Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | AnaeK_4232 |
Symbol | |
ID | 6784247 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Anaeromyxobacter sp. K |
Kingdom | Bacteria |
Replicon accession | NC_011145 |
Strand | - |
Start bp | 4762033 |
End bp | 4765314 |
Gene Length | 3282 bp |
Protein Length | 1093 aa |
Translation table | 11 |
GC content | 68% |
IMG OID | 642765699 |
Product | heavy metal efflux pump, CzcA family |
Protein accession | YP_002136564 |
Protein GI | 197124613 |
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) |
|
|
Plasmid Coverage information |
Num covering plasmid clones | 2 |
Plasmid unclonability p-value | 1 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
| |
Fosmid Coverage information |
Num covering fosmid clones | n/a |
Fosmid unclonability p-value | n/a |
Fosmid Hitchhiker | n/a |
Fosmid clonability | n/a |
| |
Sequence |
Gene sequence | ATGATCAAGG CCATCATCCG CTTCTCCGCG CACAACAAGT ACCTGGTCAT CGCCGCCACG GTGGTGGCGC TGGTCGGCGC GTGGTGGACG ATGCGGAACA TCCCGCTCGA CGCGCTGCCG GACCAGTCCG ACACGCAGGT CATCGTCTAC TCGCAGTGGG ACCGCAGCCC GGACATCATC GAGGACCAGG TCACGTATCC GATCACCACG GCGCTGCTCG GCGCGCCGAA GGTGAAGGCG ATCCGCGGCT TCTCCGACTT CGGCTTCAGC TACGTCTACG TCATCTTCGA GGACGGGACC GACCTCTACT GGGCGCGCAC CCGCGTGCTC GAGTACCTCT CCAAGATCCA GCCGCAGCTC CCGGCCGGCG TGAAGACCGA GCTCGGTCCG GACGCGACCG GCGTCGGCTG GGTCTTCCAG TACGCGCTGG TGGACCGCTC CGGGCAGCAC TCGTCGGACG AGCTCCGCTC GTACCAGGAC TGGTTCCTGC GCTACTCCGT CCAGAGCGTG CCGGGCGTGT CGGAGGTCGC CACGGTGGGC GGCCAGGTCC GGCAGTACCA GGTGACCGTC AACCCGAACG CGCTCGCCGC CTACAAGCTG CCGCTCGACG CGGTGGTGCA GGCGGTCCGC GCCGGGAACA ACGACGTGGG CGGCCGCCTG GTGGAGCTGG CGGGCCGGGA GTACATGGTC CGCGGCCGCG GCTACGTGAA GACCATCGCG GACCTCGAGA ACATCGTGCT CAAGGCGGAG GGCGGCACGC CGGTCCTGGT GAAGGACGTG GCGACCGTGG CGCTCGGCCC GGAGATGCGG CGCGGGGTGG CCGACCTCGA CGGCGAGGGC GACGTGGTGG GCGGCATCGT GGTGATGCGC CACGGCGAGA ACGCCCTCAA CGTGATCCAC CGCGTGAAGG CCAAGCTCGA GGAGGTGAAG CCGTCGCTGC CGAAGGGCGT CGAGGTGGTC ACCACCTACG ACCGGTCCGA GCTCATCGAC CACGCCATCG AGACGGTGAC GCACAAGGTG ATCGAGGAGG TGATCATCGT CTCGATCATC ATCCTCATCT TCCTGTGGCA CATCCCGTCG GCGATCATCC CCATCGTCAC CATCCCGGTG TCGGTCGCGC TCTCGTTCAT CCCCATGTAC CTGATGGGCC TGAACGCGAA CCTGATGTCG CTCTCCGGGA TCGCGATCTC GATCGGCGTG CTGGTGGACG GCGCCATCGT CGAGGTCGAG AACGCCTACA ACAAGATCTA CCACTGGATA CAGGACGGGA AGAAGGGCGA CTTCCACGAG GTCCGCCTCG AGGCGCTCCT CGAGGTCGGG CCGGGGGTGT TCTTCTCGCT GCTCGTCATC GCGGTCGCGT TCATGCCGGT GTTCACCCTG GTGGACCAGG AGGGACGGCT GTTCCGGCCG CTCGCGTACT CGAAGAACCT CGCCATGGCG ATCGCGGCGC TGCTCGCGAT CACGCTCGAC CCGGCCATGC GCATGCTGTT CGCGCGCATC GAGCCGTACA CCTTCCGGCC CCGCTTCGCC TCGGCGATCG CCACCCGCGT GCTGGTGGGC AGGTACTACT CGGAGGAAGG CCACCCCATC TCGCGCGTCC TGCACCACCT GTACGAGCGC CCCTGCCGCT TCGTGGTCCG CCACGCCAAG GCCACCATCG CGGTGAGCGC GCTGCTCGTG CTCACCACCA TCCCCGTGTT CCGGCACCTC GGCTCGGAGT ACATGCCGCC GCTGCGCGAG GGGACCATCC TCTACATGCC GAGCGCGGTC GAGCCGGGCA TGTCGGTGGC CGAGGCGCAG AAGGCGCTGC AGGTGCAGGA CAAGATCCTG AAGACCTTCC CCGAGGTGGA GCGCGTCTTC GGGAAGGCGG GCCGCGCCAA CACCTCCACC GACCCGGCGC CGTTCACCAT GATGGAGACG ACCATCATCC TGAAGCCGGA GCGGGAGTGG CGCGAGCACC CGCGCTGGTA CTCGTCCTGG GCGCCGGAGT GGCTGAAGGC GGGCCTGCGC CCGTTCTGGC GCGACCGGAT CTCGTACGAG GAGCTCGAGC ACGAGATGGA CCAGGCGCTG CAGCTCCCCG GCATCTCGAA CGCCTGGACC ATGCCGATCA AGGGGCGCAA CGACATGCTC TCGACCGGCA TCCGCACGCC CATCGGCATC AAGGTGGCGG GCGCGGACCT GGCCGAGATC GAGAAGATCG GCCTCGACGT CGAGGCGGCG CTCACCAAGG TGCCCGGCAC CCGCAGCGTC TACGCGGAGC GCGTGGCCGG CGGCTACTTC CTCGACTTCG TGCTGAAGCG CGACCAGCTC GCCCGCTACG GGCTGAGCGT GGACGCCGCG AACATGATGG TCATGACCGC GGTGGGCGGC GACAACCAGT CCACCACGGT GATGGGCCGC GAGCGCTACG GCATCAACGT CCGCTACGCG CGCGACTACC GCGAGGACCT CCAGTCGCTC CGGCGCGTGC TGCTGCCGCT CCCCGGCGGC CAGGGCCAGA TCCCCATGGA GGAGATCGCC GACGTGGAGC TGGCGCAGGG CCCGTCGATG ATCCGCGACG AGAACGGCCT GCTGGCCGGC TACGTCTTCG TGGACTTCGA CACCTCGAAG GTGGACGTGG GCAGCTACGT CGAGCAGGCC AAGAAGGCGG TCGCGGCGGG GGTGAAGACG CCCACCGGCT ACTCGATGAC CTGGAGCGGC CAGTACGAGA ACATGATGCG CGTGAACGAG CGGCTGAAGC TCATCCTGCC CATCACGCTC GTGCTCATCT TCTTCCTGCT CTACATGAAC ACCCGCAGCA CCTTCAAGGC GAGCGTCATC ATGCTGGCGG TGCCGTTCTC CGCCATCGGC GCCATCTGGC TGCTGTGGAT GCTCGACTAC AACATGTCGA TCGCGGTCTG GGTCGGGCTC ATCGCGCTGA TGGGGCTCGA CGCGGAGACC GGCGTGTTCA TGCTGCTGTT CCTCGACCTC TCCCACGACG AGTACAAGAA GAAGGGGCTG CTCCGCACCG AGAGCGACCT GGTGGAGGCG ATCATCCACG GCGCGGTGAA GCGCGTGCGG CCGAAGGCGA TGACCGTGCT CGCGGCCATG CTGGGCCTGC TGCCCATCAT GTGGTCCACC GGCACCGGCG CCGACCTCAT GAAGCGCATC GCCGCGCCCA TGGTCGGCGG CCTGGTGACG AGCTTCCTCC TCGAGCTGAC CGTGTACCCG GCCATCTACT TCCTCTGGAA GCGCAAGGAG GTCGTGAAGG ACGGCCAGGC CACCCCGGCC ATCGCCGCCT GA
|
Protein sequence | MIKAIIRFSA HNKYLVIAAT VVALVGAWWT MRNIPLDALP DQSDTQVIVY SQWDRSPDII EDQVTYPITT ALLGAPKVKA IRGFSDFGFS YVYVIFEDGT DLYWARTRVL EYLSKIQPQL PAGVKTELGP DATGVGWVFQ YALVDRSGQH SSDELRSYQD WFLRYSVQSV PGVSEVATVG GQVRQYQVTV NPNALAAYKL PLDAVVQAVR AGNNDVGGRL VELAGREYMV RGRGYVKTIA DLENIVLKAE GGTPVLVKDV ATVALGPEMR RGVADLDGEG DVVGGIVVMR HGENALNVIH RVKAKLEEVK PSLPKGVEVV TTYDRSELID HAIETVTHKV IEEVIIVSII ILIFLWHIPS AIIPIVTIPV SVALSFIPMY LMGLNANLMS LSGIAISIGV LVDGAIVEVE NAYNKIYHWI QDGKKGDFHE VRLEALLEVG PGVFFSLLVI AVAFMPVFTL VDQEGRLFRP LAYSKNLAMA IAALLAITLD PAMRMLFARI EPYTFRPRFA SAIATRVLVG RYYSEEGHPI SRVLHHLYER PCRFVVRHAK ATIAVSALLV LTTIPVFRHL GSEYMPPLRE GTILYMPSAV EPGMSVAEAQ KALQVQDKIL KTFPEVERVF GKAGRANTST DPAPFTMMET TIILKPEREW REHPRWYSSW APEWLKAGLR PFWRDRISYE ELEHEMDQAL QLPGISNAWT MPIKGRNDML STGIRTPIGI KVAGADLAEI EKIGLDVEAA LTKVPGTRSV YAERVAGGYF LDFVLKRDQL ARYGLSVDAA NMMVMTAVGG DNQSTTVMGR ERYGINVRYA RDYREDLQSL RRVLLPLPGG QGQIPMEEIA DVELAQGPSM IRDENGLLAG YVFVDFDTSK VDVGSYVEQA KKAVAAGVKT PTGYSMTWSG QYENMMRVNE RLKLILPITL VLIFFLLYMN TRSTFKASVI MLAVPFSAIG AIWLLWMLDY NMSIAVWVGL IALMGLDAET GVFMLLFLDL SHDEYKKKGL LRTESDLVEA IIHGAVKRVR PKAMTVLAAM LGLLPIMWST GTGADLMKRI AAPMVGGLVT SFLLELTVYP AIYFLWKRKE VVKDGQATPA IAA
|
| |