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Current Topics in Membranes and Transport
Membrane Proteins contains the proceedings of the 11th Meeting of the Federation of European Biochemical Societies, held in Copenhagen, Denmark in 1977. The meeting provided a forum for discussing progress that has been made in understanding membrane proteins. Topics covered range from hydrogen and electron transfer in mitochondria to energy-transferring systems as well as ATPases and hormone receptors. Comprised of 31 chapters, this volume begins by reporting the results of a study that examined the state of association of several important membrane proteins. The discussion then turns to future prospects for membrane structures; hydrogen and electron transfer in mitochondria; and the molecular mechanism of the respiratory chain proton pump. Subsequent chapters explore energy coupling in reconstituted segments of the respiratory chain; retinal-protein interaction in bacteriorhodopsin; the functional significance of protein-protein interactions in the sarcoplasmic reticulum; and the role of calcium in the action of insulin. This book will be of interest to biochemists.
This unique volume provides an integrated overview of the subject of monovalent cations, specifically aimed at students and researchers. It is divided into two parts: the first deals with the processes by which monovalent cations are transported across biological membranes; the second deals with the processes that are affected by changes in intracellular cations. Each chapter describes in simple biochemical terms the interaction between one or more monovalent cations and a particular biological system of importance to current understanding of body function in health and disease. This useful publication is invaluable to students and researchers in biochemistry, physiology, neurology, pharmacology, anesthesiology, cardio-pulmonology, hematology, laboratory medicine, endocrinology, gastroenterology, internal medicine, psychiatry, urology, biomedical physics and medical nutrition.
The development of molecular biological techniques and their application in the field has given a new dimension to the area of membrane transport. The combination of biochemical (site-specific reagents), molecular biological (site-directed mutagenesis) and genetic approaches of which this volume gives numerous examples in combination with biophysical techniques as X-ray analysis and NMR will eventually lead to a complete elucidation of the mechanism of action of these transport proteins.Although impossible to give a comprehensive overview of this rapidly expanding field, the expert contributors discuss: pumps involved in primary active transport, carriers which transport metabolites, and channels which allow selective passive transport of particular ions.This volume is ideal for teachers, students and investigators in this field, and will lead to further progress in our understanding of this fascinating field.
This work is a collection of short reviews on membranes and transport. It portrays the field as a mosaic of bright little pieces, which are interesting in themselves but gain full signif icance when viewed as a whole. Traditional boundaries are set aside and biochemists, biophysicists, physiologists, and cell biologists enter into a natural discourse. The principal motivation of this work was to ease the problems of communication that arose from the explosive growth and interdisciplinary character of membrane research. In these volumes we hope to provide a readily available comprehensive source of critical information covering many of the exciting, recent developments on the structure, biosy...
This book describes a half century of research on cellular membrane transport and on metabolic energy capture and utilization. During this time-which begins in the late 1930s-the effort and imagination of various scientists overthrew reigning formulations, created novel explanatory models, and unified previously distinct experimental fields. My primary goal is to display the course of that research, showing how new experiments defined novel entities and processes, and how an encompassing field, bioenergetics, then emerged. A secondary goal is to present examples of mainstream biological research that illustrate how experimental results-seen as refutations, confirmations, and elabora tions-ca...
The sodium of animal cell membranes converts the chemical energy obtained from the hydrolysis of adenosine 5' -triphosphate into a movement of the cations Na + and K + against an electrochemical gradient. The gradient is used subse quently as an energy source to drive the uptake of metabolic substrates in polar epithelial cells and to use it for purposes of communications in excitable cells. The biological importance of the sodium pump is evident from the fact that be tween 20-70% of the cell's metabolic energy is consumed for the pumping pro cess. Moreover, the sodium pump is an important biological system involved in regulatory processes like the maintenance of the cells' and organism's wa...
Biochemical Aspects of Renal Function is a collection of papers from the Fifth International Symposium on the Biochemical Aspects of Renal Function. The materials presented details the advancement in the understanding of various areas in the biochemistry of renal function. The title first covers the metabolic studies in kidney, and then proceeds to tackling intermediary metabolism and its regulation. Next, the selection discusses the biochemistry of filtration and reabsorption. The last chapter covers renal work and ATP. The book will be of great interest to students, researchers, and practitioners of medicine, biochemistry, and physiological sciences.
First multi-year cumulation covers six years: 1965-70.