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Ion Channels in Biophysics and Physiology

Record Type:	Language materials, printed : Monograph/item
Title/Author:	Ion Channels in Biophysics and Physiology/ edited by Lei Zhou.
other author:	Zhou, Lei.
Description:	VI, 413 p. 1 illus.online resource. :
Contained By:	Springer Nature eBook
Subject:	Human physiology. -
Online resource:	https://doi.org/10.1007/978-981-16-4254-8
ISBN:	9789811642548

Ion Channels in Biophysics and Physiology
Ion Channels in Biophysics and Physiology[electronic resource] /edited by Lei Zhou. - 1st ed. 2021. - VI, 413 p. 1 illus.online resource. - Advances in Experimental Medicine and Biology,13492214-8019 ;. - Advances in Experimental Medicine and Biology,889.

Advancing ion channel research with automated patch clamp (APC) electrophysiology platforms -- Methods & Challenges to Study Mechanosensitive Ion Channels -- The Polysite Pharmacology of TREK K2P channels -- Physiological functions, biophysical properties and regulation of KCNQ1 (KV7.1) potassium channels -- Context matters – Calcium channel splice variants and their effects in brain and cardiovascular function -- Structure-function of TMEM16 ion channels and lipid scramblases -- Distribution and Assembly of TRP Ion Channels -- Regulation of Ion Channel Function by Gas Molecules -- DEG/ENaC ion channels in the function of the nervous system: from worm to man -- Glial chloride channels in the function of the nervous system across species -- Physiological and pathological relevance of selective and non-selective Ca2+ channels in skeletal and cardiac muscle -- Lysosomal TRPML1 Channel: Implications in Cardiovascular and Kidney Diseases -- Store-Operated Calcium Entry in the Cardiovascular System -- The role of thermosensitive ion channels in mammalian thermoregulation -- Mechanotransduction ion channels in hearing and touch -- The functional properties, physiological roles, channelopathy and pharmacological characteristics of the Slack (KCNT1) channel -- Ion Channels in Anesthesiology.

This book gathers relatively recent and significant topics in the field of ion channel research. Ion channels form the molecular basis for membrane excitability in cells from the cardiovascular and nervous systems. In many non-excitable cells, ion channels contribute to diverse function including secretion of signaling compounds like hormones and insulin, cell volume regulation, intracellular signaling especially Ca2+ signaling, etc. Many human diseases have been attributed to abnormal channel functions and defective membrane expression of channel proteins. On the other hand, ion channels are excellent models for studying protein biophysics, especially the allosteric regulation of protein function by miscellaneous stimuli. Therefore, researches on ion channels carry significant meaning for the understanding of basic protein biophysics and diverse physiological functions and for developing novel and effective treatment for related human diseases. This book could provide graduates and scientists in both basic and clinical levels, a comprehensive understanding of cutting-edge advances and a useful and stimulating platform for tackling their own questions about ion channels.

ISBN: 9789811642548

Standard No.: 10.1007/978-981-16-4254-8doiSubjects--Topical Terms:

636012
Human physiology.

LC Class. No.: QP34-38

Dewey Class. No.: 612

Ion Channels in Biophysics and Physiology
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520 $a This book gathers relatively recent and significant topics in the field of ion channel research. Ion channels form the molecular basis for membrane excitability in cells from the cardiovascular and nervous systems. In many non-excitable cells, ion channels contribute to diverse function including secretion of signaling compounds like hormones and insulin, cell volume regulation, intracellular signaling especially Ca2+ signaling, etc. Many human diseases have been attributed to abnormal channel functions and defective membrane expression of channel proteins. On the other hand, ion channels are excellent models for studying protein biophysics, especially the allosteric regulation of protein function by miscellaneous stimuli. Therefore, researches on ion channels carry significant meaning for the understanding of basic protein biophysics and diverse physiological functions and for developing novel and effective treatment for related human diseases. This book could provide graduates and scientists in both basic and clinical levels, a comprehensive understanding of cutting-edge advances and a useful and stimulating platform for tackling their own questions about ion channels.
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