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Autorenporträt
Gertz Likhtenshtein has been full Professor at the Ben-Gurion University of Negev (Israel) and emerited 2003. Among his many awards are the Medal of the Exhibition of Economic Achievement, the Diploma of Discovery, the USSR State Price and the Diploma of the Israel Chemical Society. He is a member of the International ESR Society, the American Biophysical Society, the Israel Chemical Society and the Israel ESR Society.
Inhaltsangabe
Preface. 1: Methods of investigation of enzymes structure and action mechanisms. 1.1. Physico-chemical methods in enzyme catalysis. 1.2. Kinetic methods. 2: Mechanisms of enzymatic reactions. 2.1. General principles of enzymatic catalysis. 2.2. Electron transfer (ET). 2.3. Hydrogen transfer. 2.4. Electron-proton coupling. Mechanism of ATPase reactions in energy-conversion systems. 2.5. Concerted reactions. 2.6. Multi-electron mechanisms of redox reactions. Switching molecular devices. 2.7. Stabilization of enzyme reactions transition states. 2.8. Pretransition states. 2.9. Principle of 'optimum motion' and mechanisms of enzymes reactions. 2.10. Radical mechanisms of enzyme catalysis. 2.11. Substrate channeling. 2.12. Relationships between the energy and entropy activation of enzymatic processes. 3: Mechanisms of chosen enzyme systems. 3.1. Nitrogenase. 3.2. Cytochrome P-450. 3.3. Methane monooxigenase. 3.4. Nitric oxide synthase. 3.5. Light energy conversion and water-oxidation systems in photosynthesis. 4: Some properties important for enzyme catalysis. 4.1. Intramolecular dynamics and conformational transitions in enzymes. 4.2. Electrostatic effects in proteins and enzymes. 4.3. Enzymes from extreme thermophylic bacteria. 5: Areas related to enzyme catalysis. 5.1. Antibody catalysis. 5.2. Enzymes in organic solvents. 5.3. Enzymes in synthetic chemistry. 5.4. Enzymes design and redesign. 6: Model chemical systems. 6.1. General principles. 6.2. Reduction of dinitrogen. 6.3. Hydroxylation of organic compounds. 6.4. Light energy conversion. 6.5. Water oxidation. 6.6. Organic reactions. References. Index.
Methods of Investigation of the Structure and Action Mechanisms of Active Sites of Enzymes.- Mechanisms of Enzymatic Reactions.- Mechanisms of Chosen Enzyme Reactions.- Some Protein Properties Important for Enzyme Catalysis.- Areas Related to Enzyme Catalysis.- Model Models of Enzymes.
Preface. 1: Methods of investigation of enzymes structure and action mechanisms. 1.1. Physico-chemical methods in enzyme catalysis. 1.2. Kinetic methods. 2: Mechanisms of enzymatic reactions. 2.1. General principles of enzymatic catalysis. 2.2. Electron transfer (ET). 2.3. Hydrogen transfer. 2.4. Electron-proton coupling. Mechanism of ATPase reactions in energy-conversion systems. 2.5. Concerted reactions. 2.6. Multi-electron mechanisms of redox reactions. Switching molecular devices. 2.7. Stabilization of enzyme reactions transition states. 2.8. Pretransition states. 2.9. Principle of 'optimum motion' and mechanisms of enzymes reactions. 2.10. Radical mechanisms of enzyme catalysis. 2.11. Substrate channeling. 2.12. Relationships between the energy and entropy activation of enzymatic processes. 3: Mechanisms of chosen enzyme systems. 3.1. Nitrogenase. 3.2. Cytochrome P-450. 3.3. Methane monooxigenase. 3.4. Nitric oxide synthase. 3.5. Light energy conversion and water-oxidation systems in photosynthesis. 4: Some properties important for enzyme catalysis. 4.1. Intramolecular dynamics and conformational transitions in enzymes. 4.2. Electrostatic effects in proteins and enzymes. 4.3. Enzymes from extreme thermophylic bacteria. 5: Areas related to enzyme catalysis. 5.1. Antibody catalysis. 5.2. Enzymes in organic solvents. 5.3. Enzymes in synthetic chemistry. 5.4. Enzymes design and redesign. 6: Model chemical systems. 6.1. General principles. 6.2. Reduction of dinitrogen. 6.3. Hydroxylation of organic compounds. 6.4. Light energy conversion. 6.5. Water oxidation. 6.6. Organic reactions. References. Index.
Methods of Investigation of the Structure and Action Mechanisms of Active Sites of Enzymes.- Mechanisms of Enzymatic Reactions.- Mechanisms of Chosen Enzyme Reactions.- Some Protein Properties Important for Enzyme Catalysis.- Areas Related to Enzyme Catalysis.- Model Models of Enzymes.
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