Calculation of deformation energies and conformations in lipid membranes containing gramicidin channels. - Wikidata - wikimedia - TriplyDB

Calculation of deformation energies and conformations in lipid membranes containing gramicidin channels.

Calculation of deformation energies and conformations in lipid membranes containing gramicidin channels.

http://www.wikidata.org/entity/Q34125871

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Membrane-protein interactions in mechanosensitive channels Regulation of sodium channel function by bilayer elasticity: the importance of hydrophobic coupling. Effects of Micelle-forming amphiphiles and cholesterol Continuum solvent model calculations of alamethicin-membrane interactions: thermodynamic aspects.United States--Australia workshop on membrane biophysics.Interactions of hydrophobic peptides with lipid bilayers: Monte Carlo simulations with M2delta.Theoretical analysis of hydrophobic matching and membrane-mediated interactions in lipid bilayers containing gramicidin.Lipid bilayer regulation of membrane protein function: gramicidin channels as molecular force probes Gramicidin channels are internally gated.A one-dimensional continuum elastic model for membrane-embedded gramicidin dimer dissociation.Common structural features in gramicidin and other ion channels.Gramicidin channels in phospholipid bilayers with unsaturated acyl chains A molecular model for lipid-protein interaction in membranes: the role of hydrophobic mismatch Interaction between inclusions embedded in membranes.Incorporation of surface tension into molecular dynamics simulation of an interface: a fluid phase lipid bilayer membrane.Gramicidin A channels switch between stretch activation and stretch inactivation depending on bilayer thickness On the supramolecular organization of gramicidin channels. The elementary conducting unit is a dimer The permeation properties of small organic cations in gramicidin A channels.Channel-forming bacterial toxins in biosensing and macromolecule delivery Gramicidin channel kinetics under tension.Energetics of inclusion-induced bilayer deformations Simulation study of a gramicidin/lipid bilayer system in excess water and lipid. I. Structure of the molecular complex.Inclusion-induced bilayer deformations: effects of monolayer equilibrium curvature.On the origin of closing flickers in gramicidin channels: a new hypothesis.Electron-spin resonance study of aggregation of gramicidin in dipalmitoylphosphatidylcholine bilayers and hydrophobic mismatch.Proton transfer in gramicidin channels is modulated by the thickness of monoglyceride bilayers.Cholesterol-induced protein sorting: an analysis of energetic feasibility A consistent model for thermal fluctuations and protein-induced deformations in lipid bilayers Volatile anesthetics inhibit sodium channels without altering bulk lipid bilayer properties.Thiazolidinedione insulin sensitizers alter lipid bilayer properties and voltage-dependent sodium channel function: implications for drug discovery Linear rate-equilibrium relations arising from ion channel-bilayer energetic coupling.Contributions of Gaussian curvature and nonconstant lipid volume to protein deformation of lipid bilayers.Influence of hydrophobic mismatch on structures and dynamics of gramicidin a and lipid bilayers.Lysophospholipids modulate channel function by altering the mechanical properties of lipid bilayers Membrane cholesterol content modulates activation of volume-regulated anion current in bovine endothelial cells.Three-dimensional stress field around a membrane protein: atomistic and coarse-grained simulation analysis of gramicidin A.Surface electrostatics of lipid bilayers by EPR of a pH-sensitive spin-labeled lipid.Phosphoinositides alter lipid bilayer properties.Assessing smectic liquid-crystal continuum models for elastic bilayer deformations.Membrane-protein interactions in a generic coarse-grained model for lipid bilayers Shared mechanisms in physiological and pathological nucleoplasmic reticulum formation

P2860

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P2860

Calculation of deformation energies and conformations in lipid membranes containing gramicidin channels.

http://www.wikidata.org/entity/Q34125871

description

1990 nî lūn-bûn

@nan

1990 թուականի Մայիսին հրատարակուած գիտական յօդուած

@hyw

1990 թվականի մայիսին հրատարակված գիտական հոդված

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1990年の論文

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1990年論文

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1990年論文

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1990年論文

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1990年論文

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1990年論文

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1990年论文

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Calculation of deformation ene ...... ontaining gramicidin channels.

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Calculation of deformation ene ...... ontaining gramicidin channels.

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Calculation of deformation ene ...... ontaining gramicidin channels.

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Calculation of deformation ene ...... ontaining gramicidin channels.

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Calculation of deformation ene ...... ontaining gramicidin channels.

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Calculation of deformation ene ...... ontaining gramicidin channels.

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Calculation of deformation ene ...... ontaining gramicidin channels.

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Calculation of deformation ene ...... ontaining gramicidin channels.

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Calculation of deformation ene ...... ontaining gramicidin channels.

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S0006-3495(90)82625-4

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Biophysical Journal

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Calculation of deformation ene ...... ontaining gramicidin channels.

@en

P2093

E Jakobsson

http://www.w3.org/2001/XMLSchema#string

P Helfrich

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P2860

The influence of phospholipid polar groups on gramicidin channels

Ion movement through gramicidin A channels. Single-channel measurements at very high potentials.

Thickness fluctuations in black lipid membranes.

Ion movement through gramicidin A channels. Interfacial polarization effects on single-channel current measurements.

Ion movement through gramicidin A channels. Studies on the diffusion-controlled association step

Strong electrolyte continuum theory solution for equilibrium profiles, diffusion limitation, and conductance in charged ion channels.

Ion-channel entrances influence permeation. Net charge, size, shape, and binding considerations.

Structure of gramicidin A.

Deformation free energy of bilayer membrane and its effect on gramicidin channel lifetime

How pore mouth charge distributions alter the permeability of transmembrane ionic channels.

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1075-1084

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scholarly article

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10.1016/S0006-3495(90)82625-4

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5

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1692748

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1280812

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