Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Bcenmc03_2637 |
Symbol | |
ID | 6124300 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Burkholderia cenocepacia MC0-3 |
Kingdom | Bacteria |
Replicon accession | NC_010508 |
Strand | - |
Start bp | 2937336 |
End bp | 2940536 |
Gene Length | 3201 bp |
Protein Length | 1066 aa |
Translation table | 11 |
GC content | 64% |
IMG OID | 641639229 |
Product | hydrophobe/amphiphile efflux-1 (HAE1) family protein |
Protein accession | YP_001765919 |
Protein GI | 170733972 |
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 | 16 |
Plasmid unclonability p-value | 1 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | 23 |
Fosmid unclonability p-value | 1 |
Fosmid Hitchhiker | No |
Fosmid clonability | normal |
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Sequence |
Gene sequence | ATGGCAAAGT TTTTTATCGA TCGCCCGATC TTCGCGTGGG TGATCGCCAT CATCCTGATG CTGGCCGGGG TTGCGGCGAT CTTCACGCTG CCGATCTCGC AGTATCCGAC GATCGCGCCG CCATCGATCC AGATCACCGC GAACTATCCG GGCGCTTCCG CGAAGACGGT GGAAGACACG GTGACGCAGG TGATCGAGCA GCAGATGAGC GGTCTCGACA ACTTCCTGTA CATGTCGTCG ACGAGTGACG ACTCGGGCAA CGCAACGATC ACGCTGACCT TCGCGCCGGG CACCAACGCC GACATCGCGC AGGTTCAGGT GCAGAACAAG CTGTCGCTCG CGACGCCGGT TCTGCCGCAG GTCGTGCAGC AGCTCGGTCT GTCGGTCACG AAGTCGAGCA GCAGCTTCCT GCTGGTGCTC GCCTTCAACT CCGAAGACGG CAGCATGAAC AAGTACGACC TCGCGAACTT CGTGGCGTCG CACGTGAAGG ACCCGATCAG CCGGCTGAAC GGCGTCGGTA CCGTCACGCT GTTCGGCTCG CAGTACGCGA TGCGGATCTG GCTCGACCCG AACCGCCTGA CCAACTACGG CCTCACGCCG GTCGACGTCA GCTCGGCGAT CACCGCGCAG AACGTGCAGA TCGCGGGCGG CCAGATCGGC GGCACGCCGG CCACGCCGGG CACCGTGCTG CAGGCGACGA TCACCGAATC GACGCTGCTG CAGACGCCGG AGCAGTTCGG CAACATCCTG CTGAAGGTCA ACCAGGACGG CTCGCAGGTT CGCCTGAAGG ACGTCGCGCA GATCGGCCTC GGCGGCGAAA ACTACAACTT CGACACGAAG TACAACGGTC AGCCGACCGC GGCACTCGGT ATCCAGCTCG CGACCAACGC GAACGCGCTC GCGACCGCGA AGGCCGTGCG CGCGAAGATC GACGAGCTCG CACCGTTCTT CCCGCACGGC CTCGTCGTGA AGTATCCGTA CGACACGACG CCGTTCGTGA AGCTGTCGAT CGAGGAAGTG GTCAAGACGC TGCTCGAAGG TATCGTGCTC GTGTTCCTCG TGATGTATCT GTTCCTGCAG AACCTGCGGG CGACGATCAT CCCGACGATC GCGGTGCCGG TCGTGCTGCT CGGTACGTTC GCGATCATGT CGATGGTCGG CTTCTCGATC AACACGCTGT CGATGTTCGG CCTCGTGCTC GCGATCGGTC TGCTGGTCGA CGATGCGATC GTGGTGGTCG AGAACGTCGA GCGCGTGATG GCGGAAGAGG GGCTGTCGCC GAAGGAGGCG ACCCGCAAGG CGATGGGCCA GATCACCGGC GCACTCGTCG GCGTGGCGCT CGTGCTGTCG GCGGTGTTCG TGCCGGTGGC GTTCTCCGGC GGCTCGGTCG GTGCGATCTA TCGTCAGTTC TCGCTGACGA TCGTGTCGGC GATGGTGCTG TCGGTGCTGG TCGCGTTGAT TCTGACGCCG GCCCTGTGCG CGACGATCCT CAAGCCGATC CCGCAAGGGC ATCACGAGGA GAAGAAGGGC TTCTTCGGCT GGTTCAACCG CACGTTCAAC AACAGCCGCG ACAAGTACCA CGTCGGCGTG CACCACGTGA TCAAGCGCTC GGGCCGCTGG CTCATCATCT ATCTGGTCGT GATCGTCGCG GTCGGGCTGC TGTTCGTGCG CCTGCCGAAG TCGTTCCTGC CCGATGAAGA CCAGGGCCTG ATGTTCGTGA TCGTGCAGAC GCCGTCGGGC TCGACGCAGG AAACGACCGC GAAGACGCTC GCGAACATTT CCGACTACCT GCTGAAGGAC GAGAAGGAAA TCGTCGAATC GGCGTTCACG GTCAACGGCT TCAGCTTCGC GGGTCGCGGC CAGAACTCGG GTCTCGTGTT CGTCCGCCTG AAGGACTACT CGCAGCGTCA GCATGCGAAC CAGAAGGTGC AGGCGCTGAT CGGCCGGATG TTCGGGCGTT ACGGGAGCTA CAAGGACGCG CTCGTGATCC CGTTCAACCC GCCGTCGATT CCTGAACTCG GTACGGCCGC CGGCTTCGAC TTCGAGCTGA CGGACAACGC CGGTCTCGGC CACGACGCGC TGATGGCGGC ACGTAACCAG CTGCTCGGGA TGGCGTCGAA GGACCCGACG CTGCAGGGTG TCCGTCCGAA CGGCCTGAAC GATACGCCGC AGTACAAGGT CAACATCGAC CGCGAGAAGG CGAATGCGCT CGGTGTGACG GCGGATGCGA TCGACCAGAC GTTCTCGATC GCGTGGGCGT CGAAGTACGT GAACAACTTC CTCGACACCG ACGGCCGGAT CAAGAAGGTG TACGTGCAGG CCGACGCGCC GTTCCGGATG ACGCCGGAAG ACATGAACAT CTGGTACGTG CGCAACGGGT CGGGCGGGAT GGTGCCGTTC AGCGCGTTCT CGACCGGTCA CTGGACGTAC GGTTCGCCGA AGCTCGAGCG CTACAACGGT GTGTCGGCAA TGGAAATCCA GGGTCAGGCC GCACCGGGCA AGTCGACCGG CCAGGCGATG GCCGCGATGG AAACGCTCGC GAAGAAGCTG CCGGTCGGCA TCGGCTATTC GTGGACGGGC CTGTCGTTCC AGGAAATCCA GTCCGGTTCG CAGGCGCCGA TCCTGTACGC GATCTCGATC CTCGTCGTGT TCCTGTGTCT GGCGGCGCTG TATGAAAGCT GGTCGATTCC GTTCTCGGTG ATCATGGTCG TGCCGCTCGG CGTGATCGGT GCGCTGCTCG CGGCCACGAT GCGCGGCCTC GAGAACGACG TGTTCTTCCA GGTCGGCCTG CTGACCACCG TGGGCTTGTC CGCGAAGAAC GCGATTCTGA TCGTCGAGTT CGCGCGCGAA CTGCAGCAGA CGGAGAAGAT GGGGCCGATC GAGGCCGCGC TGGAAGCGGC GCGCCTGCGG CTGCGTCCGA TCCTGATGAC GTCGCTCGCG TTCATTCTCG GCGTGATGCC GCTCGCGATC AGCAATGGCG CGGGTTCGGC CAGCCAGCAC GCGATCGGTA CGGGCGTGAT CGGCGGGATG ATCACGGCGA 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 PISQYPTIAP PSIQITANYP GASAKTVEDT VTQVIEQQMS GLDNFLYMSS TSDDSGNATI TLTFAPGTNA DIAQVQVQNK LSLATPVLPQ VVQQLGLSVT KSSSSFLLVL AFNSEDGSMN KYDLANFVAS HVKDPISRLN GVGTVTLFGS QYAMRIWLDP NRLTNYGLTP VDVSSAITAQ NVQIAGGQIG GTPATPGTVL QATITESTLL QTPEQFGNIL LKVNQDGSQV RLKDVAQIGL GGENYNFDTK YNGQPTAALG IQLATNANAL ATAKAVRAKI DELAPFFPHG LVVKYPYDTT PFVKLSIEEV VKTLLEGIVL VFLVMYLFLQ NLRATIIPTI AVPVVLLGTF AIMSMVGFSI NTLSMFGLVL AIGLLVDDAI VVVENVERVM AEEGLSPKEA TRKAMGQITG ALVGVALVLS AVFVPVAFSG GSVGAIYRQF SLTIVSAMVL SVLVALILTP ALCATILKPI PQGHHEEKKG FFGWFNRTFN NSRDKYHVGV HHVIKRSGRW LIIYLVVIVA VGLLFVRLPK SFLPDEDQGL MFVIVQTPSG STQETTAKTL ANISDYLLKD EKEIVESAFT VNGFSFAGRG QNSGLVFVRL KDYSQRQHAN QKVQALIGRM FGRYGSYKDA LVIPFNPPSI PELGTAAGFD FELTDNAGLG HDALMAARNQ LLGMASKDPT LQGVRPNGLN DTPQYKVNID REKANALGVT ADAIDQTFSI AWASKYVNNF LDTDGRIKKV YVQADAPFRM TPEDMNIWYV RNGSGGMVPF SAFSTGHWTY GSPKLERYNG VSAMEIQGQA APGKSTGQAM AAMETLAKKL PVGIGYSWTG LSFQEIQSGS QAPILYAISI LVVFLCLAAL YESWSIPFSV IMVVPLGVIG ALLAATMRGL ENDVFFQVGL LTTVGLSAKN AILIVEFARE LQQTEKMGPI EAALEAARLR LRPILMTSLA FILGVMPLAI SNGAGSASQH AIGTGVIGGM ITATFLAIFM IPMFFVKIRA IFSGEKEDVD EALRLAQEHS HHEEKPGNGD EGNKGQ
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