Charge and field effects in biosystems--3
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Bibliographic Information
Charge and field effects in biosystems--3
Birkhäuser, 1992
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Based on the Third International Symposium on Charge and Field Effects in Biosystems, July 21-27, 1991, Virginia Commonwealth University
Includes bibliographical references
Description and Table of Contents
Description
We have again brought together for the Third International Symposium on Charge and Field Effects in Biosystems (July 21-27, 1991), a group of scientists whose interests reside in the fields of bioelectrochemistry, bioenergetics, and bioelectric phenomena. Like the previous symposia at the University of Nottingham (1983) and Virginia Commonwealth University (1989) the topics discussed were related to bioelectric phenomena, including solid state theoretical and experimental approaches to charge and energy transfer in biomolecular and cellular systems, ion and electron transport properties of biological and artifical membranes, the effects of electric fields on biological systems, photoinduced bioelectrochemical phenomena, and the applications of bioelectrochemical technology. The present conference also introduced procedures which may well serve to define the mechanisms of various bioelectrical phenomena, including electroporation for gene transfer and electro- fusion for hybridoma formation. Favorable comments made during and after the Symposium indicated that a further conference should be held. Tentatively, plans are being considered for 1993 or 1994. Milton 1. Allen Stephen F.
Cleary Arthur E. Sowers Donald D. Shillady Acknowledgments The Editors wish to express their thanks to Rinnie O'Connor, Diane Ruff, Rae Gerber, and lody Allen for their assistance in preparing the Symposium volume for publication. Our special thanks also to the reviewers who performed their tasks with enthusiastic promptness.
Table of Contents
Experimental Approaches to the Study of Charge and Energy Transfer in Biomolecular and Intact Cellular Systems.- Fresh Approaches and New Surprises with Iron-Sulfer Clusters.- Electrochemical Control of Protein Interactions with Solid Surfaces.- The Direct Electron Transfer Reactions of Cytochrome Oxidase Immobilized into a Membrane Modified Electrode.- Thermodynamic and Electrochemical Studies of the Electron Transfer Reactions of Hemoglobin.- The Effect of Adsorbed Iodine on the Electrical Conductivity of Phospholipid Films.- The Molecular Electrostatics of Glycosphingolipids in Oriented Interfaces.- Direct Energetic Interaction of Ion Transport Systems in Bacterial Membrane.- Ion and Electron Transport Properties of Biological and Artificial Membranes.- Electronic Behavior Differences in Muscle Membranes.- The Homeostatic Effect of Electronically Non-Compensated Hydroxyl (OH?), (Negative Hydroairions) on Phosphorylating Respiration in Highly Native Mitochondria.- Selection Rules of Helicity During Discrete Transitions of the Genome Conformational State in Intact and X-rayed Cells of E. Coli in Millimeter Range of Electromagnetic Field.- Visualization of Ionic Channels in a Lipid Membrane by Means of a Scanning Tunnelling Microscope and Future Possibilities for Application.- Study of the Influence of the Side Chain Dipoles of the Conductance of Ion Channels Formed by Gramacidin Analogues.- Idealized Model of Coupled Processes in Mitochondrial Proton Transfer.- Channel Gating by Divalent Cations and Protons.- Charge Transfer Effect on Coelomic Cells in Exalted Bioluminescence of Lampito Mauritii.- Emulsion Bioelectrochemistry: Bacteriorhodopsin Phototransfer of Protons Through the Interface Water/Lipid in Octane.- Effects of Electrochemical Processes and Electromagnetic Fields on Biological Systems.- Cellular Effects of Extremely Low Frequency Electromagnetic Fields (ELF).- Electropermeabilization of Human Cultured Cells Grown in Monolayers II. Control of Cell Proliferation and DNA-Replication.- Extremely Weak AC and DC Magnetic Fields Significantly Affect Myosin Phosphorylation.- The Sensitivity of Cells and Tissues to Weak Electromagnetic Fields.- Successful Gene Transfer in Plants using Electroporation and Electrofusion.- Effects of Ion Resonance Tuned Magnetic Fields on N-18 Murine Neuroblastoma Cells.- Exact Solutions of a Stochastic Model of Electroporation.- Time Course of Electropermeabilization.- Electronic Structure and Magnetic Circular Dichroism Studies of Proton Transfer by Histadine.- Photo-Induced Bioelectrochemical Processes.- Flavin Laser Flash Photolysis Studies of the Electron Transfer Mechanism in Redox Proteins.- Characterization of Charge Separation in Membrane Spinning Protein Reaction Centers of Bacterial Photosynthesis.- The Interaction of the Photoreceptor Cells with the Constant Electrical Field.- Resonance Raman Spectroscopy with Near Ultraviolet Excitation of Peroxidase Intermediates in High Oxidation States.- Photorespiration of the Monolayers of Hydrated Chlorophyll-A Oligomer.- Applications of Bioelectrochemical Technology.- The Coaxial-Pore Mechanism of Cell Membrane Electrofusion: Theory and Experiment.- Effect of Paramagnetic Lanthanide (III) Complexes of a Six-Nitrogen Macrocyclic Ligand on the Aqueous NMR Spectra of Amino Acids.- Model System for the Study of Gonorrhea Created by Cell-Tissue Electrofusion.- NMR Studies of the Interaction of Catechol and Ascorbic Acid with Poly(N-Vinylpyrrolidone) Polymer.- Frequency and Amplitude Dependence on the Effect of a Weak Oscillating Field on Biological Systems.- Large Volume Cell Electropermeabilization and Electrofusion by a Flow Cell Process.- Electric Field Induced Asymmetric Breakdown of Cell Membranes.- Membrane Electroconformational Changes: Progress in Theoretical Modelling of Electroporation and of Protein Protrusion Alteration.- Electrofusion Yield Modified by Membrane-Active Substances.
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