Biocatalysis at extreme temperatures : enzyme systems near and above 100℃
著者
書誌事項
Biocatalysis at extreme temperatures : enzyme systems near and above 100℃
(ACS symposium series, 498)
American Chemical Society, 1992
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注記
"Developed from a symposium sponsored by the Division of Biochemical Technology at the 201st National Meeting of the American Chemical Society, Atlanta, Georgia, April 14-19, 1991."
Includes bibliographical references and indexes
内容説明・目次
内容説明
Provides a comprehensive review of catalysis by enzymes at extreme temperatures. Covers what is known about organisms that can grow near 100 DegreesC and the specific properties of the limited number of enzymes and proteins that have been purified from them. Also discusses techniques and methods for investigating how proteins and nucleic acids are stabilized at extreme temperatures and explores the potential application of these enzymes. Includes contributions from
leading research scientists in biochemistry, chemical engineering, microbiology, biology, and molecular biology.
目次
- Biocatalysis Near and Above 100 C: An Overview
- Metabolic Enzymes from Sulfur-Dependent, Extremely Thermophilic Organisms
- Characterization of Enzymes from High-Temperature Bacteria
- Thermally Stable Urease from Thermophilic Bacteria
- Respiratory Electron-Transport Components in Hyperthermophilic Bacteria
- Key Enzymes in the Primary Nitrogen Metabolism of a Hyperthermophile
- Biocatalysis in Organic Media
- Pressure Dependence of Enzyme Catalysis
- Thermodynamic Strategies for Protein Design: Increased Temperature Stability
- Stability of High-Temperature Enzymes: Development and Testing of a New Predictive Model
- Computational Approaches to Modeling and Analyzing Thermostability in Proteins
- DNA-Binding Proteins and Genome Topology in Thermophilic Prokaryotes
- Applications of Thermostable DNA Polymerases in Molecular Biology
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