTCGACTTCG TCCTCAAGCG CGAGCAGCTC GCCCGCTACG GGCTCACGGT GGACGACGCG AACATGATGG TCATGACCGC GGTGGGCGGG GACAACCAGT CCACCACCGT CGAGGGGCGC GAGCGCTATG GCATCAACGT CCGCTACGCG CGCGACTACC GCGAGGACCT GTCGGCCCTG CGCCGCGTGC TCCTGCCGCT GCCGAGCGGC CAGGGCCAGA TCCCGATGGA GGAGATCGCG GACGTCGTGC TCGCGCAGGG CCCGGCCATG ATCCGGAACG AGAACGGGCT GCTCTCCGGG TACGTCTACG TGGACTTCGA CACCTCGAAG ATCGACGTCG GGGGCTACGT CGACGAGGCG AAGAAGGCGG TCGCGGCCGG CGTGGACCTG CCCACCGGGT ACAACATGAG CTGGAGCGGT CAGTACGAGA ACATGCTGCG GGTGAAGGAG CGGCTGAAGC TCATCATCCC CATCACGCTC GTGCTCATCT TCGGCCTGCT CTACATGAAC ACGAAGTCGT CGTTCAAGGC GGCGCTGGTG ATGGCGGCCG TCCCGTTCTC GGCGGTCGGT GCGGTCTGGC TCCTCTGGGC GCTCGACTAC AACGTCTCGA TCGCGGTGTG GGTCGGGATC ATCGCGCTCA TGGGGCTCGA CGCGGAGACC GGCGTCTTCA TGCTCCTGTT CCTCGACCTC TCGCACGACG AGTACAAGGC GAAGGGGCTC CTCCGCACCC GCGGCGATCT CGTCGAGGCC ATCGTCCACG GCGCCGTGAA GCGCGTCCGC CCGAAGGCGA TGACGGTCTT CGCCGCCATG CTGGGCCTGT TGCCCATCAT GTGGTCCATC GGAACGGGCG CGGACGTCAT GAAGCGCATC GCCGCCCCGA TGATCGGCGG GCTCGTGACC TCGTTCGTGA TGGAGCTGCT CGTGTATCCT CCCGTTTACT ACCTGTGGAA GAAGAAGGAA GTGAGCGACG AGGACACGAT GACGGCCATC GCCGCCTGA
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Protein sequence | MIKAIIRFSA ENKYLVVAAT LVALLGSAWA MRHIPLDAVP DLSDTQVIVY SKWDRSPDIV EDQVTYPITT ALLGAPKVKA IRGFSDFGFS YVYVIFEDGT DMYWARTRVL EYLSKITPQL PQGVTTELGP DATSVGWVYQ YALVDRTGRH SSDELRSFQD WFLRYAVQSV PGVSEVATVG GQVRQYQITV NPNALATYKL PLDAVVNAVR TGNNDVGGRL VEFSGREYMV RGRGYVKSIA DLENLVLRSE GGTPVLVKDV ATVALGPEMR RGVADLDGEG DVVGGIVVMR HGENALNVIE RIEAKLEEVK PSLPEGVELV TTYDRSELIE EAISTVKHKL VEEIIVVSII ILVFLWHIPS AIIPIITIPV SVALSFIPMY FMGINANLMS LAGIAISIGV LVDGAIVEVE NAYNKIHHWL KDGRKGDFHH VRLEALLEVG PGVFFSLLVI AVAFMPVFTL VDQEGRLFRP LAFSKNLAMA IAAFLAITLD PAMRMMFARI DDFTFKPRWL AWLANKALVG TYYSEEAHPI SRALHRVYEP PCRFVLRHPR ATILASVLLV VTTIPVYLSL GSEFMPQLRE GTILYMPSAV EPGMSVAEAQ QALQVQDKLL KTFPEVERVF GKAGRANTST DPAPFTMMET TLILKPQSEW REKPRWYSSW APDWLKAVLR PIWNDRISHE ELENEMDAAL QLPGISNAWT MPIKGRLDML STGIRTPIGI KISGADLKTI EQIAKETEAV VKKVPGTRSV YAERVAGGYF LDFVLKREQL ARYGLTVDDA NMMVMTAVGG DNQSTTVEGR ERYGINVRYA RDYREDLSAL RRVLLPLPSG QGQIPMEEIA DVVLAQGPAM IRNENGLLSG YVYVDFDTSK IDVGGYVDEA KKAVAAGVDL PTGYNMSWSG QYENMLRVKE RLKLIIPITL VLIFGLLYMN TKSSFKAALV MAAVPFSAVG AVWLLWALDY NVSIAVWVGI IALMGLDAET GVFMLLFLDL SHDEYKAKGL LRTRGDLVEA IVHGAVKRVR PKAMTVFAAM LGLLPIMWSI GTGADVMKRI AAPMIGGLVT SFVMELLVYP PVYYLWKKKE VSDEDTMTAI AA
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