Handbook of ATPases – Biochemistry, Cell Biology, Pathophysiology

Masamitsu Futai is Professor of Biochemistry at Osaka University (Japan) and a Research Scientist at the Microbial Chemistry Center, Tokyo. He is also an Adjunct Professor of Kwangju Institute of Science and Technology (Republic of Korea). A native of Tokyo, he obtained his PhD degree from the University of Tokyo. He was a post-doctoral fellow at the University of Wisconsin and Cornell University where he worked with Gerald Mueller and Leon A. Hepell, respectively. He joined the faculty of Okayama University in 1977, and moved to Osaka University in 1985. He is interested in the ATP synthase, the vesicular proton pump ATPase and acidic organelles such as lysosomes. 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.

Preface. List of Contributors. PART I: P-TYPE ATPASES. 1. Yeast plasma-membrane H+-ATPase: Model System for Studies of Structure, Function, Biogenesis and Regulation (S. Lecchi & C. Slayman). 2. Regulation of the Sarco(endo)plasmic Reticulum Ca2+-ATPase by Phospholamban and Sarcolipin (D. McLennan & E. Kranias). 3. Catalysis and Transport Mechanism of the Sarco-(Endo)Plasmic Reticulum Ca2+-ATPase (SERCA) (G. Inesi & C. Toyoshima). 4. The Na,K-ATPase: A Current Overview (J. Kaplan). 5. Copper-Transporting ATPases: Key Regulators of Intracellular Copper Concentration (R. Tsivkovskii, et al.). 6. Bacterial Transport ATPases for Monovalent, Divalent and Trivalent Soft Metal Ions (M. Wong, et al.). 7. Gastric H+,K+-ATPase (J. Shin, et al.). 8. Plasma Membrane Calcium Pumps (E. Carafoli, et al.). PART II: F-TYPE ATPASES. 9. Proton Translocating ATPases: Introducing Unique Enzymes Coupling Catalysis and Proton Translocation through Mechanical Rotation (M. Futai, et al.). 10. Rotation of F1-ATPase (E. Muneyuki & M. Yoshida). 11. Coordinating Catalysis and Rotation in the F1-ATPase (R. Nakamoto, et al.). 12. ATP Synthase Stalk Subunits b, eth and e: Structures and Functions in Energy Coupling (S. Dunn, et al.). PART III: V-TYPE ATPASES. 13. Structure, Mechanism and Regulation of the Yeast and Coated Vesicle V-ATPases (E. Shao & M. Forgac). 14. Role of the V-ATPase in the Cellular Physiology of the Yeast Saccharomyces cerevisiae (L. Graham, et al.). 15. Vacuolar-Type Proton ATPases: Subunit Isoforms and Tissue-Specific Functions (G. Sun-Wada, et al.). PART IV: CELL BIOLOGY AND PATHOPHYSIOLOGY OF ATPASES AND THEIR COMPARTMENTS. 16. Physiological Role of Na,K-ATPases Isoforms (J. Lingrel, et al.). 17. Renal V-ATPase: Physiology and Pathophysiology (D. Brown & V. Marshansky). 18. Lytic Function of Vacuole and Molecular Dissection of Autophagy in Yeast (Y. Ohsumi). Index.