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The Fourth Edition of The Neuron features newly updated chapters and scores of full-color figures, making it an ideal first course in the cell and molecular biology of nerve cells.
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The Fourth Edition of The Neuron features newly updated chapters and scores of full-color figures, making it an ideal first course in the cell and molecular biology of nerve cells.
Produktdetails
- Produktdetails
- Verlag: Oxford University Press, USA
- 4th Revised edition
- Seitenzahl: 600
- Erscheinungstermin: 19. August 2015
- Englisch
- Abmessung: 239mm x 170mm x 33mm
- Gewicht: 1383g
- ISBN-13: 9780199773893
- ISBN-10: 0199773890
- Artikelnr.: 47867738
- Verlag: Oxford University Press, USA
- 4th Revised edition
- Seitenzahl: 600
- Erscheinungstermin: 19. August 2015
- Englisch
- Abmessung: 239mm x 170mm x 33mm
- Gewicht: 1383g
- ISBN-13: 9780199773893
- ISBN-10: 0199773890
- Artikelnr.: 47867738
Irwin B. Levitan, Ph.D., Founding Chair of the Department of Neuroscience at Sidney Kimmel Medical College, Thomas Jefferson University Leonard K. Kaczmarek, Ph.D., Professor of Pharmacology and Cellular and Molecular Physiology, Yale University School of Medicine, New Haven, CT
* Preface to the Fourth Edition
* I. Introduction
* 1. Signaling in the Brain
* 2. Form and Function in Cells of the Brain
* II. Electrical Properties of Neurons
* 3. Electrical Signaling in Neurons
* 4. Membrane Ion Channels and Ion Currents
* 5. Ion Channels Are Membrane Proteins
* 6. Ion Channels, Membrane Ion Currents, and the Action Potential
* 7. Diversity in the Structure and Function of Ion Channels
* III. Intercellular Communication
* 8. Intercellular Communication: How Neurons Communicate: Gap
Junctions and Neurosecretion
* 9. Synaptic Release of Neurotransmitters
* 10. Neurotransmitters and Neurohormones
* 11. Receptors and Transduction Mechanisms I: Receptors Coupled
Directly to Ion Channels
* 12. Receptors and Transduction Mechanisms II: Indirectly Coupled
Receptor/Ion Channel Systems
* 13. Sensory Receptors
* IV. Behavior and Plasticity
* 14. The Birth and Death of a Neuron
* 15. Neuronal Growth and Trophic Factors
* 16. Adhesion Molecules and Axon Pathfinding
* 17. Formation, Maintenance, and Plasticity of Chemical Synapses
* 18. Intrinsic Neuronal Properties, Neural Networks and Behavior
* 19. Learning and Memory
* I. Introduction
* 1. Signaling in the Brain
* 2. Form and Function in Cells of the Brain
* II. Electrical Properties of Neurons
* 3. Electrical Signaling in Neurons
* 4. Membrane Ion Channels and Ion Currents
* 5. Ion Channels Are Membrane Proteins
* 6. Ion Channels, Membrane Ion Currents, and the Action Potential
* 7. Diversity in the Structure and Function of Ion Channels
* III. Intercellular Communication
* 8. Intercellular Communication: How Neurons Communicate: Gap
Junctions and Neurosecretion
* 9. Synaptic Release of Neurotransmitters
* 10. Neurotransmitters and Neurohormones
* 11. Receptors and Transduction Mechanisms I: Receptors Coupled
Directly to Ion Channels
* 12. Receptors and Transduction Mechanisms II: Indirectly Coupled
Receptor/Ion Channel Systems
* 13. Sensory Receptors
* IV. Behavior and Plasticity
* 14. The Birth and Death of a Neuron
* 15. Neuronal Growth and Trophic Factors
* 16. Adhesion Molecules and Axon Pathfinding
* 17. Formation, Maintenance, and Plasticity of Chemical Synapses
* 18. Intrinsic Neuronal Properties, Neural Networks and Behavior
* 19. Learning and Memory
* Preface to the Fourth Edition
* I. Introduction
* 1. Signaling in the Brain
* 2. Form and Function in Cells of the Brain
* II. Electrical Properties of Neurons
* 3. Electrical Signaling in Neurons
* 4. Membrane Ion Channels and Ion Currents
* 5. Ion Channels Are Membrane Proteins
* 6. Ion Channels, Membrane Ion Currents, and the Action Potential
* 7. Diversity in the Structure and Function of Ion Channels
* III. Intercellular Communication
* 8. Intercellular Communication: How Neurons Communicate: Gap
Junctions and Neurosecretion
* 9. Synaptic Release of Neurotransmitters
* 10. Neurotransmitters and Neurohormones
* 11. Receptors and Transduction Mechanisms I: Receptors Coupled
Directly to Ion Channels
* 12. Receptors and Transduction Mechanisms II: Indirectly Coupled
Receptor/Ion Channel Systems
* 13. Sensory Receptors
* IV. Behavior and Plasticity
* 14. The Birth and Death of a Neuron
* 15. Neuronal Growth and Trophic Factors
* 16. Adhesion Molecules and Axon Pathfinding
* 17. Formation, Maintenance, and Plasticity of Chemical Synapses
* 18. Intrinsic Neuronal Properties, Neural Networks and Behavior
* 19. Learning and Memory
* I. Introduction
* 1. Signaling in the Brain
* 2. Form and Function in Cells of the Brain
* II. Electrical Properties of Neurons
* 3. Electrical Signaling in Neurons
* 4. Membrane Ion Channels and Ion Currents
* 5. Ion Channels Are Membrane Proteins
* 6. Ion Channels, Membrane Ion Currents, and the Action Potential
* 7. Diversity in the Structure and Function of Ion Channels
* III. Intercellular Communication
* 8. Intercellular Communication: How Neurons Communicate: Gap
Junctions and Neurosecretion
* 9. Synaptic Release of Neurotransmitters
* 10. Neurotransmitters and Neurohormones
* 11. Receptors and Transduction Mechanisms I: Receptors Coupled
Directly to Ion Channels
* 12. Receptors and Transduction Mechanisms II: Indirectly Coupled
Receptor/Ion Channel Systems
* 13. Sensory Receptors
* IV. Behavior and Plasticity
* 14. The Birth and Death of a Neuron
* 15. Neuronal Growth and Trophic Factors
* 16. Adhesion Molecules and Axon Pathfinding
* 17. Formation, Maintenance, and Plasticity of Chemical Synapses
* 18. Intrinsic Neuronal Properties, Neural Networks and Behavior
* 19. Learning and Memory