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Advances in cellular neurobiology. Volume 3 /
Advances in Cellular Neurobiology.
| Clasificación: | Libro Electrónico |
|---|---|
| Otros Autores: | , |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Burlington :
Elsevier Science,
1982.
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| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Front Cover; Advances in Cellular Neurobiology; Copyright Page; Table of Contents; LIST OF CONTRIBUTORS; PREFACE; CONTENTS OF PREVIOUS VOLUMES; Section 1: CELL DIFFERENTIATION AND INTERACTION; CHAPTER 1. CELL DIVISION IN THE NORMAL CENTRAL NERVOUS SYSTEM; I. Introduction; II. Neural Epithelium. Ventricular and Sub ventricular Layers; III. Mitotic Cells of Ectodermal Origin; IV. Mitotic Cells of Mesodermal Origin; V. Conclusions; Acknowledgments; References; CHAPTER 2. SCHWANN CELLS: AN IN VITRO PERSPECTIVE; I. Introduction; II. In Vitro Systems; III. Control of Schwann Cell Proliferation.
- IV. Myelin-Related Behaviors in VitroV. Schwann Cell Influences Directed to Neurons; VI. Conclusions and Projections; Acknowledgments; References; CHAPTER 3. MOLECULAR AND CELL BIOLOGICAL ASPECTS OF LEARNING: TOWARD A THEORY OF MEMORY; I. Introduction; II. Studies of Biochemical Correlates of Learning; III. Neurochemical Behavioral Modulating Factors; IV. Long-Term Potentiation (LTP) as a Model System for Learning; V. Studies of Neuroanatomical Changes; VI. Current Status and Theoretical Concepts; References; Section 2: AGING AND PATHOLOGY.
- CHAPTER 4. IMMUNOCYTOCHEMICAL STUDIES OF ASTROCYTES IN NORMAL DEVELOPMENT AND DISEASEI. Introduction; II. The Glial Fibrillary Acidic Protein; III. Relation of Glial Filaments to Neurofilaments and Microtubules; IV. Function of GFA Protein; V. Functions of GFA Protein-Containing Cells; VI. GFA Protein Immunocytochemistry and Retrospective Pathology; Acknowledgments; References; CHAPTER 5. AGING OF AUTONOMIC SYNAPSES; I. Aging of Autonomie Synapses: Some Basic Questions; II. Aging of Autonomie Neurons: A Background; III. Age-Dependent Modifications of Axonal Transport.
- IV. The Chicken as an Animal Model of AgingV. Acetylcholine Metabolism in Aging Avian Synapses; VI. Catecholamine Metabolism in Aging Avian Synapses; VII. Aging of Noradrenergic Neurons: A Comparison of CNS and PNS; VIII. Common Characteristics of Cholinergic and Adrenergic Terminals during Aging; IX. Variations in Cholinergic Receptors with Aging. CNS versus PNS; X. Development and Aging of Synapses: A Single Process?; XI. Conclusions: Toward a Pharmacology of Aging Synapses; Acknowledgment; References; CHAPTER 6. AXONAL ELONGATION IN PERIPHERAL AND CENTRAL NERVOUS SYSTEM TRANSPLANTS.
- I. IntroductionII. Regeneration in the Peripheral and Central Nervous Systems; III. Transplants of Nonneuronal Cells; IV. Transplantation of Neurons and Target Tissues; V. Discussion; References; CHAPTER 7. DEMYELINATION; I. Introduction; II. Myelin; III. Animal Models of Immunologically Mediated Demyelination; IV. Tissue Culture Studies of Demyelination; V. Conclusions; References; CHAPTER 8. CNS HYPOMYELINATED MUTANT MICE: MORPHOLOGICAL AND TISSUE CULTURE STUDIES; I. Introduction; II. Historical Background; III. The Common Clinical Syndrome; IV. Genetics and Morphology of Specific Mutations.