Excitation and inhibition : synaptic morphology /
Clasificación: | Libro Electrónico |
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Autor principal: | |
Formato: | Electrónico eBook |
Idioma: | Inglés |
Publicado: |
Tokyo [Japan] :
Igaku Shoin,
1975.
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Temas: | |
Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Front Cover; Excitation and Inhibition: Synaptic Morphology; Copyright Page; Table of Contents; Discussion on the Differentiation of Excitation and Inhibition; Chapter 1. Introduction; Chapter 2. Development of Concept of Excitation and Inhibition; Chapter 3. S-F Hypothesis: Morphological Correlates of Excitation and Inhibition; Chapter 4. Mechanism of Synaptic Excitation; A. ELECTROPHYSIOLOGY; B. MORPHOLOGY OF EXCITATORY SYNAPSES; C. EXCITATORY TRANSMISSION; Chapter 5. Mechanism of Inhibition; A. GENERAL REMARKS; B. MECHANISM OF POSTSYNAPTIC INHIBITION
- C. MORPHOLOGY OF POSTSYNAPTIC INHIBITIOND. CLASSIFICATION OF SYNAPSES INTO S-TYPE AND F-TYPE; E. INHIBITORY TRANSMITTER SUBSTANCE; F. MECHANISM OF PRESYNAPTIC INHIBITION; G. PHARMACOLOGY OF PRESYNAPTIC INHIBITION; Chapter 6. Physiological Classification of Neurons; A. CRITERIA OF NEURON CLASSIFICATION; B. CEREBELLUM; C. HIPPOCAMPUS; D. SPINAL CORD; E. CRUSTACEA; Chapter 7. The Release Mechanism of Transmitters; Chapter 8. Synaptic Vesicles as a Basis of Transmitter; Chapter 9. Membrane Recycle; Chapter 10. Transmission in the Sympathetic Ganglion; Chapter 11. Transmitter Substance
- A. ACETYLCHOLINE AS AN EXCITATORY TRANSMITTERB. ACETYLCHOLINE AS AN INHIBITORY TRANSMITTER; C. GABA AND GLYCINE; D. STRUCTURAL CHARACTERISTICS OF GABA AND GLYCINE-SYNAPSE; E. CATECHOLAMINE AND SEROTONINE; F. TRANSMITTERS IN THE SENSORY SYSTEM: DORSAL ROOT PEPTIDE AND ACETYLCHOLINE; G. CYCLIC AMP AND CEREBELLUM; H. CYCLIC AMP AND ITS ROLE IN SYNAPTIC TRANSMITTER; Chapter 12. Criticism of S-F Hypothesis; Electron Micrographs Indicative of Synaptic Differentiation in Various Parts of the Central Nervous System; References; Author Index; Subject Index