Genetic Engineering of Bacteria for Environmental Remediation of Mercury
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概要
- 論文の詳細を見る
To prevent environmental mercury poisoning incidents, an effective technology for treating mercury-polluted environments is urgent. Recently, with advances in biotechnology, bioremediation utilizing microorganisms to remove mercurials from contaminated sites has become one of the most rapidly developing fields of environmental restoration. A number of bioremediation strategies, including biotransformation, biosorption, and bioprecipitation of mercurials, have been developed to treat mercurial-polluted environments and mercury-containing waste. To construct bacteria that are capable of specifically accumulating mercury, we have genetically engineered Escherichia coli to express a mercury transport system and organomercurial lyase enzyme simultaneously, and overexpress polyphosphate, a strong chelator of essential divalent metals. The mercury accumulation system was designed so that overexpressed polyphosphate would serve as a mercury accumulator; the mercury transport system would make the bacterial cell specifically accumulate mercury; and the intracellular accumulation process would allow the bioaccumulation system to be less sensitive to ambient conditions. The applicability of the new engineered bacteria in the environmental remediation of mercurials is evaluated and discussed in this review.
- 公益社団法人日本薬学会の論文
- 2006-06-01
著者
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KIYONO Masako
Faculty of Pharmaceutical Sciences, Setsunan University
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PAN-HOU Hidemitsu
Faculty of Pharmaceutical Sciences, Setsunan University
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Kiyono Masako
Faculty Of Pharmaceutical Sciences Setsunan University
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Kiyono Masako
Faculty Of Pharmaceutical Sciences Setsunan University:(present Office)department Of Public Health S
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Pan-hou Hidemitsu
Facul.of Pharm.sci. Setsunan Univ.
関連論文
- DNA Sequence and Expression of a Defective mer Operon from Pseudomonas K-62 Plasmid pMR26
- Development of a luminescence-based biosensor for detection of methylmercury
- Enhancement of Cellular Adenosine Triphosphate Levels in PC12 Cells by 2,5-Dideoxyadenosine, a P-Site Inhibitor of Adenylate Cyclase(Pharmacology)
- P8-50 Effect of Ion Lactate Overloading on Adenine Nucleotide Levels and Adenosine 3'-Monophosphate(3'-AMP) Forming Enzyme in Rat Liver and Spleen(BLOOD/TOXICOKINETICS/OTHERS-2)(GENERAL SESSION BY POSTER PRESENTATION)(Proceedings of the 31st Annual Meetin
- Effect of Iron Lactate Overloading on Adenine Nucleotide Levels and Adenosine 3'-Monophosphate Forming Enzyme in Rat Liver and Spleen(Pharmacology)
- Enhancement of Cellular Adenosine Triphosphate Levels in PC12 Cells by Extracellular Adenosine
- A Specific and Rapid Method for Determination of Adenosine 3'-Monopohosphate (3'-AMP) Content and 3'-AMP Forming Enzyme Activity in Rat Liver Mitochondria, Using Reversed-Phase HPLC with Fluorescence Detection
- NO DEPLETES CELLULAR ATP CONTENTS VIA INACTIVATION OF GLYCERALDEHYDE-3-PHOSPHATE DEHYDROGENASE IN PC12 CELLS
- CORRELATION BETWEEN NO-INDUCED ATP DEPLETION AND CYTOTOXICITY IN PC12 CELLS
- PHENYLMERCURY TRANSPORT MEDIATED BY merT-merP GENES OF PSEUDOMONAS K-62 PLASMID pMR26
- Formation of Adenosine 3'-Monophosphate in Rat Liver Mitochondria
- Stimulation of Elemental Mercury Oxidation in Aquatic Environments
- Modification of 3'-AMP Forming Enzyme Activity by a Potent lmmunosuppressant, ISP-I/Myriocin, in Liver of Mice Treated with Carbon Tetrachloride
- Roles Played by MerE and MerT in the Transport of Inorganic and Organic Mercury Compounds in Gram-negative Bacteria
- Effect of Carbon Tetrachloride on 3'-AMP- Forming Enzyme Activity in Rat Liver
- Engineering expression of polyphosphate confers cadmium resistance in tobacco
- Accumulation of Mercury in Transgenic Tobacco Expressing Bacterial Polyphosphate(Analytical Biochemistry)
- Involvement of Aromatic Amino Acids in Phenylmercury Transport by MerT Protein
- Hepatic changes in adenine nucleotide levels and adenosine 3'-monophosphate forming enzyme in streptozotocin-induced diabetic mice
- Genetic Engineering of Bacteria for Environmental Remediation of Mercury
- Development of a Specific and Sensitive Bacteria Sensor for Detection of Mercury at Picomolar Levels in Environment
- Evaluation of ppk-Specified Polyphosphate as a Mercury Remedial Tool
- Involvement of merB in the Expression of the pMR26 mer Operon Induced by Organomercurials
- Role of MerT and MerP from Pseudomonas K-62 Plasmid pMR26 in the Transport of Phenylmercury
- Genetic Engineering of Transgenic Tobacco for Enhanced Uptake and Bioaccumulation of Mercury
- DNA Sequence Analysis of the Organomercurial-Resistance Determinants from Pseudomonas K-62 Plasmid pMR26 (Proceedings of the 21st Symposium on Toxicology and Environmental Health)
- Involvement of Two Plasmids in Mercurial Resistance of Pseudomonas K-62 (Proceedings of the 20th Symposium on Toxicology and Environmental Health)
- Studies on Mercury Transport in Pseudomonas K-62 (Proceedings of the 23rd Symposium on Toxicology and Environmental Health)
- Role of MerC, MerE, MerF, MerT, and/or MerP in resistance to mercurials and the transport of mercurials in Escherichia coli