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- Wiley
More About This Title Fundamentals of Biophysics
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English
Biophysics is a science that comprises theoretical plotting and models based on contemporary physicochemical conceptions. They mirror physical specificity of the molecular organization and elementary processes in living organisms, which in their turn form the molecular basis of biological phenomena. Presentation of a complete course in biophysics requires vast biological material as well as additional involvement of state-of-the-art concepts in physics, chemistry and mathematics. This is essential for the students to “perceive” the specific nature and peculiarity of molecular biological processes and see how this specificity is displayed in biological systems. This is the essence of the up-to-date biophysical approach to the analysis of biological processes.
Fundamentals of Biophysics offers a complete, thorough coverage of the material in a straightforward and no-nonsense format, offering a new and unique approach to the material that presents the appropriate topics without extraneous and unneeded filler material.
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Andrey B. Rubin is a professor of biophysics at Lomonosov Moscow State University in the Department of Biophysics. Born in Russia, he is chair of the National Committee for Biophysics in the Russian Academy of Science. He was head of the Department of Biophysics at MSU, Governer of the Task Force on Education in Biophysics, and a member of the RAS Council on Space Biology and Biological membrane since 2005.?He has received many awards for his contributions to the science of biophysics, holds many patents and inventions, and authored of numerous papers. He is also on the editorial board of the journal, Biophysics, in the Russian language.
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English
Preface vii
1 Dynamic Properties of Biological Processes 1
2 Types of Dynamic Behavior of Biological Systems 17
3 Kinetics of Enzyme Processes 35
4 Distributed Biological Systems. Chaotic Processes 45
5 Mathematical Models in Ecology 61
6 Thermodynamics of Irreversible Processes in Biological Systems Near Equilibrium 77
7 Thermodynamics of Systems Far from Equilibrium 93
8 Physicochemical Principles of Biopolymer Structure 101
9 Intramolecular Dynamics of Proteins 121
10 Physical Models of Protein Dynamic Mobility 133
11 Energy Migration and Electron Transport in Biological Structures 141
12 Mechanisms of Enzyme Catalysis 151
13 Physicochemical Features of Biological Membranes. Ionic Equilibria 157
14 Passive Transport of Substances Across Membranes 171
15 Channels and Carriers. Active Transport 179
16 Transport of Ions in Excitable Membranes 185
17 Primary Processes of Energy Transformation in Photosynthesis 191
18 Energy Transformation in Biological Membranes 199
Further Reading 207
Index 209