Structural and Functional Organization of the Synapse
Synapses play a central role in the brain by mediating signal transmission between neurons. This book provides a fundamental description of the synapse by leading experts in the field. Each individual synapse carries out its numerous functions in a tiny space, thereby requiring an exquisite molecula...
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| Autor corporatiu: | |
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| Altres autors: | , |
| Format: | Electrònic eBook |
| Idioma: | English |
| Publicat: |
New York, NY :
Springer US : Imprint: Springer,
2008.
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| Edició: | 1st ed. 2008. |
| Matèries: | |
| Accés en línia: | https://doi.org/10.1007/978-0-387-77232-5 |
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Taula de continguts:
- Diversity in Synapse Structure and Composition
- The Role of Glutamate Transporters in Synaptic Transmission
- Structure and Function of Vertebrate and Invertebrate Active Zones
- Neurotransmitter Release Machinery: Components of the Neuronal SNARE Complex and Their Function
- The Molecular Machinery for Synaptic Vesicle Endocytosis
- Initiation and Regulation of Synaptic Transmission by Presynaptic Calcium Channel Signaling Complexes
- Adhesion Molecules at the Synapse
- Dendritic Organelles for Postsynaptic Trafficking
- Structure and Mechanism of Action of AMPA and Kainate Receptors
- Cellular Biology of AMPA Receptor Trafficking and Synaptic Plasticity
- Structure and Function of the NMDA Receptor
- Molecular Properties and Cell Biology of the NMDA Receptor
- Surface Trafficking of Membrane Proteins at Excitatory and Inhibitory Synapses
- Scaffold Proteins in the Postsynaptic Density
- Ca2+ Signaling in Dendritic Spines
- Postsynaptic Targeting of Protein Kinases and Phosphatases
- Long-Term Potentiation
- Homeostatic Synaptic Plasticity
- Ubiquitin and Protein Degradation in Synapse Function
- Signaling from Synapse to Nucleus
- Molecular Organization of the Postsynaptic Membrane at Inhibitory Synapses
- Acid-Sensing Ion Channels (ASICs) and pH in Synapse Physiology
- Glia as Active Participants in the Development and Function of Synapses
- Plasticity of Dentate Granule Cell Mossy Fiber Synapses: A Putative Mechanism of Limbic Epileptogenesis
- Stroke – A Synaptic Perspective
- and Pathological Pain.