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Sodium reabsorbing epithelia play a major role in whole-body sodium homeostasis. Some examples of sodium regulating tissues include kidney, colon, lung, and sweat ducts. Sodium transport across these membranes is a two-step process: entry through an amiloride-sensitive sodium channel and exit via the ouabain-sensitive sodium/potassium ATPase. The sodium entry channels are the rate-limiting determinant for transport and are regulated by several different hormones. The sodium channels also play a significant role in a number of disease states, like hypertension, edema, drug-induced hyperkalemia, and cystic fibrosis. Amiloride-Sensitive Sodium Channels: Physiology and Functional Diversity provides the first in-depth exchange of ideas concerning these sodium channels, their regulation and involvement in normal and pathophysiological situations. - Summarizes current state of amiloride-sensitive sodium channel field - Analyzes structure-function of epithelial sodium channels - Discusses immunolocalization of epithelial sodium channels - Examines hormonal regulation of sodium channels - Discusses sodium channels in lymphocytes, kidney, and lung - Considers mechanosensitivity of sodium channels - Provides ideas on sodium channels and disease
Sodium reabsorbing epithelia play a major role in whole-body sodium homeostasis. Some examples of sodium regulating tissues include kidney, colon, lung, and sweat ducts. Sodium transport across these membranes is a two-step process: entry through an amiloride-sensitive sodium channel and exit via the ouabain-sensitive sodium/potassium ATPase. The sodium entry channels are the rate-limiting determinant for transport and are regulated by several different hormones. The sodium channels also play a significant role in a number of disease states, like hypertension, edema, drug-induced hyperkalemia, and cystic fibrosis. Amiloride-Sensitive Sodium Channels: Physiology and Functional Diversity provides the first in-depth exchange of ideas concerning these sodium channels, their regulation and involvement in normal and pathophysiological situations. Summarizes current state of amiloride-sensitive sodium channel field Analyzes structure-function of epithelial sodium channels Discusses immunolocalization of epithelial sodium channels Examines hormonal regulation of sodium channels Discusses sodium channels in lymphocytes, kidney, and lung Considers mechanosensitivity of sodium channels Provides ideas on sodium channels and disease
Na Channels from Phyla to Function, the latest volume in the Current Topics in Membranes series, is targeted toward scientists and researchers in biochemistry and molecular and cellular biology, providing the necessary membrane research to assist them in discovering the current state of a particular field and in learning where that field is heading. This volume offers an up-to-date presentation of the current knowledge in the field of Na Channels. Written by leading experts in the field of Na Channels Contains original material, both textual and illustrative, that make it a very relevant reference Presented in a very comprehensive manner Both researchers in the field and general readers will find this book relevant and up-to-date with regard to its information
This volume of Current Topics in Membranes focuses on Membrane Protein Crystallization, beginning with a review of past successes and general trends, then further discussing challenges of mebranes protein crystallization, cell free production of membrane proteins and novel lipids for membrane protein crystallization. This publication also includes tools to enchance membrane protein crystallization, technique advancements, and crystallization strategies used for photosystem I and its complexes, establishing Membrane Protein Crystallization as a needed, practical reference for researchers.
This volume focuses on the recent advances in understanding plasma membrane organization and function beginning with simple systems and extending to specialized membrane domains of vertebrate cells. - Written by leading experts in the field - Contains original material, both textual and illustrative, that should become a very relevant reference material - Presents material in a very comprehensive manner - Ideal for both researchers in the field and general readers who will find relevant and up-to-date information
Current Topics in Membranes is targeted toward scientists and researchers in biochemistry and molecular and cellular biology, providing the necessary membrane research to assist them in discovering the current state of a particular field and in learning where that field is heading. This volume covers recent breakthroughs in understanding the molecular and cellular basis for patterning vertebrate plasma membranes. A special emphasis is placed on physiological function with chapters covering signaling in the nervous system and heart, vision, and the immune system. - consolidates subjects normally dispersed in the literature - presents in one volume a subject that has undergone a recent molecular revolution - authors are primary contributors and in some cases the founding figures in their fields
This volume of Current Topics in Membranes focuses on Membrane Protein Crystallization, beginning with a review of past successes and general trends, then further discussing challenges of mebranes protein crystallization, cell free production of membrane proteins and novel lipids for membrane protein crystallization. This publication also includes tools to enchance membrane protein crystallization, technique advancements, and crystallization strategies used for photosystem I and its complexes, establishing Membrane Protein Crystallization as a needed, practical reference for researchers.
This volume draws together studies on the diverse group of calcium-activated chloride channels (CaCCS) in one comprehensive format. The characteristics of CaCCs identified in a number of different systems are described by experts in the field. Channels discussed include those described in cardiac, neuronal, endothelial and epithelial systems, in addition to sections on the CaCC of Xenopus Oocytes and the newly identified family of CLCA proteins. Key Features * Includes description of CaCCs in excitable and non-excitable tissues * Reviews identification and cloning of the CLCA protein family * Contains section on CaCCs in Xenopus Oocytes
Store-operated calcium channels are found in most animal cells and regulate many cellular functions including cell division, growth, differentiation, and cell death. This volume provides a concise and informative overview of the principles of store-operated calcium entry and the key developments in the field from researchers who have led these advances. The overall goal of the volume is to provide interested students and investigators with sufficient information to enable a broad understanding of the progress and current excitement in the field. The volume contains a wealth of information that even experienced investigators in the field will find useful. - The volume provides a comprehensive overview of the mechanisms and functions of store-operated calcium channels - Contributors are authoritative researchers who have produced important advances in the field - The volume is well-illustrated with cartoons and data to facilitate easy comprehension of the subject