Handbook of ATPases
Biochemistry, Cell Biology, Pathophysiology
1. Auflage Juni 2004
XXIV, 469 Seiten, Hardcover
116 Abbildungen (40 Farbabbildungen)
11 Tabellen
Handbuch/Nachschlagewerk
Kurzbeschreibung
This handbook is the first comprehensive overview, summarizing recent knowledge on the molecular mechanism of ATPases, and systematically treating all important P-type, F-type and V-type ATPases.
With contributions by over 20 of the world's foremost ATPase research groups, this is the premier reference for physiologists, molecular biologists, biophysicists and clinical researchers.
ATP-dependent active ion transport enables cells to regulate their pH value and to control their ion composition. The reverse process, transforming an ion imbalance into chemical energy, drives mitochondrial and chloroplast ATP synthesis. The mediators of these fundamental processes are ion-motive ATPases, highly conserved enzymes that play key roles in cell physiology from bacteria to man.
As the first comprehensive overview of this important class of enzymes, this handbook summarizes recent knowledge about the molecular mechanism of ATPases, relating this information to the physiology and pathopyhsiology of ion transport, mitochondrial function, vesicle transport and lysosomal acidification. All important P-type, F-type and V-type ATPases are treated systematically, complemented by a special section on the cell biology and physiology of acidic compartments, and backed by an extensive bibliography and index.
This premier reference source for physiologists, molecular biologists, biophysicists and clinical researchers contains contributions by the world's foremost ATPase research groups.
Yeast plasma membrane H+-ATPase: a model system for studies of structure, function, biogenesis and regulation
Regulation of the Sarco(endo)plasmic Reticulum Ca2+ ATPase by Phospholamban and Sarcolipin
Catalysis and Transport Mechanism of the Sarco-(Endo)plasmic Reticulum Ca2+ ATPase (SERCA)
The Na/K ATPase - General Overview
Copper-transporting ATPases: The key regulators of intracellular copper concentration
Bacterial transport ATPases for Monovalent, Divalent and Trivalent Soft Metal Ions
The gastric H+,K+-ATPase
Plasma membrane calcium pumps
F-TYPE ATPASES
Proton Translocating ATPases: Unique Enzymes Coupling Catalysis and Proton Translocation by Mechanical Rotation
The Rotation of F1 ATPase
Coordinating Catalysis and Rotation in the F1-ATPase
ATP synthase stalk subunits b, delta and epsilon: structures and functions in energy coupling
V-TYPE ATPASES
The mammalian V-ATPase
The Role of the V-ATPase in the Cellular Physiology of the Yeast Saccharomyces cerevisiae
Vacuolar H+ Pumping ATPases in Luminal Acidic Organelles and Extracellular Compartments: Common Rotational Mechanism and Diverse Physiological Roles
CELL BIOLOGY AND PATHOPHYSIOLOGY OF ATPASES AND THEIR COMPARTMENTS
Physiological Role of Na+ Pump Isoforms
The Renal V-ATPase: Physiology and Pathophysiology
Lytic function of vacuole and molecular dissection of autophagy in yeast
"This book comprehensively covers the three types of ion pumping ATPases...very useful for researchers in the ATPase field."
E-STREAMS, May 2005
Yoh Wada is Associate Professor of Biochemistry and Molecular Biology at Osaka University (Japan). He obtained his PhD degree from the University of Tokyo and was a post-doctoral fellow at Rockefeller University where he worked with Gerald M. Edelman. He became an Assistant Professor at the University of Tokyo in 1992, and subsequently an Associate Professor at Osaka University. He is interested in organelle biogenesis, vesicle fusion and bioenergetics. He is also an expert of yeast and mouse genetics.
Jack Kaplan is the Benjamin Goldberg Professor and Head of Biochemistry and Molecular Genetics at the University of Illinois at Chicago. He was born and educated in England, where he received the PhD in Biophysics from London University. He has held faculty positions at the University of Iowa, the University of Pennsylvania and Oregon Health & Sciences University. He is interested in many aspects of membrane protein function with particular emphasis on ion pumps, as well as the application of chemical approaches to cellular physiology and biophysics. He was elected a Fellow of the Royal Society, in 1995.