| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Shel_01260 |
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| Symbol | |
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| ID | 8394018 |
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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 | Slackia heliotrinireducens DSM 20476 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_013165 |
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| Strand | + |
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| Start bp | 159460 |
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| End bp | 162177 |
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| Gene Length | 2718 bp |
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| Protein Length | 905 aa |
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| Translation table | 11 |
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| GC content | 64% |
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| IMG OID | 644984899 |
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| Product | copper/silver-translocating P-type ATPase |
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| Protein accession | YP_003142549 |
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| Protein GI | 257062877 |
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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
[TIGR01512] heavy metal-(Cd/Co/Hg/Pb/Zn)-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 | 8 |
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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 | 28 |
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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 | ATGAAGCAGA CATTCGATGT GACAGGCATG TCGTGCGCGG CGTGCTCGTC GCGGGTCGAC
AAATGCACGC GCGGCGTCGA AGGCGTCGCG GACGTGGCGG TGAACCTGCT CAAGAACAGC
ATGGAGGTCG AATACGACCC CGAGGCAACC CCTGAGCAGA TTGCCCGGAT CAATGAGGAA
ATTTCCGCCA CCGTGGACAA GGCGGGTTAC GGCGCCACGC CCCGCGCCGT GCAGGCCGCG
GCAGGCGGTA CGGCAAACGG CAAGTCCACA GCACAGCTCG CCCACGAGGC GGCAACCAAG
AACGCCGTCG CCAACGAGAA GCACATGCGC ATGCGTCTGA TTCTGTCCAT CGTGTTCTGT
GTGCCCCTGT TCTACCTGGC CATGGGCCAC ATGATGGGTT GGCCGCTGCC GAGCGTCTTC
CTCGGGCACG AGCACATGAT GGTCACCGCC CTGGCCGAAC TCGTGCTGGT GGCGCCGATT
ATCTTCATCG ATTTCAAATT CTTCAGCAAC GGCTTCAAAA GCCTGTTCCA CGGCGCGCCG
AACATGGACT CGCTCATTGC GCTCGGCGCC ACGGCGTCCA CCGCATATAG CATCGCGAAC
ATGTTCATCA TGGCCAACGC CATGGGGCAG GGCGACTTGG AATCGGCGCA CGAGGCGTTC
ATGGGGTTGT ACTTCGATTC TGCGGGTATG ATCTTGACTC TGATCACGCT GGGCAAGTAC
TTCGAAGCCC GCGCCAAGGG CCGCACCACC GACGCCATCT CCAAGCTTAT GGACCTGGCG
CCCAAAACCG CCAACGTGTT GCGTGACGGC GTCGAAACCG AAGTGCCCGT CGAACAGGTG
CGCGTCGGCG ACGTGCTGGT GGTCCGCGCG GGTGAGGGTG TGCCGCTGGA CGGCGTGGTG
CTTGAAGGCA GCGCATCGGT GGACGAATCG GCCATCACGG GCGAAAGCGT GCCGGTGGAC
AAGCACGTCG GCGACCCTGT GACCGGTGCC ACCATCAACA AGTCCGGTTA CTTCACCATG
GAAGTCCAGC GCGTCGGCGA CGACACGGTG CTGGCGGGCA TCATCGCGCT GGTCGACGAA
GCCACCAGCT CCAAGGCGCC CATTCAGAAC ATGGCCGACA AGATCGCCGG CATCTTCGTG
CCCGCGGTCA TCGGGTTCGC CATCCTCGTC TTCGTGTTGT GGATGCTGCT GGCGGCCCCC
TTCGAAACCG CGCTCACCCA TGCCATCTGC GTGCTGGTCA TCTCCTGCCC CTGCGCATTG
GGCCTGGCCA CGCCCACGGC CATCATGGTG GGTACGGGCC GCGGCGCTTC CAACGGCATT
CTCATCAAGT CCGCCGACTC CCTCGAAACC GCCGGCCGCA TCAAGACCGT CGTGTTCGAC
AAGACCGGAA CCATCACCCA AGGCAAACCG GGCGTGGTGG ACGTGGCCCC TGCAAATGGC
GTGGCCGCTT CCGACCTGGT GGCTTTGGCC AGCGCCGTGG AGTCCAAGTC CGAACACCCC
GTGGCCCAGG CCATTGTGGA ATACGCCGAA TCTCAAGGCA TCCAGCCTGT TCAGGACACT
GTTTCCGACT TCACCCAGGT GCCTGGCGAA GGCGTGCGCG CCCTTGTGGG CGGACGCACC
TGCCTGGCCG GCAACGCCCG CATGATGGCT TCCAACCAGG TGGCGCTGGA CAATGCCGAA
GACGCCGCCG AACGTTATGC CGACGAGGGC GCGACACCTC TGTTTTTCGC GCTGGACGGC
AAACTGCAGG GCATCATAGC CGCAGCCGAC GCCATCAAAC CCACCAGTGC TCGAGCTATT
CGCGAACTGC ACGCCATGGG CATCGACACA GTCATGCTCA CGGGCGACAA CGAGCGCACG
GCTCACGCCA TCCAGAAGCA GGCGGGCCTC GGCAAGGTCA TCGCCGGCGT GCTGCCTCAG
GATAAGGAGC GCGAGGTTGC GCGGCTGTCC CAGGAGGGCG GCGTGGGCAT GGTGGGCGAC
GGCATCAACG ACGCGCCGGC TTTGGCCCGC GCCGACGTGG GCATCGCCAT CGGCGCCGGC
ACCGACATCG CCATCGAAAG CGCCGATCTG GTGCTTATGC GTTCCGACCT GATGGACGTG
CCCGCGGCCA TCCAGCTGTC TCGCCGTACG CTGCGCACCA TCAAGCAGAA CCTGTTCTGG
GCGCTTATCT ACAACGTCAT CTGCATCCCC ATTGCGGCGG GCCTGTTCTC GTGGGCGGGG
TTGACCCTCG ATCCGATGAT CGGCGCGGCC GCCATGAGCT TCAGCTCGGT GTGCGTGGTT
ACCAACGCGC TGCGTTTGCG CACGTGGAAG CCGAAATTCG TCACGCCTGA GGAGCCTTCT
GCCCAGGTGA CTTCGGTCCA GGCGCCGAAG GCGTCGCCCG CGCTCGAATC GGCCGCGCCC
GCGCCCGCGC CCCAGCCTGC GGCGGCCCCT GCACCTGCGG CGAAGCCCGA ACTTCCCACC
GAGCCCGAGG ACCTTTCCGC ACCTGACGGA ACTGTCGCCG TGAAAACCCT CGCCGTGAAG
GAGATGATGT GCGGCCACTG CGTGCGATGG GTCACGCAGG CGCTGCAGGA TGTAGAAGGC
GTGCTGCGTG CAGACGTCAG CCTGAGCAGG GAGAACGCCG TGGTGTACTT GAACCGCGAC
GTGCCTGATG ACGTGCTGAC CGCAGCCACC GACGAACAGG GTTATCCCGC GCAGGTCATA
GAAACGCAAG CCAATTAA
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| Protein sequence | MKQTFDVTGM SCAACSSRVD KCTRGVEGVA DVAVNLLKNS MEVEYDPEAT PEQIARINEE
ISATVDKAGY GATPRAVQAA AGGTANGKST AQLAHEAATK NAVANEKHMR MRLILSIVFC
VPLFYLAMGH MMGWPLPSVF LGHEHMMVTA LAELVLVAPI IFIDFKFFSN GFKSLFHGAP
NMDSLIALGA TASTAYSIAN MFIMANAMGQ GDLESAHEAF MGLYFDSAGM ILTLITLGKY
FEARAKGRTT DAISKLMDLA PKTANVLRDG VETEVPVEQV RVGDVLVVRA GEGVPLDGVV
LEGSASVDES AITGESVPVD KHVGDPVTGA TINKSGYFTM EVQRVGDDTV LAGIIALVDE
ATSSKAPIQN MADKIAGIFV PAVIGFAILV FVLWMLLAAP FETALTHAIC VLVISCPCAL
GLATPTAIMV GTGRGASNGI LIKSADSLET AGRIKTVVFD KTGTITQGKP GVVDVAPANG
VAASDLVALA SAVESKSEHP VAQAIVEYAE SQGIQPVQDT VSDFTQVPGE GVRALVGGRT
CLAGNARMMA SNQVALDNAE DAAERYADEG ATPLFFALDG KLQGIIAAAD AIKPTSARAI
RELHAMGIDT VMLTGDNERT AHAIQKQAGL GKVIAGVLPQ DKEREVARLS QEGGVGMVGD
GINDAPALAR ADVGIAIGAG TDIAIESADL VLMRSDLMDV PAAIQLSRRT LRTIKQNLFW
ALIYNVICIP IAAGLFSWAG LTLDPMIGAA AMSFSSVCVV TNALRLRTWK PKFVTPEEPS
AQVTSVQAPK ASPALESAAP APAPQPAAAP APAAKPELPT EPEDLSAPDG TVAVKTLAVK
EMMCGHCVRW VTQALQDVEG VLRADVSLSR ENAVVYLNRD VPDDVLTAAT DEQGYPAQVI
ETQAN
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