Charge and Field Effects in Biosystems—3
| Main Author: | |
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| Format: | eBook |
| Language: | English |
| Published: |
Boston, MA
Birkhäuser
1992, 1992
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| Edition: | 1st ed. 1992 |
| Subjects: | |
| Online Access: | |
| Collection: | Springer Book Archives -2004 - Collection details see MPG.ReNa |
Table of Contents:
- 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 andElectromagnetic Fields on Biological Systems
- Cellular Effects of Extremely Low Frequency Electromagnetic Fields (ELF)
- Membrane Electroconformational Changes: Progress in Theoretical Modelling of Electroporation and of Protein Protrusion Alteration
- Electrofusion Yield Modified by Membrane-Active Substances
- 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
- 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 Fieldon Biological Systems
- Large Volume Cell Electropermeabilization and Electrofusion by a Flow Cell Process
- Electric Field Induced Asymmetric Breakdown of Cell Membranes
- 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