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010   $a9786612117558
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100   $a20020311d2003      uy         0
101 0 $aeng
135   $aur|n|---|||||
181   $ctxt
182   $cc
183   $acr
200 10$aCellular physiology of nerve and muscle /$fGary G. Matthews
205   $a4th ed.
210   $aOsney Mead, Oxford ;$aMalden, MA $cBlackwell Pub.$dc2003
215   $a1 online resource (250 p.)
300   $aDescription based upon print version of record.
311   $a1-4051-0330-2 
320   $aIncludes bibliographical references (p. [225]-229) and index.
327   $aCellular Physiology of Nerve and Muscle; Contents; Preface to the Fourth Edition; Acknowledgments; Part II Origin of Electrical Membrane Potential; 1 Introduction to Electrical Signaling in the Nervous System; The Patellar Reflex as a Model for Neural Function; The Cellular Organization of Neurons; Electrical Signals in Neurons; Transmission between Neurons; 2 Composition of Intracellular and Extracellular Fluids; Intracellular and Extracellular Fluids; The Structure of the Plasma Membrane; Summary; 3 Maintenance of Cell Volume; Molarity, Molality, and Diffusion of Water
327   $aOsmotic Balance and Cell VolumeAnswers to the Problem of Osmotic Balance; Tonicity; Time-course of Volume Changes; Summary; 4 Membrane Potential: Ionic Equilibrium; Diffusion Potential; Equilibrium Potential; The Nernst Equation; The Principle of Electrical Neutrality; The Cell Membrane as an Electrical Capacitor; Incorporating Osmotic Balance; Donnan Equilibrium; A Model Cell that Looks Like a Real Animal Cell; The Sodium Pump; Summary; 5 Membrane Potential: Ionic Steady State; Equilibrium Potentials for Sodium, Potassium, and Chloride; Ion Channels in the Plasma Membrane
327   $aMembrane Potential and Ionic PermeabilityThe Goldman Equation; Ionic Steady State; The Chloride Pump; Electrical Current and the Movement of Ions Across Membranes; Factors Affecting Ion Current Across a Cell Membrane; Membrane Permeability vs. Membrane Conductance; Behavior of Single Ion Channels; Summary; Part II Cellular Physiology of Nerve Cells; 6 Generation of Nerve Action Potential; The Action Potential; Ionic Permeability and Membrane Potential; Measuring the Long-distance Signal in Neurons; Characteristics of the Action Potential; Initiation and Propagation of Action Potentials
327   $aChanges in Relative Sodium Permeability During an Action PotentialVoltage-dependent Sodium Channels of the Neuron Membrane; Repolarization; The Refractory Period; Propagation of an Action Potential Along a Nerve Fiber; Factors Affecting the Speed of Action Potential Propagation; Molecular Properties of the Voltage-sensitive Sodium Channel; Molecular Properties of Voltage-dependent Potassium Channels; Calcium-dependent Action Potentials; Summary; 7 The Action Potential: Voltage-clamp Experiments; The Voltage Clamp; Measuring Changes in Membrane Ionic Conductance Using the Voltage Clamp
327   $aThe Squid Giant AxonIonic Currents Across an Axon Membrane Under Voltage Clamp; The Gated Ion Channel Model; Membrane Potential and Peak Ionic Conductance; Kinetics of the Change in Ionic Conductance Following a Step Depolarization; Sodium Inactivation; The Temporal Behavior of Sodium and Potassium Conductance; Gating Currents; Summary; 8 Synaptic Transmission at the Neuromuscular Junction; Chemical and Electrical Synapses; The Neuromuscular Junction as a Model Chemical Synapse; Transmission at a Chemical Synapse; Presynaptic Action Potential and Acetylcholine Release
327   $aEffect of Acetylcholine on the Muscle Cell
330   $aCellular Physiology of Nerve and Muscle, Fourth Edition offers a state of the art introduction to the basic physical, electrical and chemical principles central to the function of nerve and muscle cells. The text begins with an overview of the origin of electrical membrane potential, then clearly illustrates the cellular physiology of nerve cells and muscle cells. Throughout, this new edition simplifies difficult concepts with accessible models and straightforward descriptions of experimental results.An all-new introduction to electrical signaling in the nervous system. 
606   $aNeurons
606   $aMuscle cells
606   $aNerves$xCytology
606   $aMuscles$xCytology
615  0$aNeurons.
615  0$aMuscle cells.
615  0$aNerves$xCytology.
615  0$aMuscles$xCytology.
676   $a573.8/36
700   $aMatthews$b Gary G.$f1949-$0531312
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910146126403321
996   $aCellular physiology of nerve and muscle$91573224
997   $aUNINA