| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | YpsIP31758_3027 |
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| Symbol | copA |
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| ID | 5388232 |
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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 | Yersinia pseudotuberculosis IP 31758 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_009708 |
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| Strand | + |
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| Start bp | 3405783 |
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| End bp | 3408650 |
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| Gene Length | 2868 bp |
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| Protein Length | 955 aa |
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| Translation table | 11 |
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| GC content | 53% |
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| IMG OID | 640866032 |
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| Product | copper exporting ATPase |
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| Protein accession | YP_001401987 |
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| Protein GI | 153949717 |
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| COG category | [P] Inorganic ion transport and metabolism |
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| COG ID | [COG2217] Cation transport ATPase
[COG2608] Copper chaperone |
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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 | 34 |
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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 | n/a |
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| Fosmid unclonability p-value | n/a |
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| Fosmid Hitchhiker | n/a |
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| Fosmid clonability | n/a |
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Sequence |
| Gene sequence | ATGTTGCAAA CCACACTGCT CGCCTTACAA GGACTTTCTT GTATGAATTG TGCTCAACGC
GTTAAAGCCG CGTTGGAAAG CCGTGAGGAT GTTCACCATG CTGAAGTGAA TGTTCACTAC
GCTAAAGTGA CTGGTGAAGC CGATACTCAT GCACTCATTG AGATAATCAA ACAGACCGGT
TATCTGGCGA AAGAAGCCCA AACGCCGGAC GCTGAATTAC GCCTTTCAGG ATTGAGCTGC
GGGCATTGCA CTGAAACAGT CCGTAAAGCA CTGGAAGCGG TTTCGGGGGT AATTTCTGCC
GATGTGACCC TCGATAGTGC CAACGTGTAC GGCAAGGCCG ATATACAGAC ATTGATTATC
GCAGTGGAAC AGGCTGGCTA TCACGCCACA CAGCAAGGTA TCGACGCCCC AAAAACTGAG
CCGCTGACAC ACTCAGCCCA ATCTCAGCCG GAATCTCTGG CAGCGGCCTC GAATACTGTT
CCGGCACTCA ACGTGGCTTT AGCCACAAGT ACGGTTTTAG ATACAAATAC CGTTTTACCT
ACAAATACAA CGTCTACAAC TTCAACAGCC AATACGGCGT CAGCCACCAG CACGGCACCG
GTGATCAATC CGCTGCCAGT GCCCGAATCA GTGACCCAAC CGGCAGCCTC AGAAGGGGAT
AGTGTTCAGC TATTACTGAC GGGGATGAGT TGTGCCAGTT GTGTCTCTAA AGTACAAAAT
GCATTGCAAC GCGTTGATGG GGTTCAGGTG GCCCGCGTTA ATCTGGCTGA ACGCAGTGCA
TTGGTCACAG GGACCCAAAA TAACGAAGCC TTAATCGCTG CGGTTAAAAA TGCCGGTTAC
GGCGCGGAGA TCATTGAAGA CGAAGGGGAG CGACGCGAGC GGCAACAGCA AATGTCGCAA
GCCAGTATGA AGCGTTTCCA ATGGCAAGCA GCATTAGGTC TATTGTTAGG TATCCCATTG
ATGGCTTGGG GGCTGTTTGG CGGTAGCATG ACGCTGACGC CAGAAACCCA GACACCCTGG
CTTATTATCG GGATTATCAC GCTGCTGGTG ATGATATTTG CGGGAGGGCA TTTCTACCGT
AATGCGTGGG TGAGCCTAAA AAATGGCAGT GCCACCATGG ATACCTTGGT CGCGCTGGGT
ACGGGGGCTG CCTGGATCTA CTCCATCACC GTCAATATCT GGCCAGATAT TTTCCCTATG
GAGGCCCGTC ACCTTTATTA CGAAGCCAGT GCCATGATCA TCGGTTTGAT TAACCTTGGT
CATGCGATGG AACAACGCGC CAGACAACGC TCATCTAATG CGCTAGAACG CTTATTAGAC
CTGTCCCCCC CGACAGCAAA GTTAGTGACC GATGACGGTG AGAAGGTGAT CCCGCTGGCA
GATGTCCAAC TGGGGATGAT CCTACGCCTG ACCACCGGCG ATCGCGTGCC AGTTGATGGT
GTGATTGTGC AGGGTGAAGT ATGGATGGAT GAAGCGATGC TGACTGGCGA GCCGATCCCA
CAGCAAAAGT CAGAGGGTGA TATTGTCCAC GCAGGGACAC AAGTACAAGA TGGAACCGTG
CAATTCCAGG CTAGCGCTAT CGGTAGCCAA ACGACATTAG CGCGAATTAT CAAACTGGTC
CGTCAGGCAC AAAGCAGTAA ACCAGAAATC GGTAAACTGG CAGACCGTAT CTCTGCGGTA
TTCGTCCCAA CGGTGGTAGT CATTGCCATT GTCGCTGGCC TGATTTGGTA TTTCTTCGGC
CCACAACCCC AGTTGGTCTA TACCCTGGTA GTGGCCACCA CAGTGTTAAT TATCGCCTGC
CCTTGTGCTT TGGGCTTAGC GACACCGATG TCGATTATCT CTGGCGTCGG CCGAGCCGCT
GAATTTGGTG TATTGGTCCG TGATGCGGAT GCACTACAGC AAGCCAGTAA CCTTGATACG
TTAGTGTTCG ATAAAACCGG CACACTAACC AAGGGGCACC CGCAGGTGGT GGCAATCCAC
ACCTTTAATG GCGTGAGTGA ACAACAGGCT TTAGGTTGGG CTGCAGCACT GGAGACGGGA
TCGAATCACC CGCTGGCCCG CGCTATTTTA CAACGTGCAG AGGGGCTGAC ATTGGCCACC
GCCAGCCAAT TTCGTACATT GCGCGGCTTG GGGGTTAGTG GTGAAGTTGA CGGCGTCCCA
CTACTCCTCG GCAACAATCG GCTGCTGGAA GAACAACAAA TTGACACTCG CGAGTTGCAA
TCACTGATAC AGCAACAAGC AGAAAGTGGC GCAACACCGG TTATTCTGAC CGCCAATGGC
AAGCCCGCAG CGCTGTTATC GATCCGTGAC CCATTGCGCG AAGACAGTAT CAGCGCATTA
CAGCGGCTAC ATCAATTGGG CTATAGCCTG GTGATGTTGA CCGGTGACAA CCCCATCACC
GCCAATGCCA TTGCGAAAGA AGCCGGTATT GATCGTGTGA TCGCAGGGGT TCTGCCAGAT
GGCAAAGCCG ATGCTATCAA GCAACTGCAA GCGGCAGGAC ATAAAGTGGC AATGATTGGT
GATGGCATCA ACGATGCCCC TGCATTAGCG CAAGCGGATG TCGGGATTGC CATGGGGAGC
GGCAGTGATA TCGCGATTGA AACCGCAGCG ATTACCCTTA TGCGTCACAG TTTGCACGGA
GTTGTCGATG CTGTAGAACT TTCCAAAGCC ACATTACGTA ACATGAAGCA AAACCTGTTG
GGGGCTTTCT TCTACAATGC GCTGGGCATT CCCATTGCCG CAGGGATTTT ATATCCCTTC
ACCGGTACAT TACTCAGCCC GGTAGTCGCC GGCGCGGCGA TGGCGTTGTC CTCCATCACG
GTCGTCAGTA ACGCTAACCG TTTACTGCGT TTTAAACCTA AACAGTAA
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| Protein sequence | MLQTTLLALQ GLSCMNCAQR VKAALESRED VHHAEVNVHY AKVTGEADTH ALIEIIKQTG
YLAKEAQTPD AELRLSGLSC GHCTETVRKA LEAVSGVISA DVTLDSANVY GKADIQTLII
AVEQAGYHAT QQGIDAPKTE PLTHSAQSQP ESLAAASNTV PALNVALATS TVLDTNTVLP
TNTTSTTSTA NTASATSTAP VINPLPVPES VTQPAASEGD SVQLLLTGMS CASCVSKVQN
ALQRVDGVQV ARVNLAERSA LVTGTQNNEA LIAAVKNAGY GAEIIEDEGE RRERQQQMSQ
ASMKRFQWQA ALGLLLGIPL MAWGLFGGSM TLTPETQTPW LIIGIITLLV MIFAGGHFYR
NAWVSLKNGS ATMDTLVALG TGAAWIYSIT VNIWPDIFPM EARHLYYEAS AMIIGLINLG
HAMEQRARQR SSNALERLLD LSPPTAKLVT DDGEKVIPLA DVQLGMILRL TTGDRVPVDG
VIVQGEVWMD EAMLTGEPIP QQKSEGDIVH AGTQVQDGTV QFQASAIGSQ TTLARIIKLV
RQAQSSKPEI GKLADRISAV FVPTVVVIAI VAGLIWYFFG PQPQLVYTLV VATTVLIIAC
PCALGLATPM SIISGVGRAA EFGVLVRDAD ALQQASNLDT LVFDKTGTLT KGHPQVVAIH
TFNGVSEQQA LGWAAALETG SNHPLARAIL QRAEGLTLAT ASQFRTLRGL GVSGEVDGVP
LLLGNNRLLE EQQIDTRELQ SLIQQQAESG ATPVILTANG KPAALLSIRD PLREDSISAL
QRLHQLGYSL VMLTGDNPIT ANAIAKEAGI DRVIAGVLPD GKADAIKQLQ AAGHKVAMIG
DGINDAPALA QADVGIAMGS GSDIAIETAA ITLMRHSLHG VVDAVELSKA TLRNMKQNLL
GAFFYNALGI PIAAGILYPF TGTLLSPVVA GAAMALSSIT VVSNANRLLR FKPKQ
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