I: Morphology. - Morphological Correlates for Transmitter Synthesis Transport Release Uptake and Catabolism: A Study of Serotonin Neurons in the Nucleus Paragigantocellularis Lateralis. - Comments on the Morphology of Inhibitory Axons. - Ultrastructural Analysis of Axo-Dendritic Initial Collateral Terminals of a Feline Spinocervical Tract Neurone Stained Intracellularly with Horseradish Peroxidase. - Electron Cytochemistry of GABA-Transaminase in Rat Cetebellar Cortex and Evidence for Multimolecular Forms of the Enzyme. - II: Electrophysiology and Neuropharmacology. - Pre- and Non-Synaptic Activities of GABA and Related Amino Acids in the Mammalian Nervous System. - Quantitative Studies of Iontophoretically Applied Excitatory Amino Acids. - Interactions of Central Depressants with Amino Acids and Their Antagonists. - III: Localization. - Critical Evaluation of the Use of Radioautography as a Tool in the Localization of Amino Acids in the Mammalian Central Nervous System. - Transmitters in the Basal Ganglia. - Comments on the Localization of Neurotransmitters in the Basal Ganglia. - Localization of Transmitter Amino Acids: Application to Hippocampus and Septum. - Glutamate Concentration in Individual Layers of the Rabbit Hippocampus. - The Effect of Intrahippocampal Administration of ?-Aminobutyric Acid (GABA). - Neurotransmitters in the Amygdala: A Brief Review. - GABA Markers in the Hypothalamus: Topographical Distribution and Origin. - Identified Aplysia Neurons with Rapid and Specific Glycine Uptake. - IV: The Visual System. - Neurotransmitters in the Avian Visual System. - Neurotransmitters of the Mammalian Visual System. - The Localization and Metabolism of Neuroactive Amino Acids in the Retina. - Light-Induced Release of Amino Acids from the Retina. - Classification and Location ofNeurons Taking up 3H-GABA in the Visual Cortex of Rats. - V: Uptake Synthesis and Release. - GABA Agonists and Uptake Inhibitors of Restricted Conformations: Structure-Activity Relations. - Muscimol Analogues Injected into Substantia Nigra: A Valuable New In Vivo Model for GABA-Ergic Drugs. - Uptake Exchange and Release of GABA in Isolated Nerve Endings. - Cis 3-Aminocyclohexane Carboxylic Acid a Selective Inhibitor and Substrate for the Neuronal GABA Uptake Process. - Properties of the Accumulation of D-[14C]Aspartate into Rat Cerebral Crude Synaptosomal Fraction. - The Effect of Glutamate on the Structure and K+-Transport of Synaptosomes. - On the Metabolic and Intrasynaptic Origin of Amino Acid Transmitters. - Glutamate as a CNS Neurotransmitter: Properties of Release Inactivation and Biosynthesis. - Role of GABAergic and Glycinergic Transmissions in the Substantia Nigra in the Regulation of Dopamine Release in the Cat Caudate Nucleus. - The Interaction Between GABAergic Drugs and Dopaminergic Stimulants. - Glutamate Decarboxylase Properties and the Synaptic Function of GABA. - The Possible Involvement of GABA and its Compartmentation in the Mechanism of Some Convulsant and Anticonvulsant Agents. - VI: Receptor Binding. - The GABA Receptor Assay: Focus on Human Studies. - 3H-GABA Binding to Membranes Prepared from Post-Mortem Human Brain: Pharmacological and Pathological Investigations. - Studies on the Gamma Aminobutyric Acid Receptor/Ionophore Proteins in Mammalian Brain. - Comparison of 3H-Muscimol and 3H-GABA Receptor Binding in Rat Brain. - GABA Receptor in Rat Brain: Demonstration of an Antagonist Binding Site. - A Study of the GABA Receptor Using 3H-Bicuculline Methobromide. - GABA Receptors and Phospholipids. - Second Messenger Responses and Regulation of High Affinity Receptor Binding to Study Pharmacological Modifications of GABAergic Transmission. - VII: Functional and Metabolic Aspects. - Glycine: Inhibition from the Sacrum to the Medulla. - Taurine and Other Sulphur Containing Amino Acids: Their Function in the Central Nervous System. - A Functional Role for Amino Acids in the Adaptation of Tissues from the Nervous System to Alterations in Environmental Osmolality. - Isolation and Biochemical Characterization of Morphologically Defined Structures Including Cell Types From the Cerebellum. - Glial Cells and Amino Acid Transmitters. - Interactions Between Neurotransmitters and Astroglial Cells. - Amino Acid Precursors: Their Transport into Brain and Initial Metabolism. - Metabolic Compartmentation of the Glutamate-Glutamine System: Glial Contribution. - Compartmentation of Amino Acids in Brain: The GABA-Glutamine-Glutamate Cycle. - Computer Modeling as an Aid to Understanding Metabolic Compartmentation of the Krebs Cycle in Brain Tissue. Language: English