Cellular and Molecular Neurophysiology, Fourth Edition, is the only up-to-date textbook on the market that focuses on the molecular and cellular physiology of neurons and synapses. Hypothesis-driven rather than a dry presentation of the facts, the book promotes a real understanding of the function of nerve cells that is useful for practicing neurophysiologists and students in a graduate-level course on the topic alike.
This new edition explains the molecular properties and functions of excitable cells in detail and teaches students how to construct and conduct intelligent research experiments. The content is firmly based on numerous experiments performed by top experts in the field
This book will be a useful resource for neurophysiologists, neurobiologists, neurologists, and students taking graduate-level courses on neurophysiology.
Rezensionen / Stimmen
"This is an excellent work on the cellular and molecular physiology of nerve cells. I would highly recommend it for universities, neuroscience libraries, and physiology departments. Score: 100 - 5 Stars"--Doody's
Reviews for the previous edition:"In its third internationally acclaimed edition, this textbook provides an unrivaled account of the basic foundations of molecular and cellular neurophysiology. For those of us who were inclined to believe that the unprecedented development of neuroscience made neurophysiology disposable, Constance Hammond proves us with conviction and elegance that this is just not the case!"--Dr. Robert Dantzer, Professor of Psychoneuroimmunology, Integrative Immunology and Behavior Program University of Illinois at Urbana-Champaign"More than any similar volume that I have come across in recent years, this one has the potential of luring students of neuroscience and even students from other fields to build a career in neurophysiology." --Gyoergy Buzsaki, M.D., Ph.D., Board of Governors Professor, Center for Molecular and Behavioral Neuroscience, Rutgers University
Auflage
Sprache
Verlagsort
Verlagsgruppe
Elsevier Science Publishing Co Inc
Zielgruppe
Für Beruf und Forschung
Neurophysiologists, neurobiologists, neurologists, as well as graduate-level courses on neurophysiology.
Maße
Höhe: 276 mm
Breite: 216 mm
Gewicht
ISBN-13
978-0-12-397032-9 (9780123970329)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Klassifikation
Constance Hammond is an INSERM director of research at the Mediterranean Institute of Neurobiology. A renowned Parkinson's disease investigator, in 2012 she became a Chevalier of the Legion d'Honneur in recognition for her services to scientific communication. Studying biology at the University of Pierre and Marie Curie and the Ecole Normale Superieure in Paris she completed her thesis in neurosciences at the Marey Institute in Paris, directed by Prof. D. Albe-Fessard. Guided by her curiosity and her constant desire to learn, she changed lab and research domains several times. With the knowledge of other systems and the mastering of other techniques she finally came back to her first and preferred subject of research; the role of the subthalamic nucleus in the basal ganglia system in health and Parkinson's disease.
Autor*in
Director of Research INSERM U901, Institut de Neurobiologie de la Mediterranee, Marseilles, France
Part I. Neurons: Excitable and Secretory Cells That Establish Synapses1. Neurons2. Neuron - Glial Cell Cooperation3. Ionic Gradients, Membrane Potential and Ionic Currents4. The Voltage-Gated Channels of Na+ Action Potentials5. The Voltage-Gated Channels of Ca+2 Action Potentials: Generalization6. The Chemical Synapses7. Neurotransmitter Release
Part II. Ionotropic and Metabotropic Receptors in Synaptic Transmission and Sensory Transduction8. The Ionotropic Nicotinic Acetycholine Receptors9. The Ionotropic GABAA Receptor10. The Ionotropic Glutamate Receptors11. The Metabotropic GABAB Receptors12. The Metabotropic Glutamate Receptors
Part III. Somato-Dendritic Processing and Plasticity of Postsynaptic Potentials13. Somato-Dendritic Processing of Postsynaptic Potentials I: Passive Properties of Dendrites14. Subliminal Voltage-Gated Currents of the Somato-Dendritic Membrane15. Somato-Dendritic Processing of Postsynaptic Potentials II: Role of Subthreshold Depolarizing Voltage-Gated Currents16. Somato-Dendritic Processing of Postsynaptic Potentials III: Role of High Voltage-Activated Depolarizing Currents17. Firing Patterns of Neurons18. Synaptic Plasticity
Part IV. The Adult Hippocampal Network19. The Adult Hippocampal Network20. Maturation of the Hippocampal Network
