| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | BTH_I0681 |
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| Symbol | |
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| ID | 3849256 |
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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 | Burkholderia thailandensis E264 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_007651 |
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| Strand | + |
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| Start bp | 781042 |
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| End bp | 784242 |
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| Gene Length | 3201 bp |
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| Protein Length | 1066 aa |
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| Translation table | 11 |
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| GC content | 65% |
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| IMG OID | 637840354 |
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| Product | hydrophobe/amphiphile efflux family protein |
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| Protein accession | YP_441237 |
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| Protein GI | 83721001 |
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| COG category | [V] Defense mechanisms |
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| COG ID | [COG0841] Cation/multidrug efflux pump |
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| TIGRFAM ID | [TIGR00915] The (Largely Gram-negative Bacterial) Hydrophobe/Amphiphile Efflux-1 (HAE1) Family
[TIGR01131] ATP synthase subunit 6 (eukaryotes),also subunit A (prokaryotes) |
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Plasmid Coverage information |
| Num covering plasmid clones | 11 |
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| Plasmid unclonability p-value | 0.321186 |
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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 | ATGGCAAAGT TTTTTATCGA TCGCCCGATC TTCGCGTGGG TGATCGCCAT CATCCTGATG
CTGGCCGGCG TCGCGGCGAT CTTCACGCTG CCGATCGCCC AGTATCCGAC GATCGCGCCG
CCGTCGATCC AGATCACCGC GAACTATCCG GGCGCTTCGG CGAAAACCGT CGAAGACACG
GTCACGCAGG TGATCGAGCA GCAGATGAGC GGTCTCGACA ACTTCCTGTA CATGTCGTCG
ACGAGTGACG ACTCGGGCAA CGCGACGATC ACGATCACGT TCGCGCCTGG CACGAATCCC
GACATCGCGC AGGTCCAGGT GCAGAACAAG CTGTCGCTCG CGACGCCGAT CTTGCCGCAG
GTGGTGCAGC AGCTCGGCTT GTCGGTGACG AAGTCGAGCA GCAGCTTCCT GCTCGTGCTC
GCCTTCAACT CCGAAGACGG CAGCATGAAC AAGTACGACC TGGCGAACTA CGTCGCGTCG
CACGTGAAGG ACCCGATCAG CCGGATCAAC GGCGTCGGCA CCGTCACGCT GTTCGGCTCG
CAGTACGCGA TGCGGATCTG GCTCGATCCG ACGAAGCTCA CGAACTACGG GCTCACGCCG
GTCGACGTGA CGAGCGCGAT CTCCGCGCAG AACGTGCAGA TCGCGGGCGG CCAACTGGGC
GGCACGCCGG CCGTGCCGGG CACCGTGCTG CAGGCGACGA TCACCGAGGC GACGCTGCTG
CAGACGCCCG AGCAGTTCGG CGACATCCTG CTGAAGGTGA ACCAGGACGG CTCGCGGGTG
CGGCTGAAGG ACGTCGCGCA GATCGGCCTG GGCGGCGAGA CGTACAACTT CGACACGAAG
TACAACGGCC AGCCGACCGC GGCGCTCGGC ATCCAGCTCG CGACCAACGC GAACGCGCTC
GCGACCGCGA AGGCGGTGCG CGCGAAGATC GACGAAATGT CGGCGTATTT CCCGCACGGC
CTCGTCGTCA AGTACCCGTA CGACACGACG CCGTTCGTGC GCCTGTCGAT CGAGGAGGTG
GTGAAGACGC TGCTCGAGGG CATCGTTCTC GTGTTCCTCG TGATGTATCT GTTCCTGCAG
AACCTGCGGG CGACGATCAT CCCGACGATC GCGGTGCCCG TCGTGCTGCT CGGCACGTTC
GCGATCATGT CGATGGTCGG CTTCTCGATC AACGTGCTGT CGATGTTCGG TCTCGTGCTT
GCGATCGGCC TGCTCGTCGA CGACGCGATC GTCGTCGTCG AGAACGTCGA GCGGGTGATG
GCGGAGGAGG GTTTGTCTCC GAAGGAAGCG ACGCGCAAGG CGATGGGCCA GATCACGGGT
GCGCTCGTCG GCGTCGCGCT GGTGCTGTCG GCGGTGTTCG TGCCGGTTGC GTTCTCCGGC
GGTTCGGTCG GCGCGATCTA TCGTCAGTTC TCGCTGACGA TCGTCTCGGC GATGGTGCTC
TCCGTGCTGG TCGCGTTGAT TCTGACGCCG GCGTTGTGCG CGACGATCCT CAAGCCGATC
CCGCAAGGGC ATCACGAGGA GAAGAAGGGC TTCTTCGGCT GGTTCAACCG GACCTTCAAC
GCGAGCCGCG ACAAGTATCA CGTCGGCGTG CACCACGTGA TCAAGCGCTC GGGCCGCTGG
CTCATCATCT ATCTCGCGGT GATCGTCGCG GTCGGCCTGC TGTTCGTGCG CCTGCCGAAG
TCGTTCCTGC CGGACGAAGA CCAGGGCCTG ATGTTCGTGA TCGTCCAGAC GCCGTCGGGC
TCGACGCAAG AGACGACCGC GCGCACGCTC GCGAACATCT CCGACTACCT GCTCACGCAG
GAAAAGGACA TCGTCGAATC CGCGTTCACG GTGAACGGCT TCAGCTTCGC GGGCCGCGGC
CAGAACTCGG GCCTCGTGTT CGTCAAGCTG AAGGATTACT CGCAGCGGCA GAGCTCGAGC
CAGAAGGTGC AGGCGCTGAT CGGCCGGATG TTCGGACGCT ACGCGGGCTA CAAGGACGCG
CTCGTGATTC CGTTCAACCC GCCGTCGATT CCCGAGCTTG GCACGGCGGC CGGCTTCGAC
TTCGAGCTGA CCGACAACGC GGGTCTCGGC CACGACGCGC TGATGGCCGC GCGCAACCAG
TTGCTGGGGA TGGCCGCGAA GGACCCGACG CTGCGAGGCG TGCGTCCGAA CGGGCTGAAC
GACACGCCTC AGTACAAGGT CGACATCGAC CGCGAGAAGG CGAACGCGCT CGGCGTGACC
GCGGATGCGA TCGACCAGAC GTTTTCGATC GCGTGGGCGT CGAAGTACGT GAACAACTTC
CTCGATACCG ACGGCCGGAT CAAGAAGGTG TACGTGCAGT CCGACGCGCC GTTCCGGATG
ACGCCGGAGG ACATGAACAT CTGGTACGTG CGCAACGGCT CGGGCGGGAT GGTGCCGTTC
TCGGCGTTCG CGACCGGCCA CTGGACGTAC GGCTCGCCGA AGCTCGAGCG CTACAACGGC
ATCTCGGCGA TGGAAATCCA GGGCCAGGCC GCGCCGGGCA AGTCGACCGG CCAGGCGATG
ACGGCGATGG AGACGCTCGC GAAGAAGCTG CCGACGGGCA TCGGCTATTC GTGGACGGGG
CTGTCGTTCC AGGAAATCCA GTCGGGCTCG CAGGCGCCGA TCCTGTACGC GATCTCGATC
CTCGTCGTGT TCCTGTGTCT CGCCGCGCTG TATGAAAGCT GGTCGATCCC ATTCTCGGTG
ATCATGGTCG TGCCGCTCGG CGTGATCGGC GCGCTGCTCG CCGCGACGCT GCGCGGGCTC
GAGAACGACG TGTTCTTCCA GGTCGGTCTG TTGACGACGG TCGGCCTATC GGCGAAGAAC
GCGATTCTGA TCGTCGAGTT CGCGCGCGAG CTGCAGCAGA CGGAGAAGAT GGGGCCGATC
GAGGCGGCGC TCGAGGCGGC GCGGCTGCGG TTGCGTCCGA TTCTGATGAC GTCGCTCGCG
TTCATCCTCG GCGTGCTGCC GCTCGCGATC AGCAACGGCG CGGGCTCGGC GAGCCAGCAC
GCGATCGGCA CCGGAGTGAT CGGCGGGATG ATCACCGCGA CGTTCCTCGC GATCTTCATG
ATCCCGATGT TCTTCGTGAA GGTGCGGGCT GTGTTCAGCG GCGAGAAGGA AGACGCCGAC
GAGGCGCTGC GCCTCGCGCA CGAGCACATG CACCGTGACG ACAAGCCGGA GCACGGCGAC
GACGCTGGCA AGAAGGATTA A
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| Protein sequence | MAKFFIDRPI FAWVIAIILM LAGVAAIFTL PIAQYPTIAP PSIQITANYP GASAKTVEDT
VTQVIEQQMS GLDNFLYMSS TSDDSGNATI TITFAPGTNP DIAQVQVQNK LSLATPILPQ
VVQQLGLSVT KSSSSFLLVL AFNSEDGSMN KYDLANYVAS HVKDPISRIN GVGTVTLFGS
QYAMRIWLDP TKLTNYGLTP VDVTSAISAQ NVQIAGGQLG GTPAVPGTVL QATITEATLL
QTPEQFGDIL LKVNQDGSRV RLKDVAQIGL GGETYNFDTK YNGQPTAALG IQLATNANAL
ATAKAVRAKI DEMSAYFPHG LVVKYPYDTT PFVRLSIEEV VKTLLEGIVL VFLVMYLFLQ
NLRATIIPTI AVPVVLLGTF AIMSMVGFSI NVLSMFGLVL AIGLLVDDAI VVVENVERVM
AEEGLSPKEA TRKAMGQITG ALVGVALVLS AVFVPVAFSG GSVGAIYRQF SLTIVSAMVL
SVLVALILTP ALCATILKPI PQGHHEEKKG FFGWFNRTFN ASRDKYHVGV HHVIKRSGRW
LIIYLAVIVA VGLLFVRLPK SFLPDEDQGL MFVIVQTPSG STQETTARTL ANISDYLLTQ
EKDIVESAFT VNGFSFAGRG QNSGLVFVKL KDYSQRQSSS QKVQALIGRM FGRYAGYKDA
LVIPFNPPSI PELGTAAGFD FELTDNAGLG HDALMAARNQ LLGMAAKDPT LRGVRPNGLN
DTPQYKVDID REKANALGVT ADAIDQTFSI AWASKYVNNF LDTDGRIKKV YVQSDAPFRM
TPEDMNIWYV RNGSGGMVPF SAFATGHWTY GSPKLERYNG ISAMEIQGQA APGKSTGQAM
TAMETLAKKL PTGIGYSWTG LSFQEIQSGS QAPILYAISI LVVFLCLAAL YESWSIPFSV
IMVVPLGVIG ALLAATLRGL ENDVFFQVGL LTTVGLSAKN AILIVEFARE LQQTEKMGPI
EAALEAARLR LRPILMTSLA FILGVLPLAI SNGAGSASQH AIGTGVIGGM ITATFLAIFM
IPMFFVKVRA VFSGEKEDAD EALRLAHEHM HRDDKPEHGD DAGKKD
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