The Resource Biomembrane electrochemistry, Martin Blank, editor, Igor Vodyanoy, editor
Biomembrane electrochemistry, Martin Blank, editor, Igor Vodyanoy, editor
Resource Information
The item Biomembrane electrochemistry, Martin Blank, editor, Igor Vodyanoy, editor represents a specific, individual, material embodiment of a distinct intellectual or artistic creation found in Missouri University of Science & Technology Library.This item is available to borrow from 1 library branch.
Resource Information
The item Biomembrane electrochemistry, Martin Blank, editor, Igor Vodyanoy, editor represents a specific, individual, material embodiment of a distinct intellectual or artistic creation found in Missouri University of Science & Technology Library.
This item is available to borrow from 1 library branch.
- Summary
- The fundamental membrane processes of living cells are electrical in nature. Each process involves charge movement in a specialized protein structure, where part of the protein forms a channel for the conduction of ions. A 5-year program initiated by the Office of Naval Research for electrochemical research on biological and model membranes explored the physical basis of biological sensory and energy-transducing processes by focusing on the electrochemical properties of integral membrane proteins associated with ion-transport processes. The electrochemical emphasis in the study of channels has led to some useful generalizations about the physical properties of integral membrane proteins and some of the specialized properties that depend on unique structures. Although many research papers were published as a result of this program, this volume summarizes the most important research accomplishments of the program and indicates the critical problems that require further research
- Language
- eng
- Extent
- xiv, 605 pages
- Contents
-
- Interaction Forces between Membrane Surfaces: Role of Electrostatic Concepts / Max L. Berkowitz
- Time-Resolved Dynamics of Proton Differusion at a Water-Membrane Interface / menachem Gutman
- Role ofWater in Proton Conductance across Model and Biological Membranes / D.W. Deamer
- Interfacial Ion Transport between Immiscible Liquids / Petr Vanysek
- Channel- Forming Peptides in Uniformly Aligned Multilayers of Membranes / Huey W. Huang
- Conformation and Mobility of Membrane Proteins in Electric Fields / I.R. Miller
- Coupling Between Bilayer Curvature Elasticity and Membrane Protein Activity / Sol M. Gruner
- Characterization of Potentiometric Membrane Dyes / Leslie M. Loew
- Water at the Macromolecular Surface: Solvation Energy and Functional Control / V. Adrian Parsegian
- Connexin-32 A Protein That Forms Channels Through One or Two Membranes / Andrew L. Harris
- Structure and function of Gap Junctions in the Photoreceptor Axon Terminals of the Fly / Michael J. Wilcox
- The Mitochondrial Voltage-Dependent Anion-Selective Channel / Marco Colombini
- The structural Basis of Peptide Channel Formation / Garland R. Marshall
- genetic Approaches to Electrogenic Proton Transport by a Yeast H-ATPase / D.S. Perlin
- Design Principles and Chemical Synthesis of Oligomeric Channel Proteins /John M. Tomich
- Fractal Analysis of Channel Mechanisms / Larry S. Liebovitch
- Noise in Biological Membranes and Relevant Ionic Systems / S.M. Bezrukov
- Laser Doppler Scattering for the Determination of Ionic Velocity Distributions in Channels and Membranes / Felipe Macias
- Determination of Potassium- and Sodium-Channel Relaxation Times in Squid Nerve Fibers from Membrane Admittance Analysis / Harvey M. Fishman
- Electtrochemical Model of Voltage-Gated Channels / Martin Blank
- Theory of Electroporation / James C. Weaver
- Cytochrome Properties and recent Insights / M.A. Cusanovich
- Evaluation of Surface-Bound Membranes with Electrochemical Impedance Spectroscopy / Jianguo Li
- Electronic Processes and Redox Reactions in Bilayer Lipid Membranes / H. Ti Tien
- Electrochemical Processes in Membranes That Contain Bacteriorhodopsin / Felix T. Hong
- Electroconformation Coupling: Enforced Conformational Oscillations of a Membrane Enzyme for Energy Transduction / Tian Y. Tsong
- Isbn
- 9780841225244
- Label
- Biomembrane electrochemistry
- Title
- Biomembrane electrochemistry
- Statement of responsibility
- Martin Blank, editor, Igor Vodyanoy, editor
- Language
- eng
- Summary
- The fundamental membrane processes of living cells are electrical in nature. Each process involves charge movement in a specialized protein structure, where part of the protein forms a channel for the conduction of ions. A 5-year program initiated by the Office of Naval Research for electrochemical research on biological and model membranes explored the physical basis of biological sensory and energy-transducing processes by focusing on the electrochemical properties of integral membrane proteins associated with ion-transport processes. The electrochemical emphasis in the study of channels has led to some useful generalizations about the physical properties of integral membrane proteins and some of the specialized properties that depend on unique structures. Although many research papers were published as a result of this program, this volume summarizes the most important research accomplishments of the program and indicates the critical problems that require further research
- Cataloging source
- DLC
- Illustrations
- illustrations
- Index
- index present
- Literary form
- non fiction
- Nature of contents
- bibliography
- http://library.link/vocab/relatedWorkOrContributorDate
-
- 1933-
- 1947-
- http://library.link/vocab/relatedWorkOrContributorName
-
- Blank, Martin
- Vodyanoy, Igor
- Series statement
- Advances in chemistry series
- Series volume
- 235
- http://library.link/vocab/subjectName
-
- Cell membranes
- Bioelectrochemistry
- Cell Membrane
- Biological Transport
- Electrochemistry
- Ion Channels
- Label
- Biomembrane electrochemistry, Martin Blank, editor, Igor Vodyanoy, editor
- Bibliography note
- Includes bibliographical references and indexes
- Carrier category
- volume
- Carrier category code
-
- nc
- Carrier MARC source
- rdacarrier
- Content category
- text
- Content type code
-
- txt
- Content type MARC source
- rdacontent
- Contents
- Interaction Forces between Membrane Surfaces: Role of Electrostatic Concepts / Max L. Berkowitz -- Time-Resolved Dynamics of Proton Differusion at a Water-Membrane Interface / menachem Gutman -- Role ofWater in Proton Conductance across Model and Biological Membranes / D.W. Deamer -- Interfacial Ion Transport between Immiscible Liquids / Petr Vanysek -- Channel- Forming Peptides in Uniformly Aligned Multilayers of Membranes / Huey W. Huang -- Conformation and Mobility of Membrane Proteins in Electric Fields / I.R. Miller -- Coupling Between Bilayer Curvature Elasticity and Membrane Protein Activity / Sol M. Gruner -- Characterization of Potentiometric Membrane Dyes / Leslie M. Loew -- Water at the Macromolecular Surface: Solvation Energy and Functional Control / V. Adrian Parsegian -- Connexin-32 A Protein That Forms Channels Through One or Two Membranes / Andrew L. Harris -- Structure and function of Gap Junctions in the Photoreceptor Axon Terminals of the Fly / Michael J. Wilcox -- The Mitochondrial Voltage-Dependent Anion-Selective Channel / Marco Colombini -- The structural Basis of Peptide Channel Formation / Garland R. Marshall -- genetic Approaches to Electrogenic Proton Transport by a Yeast H-ATPase / D.S. Perlin -- Design Principles and Chemical Synthesis of Oligomeric Channel Proteins /John M. Tomich -- Fractal Analysis of Channel Mechanisms / Larry S. Liebovitch -- Noise in Biological Membranes and Relevant Ionic Systems / S.M. Bezrukov -- Laser Doppler Scattering for the Determination of Ionic Velocity Distributions in Channels and Membranes / Felipe Macias -- Determination of Potassium- and Sodium-Channel Relaxation Times in Squid Nerve Fibers from Membrane Admittance Analysis / Harvey M. Fishman -- Electtrochemical Model of Voltage-Gated Channels / Martin Blank -- Theory of Electroporation / James C. Weaver -- Cytochrome Properties and recent Insights / M.A. Cusanovich -- Evaluation of Surface-Bound Membranes with Electrochemical Impedance Spectroscopy / Jianguo Li -- Electronic Processes and Redox Reactions in Bilayer Lipid Membranes / H. Ti Tien -- Electrochemical Processes in Membranes That Contain Bacteriorhodopsin / Felix T. Hong -- Electroconformation Coupling: Enforced Conformational Oscillations of a Membrane Enzyme for Energy Transduction / Tian Y. Tsong
- Control code
- 28412276
- Dimensions
- 24 cm
- Extent
- xiv, 605 pages
- Isbn
- 9780841225244
- Lccn
- 93024348
- Media category
- unmediated
- Media MARC source
- rdamedia
- Media type code
-
- n
- Other physical details
- illustrations (some color)
- System control number
- (WaOLN)1589884
- Label
- Biomembrane electrochemistry, Martin Blank, editor, Igor Vodyanoy, editor
- Bibliography note
- Includes bibliographical references and indexes
- Carrier category
- volume
- Carrier category code
-
- nc
- Carrier MARC source
- rdacarrier
- Content category
- text
- Content type code
-
- txt
- Content type MARC source
- rdacontent
- Contents
- Interaction Forces between Membrane Surfaces: Role of Electrostatic Concepts / Max L. Berkowitz -- Time-Resolved Dynamics of Proton Differusion at a Water-Membrane Interface / menachem Gutman -- Role ofWater in Proton Conductance across Model and Biological Membranes / D.W. Deamer -- Interfacial Ion Transport between Immiscible Liquids / Petr Vanysek -- Channel- Forming Peptides in Uniformly Aligned Multilayers of Membranes / Huey W. Huang -- Conformation and Mobility of Membrane Proteins in Electric Fields / I.R. Miller -- Coupling Between Bilayer Curvature Elasticity and Membrane Protein Activity / Sol M. Gruner -- Characterization of Potentiometric Membrane Dyes / Leslie M. Loew -- Water at the Macromolecular Surface: Solvation Energy and Functional Control / V. Adrian Parsegian -- Connexin-32 A Protein That Forms Channels Through One or Two Membranes / Andrew L. Harris -- Structure and function of Gap Junctions in the Photoreceptor Axon Terminals of the Fly / Michael J. Wilcox -- The Mitochondrial Voltage-Dependent Anion-Selective Channel / Marco Colombini -- The structural Basis of Peptide Channel Formation / Garland R. Marshall -- genetic Approaches to Electrogenic Proton Transport by a Yeast H-ATPase / D.S. Perlin -- Design Principles and Chemical Synthesis of Oligomeric Channel Proteins /John M. Tomich -- Fractal Analysis of Channel Mechanisms / Larry S. Liebovitch -- Noise in Biological Membranes and Relevant Ionic Systems / S.M. Bezrukov -- Laser Doppler Scattering for the Determination of Ionic Velocity Distributions in Channels and Membranes / Felipe Macias -- Determination of Potassium- and Sodium-Channel Relaxation Times in Squid Nerve Fibers from Membrane Admittance Analysis / Harvey M. Fishman -- Electtrochemical Model of Voltage-Gated Channels / Martin Blank -- Theory of Electroporation / James C. Weaver -- Cytochrome Properties and recent Insights / M.A. Cusanovich -- Evaluation of Surface-Bound Membranes with Electrochemical Impedance Spectroscopy / Jianguo Li -- Electronic Processes and Redox Reactions in Bilayer Lipid Membranes / H. Ti Tien -- Electrochemical Processes in Membranes That Contain Bacteriorhodopsin / Felix T. Hong -- Electroconformation Coupling: Enforced Conformational Oscillations of a Membrane Enzyme for Energy Transduction / Tian Y. Tsong
- Control code
- 28412276
- Dimensions
- 24 cm
- Extent
- xiv, 605 pages
- Isbn
- 9780841225244
- Lccn
- 93024348
- Media category
- unmediated
- Media MARC source
- rdamedia
- Media type code
-
- n
- Other physical details
- illustrations (some color)
- System control number
- (WaOLN)1589884
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