| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Xaut_0614 |
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| Symbol | |
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| ID | 5424031 |
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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 | Xanthobacter autotrophicus Py2 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_009720 |
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| Strand | - |
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| Start bp | 685584 |
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| End bp | 688793 |
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| Gene Length | 3210 bp |
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| Protein Length | 1069 aa |
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| Translation table | 11 |
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| GC content | 67% |
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| IMG OID | 640879858 |
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| Product | CzcA family heavy metal efflux protein |
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| Protein accession | YP_001415525 |
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| Protein GI | 154244567 |
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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 | 17 |
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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 | 20 |
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| Fosmid unclonability p-value | 0.97346 |
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| Fosmid Hitchhiker | No |
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| Fosmid clonability | normal |
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Sequence |
| Gene sequence | ATGATCGACG CCATTCTCGC CTTCTCCATC CGCCAGCGCT GGCTGGTGGT TCTGGTGTGC
CTCATGGTCG GTGCGTTCGG GGCGTGGAAC TTCACGCGCC TGCCCATCGA TGCGGTGCCG
GACATCACCA ATGTCCAGGT GCAGATCAAC ACGTCCGCGC CCGGTTTCTC GCCGCTGGAG
GTGGAGCAGC GCATCACTTT CCCCATCGAA ACCGCCATGG GCGGCCTGCC GGGGCTGCAA
TATACGCGCT CCCTCTCCCG CTATGGCCTG TCCCAGGTCA CCGTGGTGTT TGCCGATGGC
ACCGATATCT ATTTCGCCCG CCAGCTGGTG AATGAGCGCA TCCAACAGGC CAAGGACCAG
CTTCCCCAAG GGGTGGAGAC GGCCCCCGGG CCGATCTCCA CCGGCCTCGG CGAAATCTAC
ATGTACACGG TGGAGGCCAA GCCCGGCGCG AAGAAGCCGG ATGGCACGCC TTATTCCCCC
ACCGAGCTTC GGACCATCCA GGACTGGATC ATCAAGCCCC AGCTGCGCAC CGTGCCCGGC
GTGGTGGAGG TGAACACCAT TGGCGGCTTC GCCCGGCAGT TCCATGTGCT GCCGGACCCG
GCGCGGCTGA TGGCCTACAA CATCTCGTTC CGCGACGTGA TGACCGCGCT CGCCGCCAAC
AATGCCAATG TGGGCGCCGG CTATATCGAG CGCAATGGCG AGCAATATCT GGTGCGCACG
CCGGGCCAGG TGGCGAACCT GGAGGAGATC CGCGACATCG TCATCGGCAG CCGCGATGGC
ACGCCGATCC GCATCGGCGA CATTGGCGAG GTGCGCGAGG GCCGCGAGCT GCGCACCGGC
GCGGCGACGC TCAATGGCGG GGAAGTGGTG CTGGGTACCA CCATGCTGCT CATTGGCGAG
AACAGCCGCA CCGTGGCCCA GAGGGTGGCC GCGCGCCTGG AGGACATCTC CCGCTCCCTG
CCGGAGGGGG TGGTTGCCCG CGCCGTTTAT GACCGCGCCC ATCTGGTGGA GGCCACCATC
GCCACGGTGG AAAAGAACCT GCTGGAAGGC GCGCTGTTCG TGGTGGTGGT GCTGTTCGTG
CTGCTCGGCA ATTTCCGAGC CGCGCTCGTC ACCGCCTGCG TGATCCCGCT GTCCATGATG
CTCACCATCA CGGGCATGGT GGAGAACAAG GTTTCCGCCA ATCTCATGAG CCTCGGCGCC
ATCGATTTCG GCATCATCAT CGATGGAGCC GTCATCATCG TGGAAAACTG CCTGCGCCTG
CTGGCGGAAG AGCAGCACAA GCGCGGCCGG CTGCTGACCC GCGCGGAGCG GTTCCAGACC
ATCCTCGCCG GATCGAAGGA AGTCATCCGC CCGAGCCTGT TCGGCACCCT CATCATCGCC
GTGGTGTATC TGCCCGTGCT CACCCTGACC GGGGTGGAGG GCAAGATGTT CACGCCCATG
GCGGTCACGG TGCTGATGGC GCTGGCGGCG GCGGCGGTGT TCTCCATGAC ATTCGTGCCG
GCGGCGGTGG CGCTGCTCGT CACCGGCAAG GTCTCCGAGC ACGAGAACAT CATCATGCGC
ACGGCGCGGC GCATTTACAC GCCGCTGCTC GACGCCGCCA TCAACTATCG TGCGGTGGTG
GCGCTCCTGG CGGTGGGGCT CATCCTGGCC ACGGGCGTGG CGGCCTCACG CATGGGCGGC
GAGTTCATCC CCAGCCTCGA TGAGGGGGAT GCCGCCATCC AGGCGCTGCG CGTGCCCGGC
ACCAGCCTCA CCCAATCGGT GGAGATGCAG GAGGCCTTGG AAAAGCGCCT GCTGCAGGTG
CCCGAAGTGA AGGAGGTGTT CGCCCGCACC GGCACGGCGG AGGTGGCCAC CGACCCCATG
CCGCCGTCTA TCTCGGACGG CTACATCATC CTGAAGCCCC GCGCCGAGTG GCCGGACCCG
CGCAAGAGCA AGGCGCAGGT GATGGCAGAT ATTGAGGAGG CCTCAGAGGA CGTGGCCGGC
AGCAATTATG AGCTGTCCCA GCCCATTCAG CTGCGCTTCA ACGAGCTCAT CTCGGGCATC
CGCTCGGATG TGGGCGTGAA GATCTTCGGC GACGATCTCG ACACCTTGCT GCAGGTGGCG
GGCCAGGTGG AAGCGGTGAT GCGCGCCATT CCCGGCGCGG CCGATGTGAA GAGCGAACAG
GTCTCCGGCC TGCCCATGCT CACCGTCGCC CTCAATCGCC CGGCCATGGC GCGCTATGGC
GTGAGCGTGG CGGACGTGCA GGAGTTGATC GAGATCGCCG TGGGCGGGCG CTCCGCTGGC
GTGCTGTTCG AGGGCGACCG CCGCTTCGAC ATCATGGTGC GCCTGCCGGA GGAGTTGCGC
ACCGACATCG AGGCCCTGCG GGCCCTGCCC GTGCCGCTGC CCCCGGCAGC AGCGGACCCG
GACAAGCCGC GCGCCGCGGT GTGGGCCTCG GGCGCCAATG CCCAGATCCG CTATGTGCCG
CTCGCGTCCA TCGCCAGCCT CTCCATCTCC CCCGGCCCCA ACCAGATCAG CCGGGAAAAC
GGCAAACGCC GCATCGTGGT GAGCGCCAAT GTGCGCGAGC GCGACCTCGG CTCGTTCGTG
ACGGAAGCGC AGCGCCAGGT GGCGGAGAAG GTGAAGCTGC CGGAAGGCTA TTGGATCGGC
TGGGGCGGGC AGTTCGAGCA GCTCGTCTCC GCCACCCAGC GGCTCGCCAT CGTGGTGCCC
ATCGCGCTCG CGCTCATCTT CCTGCTGCTG TTCATGAGCT TCGGCTCGGT GGCGGATGCG
GCGCTGGTGT TCTCGGGAGT GCCGCTGGCA CTCACCGGCG GCATCATCGC GCTGCTGCTG
CGCGGGCTGC CTCTGTCCAT CAGCGCCGGC ATCGGCTTCA TCGCGCTCTC GGGCGTGGCG
GTGCTGAACG GCCTCGTCAT CATCGCCTTC ATCCAGAAGC TGCGGGCGGA GGGGCGAGAG
ATCGTCGCCG CCGTGCGCGA AGGCGCCCTG ACCCGCCTCC GGCCGGTGCT GATGACCGCA
ATGGTGGCCT CGCTTGGGTT CGTGCCCATG GCGCTCGCCA CGGGTGCCGG CGCGGAGGTG
CAGCGGCCGC TTGCCACCGT GGTCATCGGC GGCATCGTCT CTTCCACCAT CCTCACTTTG
CTCGTGCTGC CGGCGCTCTA CGTGCTGTTC CGGCGCGAGA CCAAGGCCGC CGAGACCTCG
CAGGCGGCGG CGGAAAACCC AGCCTCCTGA
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| Protein sequence | MIDAILAFSI RQRWLVVLVC LMVGAFGAWN FTRLPIDAVP DITNVQVQIN TSAPGFSPLE
VEQRITFPIE TAMGGLPGLQ YTRSLSRYGL SQVTVVFADG TDIYFARQLV NERIQQAKDQ
LPQGVETAPG PISTGLGEIY MYTVEAKPGA KKPDGTPYSP TELRTIQDWI IKPQLRTVPG
VVEVNTIGGF ARQFHVLPDP ARLMAYNISF RDVMTALAAN NANVGAGYIE RNGEQYLVRT
PGQVANLEEI RDIVIGSRDG TPIRIGDIGE VREGRELRTG AATLNGGEVV LGTTMLLIGE
NSRTVAQRVA ARLEDISRSL PEGVVARAVY DRAHLVEATI ATVEKNLLEG ALFVVVVLFV
LLGNFRAALV TACVIPLSMM LTITGMVENK VSANLMSLGA IDFGIIIDGA VIIVENCLRL
LAEEQHKRGR LLTRAERFQT ILAGSKEVIR PSLFGTLIIA VVYLPVLTLT GVEGKMFTPM
AVTVLMALAA AAVFSMTFVP AAVALLVTGK VSEHENIIMR TARRIYTPLL DAAINYRAVV
ALLAVGLILA TGVAASRMGG EFIPSLDEGD AAIQALRVPG TSLTQSVEMQ EALEKRLLQV
PEVKEVFART GTAEVATDPM PPSISDGYII LKPRAEWPDP RKSKAQVMAD IEEASEDVAG
SNYELSQPIQ LRFNELISGI RSDVGVKIFG DDLDTLLQVA GQVEAVMRAI PGAADVKSEQ
VSGLPMLTVA LNRPAMARYG VSVADVQELI EIAVGGRSAG VLFEGDRRFD IMVRLPEELR
TDIEALRALP VPLPPAAADP DKPRAAVWAS GANAQIRYVP LASIASLSIS PGPNQISREN
GKRRIVVSAN VRERDLGSFV TEAQRQVAEK VKLPEGYWIG WGGQFEQLVS ATQRLAIVVP
IALALIFLLL FMSFGSVADA ALVFSGVPLA LTGGIIALLL RGLPLSISAG IGFIALSGVA
VLNGLVIIAF IQKLRAEGRE IVAAVREGAL TRLRPVLMTA MVASLGFVPM ALATGAGAEV
QRPLATVVIG GIVSSTILTL LVLPALYVLF RRETKAAETS QAAAENPAS
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