Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | BURPS668_A0405 |
Symbol | |
ID | 4885802 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Burkholderia pseudomallei 668 |
Kingdom | Bacteria |
Replicon accession | NC_009075 |
Strand | - |
Start bp | 368980 |
End bp | 372165 |
Gene Length | 3186 bp |
Protein Length | 1061 aa |
Translation table | 11 |
GC content | 74% |
IMG OID | 640130346 |
Product | cation-transporting ATPase membrane protein |
Protein accession | YP_001061411 |
Protein GI | 126444465 |
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 |
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Plasmid Coverage information |
Num covering plasmid clones | 17 |
Plasmid unclonability p-value | 1 |
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 | ATGACCAAGC TGTTCGCTCC CGCCGCCCCG ATCACGACGA CACTGCTCGT CGAAGGCATG CATTGCGGCG GCTGTACGTC GCGCGTCGAG CAGGCGCTCG CCCAGGTGCC GGGCGTGACC GGCGCGGTGG CGGATCTCGC CGCGGGCACG GCGACCGTCG CCGCGGCATC CGCCATCGAC ACGGCTCGCC TCGTCGCCGC GCTCGACGCG GCCGGCTATC GCGCGACAGT CGCGACGGCG CCCGCCGCGA CCGGAAACGC GGATGCGCGC CACGGCCGCG CGCGAGACGA GGATGACGAT GCCGCCGCCG CGCCGCACAC GGCGGCGGTC ACGCTGACCA TCGGCGGCAT GACCTGCGGC GGCTGCGCGC GGCGCGTCGA GCAGGCGCTC GCGGCCGTGC GCGGCGTGGC GGATGCGAAG GTGGATCTCG CGACGATGAG CGCGAAGGCA AGCGTCGCGC GCGACGTCGA CTCGCAGACG CTCGTCGCGG CCGTCGAGCA AGCCGGGTAT CGAGCGAACG TCGTGCGGGA CGCGCGCGCC GAAGCCGCGC CGAAGCCCGC CGCATGCCCG TTCGAGGACG CGGCCCGTTC GGCCGCGCCG GCCGCCGCGT TCGCGGTCGA CGAATCGAGC GCCGCGTCTC CGGAACGCGT GGCGACGCAG TCGTTCGAAT TCGACATCGC GGGCATGACC TGCGCGTCCT GCGTCGGCCG CGTCGAAAAG GCGCTGGCGC AAGTGCCCGG CGTCGTCCGC GCGACGGTCA ATCTCGCCAC CGAAAAAGCC GCCGTCGATG CCGATGCAGA CGCCCATGTC GACACCGCGC GGCTCATCGA CGCGGTGAAG CGAGCGGGCT ATCGCGCGTC ACCGGTGAGC GATCCGGCAA GCGCTCTCGC ACCGTCGCCG GAAATCGCCG CCGCGCGCAC GGCAATCGAA CTCGACATCG CGGGCATGAC CTGCGCGTCC TGCGTCGGCC GCGTCGAGAA GGCGCTAGCG CAAGTGCCCG GCGTCGCCCG CGCGACGGTC AATCTCGCCA CCGAAAAAGC CACCGTCGAT GCCGATGCAG ACGCCCATGT CGACACCGCG CGGCTCATCG ACGCGGTGAA GCGGGCAGGC TATCGCGCGT CGCCGGCCAT CGCGGCTTGC GCCCCGGCAT CCCGCGCAAC CGCAACCGCG GACGCGGCCG CCGCCCGCCC CGCCTCGCCG AGCGCCGACG ATCGCAAGCT CGCCGAAGCG CGCCGCGAGC GGGCGCTCGT GATCGCGTCC GCGGTGCTGA CCACGCCGCT CGCCCTGCCG ATGTTCGCCG CGCCGTTCGG CGTCGACGCG GCGCTGCCCG CGTGGCTGCA GCTCGCGCTC GCGTCGATCG TGCAGTTCGG CTTCGGCGCG CGCTTCTATC GCGCCGCATG GCACGCGCTG AAGGCTCGCG CCGGCAACAT GGACCTGCTC GTCGCGCTCG GCACGTCGGC CGCGTACGGC CTGAGCATCT GGCTGATGCT GCGCGACCCC GGCCATGCCG CGCACCTGTA CTTCGAGGCG TCCGCCGTGA TCGTCACGCT CGTGCGCTTC GGCAAATGGC TGGAGGCGCG CGCGAAGCGG CAGACCACCG ACGCGATCCG CGCACTCAAC GCACTGCGCC CCGATCGCGC GCGCATCGTC GAGCACGGCG TCGAGCGCGA CGTGCCGCTC GCGCAGGTGC GCGTCGGCAC CGTCGTGCGC GTGCTGCCGG GCGAGCGCGT GCCCGTCGAC GGCCGGATCG AGGCGGGCGT CACGCATGTC GACGAATCGC TGATCACGGG CGAGAGCCTG CCCGTGCCGA AGGAGCCCGG CGAGCGCGTG ACCGCCGGCT CGATCAACGG CGAAGGCGCG CTCACCGTCG CGACGACCGC GATCGGCGCC GAGACGACGC TCGCGCGCAT CATTCGCCTC GTCGAATCCG CGCAGGCCGA AAAAGCGCCG ATCCAGCGCC TTGTCGACCG CGTGAGCGCC GTGTTCGTGC CCGCGATCGT CGCGATCGCG TTCGCCACGT TCGCCGGCTG GCTCGTCGCG GGCGCGGGCG TCGAGACGGC GATCCTCAAC GCGGTCGCGG TGCTCGTGAT CGCGTGCCCG TGCGCGCTCG GCCTCGCGAC GCCTGCCGCG ATCATGGCGG GCACGGGCGT CGCCGCGCGG CACGGCGTAC TGATCAAGGA TGCGCAGGCG CTCGAGCTCG CGCAGCGCGC GCGCATCGTC GCGTTCGACA AAACCGGCAC GCTGACGCAA GGCAGGCCGA CCGTCACCGC ATTCGACGCG ATCGGCATTC CGCGTGGCGA TGCGCTCGCG CTCGCCGCCG CCGTCCAGCG CGCGAGCGCG CATCCGCTCG CGCGCGCGGT CGTCGCCGCG TTCGACGCCG ATGCCGACGC GCGCCGCTCG TCCCTCGCCG CCGCGCACGC CGATACGCCG CGCGCGGTCG CGGGTCGCGG CGTCGAGGCG CGCGTCGACG CTCGCCTGCT CGCGCTCGGC AGCACGCGCT GGCGCGATGA ACTCGGCATC GCCGTGCCCG ACGGCGTCGC GCGCCGCGCG GCGGCGCTCG AAGCGGCGGG CAACACGATA TCGTGGCTGA TGCGCGCCGA CGCGCCGCGC GAGGCGCTCG CACTCGTCGC GTTCGGTGAC ACGGTCAAGC CGAACGCGCG GCGCGCGATC GAGCGGCTCG CCGCGCGCGG CATCAGGAGC GCGCTCGTGA CGGGCGACAA CCGCGGCAGC GCGACGGCCG TCGCCGCGTC GCTCGGCATC GACGAAGTGC ACGCGCAGGT GCTGCCGGAC GACAAGGCGC GCGTCGTCGC GCAATTGAAG GCGACGGCGG GCGACGGCGT GGTCGCGATG GTCGGCGACG GCATCAACGA TGCGCCCGCG CTCGCCGCGG CCGACGTCGG CATCGCGATG GCGACGGGCA CCGACGTCGC GATGCACACC GCCGGCATCA CGCTGATGCG CGGCGATCCG GCGCTCGTCG CGGACGCGGT CGACATCTCG CGCCGCACGT ACCGGAAGAT TCAGCAGAAC CTGTTCTGGG CGTTCGTCTA CAACCTGGTG GGGATTCCGC TCGCGGCGCT CGGCTGGCTG AACCCGATGA TCGCGGGCGC GGCGATGGCG TTCTCCAGCG TGAGCGTCGT GACGAACGCA CTGTTGCTGC GGCGCTGGAA GGGCGACGCG CGCTAA
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Protein sequence | MTKLFAPAAP ITTTLLVEGM HCGGCTSRVE QALAQVPGVT GAVADLAAGT ATVAAASAID TARLVAALDA AGYRATVATA PAATGNADAR HGRARDEDDD AAAAPHTAAV TLTIGGMTCG GCARRVEQAL AAVRGVADAK VDLATMSAKA SVARDVDSQT LVAAVEQAGY RANVVRDARA EAAPKPAACP FEDAARSAAP AAAFAVDESS AASPERVATQ SFEFDIAGMT CASCVGRVEK ALAQVPGVVR ATVNLATEKA AVDADADAHV DTARLIDAVK RAGYRASPVS DPASALAPSP EIAAARTAIE LDIAGMTCAS CVGRVEKALA QVPGVARATV NLATEKATVD ADADAHVDTA RLIDAVKRAG YRASPAIAAC APASRATATA DAAAARPASP SADDRKLAEA RRERALVIAS AVLTTPLALP MFAAPFGVDA ALPAWLQLAL ASIVQFGFGA RFYRAAWHAL KARAGNMDLL VALGTSAAYG LSIWLMLRDP GHAAHLYFEA SAVIVTLVRF GKWLEARAKR QTTDAIRALN ALRPDRARIV EHGVERDVPL AQVRVGTVVR VLPGERVPVD GRIEAGVTHV DESLITGESL PVPKEPGERV TAGSINGEGA LTVATTAIGA ETTLARIIRL VESAQAEKAP IQRLVDRVSA VFVPAIVAIA FATFAGWLVA GAGVETAILN AVAVLVIACP CALGLATPAA IMAGTGVAAR HGVLIKDAQA LELAQRARIV AFDKTGTLTQ GRPTVTAFDA IGIPRGDALA LAAAVQRASA HPLARAVVAA FDADADARRS SLAAAHADTP RAVAGRGVEA RVDARLLALG STRWRDELGI AVPDGVARRA AALEAAGNTI SWLMRADAPR EALALVAFGD TVKPNARRAI ERLAARGIRS ALVTGDNRGS ATAVAASLGI DEVHAQVLPD DKARVVAQLK ATAGDGVVAM VGDGINDAPA LAAADVGIAM ATGTDVAMHT AGITLMRGDP ALVADAVDIS RRTYRKIQQN LFWAFVYNLV GIPLAALGWL NPMIAGAAMA FSSVSVVTNA LLLRRWKGDA R
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