Microbial Heavy Metal Resistance Transposons and Plasmids: Potential Use for Environmental Biotechnology (特集総説:重金属環境汚染バイオ浄化の新展開)
スポンサーリンク
概要
著者
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Huang Chieh-chen
Department Of Life Sciences National Chung Hsing University
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Narita Masaru
Faculty Of Engineering Tohoku Gakuin University:tohoku Afforestation And Environmental Protection Lt
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Huang C‐c
Department Of Life Sciences National Chung Hsing University
関連論文
- Organomercurials removal by heterogeneous merB genes harboring bacterial strains(ENVIRONMENTAL BIOTECHNOLOGY)
- Splicing of a Bacterial Group II Intron from Bacillus megaterium Is Independent of Intron-Encoded Protein
- Microbial Heavy Metal Resistance Transposons and Plasmids: Potential Use for Environmental Biotechnology (特集総説:重金属環境汚染バイオ浄化の新展開)
- Molecular Analysis of merA Gene Possessed by Anaerobic Mercury-Resistant Bacteria Isolated from Sediment of Minamata Bay
- Efficacy and safety of topical tacrolimus for the treatment of face and neck vitiligo
- Interactions between Two MerR Regulators and Three Operator/Promoter Regions in the Mercury Resistance Module of Bacillus megaterium
- Overexpression of a Single Membrane Component from the Bacillus mer Operon Enhanced Mercury Resistance in an Escherichia coli Host
- EN-P43 A novel endophytic bacterium, Achromobacter xylosoxidans, helps plants against pollutant stress and improves phytoremediation(Section VI Environmental Biotechnology)
- Control of ionic selectivity by a pore helix residue in the Kv1.2 channel
- Interactions between Two MerR Regulators and Three Operator/Promoter Regions in the Mercury Resistance Module of Bacillus megaterium
- Overexpression of a Single Membrane Component from the Bacillus mer Operon Enhanced Mercury Resistance in an Escherichia coli Host