| Description |
1 online resource (xii, 212 pages) : illustrations (some color) |
| Series |
Methods in molecular biology, 1064-3745 ; 337 |
|
Methods in molecular biology (Clifton, N.J.) ; v. 337
|
| Contents |
Functional reconstitution of the human epithelial Na+ channel in a mammalian expression system / Alexander Staruschenko [and others] -- Overexpression of proteins in neurons using replication-deficient virus / Richard M. Ahlquist and Jane M. Sullivan -- Exogenous expression of proteins in neurons using the biolistic particle delivery system / Nikita Gamper and Mark S. Shapiro |
|
Tertiary and quaternary structure formation of voltage-gated potassium channels / John M. Robinson, Andrey Kosolapov, and Carol Deutsch -- Biophysical approach to determine the subunit stoichiometry of the epithelial sodium channel using the xenopus laevis oocyte expression system / Farhad Kosari, Shaohu Sheng, and Thomas R. Kleyman -- Spectroscopy-based quantitative fluorescence resonance energy transfer analysis / Jie Zheng -- Probing the effects of phosphoinositides on ion channels / Chou-Long Huang -- Epithelial sodium channel in planar lipid bilayers / Bakhrom K. Berdiev and Dale J. Benos |
|
A simple in vivo method for assessing changes of membrane-bound ion channel density in xenopus oocytes / Mouhamed S. Awayda [and others] -- Preparation of cortical brain slices for electrophysiological recording / Costa M. Colbert -- Juxtacellular labeling and chemical phenotyping of extracellulary recorded neurons in vivo / Glenn M. Toney and Lynette C. Daws -- Carbon fiber amperometry in the study of ion channels and secretion / Duk-Su Koh -- Genetic screening for functionality of bacterial potassium channel mutants using K+ update-deficient escherichia coli / Lyubov V. Parfenova and Brad S. Rothberg -- KCNQ1 K+ channel-mediated cardiac channelopathies / Gildas Loussouarn, Isabelle Baró, and Denis Escande -- Tissue-specific transgenic and knockout mice / Andrée Porret [and others] |
| Summary |
It is now clear that ion channels play essential roles in cell biology and physiology and that their dysfunction is the root cause of many human diseases. In Ion Channels: Methods and Protocols, internationally recognized biomedical scientists describe recent technological breakthroughs and demonstrate their use in successful experimental designs. The diverse applications range from the study of allosteric regulation of ion channel activity using a classic mutagenesis approach, to the study of channel subunit stoichiometry using a novel biophysical approach based on fluorescence resonance energy transfer. Highlights include methods for heterologous expression of ion channels in cells, for determining channel structure-function, for studying channel regulation and physiological function, and for genetic screening and investigating channelopathies. The protocols follow the successful Methods in Molecular Biology series format, each offering step-by-step laboratory instructions, an introduction outlining the principles behind the technique, lists of the necessary equipment and reagents, and tips on troubleshooting and avoiding known pitfalls. Comprehensive and highly practical, Ion Channels: Methods and Protocols offer both novice and experienced researchers a versatile collection of proven techniques for illuminating the structure, function, and regulation of ion channel proteins and finding suitable drug targets when they cause disease |
| Bibliography |
Includes bibliographical references and index |
| Notes |
English |
|
Print version record |
| Subject |
Ion channels.
|
|
Ion Channels
|
|
SCIENCE -- Life Sciences -- Cell Biology.
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Ion channels
|
| Genre/Form |
Laboratory manuals.
|
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Manuels de laboratoire.
|
| Form |
Electronic book
|
| Author |
Stockand, James D.
|
|
Shapiro, Mark S.
|
| ISBN |
1588295761 |
|
1597450952 |
|
9781597450959 |
|
9781588295767 |
|
1280832169 |
|
9781280832161 |
|
9786610832163 |
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6610832161 |
|
