Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Oant_3240 |
Symbol | |
ID | 5382474 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Ochrobactrum anthropi ATCC 49188 |
Kingdom | Bacteria |
Replicon accession | NC_009668 |
Strand | - |
Start bp | 560123 |
End bp | 562681 |
Gene Length | 2559 bp |
Protein Length | 852 aa |
Translation table | 11 |
GC content | 64% |
IMG OID | 640835923 |
Product | heavy metal translocating P-type ATPase |
Protein accession | YP_001371777 |
Protein GI | 153010563 |
COG category | [P] Inorganic ion transport and metabolism |
COG ID | [COG2217] Cation transport ATPase [COG2608] Copper chaperone |
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 |
| ![](https://exploration.weizmann.ac.il/pandatox/images_new/ic_cp.jpg)
![](https://exploration.weizmann.ac.il/pandatox/images_new/ic_hh.jpg)
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Plasmid Coverage information |
Num covering plasmid clones | 3 |
Plasmid unclonability p-value | 0.68227 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | n/a |
Fosmid unclonability p-value | n/a |
Fosmid Hitchhiker | n/a |
Fosmid clonability | n/a |
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Sequence |
Gene sequence | ATGAATGCCC CCGTTCGAGC AACAGACCTG TCTGGAACGA TATCACTCCC CATTGAGGGG ATGACCTGTG CATCCTGCGT AGGTCGTGTC GAAAGAGCCC TCAAGGCCGT GCCTGGCGTC GCCGATGCGG TCGTCAATCT GGCGACCGAA AAGGCGAGCA TCACCACGAA CGCTGCGGTC GATCCTGCCA CTCTCGTCAA GGCCGTGGAG GATGTAGGCT ATGAGGTTGC GGCAAGCTTC TCCGCGCCGA CGGCAGCCTC GCTTGAAGTG GCGATCGAGG GCATGACCTG CGCATCCTGC GTGGGACGCG TCGAAAAGGC GCTCAAGGCC GTACCCGGCG TCACTAATGC CGTCGTCAAC CTCGCGACCG AGAAGGCCAC GATCCAGGGC AGCGCCGATG CGGCGGATTT GGTGGCTGCC ATCGAGGGCG CGGGATACGA CGCCAGGGTG ATCGCCACGG CGGCAGGAAC CAGCCAGGGC GAGACGGATG ATCGTACCGA AAAGAAGGAA GCGGAACGTC GTGAACTGAC CCGCGATTTC ACCATCGCGG CGGTGCTGAC GGTGCCTGTC TTCATCCTGG AGATGGGCTC ACACGTCATT CCGGGCATGC ATGACCTGAT CGCTTCAACC ATCGGCATGC AGACGAACTG GTATATCCAG TTCGTGTTGA CGACCATCGT CCTGTTCGTT CCGGGTATCC GCTTTTACGA CAAGGGGCTG CCCGCCCTGT GGCGGCTCGC CCCCGACATG AACTCGCTGG TCGCGGTCGG CACGCTCGCC GCCTATGGCT ATTCGCTGGT CGCGACCTTC GCGCCCGGTT TCCTGCCTGC CGGAACGGTG AACGTCTATT TCGAGGCTGC CGCCGTCATC GTGACGCTGA TCCTGCTCGG CCGTTTGCTG GAGGCTCGTG CCAAGGGACG CACCTCCGAG GCGATCAAGC GTCTCGTCGG CCTTCAGGCC AAGATGGCGC GCGTGCGCAG GGACGGCAAG ACGATCGAAC TGCCGATCGA CGCCGTGCTG TCGGGAGACA TCGTCGAGGT TCGTCCCGGC GATCGCATCC CGGTGGATGG CGAGGTCATC GAAGGCCAGA GCTATGTCGA CGAATCGATG ATCACGGGCG AACCGATCCC GGTGTCCAAA ACGAATGGCA GCGAGGTCGT GGCCGGAACG GTGAACCAGA AGGGCGCCTT TGCCATCCGT GCGACGGCGG TCGGCGGCAA CACGGTGCTG TCGCAGATCA TCCGCATGGT CGAGGAAGCG CAAGGCTCAA AGCTACCGAT CCAGGCGCTG GTCGACAAGG TCACGATGTA TTTTGTGCCG GCGGTGTTTG CGGTAGCGAT CCTCACCTTC GCCGCATGGA TGTGGTTCGG CCCGTCGCCC GCGCTGACCT TCGCTCTGGT CAATGCCGTC GCCGTCCTGA TCATCGCCTG CCCCTGCGCC ATGGGTCTGG CGACGCCGAC CTCGATCATG GTGGGCACGG GCCGCGGTGC GGAACTGGGC GTGCTCTTCC GCAAGGGCGA AGCGTTGCAG CTGCTCAAGG ACGCCAGGGT CGTCGCCGTC GACAAGACGG GCACACTGAC CGAAGGCAAG CCTGCGCTCA CCGATCTGGA ACTGGCCATC GGATTCAACC GGGCAAATGT CCTCGGTTTG GTTGCGGCCG TCGAAGCGAA GTCGGAGCAT CCGATCGCCC GTGCGATCGT GGATGCGGCC GCCGGGGAGG ACATCCCGCT GCCGGCCGTG TCGGACTTCG AGTCGGTGAC GGGTTTCGGC GTCAAGGCCA TGGTCGGCGG CAGCCAAGTC GAAATTGGCG CTGACCGCTA CATGGCAGAC CTCGGCCACG ACGTAGCTGC CTTCGCCAAG ATTGCCGAAC GTCTCGGCAA TGAGGGCAAG TCACCGCTCT ATGCCGCCAT CGACGGCAAG CTCGCGGCGA TTATCGCCGT GGCCGATCCG ATCAAGGAGA CGACGCCCGC AGCGATCAAG GCGCTGCACG ATCTCGGCCT CAAGGTCGCG ATGATCACCG GCGACAATGC CCGCACGGCA AAAGCCATCG CGGCTCGGCT GGGGATCGAC GAGGTGGTGG CGGAAGTGCT GCCGGACGGC AAGGTCGACG CTGTACGCCG CCTCAAAGCC CAGCATGGCA AGGTCGCTTT CGTCGGCGAT GGCATCAACG ACGCTCCGGC GCTGGCCGAA GCGGATGTGG GCCTTGCCAT CGGCACGGGT ACGGACATTG CCATCGAGGC AGCCGACGTG GTGCTGATGT CGGGCAGCCT GCAAGGCGTG CCGAACGCGA TCGCACTGTC CAAGGCGACG ATCGGCAACA TCCGGCAGAA CCTGTTCTGG GCCTTTGCCT ACAACACGGC TCTGATCCCC GTTGCCGCCG GTCTGCTCTA TCCGGCCTAC GGCATCCTGC TGTCGCCGGT CTTTGCCGCC GGCGCGATGG CCCTGTCGAG CGTCTTCGTC CTCGGCAACG CGCTGAGGCT CAAGACCTTC CGCGCGCCCG CGCAGGCGGA AAGCGGCGCA GTCCGGCCCC GTCAGCCTGA ACTTGCGCCT GCGGAATGA
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Protein sequence | MNAPVRATDL SGTISLPIEG MTCASCVGRV ERALKAVPGV ADAVVNLATE KASITTNAAV DPATLVKAVE DVGYEVAASF SAPTAASLEV AIEGMTCASC VGRVEKALKA VPGVTNAVVN LATEKATIQG SADAADLVAA IEGAGYDARV IATAAGTSQG ETDDRTEKKE AERRELTRDF TIAAVLTVPV FILEMGSHVI PGMHDLIAST IGMQTNWYIQ FVLTTIVLFV PGIRFYDKGL PALWRLAPDM NSLVAVGTLA AYGYSLVATF APGFLPAGTV NVYFEAAAVI VTLILLGRLL EARAKGRTSE AIKRLVGLQA KMARVRRDGK TIELPIDAVL SGDIVEVRPG DRIPVDGEVI EGQSYVDESM ITGEPIPVSK TNGSEVVAGT VNQKGAFAIR ATAVGGNTVL SQIIRMVEEA QGSKLPIQAL VDKVTMYFVP AVFAVAILTF AAWMWFGPSP ALTFALVNAV AVLIIACPCA MGLATPTSIM VGTGRGAELG VLFRKGEALQ LLKDARVVAV DKTGTLTEGK PALTDLELAI GFNRANVLGL VAAVEAKSEH PIARAIVDAA AGEDIPLPAV SDFESVTGFG VKAMVGGSQV EIGADRYMAD LGHDVAAFAK IAERLGNEGK SPLYAAIDGK LAAIIAVADP IKETTPAAIK ALHDLGLKVA MITGDNARTA KAIAARLGID EVVAEVLPDG KVDAVRRLKA QHGKVAFVGD GINDAPALAE ADVGLAIGTG TDIAIEAADV VLMSGSLQGV PNAIALSKAT IGNIRQNLFW AFAYNTALIP VAAGLLYPAY GILLSPVFAA GAMALSSVFV LGNALRLKTF RAPAQAESGA VRPRQPELAP AE
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