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3. Ion Permeability and Membrane Potentials

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Molecular and Cellular Physiology of Neurons
This chapter is in the book Molecular and Cellular Physiology of Neurons

Chapters in this book

  1. Frontmatter i
  2. Contents vii
  3. Preface ix
  4. 1. Introduction 1
  5. Part One. Electrical Properties of Cells and Homeostasis
  6. 2. Electrical Properties of Neurons 31
  7. 3. Ion Permeability and Membrane Potentials 70
  8. 4. Ion Pumps and Homeostasis 107
  9. Part Two. Active Propagation of Neural Signals
  10. 5. Action Potentials: The Hodgkin-Huxley Experiments 145
  11. 6 The Structure and Function of Voltage- Gated Na+ and K+ Channels 192
  12. 7. The Diversity of Ion Channels 231
  13. Part Three. Synaptic Transmission and Ligand- Gated Channels
  14. 8. Presynaptic Mechanisms of Synaptic Transmission (revised by Thomas J. O’Dell) 281
  15. 9. Excitatory Transmission 328
  16. 10. Inhibitory Transmission (revised by Thomas J. O’Dell) 385
  17. Part Four. Metabotropic Transmission and Neuromodulation
  18. 11. Metabotropic Transmission: Receptors and G Proteins 417
  19. 12. Metabotropic Transmission: Effector Molecules 441
  20. 13. Metabotropic Transmission: Calcium 476
  21. 14. Long- Term Potentiation (originally written and newly revised by Thomas J. O’Dell) 509
  22. Part Five. Sensory Transduction
  23. 15. Mechanoreceptors 545
  24. 16. Photoreceptors and Olfactory Receptor Neurons 583
  25. Appendix: Symbols Used 629
  26. References 633
  27. Index 723
https://doi.org/10.4159/harvard.9780674735644.c5

Chapters in this book

  1. Frontmatter i
  2. Contents vii
  3. Preface ix
  4. 1. Introduction 1
  5. Part One. Electrical Properties of Cells and Homeostasis
  6. 2. Electrical Properties of Neurons 31
  7. 3. Ion Permeability and Membrane Potentials 70
  8. 4. Ion Pumps and Homeostasis 107
  9. Part Two. Active Propagation of Neural Signals
  10. 5. Action Potentials: The Hodgkin-Huxley Experiments 145
  11. 6 The Structure and Function of Voltage- Gated Na+ and K+ Channels 192
  12. 7. The Diversity of Ion Channels 231
  13. Part Three. Synaptic Transmission and Ligand- Gated Channels
  14. 8. Presynaptic Mechanisms of Synaptic Transmission (revised by Thomas J. O’Dell) 281
  15. 9. Excitatory Transmission 328
  16. 10. Inhibitory Transmission (revised by Thomas J. O’Dell) 385
  17. Part Four. Metabotropic Transmission and Neuromodulation
  18. 11. Metabotropic Transmission: Receptors and G Proteins 417
  19. 12. Metabotropic Transmission: Effector Molecules 441
  20. 13. Metabotropic Transmission: Calcium 476
  21. 14. Long- Term Potentiation (originally written and newly revised by Thomas J. O’Dell) 509
  22. Part Five. Sensory Transduction
  23. 15. Mechanoreceptors 545
  24. 16. Photoreceptors and Olfactory Receptor Neurons 583
  25. Appendix: Symbols Used 629
  26. References 633
  27. Index 723
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