| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Daro_2626 |
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| Symbol | |
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| ID | 3567256 |
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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 | Dechloromonas aromatica RCB |
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| Kingdom | Bacteria |
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| Replicon accession | NC_007298 |
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| Strand | - |
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| Start bp | 2823855 |
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| End bp | 2826953 |
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| Gene Length | 3099 bp |
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| Protein Length | 1032 aa |
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| Translation table | 11 |
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| GC content | 63% |
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| IMG OID | 637681090 |
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| Product | heavy metal efflux pump CzcA |
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| Protein accession | YP_285826 |
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| Protein GI | 71908239 |
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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 | 39 |
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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 | 14 |
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| Fosmid unclonability p-value | 0.516302 |
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| Fosmid Hitchhiker | No |
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| Fosmid clonability | normal |
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Sequence |
| Gene sequence | ATGCTCAACA AGATCGTCGA TATTTCCCTA CGCTACAAGC TCCTGGTTCT GGTGGCGCTG
GCGCTGATCG TGCTCCTCGG GGCGCGGGCC TGGCAGCGGC TGCCCCTGGA TGCCTTCCCC
GATGTGACGC CGGTCCAGGT CAACATCTAT ACCGAATCGC CGGGCCTGGC GGCCGAGGAC
ATCGAAAAGC TGGTGACCTT CCCGGTCGAA TCGGTCCTCG CCGGCCTGCC CAAGGTCGAG
GAAATCCGCT CCACGTCCAT CTTCGGCCTG TCTTTCGTCA GCGTCTATTT CAAGGACGAC
ATGGACATCT ATTTCGCCCG CCGCCTGGTA GGCGAGAAGC TGATCGAGGC CAAGTCGCGC
ATCCCCGAAG GCTATGGCGA ACCCGTCCTC GGCCCGAACG CCGCCGGGCT GGGCCAGGTC
TTCTGGTACA CGCTGGAGAC GATGGACGAC AAGCTCTCCG GCATGGACCT GCGCACCGCC
CAGGACTGGG GTGTACGCAT GATCCTGCGC ACGGCACCGG GTGTGGACGA CGTGACCTCC
TGGGGCGGCG ATGAAAAGCA GTTCCAGGTG CTGATCGACC CGCGCCGGCT GATCAAGTAC
GGCCTGGGCT ACAAGGAGGT GATGACCGCC ATCGCCGCCA ATAACCGGCA GGTCGGCGGC
CAGTACATCA ATATCCAGCG CGAGCAGTAC CTGGTGCGTG GACTGGGGCT GGTGGCCAAT
GTGGAAGACA TTGGCGGCAT TCTGGTGGCT GAGCGCCAAG GCACCCCGAT CTATGTCCGG
GATGTGGCGG ATATCCGCCC GGCGCCGGCA TTGCGCACCG GCGCGGTGAC CAAGGACGGC
AAGGAGGTGG TGCTTGGCAT GGCGCTCGCC CGTACTGGCG AGAACGCCCA GCAGGTGGTC
GAAGCCGTTC GCCAAAAGGT GGCTACCGCC CTCAAAACTC TGCCCGAGAA CATCAAGTTT
GATGTCGCCT ACGACCGTAC CGAGTTGATC GGCAAGGCTA TCGGCATGGC TGACCGTGCC
ATGCTGGAAG GCGCTGCGCT GGTGGTCCTG GTTCTGTTCC TGTTCCTGGG AGATGTGCGT
TCGGCCTTGA TTGTGGTGGT CGCTATTCCC ATGGCACGGC TAATCGCCTT CCTCTTCATG
GACGGGGTGG GGATGTCGGC CAATCTCATG TCCCTGGGTG GGCTGATCAT CGGCTTGGGT
ATGACCATCG ATGGGCCTGT GGTCTTGGTG GAAAACGCTT TCCGGCAGCT CTCTCACCAT
GCCGGCAAGC CGGTCAACCG GACGGCGGTC GTGCTCAAGG CGGCCCGCGA GGTGATGAAT
CCGGTCGCCT TCGGCGTCCT CATTATCATC GTGGTTTTCC TGCCACTCTT TGCCCTGACC
GGGTTGGAGG GCAAGCTGTT CAAGCCCCTG GCCATCAACA TGACTTTCGC CATGGTTGGC
TCACTGATCC TGACCGTCAC CCTGATGCCG GTGCTATGCG CCCTGGCATT GCGCCCAAAG
CAGGAAAAAG ATCCGCGCCT GGTGTGCTGG CTCAAGCAGC GCTTCGAACC GCTGCTACTA
AGGACGCTGG CGAACAAACG ACGGGTCATG CTGGCCACCG GCGCCCTGTT CATCGCTTCG
CTGGCGCTCT TCCCCTTCCT CGGCAAGGAG TTCATGCCCA CCCTGGGAGA ACAGGAGATC
ATGTTCCGGG TGACCAGCAT TCCGTCCACC TCGCTGGAGG AGTCCATTGC CGTTTCGCAG
CGCATCGACG AAGCCCTCAA GTCCTTTCCC CAGGTCAAGC ATTCGCTGGC CATGATCGGC
CGCGCCGAGA AAGGCGAAAC GGCGGATGTC AACTACATGG AAATCCTGGT CGACCTCCAG
CCGCACGAAT CCTGGCCTGA ACGGATAAGC TACCGCGAAC TGTCCGCCCA GTTGCAGGAA
CGCCTGGAAA AGGAAATCCC CACGGCCGTT CTGGCGGCGA CCCAGCCCAT CCAGATGCGA
GTCGAGGAAC TGATCTCCGG GGTGCGGGCG ACGCTGGCGC TGAAGCTGTA CGGCGAAGAC
TTGGCCACCC TCGACAGGCT GGCGGCTGAG GCCAAGGAGA TTGTCGAAAA AGTGCCGGGG
GCCACCGACG TGGCGCTGGA AGCCAATCAG GGCAAACCGC AGATGGTCAT CAAGGTGAAT
CGTCCGGAAG CGGCCCGCTA CGGGATCAAT GCCGACGACG TGCTCGACGT GGTGCAGGCG
GGCATTGGCG GCAAGGCGGT CAGCACCTTG ATCGACGGCG TGCGCCGTTA CGAGATTCAA
GTCTGGCTGC CGCCCGAGTT CCGCAACAGC AGCGAGGCAG TGAGTGCCAT CCCGATCCGT
ACGGTCGGCG GCGCCCTGGT GCCCCTGTCG CGGGTGGCGA CCGTGGAACT GACCGAAGGC
TATTCCTTCG TTCGCCGCGA GCAATTGCAG CGTTATGCGG TGCTGCAACT GGACGTCAAG
GGGCGCGACG TGGATGGCTT CGTCAAAGAG GCAGAAGCGC GGCTCAAGAC GCAGTTGAAG
CTCCCCGCCG GCTACTGGCA GGAATGGGGC GGCGCCTTCG AGAACCAGCA ACGGGCCATG
GCCAAGCTGG CGGTCATCGT ACCGCTGACC ATCGGCCTCA TCTTCATCCT GCTCTATACC
GCCTTCAACT CGGTGCGCTA CGCCACGCTG ATCATCGCCA ACGTGCCCTT CGCCGCCATC
GGCGGGATCA TTTCGCTGTT CGTCAGCGGC CAGTATCTGT CGGTGCCGGC GGCGGTCGGC
TTCATCGCGG TCTTCGGCGT CGCCATGCTG AACGGCATCG TGCTGATCTC GTTTCTCAAT
GGTCTGCGCG AACAGGGGCT GAGCATCCGG GAAACCGTGG TGCAGGGTGC AGTGCTGCGC
TTGCGGCCGG TGCTGATGAC GGCTTTGGTA GAGATTCTCG GGCTGCTGCC GTTCCTGCTG
GCTACTGGTG TTGGCTCGGA GGTGCTACGC CCGCTGGCGA CCGTCGTGGT GGGCGGTCTC
GTCTCATCCA CCGCACTCAC CCTGTTCATC CTGCCGCTGG TCTATGAGTG GATGGAGCAG
CGCAGGCAAT CACCGACTCT GGAAGGAGCA AGCCAATGA
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| Protein sequence | MLNKIVDISL RYKLLVLVAL ALIVLLGARA WQRLPLDAFP DVTPVQVNIY TESPGLAAED
IEKLVTFPVE SVLAGLPKVE EIRSTSIFGL SFVSVYFKDD MDIYFARRLV GEKLIEAKSR
IPEGYGEPVL GPNAAGLGQV FWYTLETMDD KLSGMDLRTA QDWGVRMILR TAPGVDDVTS
WGGDEKQFQV LIDPRRLIKY GLGYKEVMTA IAANNRQVGG QYINIQREQY LVRGLGLVAN
VEDIGGILVA ERQGTPIYVR DVADIRPAPA LRTGAVTKDG KEVVLGMALA RTGENAQQVV
EAVRQKVATA LKTLPENIKF DVAYDRTELI GKAIGMADRA MLEGAALVVL VLFLFLGDVR
SALIVVVAIP MARLIAFLFM DGVGMSANLM SLGGLIIGLG MTIDGPVVLV ENAFRQLSHH
AGKPVNRTAV VLKAAREVMN PVAFGVLIII VVFLPLFALT GLEGKLFKPL AINMTFAMVG
SLILTVTLMP VLCALALRPK QEKDPRLVCW LKQRFEPLLL RTLANKRRVM LATGALFIAS
LALFPFLGKE FMPTLGEQEI MFRVTSIPST SLEESIAVSQ RIDEALKSFP QVKHSLAMIG
RAEKGETADV NYMEILVDLQ PHESWPERIS YRELSAQLQE RLEKEIPTAV LAATQPIQMR
VEELISGVRA TLALKLYGED LATLDRLAAE AKEIVEKVPG ATDVALEANQ GKPQMVIKVN
RPEAARYGIN ADDVLDVVQA GIGGKAVSTL IDGVRRYEIQ VWLPPEFRNS SEAVSAIPIR
TVGGALVPLS RVATVELTEG YSFVRREQLQ RYAVLQLDVK GRDVDGFVKE AEARLKTQLK
LPAGYWQEWG GAFENQQRAM AKLAVIVPLT IGLIFILLYT AFNSVRYATL IIANVPFAAI
GGIISLFVSG QYLSVPAAVG FIAVFGVAML NGIVLISFLN GLREQGLSIR ETVVQGAVLR
LRPVLMTALV EILGLLPFLL ATGVGSEVLR PLATVVVGGL VSSTALTLFI LPLVYEWMEQ
RRQSPTLEGA SQ
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