Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Bmul_0689 |
Symbol | |
ID | 5765986 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Burkholderia multivorans ATCC 17616 |
Kingdom | Bacteria |
Replicon accession | NC_010084 |
Strand | + |
Start bp | 753805 |
End bp | 757005 |
Gene Length | 3201 bp |
Protein Length | 1066 aa |
Translation table | 11 |
GC content | 64% |
IMG OID | 641313104 |
Product | hydrophobe/amphiphile efflux-1 (HAE1) family protein |
Protein accession | YP_001578881 |
Protein GI | 161523869 |
COG category | [V] Defense mechanisms |
COG ID | [COG0841] Cation/multidrug efflux pump |
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 | 8 |
Plasmid unclonability p-value | 0.181022 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | 22 |
Fosmid unclonability p-value | 0.681508 |
Fosmid Hitchhiker | No |
Fosmid clonability | normal |
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Sequence |
Gene sequence | ATGGCAAAGT TTTTTATCGA TCGCCCGATC TTCGCGTGGG TGATCGCCAT CATCCTGATG CTGGCCGGGG TTGCGGCGAT CTTCACGTTG CCGATCGCGC AGTACCCGAC GATCGCGCCG CCGTCGATCC AGATCAGCGC GAACTATCCG GGTGCGTCCG CGAAGACGGT GGAAGACACG GTGACGCAGG TGATCGAGCA GCAGATGAGC GGGCTCGACA ACTTCCTGTA CATGTCGTCG ACCAGTGACG ACTCGGGCAC CGCGACGATC ACGCTGACCT TCGCGCCGGG CACCAACCCG GACATCGCGC AGGTCCAGGT GCAGAACAAG CTGTCGCTCG CGACGCCGAT TCTGCCGCAG GTGGTTCAGC AGCTCGGTCT GAAGGTGACG AAGTCGAGCA GCAGCTTCCT GCTCGTGCTG GCGTTCAACT CCGAAGACGG CAGCATGAAC CGCTACGACC TCGCGAACTA CGTCGCGTCG CACGTGCAGG ATCCGATCAG CCGTCTGAAC GGCGTCGGTA CCGTCACGCT GTTCGGCTCG CAGTACGCGA TGCGCGTGTG GCTCGACCCG GTCAAGCTGA CGAACTACGG GCTCACGCCG ATCGACGTGA CGAACGCGAT CAGCGCGCAG AACGTGCAGG TCGCCGGCGG TCAGATCGGC GGCACGCCCG CGAAGCCCGG CACGCTGCTG CAGGCGACGA TCACCGAGGC GACGCTGCTG CGCACGCCGG CCGAGTTCGG CAACATCCTG CTGAAGGTGA ACCAGGACGG CTCGCAGGTG CGTCTGAAGG ACGTCGCGCA GATCGGCCTC GGCGCCGAAA ACTACAACTT CGACACGAAG TACAACGGCC AGCCGTCCGC GGCGCTCGGC ATCCAGCTCG CCACGAACGC GAACGCGCTC GCGACCGCGA AGGCCGTGCG TGCGAAGGTC GACGAGCTGT CGAAGTACTT CCCGCACGGG CTCGTCGTCA AGTATCCGTA CGACACGACG CCGTTCGTGA AGCTGTCGAT CGAGGAAGTG GTCAAGACGC TGCTCGAAGG TATCGTGCTC GTGTTCCTCG TGATGTATCT GTTCCTGCAG AACCTGCGGG CGACGATCAT CCCGACGATC GCGGTGCCGG TCGTGCTGCT CGGTACGTTC GCGATCATGT CGCTCGTCGG CTTCTCGATC AACACGCTGT CGATGTTCGG CCTCGTGCTC GCGATCGGTC TGCTCGTCGA CGATGCGATC GTCGTGGTCG AGAACGTCGA GCGCGTGATG GCGGAAGAGG GGCTCGGACC GAAGGAGGCG ACACGCAAGG CGATGGGCCA GATCACCGGC GCACTCGTCG GCGTCGCGCT CGTGCTGTCC GCCGTGTTCG TGCCGGTCGC GTTCTCCGGC GGTTCGGTCG GCGCGATCTA CCGGCAGTTC TCGCTGACGA TCGTGTCCGC GATGGTGCTG TCCGTGCTCG TCGCGTTGAT TCTGACGCCG GCGCTGTGCG CGACGATCCT CAAGCCGATT CCGCAAGGCC ATCACGAAGA GAAGAAGGGC TTCTTCGGCT GGTTCAACCG CACCTTCAAC GCGAGCCGCG ACAAGTACCA CGTCGGCGTG CACCACGTGA TCAAGCGTTC GGGCCGCTGG CTGATCATCT ATCTGGTCGT GATCGTCGCG GTCGGCCTGC TGTTCGTGCG GCTGCCGAAG TCGTTCCTGC CCGATGAAGA CCAGGGCCTG ATGTTCGTGA TCGTGCAGAC GCCGTCCGGC TCGACGCAGG AAACCACGGC GAAGACGCTC GCGAACATCA CCGACTATCT GCTGAAGGAC GAGAAGGACA TCGTCGAATC GGCGTTCACG GTGAACGGCT TCAGCTTCGC GGGCCGCGGC CAGAACTCCG GTCTCGTGTT CGTGCGCCTG AAGGACTACG CGCAGCGTCA GCACGCGGAC CAGAAGGTGC AGGCGCTGAT CGGCCGGATG TTCGGCCGCT ACTCGGGCTA CAAGGACGCG ATCGTCATTC CGTTCAACCC GCCGTCGATT CCGGAACTCG GCACGGCCGC CGGCTTCGAC TTCGAGCTGA CGGACAACGC CGGTCTCGGC CACGACGCGC TGATGGCCGC ACGCAACCAG CTGCTCGGCA TGGCCGCGAA GGATCCGACG CTGCAGGGCG TGCGTCCGAA CGGCCTGAAC GATACGCCGC AGTACAAGGT CGACATCGAT CGCGAGAAGG CGAACGCGCT CGGCGTGACG GCGGACGCGA TCGACCAGAC CTTCTCGATC GCGTGGGCGT CGAAGTACGT GAACAACTTC CTCGACACCG ACGGCCGGAT CAAGAAGGTG TACGTGCAGT CCGACGCGCC GTTCCGGATG ACGCCGGAAG ACCTGAACAT CTGGTACGTG CGCAACGGCT CGGGCGGGAT GGTGCCGTTC GGCGCGTTCG CGACCGGCCA CTGGACGTAC GGTTCGCCGA AGCTCGAGCG TTACAACGGT ATCTCGGCGA TGGAAATCCA GGGTCAGGCC GCACCGGGCA AGTCGACCGG TCAGGCGATG GCCGCGATGG AAGCGCTCGC GACGAAGCTG CCGACCGGCA TCGGCTACTC GTGGACGGGT CTGTCGTTCC AGGAAATCCA GTCGGGCTCG CAGGCGCCGA TCCTGTACGC GATCTCGATC CTCGTCGTGT TCCTGTGTCT GGCGGCGCTG TATGAGAGCT GGTCGATTCC GTTCTCGGTG ATCATGGTCG TGCCGCTCGG CGTGATCGGC GCGCTGCTCG CCGCGACGCT GCGCGGTCTG GAAAACGACG TGTTCTTCCA GGTGGGTCTG CTGACGACGG TCGGTCTGTC CGCGAAGAAC GCGATTCTGA TCGTCGAGTT CGCGCGCGAA CTGCAGATGA CGGAGAAGAT GGGGCCGATC GAGGCCGCGC TCGAAGCGGC GCGTCTGCGG CTGCGTCCGA TCCTGATGAC GTCGCTCGCG TTCATTCTCG GCGTGCTGCC GCTCGCGATC AGCAACGGCG CCGGTTCGGC GAGCCAGCAC GCGATCGGTA CGGGCGTGAT CGGCGGGATG ATCACCGCGA CGTTCCTCGC GATCTTCATG ATCCCGATGT TCTTCGTGAA GATCCGTGCG ATCTTCAGCG GCGAGAAGGA AGACGTCGAC GAGGCGCTGC GCCTGGCTCA GGAGCACTCG CACCACGAAG AGAAGCCGGG CAACGGCGAC GAAGGCAACA AGGGACAGTG A
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Protein sequence | MAKFFIDRPI FAWVIAIILM LAGVAAIFTL PIAQYPTIAP PSIQISANYP GASAKTVEDT VTQVIEQQMS GLDNFLYMSS TSDDSGTATI TLTFAPGTNP DIAQVQVQNK LSLATPILPQ VVQQLGLKVT KSSSSFLLVL AFNSEDGSMN RYDLANYVAS HVQDPISRLN GVGTVTLFGS QYAMRVWLDP VKLTNYGLTP IDVTNAISAQ NVQVAGGQIG GTPAKPGTLL QATITEATLL RTPAEFGNIL LKVNQDGSQV RLKDVAQIGL GAENYNFDTK YNGQPSAALG IQLATNANAL ATAKAVRAKV DELSKYFPHG LVVKYPYDTT PFVKLSIEEV VKTLLEGIVL VFLVMYLFLQ NLRATIIPTI AVPVVLLGTF AIMSLVGFSI NTLSMFGLVL AIGLLVDDAI VVVENVERVM AEEGLGPKEA TRKAMGQITG ALVGVALVLS AVFVPVAFSG GSVGAIYRQF SLTIVSAMVL SVLVALILTP ALCATILKPI PQGHHEEKKG FFGWFNRTFN ASRDKYHVGV HHVIKRSGRW LIIYLVVIVA VGLLFVRLPK SFLPDEDQGL MFVIVQTPSG STQETTAKTL ANITDYLLKD EKDIVESAFT VNGFSFAGRG QNSGLVFVRL KDYAQRQHAD QKVQALIGRM FGRYSGYKDA IVIPFNPPSI PELGTAAGFD FELTDNAGLG HDALMAARNQ LLGMAAKDPT LQGVRPNGLN DTPQYKVDID REKANALGVT ADAIDQTFSI AWASKYVNNF LDTDGRIKKV YVQSDAPFRM TPEDLNIWYV RNGSGGMVPF GAFATGHWTY GSPKLERYNG ISAMEIQGQA APGKSTGQAM AAMEALATKL PTGIGYSWTG LSFQEIQSGS QAPILYAISI LVVFLCLAAL YESWSIPFSV IMVVPLGVIG ALLAATLRGL ENDVFFQVGL LTTVGLSAKN AILIVEFARE LQMTEKMGPI EAALEAARLR LRPILMTSLA FILGVLPLAI SNGAGSASQH AIGTGVIGGM ITATFLAIFM IPMFFVKIRA IFSGEKEDVD EALRLAQEHS HHEEKPGNGD EGNKGQ
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