For the first time, this book presents a comprehensive analysis, based on electrons controlling the ion channel gates. The theory and gating model are extensively linked to published experimental observations. The intrinsic simplicity of electron gating elucidates mechanisms important to the functions of nerve cells.
For the first time, this book presents a comprehensive analysis, based on electrons controlling the ion channel gates. The theory and gating model are extensively linked to published experimental observations. The intrinsic simplicity of electron gating elucidates mechanisms important to the functions of nerve cells.
Part I: Theory/ Electron-Gated Ion Channels Chapter 1: Introduction Chapter 2: Developing a Model Chapter 3: The Setcap Model Chapter 4: Amplified Electron Tunneling and The Inverted Region Chapter 5: Gating and Distortion Factors Chapter 6: Characterization and Validation Chapter 7: Flux Gating in Sodium and Potassium Channels Chapter 8: Far Sites, Near Sites and Back Sites Chapter 9: Electron-Gated K+ Channels Part II: Experimental/ Microwave Investigation Chapter 10: Microwave Thermal Fluorescence Spectroscopy Appendix
Part I: Theory/ Electron-Gated Ion Channels Chapter 1: Introduction Chapter 2: Developing a Model Chapter 3: The Setcap Model Chapter 4: Amplified Electron Tunneling and The Inverted Region Chapter 5: Gating and Distortion Factors Chapter 6: Characterization and Validation Chapter 7: Flux Gating in Sodium and Potassium Channels Chapter 8: Far Sites, Near Sites and Back Sites Chapter 9: Electron-Gated K+ Channels Part II: Experimental/ Microwave Investigation Chapter 10: Microwave Thermal Fluorescence Spectroscopy Appendix
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