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Preface | ||
1 | Interaction Forces between Membrane Surfaces: Role of Electrostatic Concepts | 3 |
2 | Time-Resolved Dynamics of Proton Diffusion at a Water-Membrane Interface | 27 |
3 | Role of Water in Proton Conductance across Model and Biological Membranes | 41 |
4 | Interfacial Ion Transport between Immiscible Liquids | 55 |
5 | Channel-Forming Peptides in Uniformly Aligned Multilayers of Membranes | 83 |
6 | Conformation and Mobility of Membrane Proteins in Electric Fields | 107 |
7 | Coupling between Bilayer Curvature Elasticity and Membrane Protein Activity | 129 |
8 | Characterization of Potentiometric Membrane Dyes | 151 |
9 | Water at the Macromolecular Surface: Solvation Energy and Functional Control | 177 |
10 | Connexin-32: A Protein That Forms Channels through One or Two Membranes | 197 |
11 | Structure and Function of Gap Junctions in the Photoreceptor Axon Terminals of the Fly | 225 |
12 | The Mitochondrial Voltage-Dependent Anion-Selective Channel | 245 |
13 | The Structural Basis of Peptide Channel Formation | 259 |
14 | Genetic Approaches to Electrogenic Proton Transport by a Yeast H[superscript +]-ATPase | 315 |
15 | Design Principles and Chemical Synthesis of Oligomeric Channel Proteins | 329 |
16 | Fractal Analysis of Channel Mechanisms | 357 |
17 | Noise in Biological Membranes and Relevant Ionic Systems | 375 |
18 | Laser Doppler Scattering for the Determination of Ionic Velocity Distributions in Channels and Membranes | 401 |
19 | Determination of Potassium- and Sodium-Channel Relaxation Times in Squid Nerve Fibers from Membrane Admittance Analysis | 415 |
20 | Electrochemical Model of Voltage-Gated Channels | 429 |
21 | Theory of Electroporation | 447 |
22 | Cytochrome c[subscript 3]: Properties and Recent Insights | 471 |
23 | Evaluation of Surface-Bound Membranes with Electrochemical Impedance Spectroscopy | 491 |
24 | Electronic Processes and Redox Reactions in Bilayer Lipid Membranes | 513 |
25 | Electrochemical Processes in Membranes That Contain Bacteriorhodopsin | 531 |
26 | Electroconformational Coupling: Enforced Conformational Oscillations of a Membrane Enzyme for Energy Transduction | 561 |
Author Index | 579 | |
Affiliation Index | 579 | |
Subject Index | 580 |
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Add Biomembrane Electrochemistry (Advances in Chemistry Series #235), Addresses the application of electrochemical techniques to biological membranes and channel processes. Explores the physical basis of biological sensory and energy transducing processing through a focus on the electrochemical properties of membrane p, Biomembrane Electrochemistry (Advances in Chemistry Series #235) to the inventory that you are selling on WonderClubX
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Add Biomembrane Electrochemistry (Advances in Chemistry Series #235), Addresses the application of electrochemical techniques to biological membranes and channel processes. Explores the physical basis of biological sensory and energy transducing processing through a focus on the electrochemical properties of membrane p, Biomembrane Electrochemistry (Advances in Chemistry Series #235) to your collection on WonderClub |