| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Ccur_11220 |
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| Symbol | |
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| ID | 8375329 |
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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 | Cryptobacterium curtum DSM 15641 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_013170 |
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| Strand | - |
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| Start bp | 1277735 |
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| End bp | 1280512 |
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| Gene Length | 2778 bp |
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| Protein Length | 925 aa |
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| Translation table | 11 |
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| GC content | 53% |
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| IMG OID | 644994043 |
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| Product | copper/silver-translocating P-type ATPase |
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| Protein accession | YP_003151494 |
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| Protein GI | 256827535 |
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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 | [TIGR00003] copper ion binding protein
[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 | 13 |
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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 | 101 |
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| Fosmid unclonability p-value | 0.363514 |
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| Fosmid Hitchhiker | No |
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| Fosmid clonability | normal |
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Sequence |
| Gene sequence | ATGAAGAAGA CATTCGATGT CACTGGTATG ACATGTGCCG CCTGTTCGGC GCGGGTGACA
AAAGCTACAC AAGCAGTGCC CGGTGTAGAT GAAGCGGTCG TGAACCTGCT GAAAAACAGT
ATGGAAGTAA CCTACGATGG CAACGATGCA ACACTTGCTG CCGTCAGCGC AGCGGTGGAA
AAAGCAGGGT ACGGTGCCAC GGTGCGCGGT CAGGCTTCGT CCGAAGCGGC ACCATCCCGC
GGAAGCGCTT CTGACGCAGC GCAAAAAGAA GCTCGTCACG TGCGCATGCG CTTGATCGTC
TCTATTTTAT TTACGGTGCC GCTCTTCTAT CTTTCAATGG GACATATGTT TAGCTGGCCA
ATTCCTGCAG CACTCGCTGG CCATGAAGGC ATGATGTCAT TAGCGCTGAC CGAGCTTTTG
TTAACTATTC CGGTGGTGTT TGTTAACTTC AAATTCTTCC GTGTGGGCTT TAAAACTCTT
ATACATCGTG CGCCAAATAT GGATTCGCTT ATTGCGCTTG GTTCGACGGC ATCAATTATT
TACGGTATTG CAGCGATGTA TCGCATGAGC GCGGCACTGG GCGTGGGTGA TGTGCAGGCT
GCGCATACGG CGGGCATGGA TTTATATTTT GAATCAGCCG TGATGATTCT CACGCTGATC
ACGCTCGGTA AGTTTTTTGA GGCGCGAGCA AAAGGTCGTA CCACCGACGC GATTAACGGG
TTACTTGACT TGGCACCGGC AACGGCTCTT CGTGTGCGCG ATGGCCAAGA AGAGGAAATT
CTGATTGAGC AGGTTGTTGT AGGCGACATA CTGGCAGTAC GTGCTGGTGC GGCTGTTCCC
TGTGATGGCG TGGTGGTGGA AGGCACTGCT GCGGTCGATG AATCGGTTAT CACAGGGGAA
AGCTTGCCCG TAGAAAAGGA AGCAGGCGAT ACCGTAACTG GCGCGACGGT GAATCGCAGT
GGCTGGTTCA CCATGCGCGC AACGGCAGTT GGTGCCGATA CGGCGCTGGC GCACATCGTA
AAGCTTGTGG ATGAAGCAAC AAGTACCAAA GCCCCTATCG AACGTAAAGC TGACCAGATT
GCAGGTATAT TCGTGCCGGC TGTTATCGGT GTGGCCATCG TGGTATTTGC TATCTGGCTA
GTGATTGGTG ATTTTTCTGC AGCCGTATCG CATGCTATCT CGGTGCTCGT CATCTCGTGC
CCATGTGCTT TGGGTCTTGC TACACCAACA GCCATTATGG TGGGTACGGG TCGTGGTGCA
CAGCAGGGAG TGCTCATCAA GAGTGCCGAA GCGCTGGAAA ATGCGCACGA CACACGTATT
GTCGTGCTTG ATAAGACCGG TACCATCACC GAAGGTGCAC CGCGTGTGAC TGATGCTCTT
GTGTACGAAC ATGATGGCTG GACTGCCGTA GAAACAAACC AACTGACTGC CGACCAAACG
CGCGTAGTGC AGGCTGCCCT TTCGCTTGAG GAGCGCAGCG AACATCCGCT GGCACGTGCC
TTTGTTGACT ATGCCACTGA AAGGGGTGTC GAAGCGCAGC CAGTGGAAGA CTTTACAACG
GTGGCAGGTC GTGGCGTAAA GGGTATAGTT GACGGCTCTT TCTGCGTTGC CGGTAACGAA
CGCCTGTTGC GTGAAACTGG CGTAACGGTC GATGCATTTG CCACTGAAAC AAAGCGCCTT
GCCGAAGAAG GTAAAACGCC GCTGATTGTG GCTCGCGACG GTAAAGCTGA ACTGATAGTT
GCTTGTGCCG ATGTGGTTAA GCCGACAAGC AAGCACGCCA TCGAACGCCT GCGTGCTATG
GGCGTTAAAA CGGTCATGCT TACCGGTGAT GATGCGCGTA CTGCCGCGGT GATACAACGC
GAAGTCGGCA CCGATGAGGC CATTGCCAGT GTGCTGCCCG AAGGCAAGGA AGAACGCGTT
CGTGCGTTCT GCGCTGAAGG TAAGACGGCT ATGGTGGGGG ATGGCATCAA TGATGCCCCT
GCTCTTGCCC GTGCTGATGT TGGTATTGCT ATTGGGGCGG GGACTGATGT TGCCATCGAC
GCCGCTGATA TCGTGCTGAT GCGCAGCGAT CTTGAAGATG TGGCAACGTC GCTGGAACTT
TCTCGTGCGA CAATGCGCAA TATTAAGCAG AACCTATTCT GGGCACTTAT CTACAATGCA
ATCTGTATTC CCATAGCAGC AGGTGCGCTG TCTGCGTGGG GCATTGCGCT TAACCCTATG
ATCGCAGCTG CGTGTATGAG CTTCTCGAGT ATCTGCGTGG TAACAAACGC TCTGCGCCTG
CGCGGGTGGA AGCCATCGCT TGAGGCTGCC TCAGTTTCAG TGGACGCTGG TCAATTGAGC
GCCGGACAAC GGAACAGCGA CCAGTTGGGT GATGACATTA AGGTAAACAG CAACATCAAA
CTGGAGGGCG ATAACCGATC GAAGAATAAC AGTCAGCCAG ATGACGATAA GTCAAAAAGC
ACTGGTCAGT CTGGTGATAG CACATCAGAT AGCGTGAGCC AATCGAATGG TGAAGGACAG
ACAACTCAAA ACAATCCTGA AAACGAAGTA GATAGAAAGG AACCAACTAT GAAGAAGACC
CTTGCAGTAG ACGGCATGAT GTGCGAGCAC TGTGTTGCTC ATGTAACGAA AGCGCTTGAA
GGCATTGAAG GAGTCAGTTC GGTAAAGGTA AGCCTTGCCG ACAAAAATGC AGTGGTTGAT
CTTGCTCAAG AGGTACCCGA TGCCGCACTT GTTGATGCGG TTGTTGACGC GGGATACGAA
GCTTCGGTGG TTGCGTAG
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| Protein sequence | MKKTFDVTGM TCAACSARVT KATQAVPGVD EAVVNLLKNS MEVTYDGNDA TLAAVSAAVE
KAGYGATVRG QASSEAAPSR GSASDAAQKE ARHVRMRLIV SILFTVPLFY LSMGHMFSWP
IPAALAGHEG MMSLALTELL LTIPVVFVNF KFFRVGFKTL IHRAPNMDSL IALGSTASII
YGIAAMYRMS AALGVGDVQA AHTAGMDLYF ESAVMILTLI TLGKFFEARA KGRTTDAING
LLDLAPATAL RVRDGQEEEI LIEQVVVGDI LAVRAGAAVP CDGVVVEGTA AVDESVITGE
SLPVEKEAGD TVTGATVNRS GWFTMRATAV GADTALAHIV KLVDEATSTK APIERKADQI
AGIFVPAVIG VAIVVFAIWL VIGDFSAAVS HAISVLVISC PCALGLATPT AIMVGTGRGA
QQGVLIKSAE ALENAHDTRI VVLDKTGTIT EGAPRVTDAL VYEHDGWTAV ETNQLTADQT
RVVQAALSLE ERSEHPLARA FVDYATERGV EAQPVEDFTT VAGRGVKGIV DGSFCVAGNE
RLLRETGVTV DAFATETKRL AEEGKTPLIV ARDGKAELIV ACADVVKPTS KHAIERLRAM
GVKTVMLTGD DARTAAVIQR EVGTDEAIAS VLPEGKEERV RAFCAEGKTA MVGDGINDAP
ALARADVGIA IGAGTDVAID AADIVLMRSD LEDVATSLEL SRATMRNIKQ NLFWALIYNA
ICIPIAAGAL SAWGIALNPM IAAACMSFSS ICVVTNALRL RGWKPSLEAA SVSVDAGQLS
AGQRNSDQLG DDIKVNSNIK LEGDNRSKNN SQPDDDKSKS TGQSGDSTSD SVSQSNGEGQ
TTQNNPENEV DRKEPTMKKT LAVDGMMCEH CVAHVTKALE GIEGVSSVKV SLADKNAVVD
LAQEVPDAAL VDAVVDAGYE ASVVA
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