| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Rmet_2046 |
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| Symbol | |
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| ID | 4038853 |
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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 | Cupriavidus metallidurans CH34 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_007973 |
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| Strand | - |
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| Start bp | 2212650 |
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| End bp | 2215235 |
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| Gene Length | 2586 bp |
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| Protein Length | 861 aa |
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| Translation table | 11 |
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| GC content | 66% |
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| IMG OID | 637977431 |
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| Product | heavy metal translocating P-type ATPase |
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| Protein accession | YP_584194 |
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| Protein GI | 94310984 |
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| COG category | [P] Inorganic ion transport and metabolism |
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| COG ID | [COG2217] Cation transport ATPase |
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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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Plasmid Coverage information |
| Num covering plasmid clones | 6 |
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| Plasmid unclonability p-value | 0.00504527 |
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| Plasmid hitchhiking | Yes |
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| Plasmid clonability | hitchhiker |
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Fosmid Coverage information |
| Num covering fosmid clones | 18 |
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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 | ATGCCGTCCC TGCACGCTAG CCCCCTCGCG CCCGATGGAA CGTCCGTTCC GTCCAATCCG
AGCGCACAAC TTGGTTCCGC CGCAGCCCTT GCCTCGGGCA CGCGGCTTGG GTCGGCGTCT
CTATCTACAT CCACTACTCA TTGTTTTCAT TGCGGCCAGC CTCTCGGGCG CGATGTCACG
CCGCTCGTCG CTGATATCGG CGGGCAGCGC CGCACATTCT GCTGTGGCGG CTGCCAGGCG
CTGGCGCAGA CACTCTATTC AGCCGGCTTC GGGCATCTAT ATAGCGATGT CACGCGGTTC
GCGCGGCCGA TAGATGCCCA GGCGCGACGC GAGGCAGAGC CTGTGTGGGC CGCCTACGAT
ACCCCCGAGC TGCGCAACCA GTTCGTTCGC GAACTGGGCG ACGGCCGGGC GGAGATCACG
CTGGCGCCGG AAAACATCCG CTGCGCGGCC TGTGCCTGGC TGATCGAGCA GCACCTCGGG
CAACTGGATG GGGTCGAGTC GGCCGTGGCG AACGTGGCCA CGCGCCGCGT AGTGGTGCGC
TGGCAAGAGA ACAAGCAGGG CGTGGCGGGG CTGCTGTCCA CGCTGGCCGA CATCGGCTAT
CAGGCATGGC CGTTCGAGGT GTCGCGTGGC GACCAGCACG ATCGCCGCGA GCGGCGCGGC
TTGCTGATGC GCATGGCCGT GGCGATGCTC GGCATGATGC AGGTGATGAT GTATGCGTGG
CCGCTCTATA CGCACGAAGC CACGATCGAC CCCGGCCAGC TTCAGTTGAT GCGCTGGGCG
AGCTTTGCGC TGACGATCCC GGTGGTTCTT TACTCTGCCT CGCCGATTTT CGCTGGCGCA
TGGCGTTCAT TGCGGCAACG ACATATGGGC ATGGACGTGC CTGTTGCGAT CGGCGTGCTG
GCTGGCTTCT TCGCGAGCGC TGTGGCGACC GTGCGGGGCG TCGGGGAGGT CTACTTCGAT
TCCGTGACGA TGTTCGTCGC GTTCCTTCTG TTGGCCCGCT ATCTGGAGTT GCGTGTCCGG
CAAGCCTCGC GCAGTGGCGC CGAGATGCTG GCGCGCCAGC TGCCCGCGAC CTGCGAGCGG
CTGGTGGAGA CGAGCGGCGT CGGCGAGCGG ATCCCGGTTG CGCGACTGAA TGCCGGTGAC
CGGATTCGCG TGAAGGCGGG CGAGATCATG CCGGCCGACG GTGTCGTGGT GGCTGGCGTC
AGCGAAATCG ACGAATCGAT GCTGACAGGG GAAGCGCGGC CGGTGAAGCG CGCCATTGGC
GACACCGTGC TGGCGGGTTG TTTCAATGCT GCCAGTCCGC TCGAGGTGAG CGTGCGCCGG
ATCGGCGCGC AGACCCGTCT CGCCGAGATC GTAGCCGTGC TGGATCGCGC GCTGGCGGAT
AAGCCCCGCC TGGCCCAGTT GGCAGATCGT GTGGCCGGCT GGTTTGTCGC CACCCTCTTG
ATCCTGGCCG CAATCACCGG GCTGGTCTGG GCGATCTGGA TCGATCCATC ACGCGCGCTA
TTGGTGACAG TCGCGGTGCT CGTTGTGAGC TGTCCTTGCG CGTTGTCGCT GGCTACTCCG
GCGGCGCTGG CCGCCGCTGG CGCGGCGTTG TCGCGGCGCG GCGTGCTGCT GACCCGCGCG
CACACGCTCG AAGCGCTTTC GGGTGTCACG GACATCATGC TCGACAAGAC GGGCACGTTG
ACCGAGGGGC GTTTTGCGCT CGTGTCGACG GAGATCGCGG GCAATCTGGA TGCGCCGACT
TGCCAGAGTC TCGCCGCCGC CATGGAGCGT GGTGGGGAAC ATCCGATTGC GAGGGCCTTG
GTTGAGGCCG CGGCGGACCA TGCCGAACGG CTGGTGGCTG AACTGCACAA CACTCCCGGG
CAAGGATTGC AGGCAAATGT CGACGGCCGG TTGATGCGGC TGGGGCGTAG AGAGTTCGTC
GCGGAATTGG CACCGGCAGC AGCCGACATC CGCCGCAGTG GTGACCGTTT TCCGGGCGCT
ACCGAGGTCT GGCTTGGTGA CGCAAACGGT CCGCTGGCGT GTTTTCAGTT GGCCGATGTC
GAACGGCCCC AGACAGCCGA GCTTCTGGCT TCGCTGACCC GACTCGGTGT GCGCTGTCAT
CTGGTTTCGG GCGATCAGCC GGCAGCGGTG CGCTGGTGGG CGGACCGCTT CGGCATCGAG
ACCGCCGTTG GAGCGGTCAC GCCTGAAGGC AAGCGCGACT ATGTAGCCAA TCTTCAACAG
CAGGGCGCCG TCGTTCTGGC GGTGGGCGAC GGCATCAACG ATGCGCCGGT GCTGGCCCAG
GCCCAGGTTT CGATAGCGAT CGGCAGCGGT GCGCCATTGG CGCAGGCCGG TGCCGATGCC
GTGCTGACAC ACGGTGGCGT GGGCGAAATC GCCAATGCCA TTGCCGTGGC CCGCAAGACG
CGCCGTGTGG TACGCCAGAA CCTGGGTTGG GCCTTTTTCT ACAACGTCGT GGCGATCCCC
CTGGCAGCTA CCGGACTCGT TACGGCATGG ATGGCAGGCA TCGGAATGTC CGTGTCGTCG
TTACTGGTTG TCGGCAATGC ATGGCGCCTG TTGCGCGCCG CGGCGGCGCC GGCCAGGGAG
TCCTGA
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| Protein sequence | MPSLHASPLA PDGTSVPSNP SAQLGSAAAL ASGTRLGSAS LSTSTTHCFH CGQPLGRDVT
PLVADIGGQR RTFCCGGCQA LAQTLYSAGF GHLYSDVTRF ARPIDAQARR EAEPVWAAYD
TPELRNQFVR ELGDGRAEIT LAPENIRCAA CAWLIEQHLG QLDGVESAVA NVATRRVVVR
WQENKQGVAG LLSTLADIGY QAWPFEVSRG DQHDRRERRG LLMRMAVAML GMMQVMMYAW
PLYTHEATID PGQLQLMRWA SFALTIPVVL YSASPIFAGA WRSLRQRHMG MDVPVAIGVL
AGFFASAVAT VRGVGEVYFD SVTMFVAFLL LARYLELRVR QASRSGAEML ARQLPATCER
LVETSGVGER IPVARLNAGD RIRVKAGEIM PADGVVVAGV SEIDESMLTG EARPVKRAIG
DTVLAGCFNA ASPLEVSVRR IGAQTRLAEI VAVLDRALAD KPRLAQLADR VAGWFVATLL
ILAAITGLVW AIWIDPSRAL LVTVAVLVVS CPCALSLATP AALAAAGAAL SRRGVLLTRA
HTLEALSGVT DIMLDKTGTL TEGRFALVST EIAGNLDAPT CQSLAAAMER GGEHPIARAL
VEAAADHAER LVAELHNTPG QGLQANVDGR LMRLGRREFV AELAPAAADI RRSGDRFPGA
TEVWLGDANG PLACFQLADV ERPQTAELLA SLTRLGVRCH LVSGDQPAAV RWWADRFGIE
TAVGAVTPEG KRDYVANLQQ QGAVVLAVGD GINDAPVLAQ AQVSIAIGSG APLAQAGADA
VLTHGGVGEI ANAIAVARKT RRVVRQNLGW AFFYNVVAIP LAATGLVTAW MAGIGMSVSS
LLVVGNAWRL LRAAAAPARE S
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