| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Xaut_4589 |
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| Symbol | |
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| ID | 5423412 |
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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 | 5071763 |
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| End bp | 5074825 |
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| Gene Length | 3063 bp |
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| Protein Length | 1020 aa |
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| Translation table | 11 |
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| GC content | 68% |
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| IMG OID | 640883854 |
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| Product | heavy metal translocating P-type ATPase |
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| Protein accession | YP_001419467 |
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| Protein GI | 154248509 |
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| COG category | [O] Posttranslational modification, protein turnover, chaperones
[P] Inorganic ion transport and metabolism
[S] Function unknown |
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| COG ID | [COG2020] Putative protein-S-isoprenylcysteine methyltransferase
[COG2217] Cation transport ATPase
[COG3350] Uncharacterized conserved protein |
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| TIGRFAM ID | [TIGR01494] ATPase, P-type (transporting), HAD superfamily, subfamily IC
[TIGR01511] copper-(or silver)-translocating P-type ATPase
[TIGR01525] heavy metal translocating P-type ATPase |
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| 
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Plasmid Coverage information |
| Num covering plasmid clones | 5 |
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| Plasmid unclonability p-value | 0.020179 |
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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 | 22 |
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| Fosmid unclonability p-value | 1 |
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| Fosmid Hitchhiker | No |
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| Fosmid clonability | normal |
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Sequence |
| Gene sequence | ATGACCGAGA CCTCCGCTTA TGGCCTGTGG GGCCTCGTGA TCATCAACTC GGCGGTCTTC
ATCCTGTTTG CGGCAAGCTT CACCCGGCTG CAGACACCGC GGGACTGGCG CACGCTCGGG
GCGTTCTCGG CCTTCATCCT TGCCCTGTTC ACCGAGATGT ACGGCTTTCC GCTGACCATC
TATCTCCTGT CGGGATGGCT CGGCCGGCAG TTTCCCGGTG TCGATTTCTG GTCCCACGAC
GCCGGCCATC TGCTGGAGAC CCTGTTCGGA TGGCGCGTGA ACCCCCATTT CGGGCCGTTC
CACATCTTCA GCAATATTCT GATCTTCGGC GGCTTCTGGC TGCTCGTCGC GAGCTGGAAC
GTGCTTTATG CGGCCCAGCG CGATCACCGC CTCGCGACCG AAGGTCCCTA TTCCCGCGTG
CGGCATCCCC AGTACGCCGC TTTCGTCGTC ATCATGTTCG GCTTCCTGCT GCAATGGCCG
ACGCTGGTCA CGCTCGCCAT GTTCCCCATT CTCGTCTCGG TCTATGTGCG GCTCGCACGG
CAGGAAGAAG CCGCAGCCCG CACTGAGTTC GGGCCGACGT GGGATGATTA TGCCAGCCGC
GTCCCCGCCT TTTTCCCCGT ATCGGAATTT CATCCGCGAC AGCCCCTCGC TCCGGAGACC
GCCCTCATGA CTGAGCACGA CACGCACGCC GGCCACCATC ACCACCACGA CCATGCAGTT
CACCCGCCCG AAGGCGCCGG GATCGCGCCC ACGGAAATGG TCAAGGATCC CGTCTGCGGC
ATGGAGGTGA ACCCGGCCAC CGCCGGGTTC CGGTCGGACT ACGGCGGCAA GAGCTATTTC
TTCTGCTCGG CAAAATGCCA CGACAAATTC GACGCAAACC CTTCTGCCTA TACCGCCGGT
GCGGCGGAAA CGCCGCCCGC AGCGAAGGGT CAGCCTCAAG GCGTGATCTA CACCTGCCCC
ATGCACCCGC AGATCCGTCA GCTGGGACCG GGCAACTGCC CCATCTGCGG CATGACGCTG
GAGCCCGAGG TGGCGACAGG CAAAACCGGT CCCAGCGCCG AGCTCGTGGA CATGACGCGC
CGCTTCTGGA TCGGCCTTGC GCTGGCGCTG CCGGTGCTGG CCCTGGAGAT GGGCGGGCAC
CTCACCAATC TCCACATGCT GCTCGGCGCG CAAGCGTCCA ACTGGACCCA GCTCGTGTTG
GCAACACCGG TGGTGCTGTG GGCGGGATGG CCGTTCTTCA CCCGCGCCTG GCAGTCGCTG
GTCACCCGCC GCCTCAACAT GTTCACGCTG ATCGCCATGG GCACGGGCGT GGCGTGGGCC
TACAGCGTGG TGGCGACCTT CGCGCCGCAG ATCTTCCCCG CGACCTTCCG CGCCGCCGAC
GGATCGGTTG CCATCTATTT CGAGGCCGCT GCCGTCATCA CAGTGCTGGT CCTGCTCGGC
CAGGTGCTGG AGCTGCGCGC CCGCGAGCAG ACCGGCGGCG CCATCCGCGC CTTGCTCGAC
CTCGCCCCCA AGAGCGCCCG GCGCGTGCGT GACGACGGCA GCGACGAGGA CGTGGCGCTG
GAGGCGGTCG TGGTGGGCGA CCGCCTGCGC GTGCGGCCAG GCGAGAAGGT GCCGGTGGAT
GGCAAGCTGG TCGAGGGCCG CTCCTCGGTG GACGAATCCA TGATCACCGG CGAATCCATG
CCAGTCACCA AGGACGTCGG CGCGAAGGTC ATCGGCGGCA CGCTCAACCA GAGCGGCGGC
TTCGTCATGC GCGCCGGCAA GGTGGGGCGG GACACCATGC TGGCGCAGAT CGTCCACATG
GTGGCCGAGG CGCAACGCTC GCGCGCGCCG ATCCAGCGCC TCGCCGACGA GGTATCCGGC
TGGTTCGTGC CGGTGGTGAT CGCCATCGCG GTCCTTGCCT TTGCGGCGTG GGGCATCTTT
GGGCCGGAGC CGCGCTTCGC CCACGGGCTG ATCGCCGCCG TGGCGGTGCT CATCATCGCC
TGCCCCTGTG CGCTCGGGCT GGCGACGCCC ATGTCCATCA TGGTGGGCGT CGGTCGCGGC
GCATCCATGG GCGTGCTCAT CAAGAATGCC GAGGCGCTGG AGCGGTTCGA GAAGGTGGAC
ACGCTGGTGG TGGACAAGAC CGGCACCCTG ACGGAAGGCA AGCCGAAGGT GGTCGCGCTG
AAGACGGCCG GCGCCTTGGA AGAGGACGCG CTCCTGCGGC TTGCGGCGAC GCTCGAGCGG
GCGAGCGAGC ACCCGCTCGC GGCGGCCATC GTCGCCGCGG CGGAGGAGCG CGCCCTGCCT
CTCGGCGAGG CCCAGGATTT CGACAGCCCG GTGGGCAAGG GCGTGACTGG CACGGTGGAC
GGCCAAAAGC TCGTCATCGG CAGCCACCGC ATCATGGGCG AGGAAGGCGT GGACCTCTCC
CCCCTGTCGG CCGAGGCCGA GGCGCTACGC GCCGATGGTG CCACCGTGAT CTTCGTTGCA
ATGGACGGGC GCATCGGCGG CCTCATCGCC ATCGCCGACC CGGTCAAGGC GACCACCCCC
GTGGCCTTGG CGGCGCTCCG GGCCGCCGGG GTCCGCGTCG TCATGCTCAC CGGCGACAAT
CGGACGACCG CCGAGGCGGT GGCCCGGCGC CTGGGCATCG ACGAGGTGGA AGCAGAGGTG
CTGCCGGAGA ACAAGGCGCA GGTGGTGACG CGGCTGCGCC AGGAAGGGCG GATCGTCGCC
ATGGCCGGCG ACGGCGTGAA CGATGCGCCC GCCCTCGCCG CGGCGGACGT CGGCGTCGCC
ATGGGTACCG GGACGGACGT CGCCATCGAG AGCGCCGGCG TGACGCTGCT GAAGGGCGAT
CTCCAGGGCA TCGCCCGCGC CCGGCAGCTG AGCCACGCCA CCATGAGCAA CATCCGCCAG
AACCTGTTCT TCGCTTTCAT CTACAATGCG GCCGGCATAC CGGTGGCGGC CGGCGTGCTC
TATCCCCTGT TCGGGCTTCT GCTGTCGCCT ATCATCGCCG CCGCGGCCAT GGCGCTGTCA
TCGGTCAGCG TCATCGCCAA TGCCCTGCGC CTTCGAAGCG CCTCCCTTGG CGGGGGCAAG
TAG
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| Protein sequence | MTETSAYGLW GLVIINSAVF ILFAASFTRL QTPRDWRTLG AFSAFILALF TEMYGFPLTI
YLLSGWLGRQ FPGVDFWSHD AGHLLETLFG WRVNPHFGPF HIFSNILIFG GFWLLVASWN
VLYAAQRDHR LATEGPYSRV RHPQYAAFVV IMFGFLLQWP TLVTLAMFPI LVSVYVRLAR
QEEAAARTEF GPTWDDYASR VPAFFPVSEF HPRQPLAPET ALMTEHDTHA GHHHHHDHAV
HPPEGAGIAP TEMVKDPVCG MEVNPATAGF RSDYGGKSYF FCSAKCHDKF DANPSAYTAG
AAETPPAAKG QPQGVIYTCP MHPQIRQLGP GNCPICGMTL EPEVATGKTG PSAELVDMTR
RFWIGLALAL PVLALEMGGH LTNLHMLLGA QASNWTQLVL ATPVVLWAGW PFFTRAWQSL
VTRRLNMFTL IAMGTGVAWA YSVVATFAPQ IFPATFRAAD GSVAIYFEAA AVITVLVLLG
QVLELRAREQ TGGAIRALLD LAPKSARRVR DDGSDEDVAL EAVVVGDRLR VRPGEKVPVD
GKLVEGRSSV DESMITGESM PVTKDVGAKV IGGTLNQSGG FVMRAGKVGR DTMLAQIVHM
VAEAQRSRAP IQRLADEVSG WFVPVVIAIA VLAFAAWGIF GPEPRFAHGL IAAVAVLIIA
CPCALGLATP MSIMVGVGRG ASMGVLIKNA EALERFEKVD TLVVDKTGTL TEGKPKVVAL
KTAGALEEDA LLRLAATLER ASEHPLAAAI VAAAEERALP LGEAQDFDSP VGKGVTGTVD
GQKLVIGSHR IMGEEGVDLS PLSAEAEALR ADGATVIFVA MDGRIGGLIA IADPVKATTP
VALAALRAAG VRVVMLTGDN RTTAEAVARR LGIDEVEAEV LPENKAQVVT RLRQEGRIVA
MAGDGVNDAP ALAAADVGVA MGTGTDVAIE SAGVTLLKGD LQGIARARQL SHATMSNIRQ
NLFFAFIYNA AGIPVAAGVL YPLFGLLLSP IIAAAAMALS SVSVIANALR LRSASLGGGK
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