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Cellular physiology of nerve and muscle [[electronic resource] /] / Gary G. Matthews
| Cellular physiology of nerve and muscle [[electronic resource] /] / Gary G. Matthews |
| Autore | Matthews Gary G. <1949-> |
| Edizione | [4th ed.] |
| Pubbl/distr/stampa | Osney Mead, Oxford ; ; Malden, MA, : Blackwell Pub., c2003 |
| Descrizione fisica | 1 online resource (250 p.) |
| Disciplina | 573.8/36 |
| Soggetto topico |
Neurons
Muscle cells Nerves - Cytology Muscles - Cytology |
| ISBN |
1-118-68787-6
1-118-68786-8 1-282-11755-6 9786612117558 1-4443-1130-1 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Cellular 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
Osmotic 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 Membrane 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 Changes 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 The 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 Effect of Acetylcholine on the Muscle Cell |
| Record Nr. | UNISA-996198283203316 |
Matthews Gary G. <1949->
|
||
| Osney Mead, Oxford ; ; Malden, MA, : Blackwell Pub., c2003 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. di Salerno | ||
| ||
Cellular physiology of nerve and muscle / / Gary G. Matthews
| Cellular physiology of nerve and muscle / / Gary G. Matthews |
| Autore | Matthews Gary G. <1949-> |
| Edizione | [4th ed.] |
| Pubbl/distr/stampa | Osney Mead, Oxford ; ; Malden, MA, : Blackwell Pub., c2003 |
| Descrizione fisica | 1 online resource (250 p.) |
| Disciplina | 573.8/36 |
| Soggetto topico |
Neurons
Muscle cells Nerves - Cytology Muscles - Cytology |
| ISBN |
1-118-68787-6
1-118-68786-8 1-282-11755-6 9786612117558 1-4443-1130-1 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Cellular 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
Osmotic 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 Membrane 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 Changes 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 The 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 Effect of Acetylcholine on the Muscle Cell |
| Record Nr. | UNINA-9910146126403321 |
|
Matthews Gary G. <1949->
|
||
| Osney Mead, Oxford ; ; Malden, MA, : Blackwell Pub., c2003 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||