Molecular Analysis of merA Gene Possessed by Anaerobic Mercury-Resistant Bacteria Isolated from Sediment of Minamata Bay
スポンサーリンク
概要
- 論文の詳細を見る
To understand the molecular basis of the mercury resistance of anaerobic bacteria, twenty-six mercury-resistant bacterial strains were anaerobically isolated from the mercury-polluted sediment of Minamata Bay, Japan. On the basis of taxonomic characteristics, all of the isolates were classified into the genus Clostridium. PCR primers designed from the core sequence of the merA genes that are involved in the inorganic mercury reduction by the aerobic mercury-resistant bacteria were used for the molecular analysis. Southern hybricization analysis confirmed that the PCR products amplified from the chromosomal DNA of the twenty-six Clostridium isolates were highly homologous to the merA gene of an aerobic mercury-resistant Gram-positive bacterium, Bacillus sp. RC607. Furthermore, the DNA sequence of the PCR product amplified from one of the isolates is 99.7% identical to the corresponding region of the merA gene of Bacillus sp. RC607. These results suggest that the same mercury resistance system developed by aerobic mercury-resistant bacteria is acquired by the anaerobic mercury-resistant bacteria.
- 日本微生物生態学会の論文
- 1999-06-30
著者
-
Huang Chieh-chen
Department Of Life Sciences National Chung Hsing University
-
NARITA MASARU
Department of Civil Engineering, Faculty of Engineering, Tohoku Gakuin University
-
HUANG CHIEH-CHEN
Japan Science and Technology Corporation
-
KOIZUMI TAKUYA
Department of Civil Engineering, Faculty of Engineering, Tohoku Gakuin University
-
ENDO GINRO
Department of Civil Engineering, Faculty of Engineering, Tohoku Gakuin University
-
Narita Masaru
Faculty Of Engineering Tohoku Gakuin University:tohoku Afforestation And Environmental Protection Lt
-
Koizumi Takuya
Department Of Civil Engineering Faculty Of Engineering Tohoku Gakuin University
-
Koizumi Takuya
Department Of Applied Mathematics Okayama University Of Science
-
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)
- Intergral closedness in finitely generated ring-extensions of Noetherian domains
- Two Nonlinearly Correlated Random Walk Processes in Multidimensional Signal Space
- 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
- A Generalized N-Dimensional Analysis of the Intensity Fluctuation of Two Correlated Random Signals
- Two Correlated N-Dimensional Random Walk Processes as a Model for the Intensity Fluctuation of Random Signals