Chapter
Chapter 3: Enzymes: Nonmagnetic Isotope Effects
1. Mass-Dependent Isotope Effect on the Enzymatic Reactions
2. Magnesium and Iron Isotopes in Plants
3. Trophy Chains, Diet and Metabolism
4. Age-Dependent Metabolism
Chapter 4: Enzymes: Magnetic Field Effects
1. Magneto-Biology: Is It a Science?
3. Magnetic Field Effect on the Oscillating Enzymatic Reactions
Chapter 5: Magneto-Reception: Cell Phones
Chapter 6: Magnetic Compass: Orientation and Navigation of Animals
Chapter 7: Biological Clocks
Chapter 8: Nuclear Magnetic Ecology
1. Nonmagnetic Isotope Ecology
2. Mercury Magnetic Isotope Ecology
2.1. Photolysis of Mono-Methyl Mercury and Reduction of Mercury Salts
2.2. Quantitative Measure of Isotope Effects
2.3. Mercury Isotope Effect in the ATP Synthesis
2.4. Mercury Isotope Effects in Natural Bio-Systems
2.5. Mercury Environmental Chemistry
Chapter 9: Magneto-Biological Physics
1. Two Physical Mechanisms in Magneto-Biology
3. Which Magnetic Field Is More Important, Permanent or Oscillating?
Part III. Magnetic Control of Enzymatic ATP Synthesis
Chapter 10: ATP Synthesis by Creatine Kinase: Nuclear Magnetic Fields
1. Isotope Effects on the ATP Synthesis
3. Calcium and Zinc Isotopes
4. Are Isotope Effects Trustworthy?
Chapter 11: ATP Synthesis by Pyruvate and Phosphoglycerate Kinases
Chapter 12: ATP Synthesis in Mitochondria: Nuclear Magnetic Effects
Chapter 13: Magnetic Effects on the ATP Synthesis
Chapter 14: Energy of the ATP Synthesis
1. Complexes of Metal Ions and Their Reactions
2. Energy Forbidden and Energy Allowed Electron Transfer
Chapter 15: How Do ATP Synthesizing Enzymes Function?
1. Magnetic Parameters and Spin Dynamics of the Ion-Radical Pair
2. Kinetics and Quantitative Measure of Isotope Effects
3. Rate Limiting Step of the ATP Synthesis
4. The Efficiency of ATP-Synthase As a Molecular Machine
Chapter 16: Do ATP Synthesizing Enzymes Function Reversibly?
Chapter 17: Magnetic Catalysis of the ATP Synthesis
3. Is ATP Synthesis Nucleophilic
Chapter 18: How to Control ATP Synthesis
1. Nucleophilic Versus Ion-Radical Mechanism
2. Which Route of the ATP Synthesis Is More Important, Magnetic or Non-Magnetic?
Chapter 19: Is Enzyme Paralyzed at High Concentration of Magnesium Ions?
Part IV. Magnetic Control of Enzymatic DNA Synthesis
Chapter 21: Nuclear Magnetic Fields
2. Zinc Isotopes: 67Zn Versus 64Zn
4. Polymerase Chain Reaction
Chapter 22: Magnetic Field Effects
Chapter 23: Magnetic Mechanism: Chemistry
1. Elementary Chemical Reactions
2. Energy Allowed Electron Transfer
Chapter 24: Magnetic Mechanism: Physics
1. Magnetic Isotope Effect
2. Magnetic Field Effects
3. How Ion-Radical Mechanism Is Switched on
4. How Ion-Radical Mechanism Can Be Switched off
Part V. Magnetic Control of Protein Phosphorylation
Chapter 26: Nucleophilic Paradigm
Chapter 27: Electron Transfer
Chapter 28: Magnetic Mechanism of Protein Phosphorylation
Chapter 29: Trans-Cranial Magnetic Stimulation
Chapter 30: Medical Applications of Magnesium-25
1. Magnesium-25 Isotope Effect on the In Vivo ATP Synthesis
2. Magnesium-25 in Diabetic Neuropathy
3. Magnesium-25 in Cardiac Failure
4. Protective Effects of Magnesium-25 on Mitochondrial Functional Disorders in Esmolol-Induced Cardiac Arrest
Chapter 31: Magnetic Fields and Epidemiology
Magneto-Biology and Medicine
( Chemistry Research and Applications )
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