Bibliographic Information

Bioelectrochemistry

edited by Hendrik Keyzer and Felix Gutmann

Plenum Pres, c1980

Available at  / 15 libraries

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Note

Includes bibliographical references and index

Proceedings of the U.S.-Australia Joint Seminar on Bioelectrochemistry, Pasadena, Calif., July 9-12, 1979, which was sponsored by the U.S.-Australia Cooperative Science Program

Description and Table of Contents

Description

Bioelectrochemistry conferences. journals and texts are be­ ginning to proliferate and to attract researchers and scholars with a bent for multiple disciplines, electrochemistry, electrical engineering, physics, biology and medicine. With the development of highly sophisticated apparatus, new techniques and embracing skills, bioelectrochemistry represents the area where searching questions can now be asked about processes of Life itself, not only how sub­ stances interact in vivo but what distinguishes animate from in­ animate matter. During this Joint Seminar, for example, it was pointed out that a human liver alive appeared mauve while in the isolated state it is brown, even though it is capable of a comprehensive range of biochem­ ical activities ordinarily encountered in laboratory "in vivo" sit­ uations. Bioelectrochemical studies are beginning to elucidate the growth of bone, the genesis and division of living cells, the transfer of energy and matter from one compartment to other compartments in a living system, with great promise for curative and preventative medicine. The organizers of this Seminar have been truly fortunate to be able to bring together workers who have been intimately associated with the origins and development of some of the more powerful concepts which have stimulated progress in the field of bioelectrochemistry. These include the solid state, semiconduction and structured water. By a happy circumstance a number of Australian researchers in this field were present in the United States. or en route thereto, at about the proposed dates of the Seminar.

Table of Contents

Opening Address.- Section I: Bioelctrochemistry of Energy Transduction.- Electrodics in Bioelectrochemical Mechanisms.- An Electrodic Mechanism for Photosynthesis: Some Evidence.- Photo Effects, Space Charges and Energy Level Diagrams for Organic Solids.- Simulation of Photosynthesis, a Resource for Energy.- Conversion of Light Energy into a Proton Electrochemical Potential by Bacteriorhodopsin.- The Role of Electrochemistry in the Transduction of Light Energy by the Chloroplast Membrane.- Uses and Physicochemical Properties of the Photoprotein Aequorin.- Discussion.- Section II: Biological Charge Transfer.- Charge Transfer Complexes in Bioelectrochemistry.- Electrochemical Study of Drug Interactions.- Anion Charge Transfer in Biologically Active Systems.- One and Two Dimensional Solids as Possible Models for Biological Compounds.- Bioelectrochemistry, the Living State, and Electronic Conduction in Proteins.- Discussion.- Section III: Electrochemistry of Biological Interfaces and Transport.- Electrophoretic Cell Separation by Means of Immunomicrospheres.- Micro-dielectrophoresis of Dividing Cells.- Overvoltage and Solid State Kinetics of Reactions at Biological Interfaces. Cytochrome Oxidase, Photobiology, and Cation Transport. Therapy of Heart Disease and Cancer.- On a Molecular Basis of Anaesthesia.- Electrochemical Information Transfer at Cell Surfaces and Junctions — Application to the Study and Manipulation of Cell Regulation.- Discussion.- About the Contributors.

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