Ion Channel Localization

Name: Ion Channel Localization
Author: Anatoli Lopatin

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Paperback, 502 blz. | Engels

Humana Press | 0e druk, 2010

ISBN13: 9781617372117

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Humana Press 0e druk, 2010 9781617372117

Onderdeel van serie Methods in Pharmacology and Toxicology

183,99

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Samenvatting

Since the pioneering discoveries of Hodgkin, Huxley, and Katz, it has been clear that specific ion conductance pathways underlie electrical act- ity. Over the ensuing 50 years, there has been ever increasing, and occasi- ally explosive, changes in the scope of efforts to understand ion channel behavior. The introduction of patch clamp technology by Erwin Neher and Bert Sakmann about 20 years ago led to the realization of the great variety of novel ion channel species, and the subsequent revolution in cl- ing has revealed an even greater diversity of the underlying molecular entities. Today, advances in the study of ion channel structure and function c- tinue at a high pace, from angstrom resolution imaging of crystallized ch- nels to their genetic manipulations in animals. In this regard, the field is a balanced one that inquires not only what ion channel entities are there, or how they operate, but also where are these molecular electronic switches? However, this balance is not particularly well presented to the general sci- tific audience or to specialists in the field. There are plenty of wonderful and useful books and monographs, as well as conferences and meetings on v- tually every aspect of ion channel structure and function. However, we are unaware that the channel localization theme has been considered in a u- fied forum.

Specificaties

ISBN13:9781617372117

Taal:Engels

Bindwijze:paperback

Aantal pagina's:502

Uitgever:Humana Press

Druk:0

Serie:Methods in Pharmacology and Toxicology

Inhoudsopgave

Pharmacological Labeling of Ion Channels and Receptors.- Fluorescent Calcium Antagonists Tools for Imaging of L-Type Calcium Channels in Living Cells.- Targeting Cerebral Muscarinic Acetylcholine Receptors with Radioligands for Diagnostic Nuclear Medicine Studies.- GABAA Receptors.- Localization of ATP P2X Receptors.- Small Conductance Calcium-Activated Potassium Channels in Rat Brain.- Mapping N-Type Calcium Channel Distributions with H-Conotoxins.- Fluorescent Imaging of Nicotinic Receptors During Neuromuscular Junction Development.- High Affinity Scorpion Toxins for Studying Potassium and Sodium Channels.- Applications of Green Fluorescent Protein (GFP) Technology.- Bicistronic GFP Expression Vectors as a Tool to Study Ion Channels in Transiently Transfected Cultured Cells.- Confocal Imaging of GFP-Labeled Ion Channels.- Localization and Quantification of GFP-Tagged Ion Channels Expressed in Xenopus Oocytes.- Applications of Green Fluorescent Protein (GFP) Technology.- Tagging Ion Channels with the Green Fluorescent Protein (GFP) as a Method for Studying Ion Channel Function in Transgenic Mouse Models.- Mutant GFP- Based FRET Analysis of K+ Channel Organization.- Delivering Ion Channels to Mammalian Cells by Membrane Fusion.- Functional Assays in Ion Channel Localization.- Detection of Neurons Expressing Calcium- Permeable AMPA Receptors Using Kainate-Induced Cobalt Uptake.- Crystallization Technique for Localizing Ion Channels in Living Cells.- Imaging of Localized Neuronal Calcium Influx.- Using Caged Compounds to Map Functional Neurotransmitter Receptors.- Atomic Force Microscopy.- Atomic Force Microscopy of Reconstituted Ion Channels.- Imaging the Spatial Organization of Calcium Channels in Nerve Terminals Using Atomic Force Microscopy.- Nanoarchitecture of Plasma Membrane Visualized with Atomic Force Microscopy.- Dynamic AFM of Patch Clamped Membranes.- Localizing Ion Channels with Scanning Probe Microscopes: A Perspective.

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