| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Nwi_2911 |
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| Symbol | |
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| ID | 3675580 |
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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 | Nitrobacter winogradskyi Nb-255 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_007406 |
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| Strand | - |
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| Start bp | 3146048 |
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| End bp | 3149200 |
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| Gene Length | 3153 bp |
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| Protein Length | 1050 aa |
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| Translation table | 11 |
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| GC content | 61% |
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| IMG OID | 637714476 |
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| Product | heavy metal efflux pump CzcA |
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| Protein accession | YP_319513 |
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| Protein GI | 75677092 |
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| COG category | [P] Inorganic ion transport and metabolism |
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| COG ID | [COG3696] Putative silver efflux pump |
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| TIGRFAM ID | [TIGR00914] heavy metal efflux pump (cobalt-zinc-cadmium) |
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Plasmid Coverage information |
| Num covering plasmid clones | 12 |
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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 | 13 |
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| Fosmid unclonability p-value | 0.800261 |
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| Fosmid Hitchhiker | No |
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| Fosmid clonability | normal |
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Sequence |
| Gene sequence | ATGATCAATC CGATCGTCGC GTTTGCATTG CGGCAGCGCG TTCTGGTGCT GGTCCTCTTC
ATGATGACCA TGGCCGGCGG GATTGCCGCG TTCAGGGTCC TGAATATCGA GGCCTACCCC
GATCCCGTTC CGCCGATGGT GGACGTGATC ACGCAAAGCG CCGGACTCTC CGCCGAGGAG
ATCGAACGCT ACATCACGAT TCCGATCGAA ACCCAGCTTT CCGGCGTGCC GAACCTCCGG
GTGATGAGAA CCATCTCTCT TTACGGCCTG TCGGACGTCA AACTGCAATT CACCTATGCC
TATACCTATG ATGAGGCGCT GCAGCAGGTT CTGAACCGCC TGTCGCAGCT CTCCGGACTG
CCGGATGGCG CGCAGCCCAC CATCAGTCCC GTCAGCCCCG TCGGCGAGGT CTATCGCTAC
CGGCTTGTCG GCCCGCCCGG CTTTAGCGTG CTCGATCTGA AAACCCTACA GGATTGGCTG
CTGCAGCGGC GGTTTCGCGC GGTGCCGGGC ATCGTGGATG TCATCGGCTG GGGCGGCAAG
ACCAAGACCT TCGAACTGCA GGTCGATCTC GACAAGCTTG TCGCCCACAG GCTGACGCTG
ACGCAATTGC TGCAGACGCT GCGCAGCAGC AACCTGAATG TCGGCGGAAA CATCGTCAAT
CTCGGCACGC AGTCGGCGGT CGTGCGTGGT GTCGGGTTGA TACGCTCGAG CGATGACATC
AACAACACCA TGCTGACGCA GGCCGGCGGC AATCCTGTCC TGGTCCGGGA CGTTGGCACG
GTCATCATCG GGCATCAGCC CCGCCTCGGT ATTGCCGGCC AGGACAACGA CGACGATATC
GTTCAGGGCA TCGTCCTGAT GCGCCGCGGT CAGCAAAGCA GTCCGACCAT CGAGCGGGTG
AAGGCTGAAG TCGAGCGTAT CAATACGTCC GGGATTCTGC CTCCCGGCGT GCGGATCGAA
CGAATTTACG ATCGTCAGGA TCTCATCGAC ACCACGACGC ATACCGTCCT GCACAACATG
ACGGTCGGCA TCCTGCTGAT TTTCGCGTTG CAGTGGGTGT TCCTGGGGAA TCTTCGCAGC
GCGTTGATCG TGGGCGCGAC AATTCCGTTC GCATTGTTCT TCGCCATCGG AATCATGGTT
CTGCGCGGCG AATCCGCCAA CCTGCTATCG GTCGGGGCGA TCGATTTCGG TCTGATCGTC
GACGCCACCG TGATCATGGT CGAGCGAATA TTCCGGGAGC TCGGGCATGG CGGCGAGAGG
ACGTTCCCCG AGGACGACAA CGCGGCCGGA TTGAGCGGAA AGCTGCTCGC CATTTATGCC
GCGGGCGCGG GCGTCAACCG CTCGATCCTG TTCGCGACCG GCATCATCAT CGCGGGGTTC
ATACCGCTTT TCACCATGAG CGGCGTCGAA GGGCACATCT TTGGCCCCAT GGCCAAGACC
TATGCCTACG CCATCGCGGG GGGCTTGCTG GCGACTTTTA CCGTCACCCC GGCGCTCAGC
GCGCTTCTGT TGCCCGAGCA TGTTCAGGAG ACCGAAACAT GGCTGGTGCG CACGCTGCAC
CGTTTCTACA GTCCGGTCCT GCGGATCGCT GTCGCGAATA AAAGGTCCAC GGTCGCCGTG
ACGCTGGCGG TGTTCGTGCT GGCGGGAATC GCGATGCGAT TTCTGGGACT GGAGTTCCTT
CCCAAGCTGG AGGAGGGCAA TCTGTGGATA CGCGCCACCA TGCCGGCAAC GATCTCCCTT
CAGGAGGGGA ATGGCTACGC CAACCGGATG CGCAGGCTGA TCCGCAGCTT TCCCGAGGTG
GATACGGTCG TGACGCAGCA TGGCCGCCCC GACGACGGCA CGGACGCCGC CGGCTTTTTC
AATGTCGAGT TTTTCACTCC GCTGAAACCG GTCGGTCAGT GGCGCCATGG CGTGGACAAG
GAAACGTTGA CTGAAGAAAT TCAGGCGCGG CTCAAGATGG AGTTTCCGGG GATCCAGTTC
AATTTCTCGC AGTATCTGCA GGACAACGTG GCCGAGCAGG TGTCGGGCGT CAAAGGCGAG
AACTCGATCA AGGTGTTCGG CAATGATTTG CAGGAACTGA CCGACACGGC CGAAGAGATC
AAGGCGGTGC TCGAGAAGGT TCCGGGTGTG ACGGACCTCG GCGTCTTCAC CTCGCTGGGC
CAGCCGACGA TTCAGATCAG CATCGATCGT GAGCGCGCCG CGCGCTACGG ACTGTCGCCG
GGCGATATCA ATTCGATGAT CCGGACGGCC GTCGGCGGAG AGGCCGCGGG CGACCTCTAC
GAGCATGGAA GCGATCGCCA TTTTCCGATC GTGGTGCGGC TGGCTCCGCA GTATCGCCAG
AGCGCGGAGG CGATCAGCAA GCTGACGATC GGCGTATCCG GGGCCAAGGG AATAACGCAG
ATCCCGTTGA GCGAGGTCGC GCAGATCCGG CTCGTCACCG GTCCCTCCTA TATCTACCGG
GAACAGCAGC AGCGTTACCT GCCGATCAAG TTCAGCGTGC GTGATCGCGA TCTCGGCAGC
ACCATCAAGG AAGCCGAACA GCGAATTGCG CAGGACGTGA AATTGCCTGC CGGCACTCAA
CTGCAATGGG TGGGAGAATT CCGCAATCTG CAGGAAGCGA TTGGTCGCCT GCAGATTGTC
GTGCCGTTCA GCCTTGGCAT CATCGGGTTG CTGCTATGGA TCAACTTCAC CTCCATACGT
GATACGTTGC TGGCGTTGAG CGTCATTCCG ATGGCGGTGA TCGGTGGCGT CTTCGCGCTG
TTCGTCACGG GCATTCCTTT CAGCGTCTCG GCCGCCATCG GCTTTATCGC GCTGTTCGGT
ATTTCGGTGA TGAACGGGAT CCTGATCCTG TCGCAATACA ACCAGTTCAT CGAGTCGGGC
ATGAAGCGGA TAGATGCGAT CATAAGAGCA GGAGAGGTTC AAATGCGTCC TGTCCTGATG
ACATGCGTGA TTGCGGGTAT CGGCCTGCTG CCCGCCGCCG TTTCGACCGG AATCGGATCG
CAGGTGCAAA AGCCGCTGGC TGTCGTCGTG GTCGGCGGAA TGATGGTGGC TCCGGTGGTG
ATCCTCGTCG CGTTGCCGGC GCTCATCGCG TTGTTTTCTC GTCGAAGAAC GGTAGTGGCC
GCGCCCGAAG CGGCGTGCAA ACCGGCGGAA TAG
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| Protein sequence | MINPIVAFAL RQRVLVLVLF MMTMAGGIAA FRVLNIEAYP DPVPPMVDVI TQSAGLSAEE
IERYITIPIE TQLSGVPNLR VMRTISLYGL SDVKLQFTYA YTYDEALQQV LNRLSQLSGL
PDGAQPTISP VSPVGEVYRY RLVGPPGFSV LDLKTLQDWL LQRRFRAVPG IVDVIGWGGK
TKTFELQVDL DKLVAHRLTL TQLLQTLRSS NLNVGGNIVN LGTQSAVVRG VGLIRSSDDI
NNTMLTQAGG NPVLVRDVGT VIIGHQPRLG IAGQDNDDDI VQGIVLMRRG QQSSPTIERV
KAEVERINTS GILPPGVRIE RIYDRQDLID TTTHTVLHNM TVGILLIFAL QWVFLGNLRS
ALIVGATIPF ALFFAIGIMV LRGESANLLS VGAIDFGLIV DATVIMVERI FRELGHGGER
TFPEDDNAAG LSGKLLAIYA AGAGVNRSIL FATGIIIAGF IPLFTMSGVE GHIFGPMAKT
YAYAIAGGLL ATFTVTPALS ALLLPEHVQE TETWLVRTLH RFYSPVLRIA VANKRSTVAV
TLAVFVLAGI AMRFLGLEFL PKLEEGNLWI RATMPATISL QEGNGYANRM RRLIRSFPEV
DTVVTQHGRP DDGTDAAGFF NVEFFTPLKP VGQWRHGVDK ETLTEEIQAR LKMEFPGIQF
NFSQYLQDNV AEQVSGVKGE NSIKVFGNDL QELTDTAEEI KAVLEKVPGV TDLGVFTSLG
QPTIQISIDR ERAARYGLSP GDINSMIRTA VGGEAAGDLY EHGSDRHFPI VVRLAPQYRQ
SAEAISKLTI GVSGAKGITQ IPLSEVAQIR LVTGPSYIYR EQQQRYLPIK FSVRDRDLGS
TIKEAEQRIA QDVKLPAGTQ LQWVGEFRNL QEAIGRLQIV VPFSLGIIGL LLWINFTSIR
DTLLALSVIP MAVIGGVFAL FVTGIPFSVS AAIGFIALFG ISVMNGILIL SQYNQFIESG
MKRIDAIIRA GEVQMRPVLM TCVIAGIGLL PAAVSTGIGS QVQKPLAVVV VGGMMVAPVV
ILVALPALIA LFSRRRTVVA APEAACKPAE
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