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Light Transducing Membranes, Structure, Function, and Evolution
Light Transducing Structure, Function, and Evolution covers the proceedings of a joint United States-Australia conference held in Honolulu, Hawaii on December 1977. Organized into four parts encompassing 19 chapters, the book focuses on structural, functional, and evolutionary aspects of light energy transduction by membranes.
The first part of the book explores the problems of how membrane-related biomolecules could have evolved prior to the origin of life, how amphiphiles might have become organized in lipid bilayer structures, and what mechanisms may have been available for light energy transduction. The mechanisms by which ions, lipids, and proteins interact in membrane systems are described in the next part of the book. Some chapters in the third part of the book cover the analysis of several bacterial membranes as reconstituted, light transducing systems, providing a new tool for investigating basic mechanisms. Relevant aspects of mitochondrial energy transduction are also covered. Finally, the last part presents mechanism analysis by which intact bacteria and chloroplasts interact with light energy, which represent the end product of several billion of years of evolution.
Biological evolutionists, biologists, researchers, teachers, and students who are interested in various aspects of light transducing membranes will greatly benefit from this book.
The first part of the book explores the problems of how membrane-related biomolecules could have evolved prior to the origin of life, how amphiphiles might have become organized in lipid bilayer structures, and what mechanisms may have been available for light energy transduction. The mechanisms by which ions, lipids, and proteins interact in membrane systems are described in the next part of the book. Some chapters in the third part of the book cover the analysis of several bacterial membranes as reconstituted, light transducing systems, providing a new tool for investigating basic mechanisms. Relevant aspects of mitochondrial energy transduction are also covered. Finally, the last part presents mechanism analysis by which intact bacteria and chloroplasts interact with light energy, which represent the end product of several billion of years of evolution.
Biological evolutionists, biologists, researchers, teachers, and students who are interested in various aspects of light transducing membranes will greatly benefit from this book.
Hardcover
First published January 1, 2012
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About the author
David W. Deamer
22 books4 followersDavid Wilson Deamer (born April 21, 1939) is an American biologist and Research Professor of Biomolecular Engineering at the University of California, Santa Cruz. Deamer has made contributions to the field of membrane biophysics. His work led to a novel method of DNA sequencing and a more complete understanding of the role of membranes in the origin of life.
He was awarded a Guggenheim Fellowship in 1985, which supported research at the Australian National University in Canberra to investigate organic compounds in the Murchison meteorite. He served as the president of the International Society for the Study of the Origin of Life from 2013 to 2014.
He was awarded a Guggenheim Fellowship in 1985, which supported research at the Australian National University in Canberra to investigate organic compounds in the Murchison meteorite. He served as the president of the International Society for the Study of the Origin of Life from 2013 to 2014.
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