Voltage-dependent capacitance in lipid bilayers made from monolayers. - Wikidata - awgldk - TriplyDB

Voltage-dependent capacitance in lipid bilayers made from monolayers.

Voltage-dependent capacitance in lipid bilayers made from monolayers.

http://www.wikidata.org/entity/Q34656066

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Dipole potentials indicate restructuring of the membrane interface induced by gadolinium and beryllium ions Dynamic response of model lipid membranes to ultrasonic radiation force.Surface potentials measure ion concentrations near lipid bilayers during rapid solution changes Solitonic conduction of electrotonic signals in neuronal branchlets with polarized microstructure.Sensitivity of prestin-based membrane motor to membrane thickness.Theory of electroporation of planar bilayer membranes: predictions of the aqueous area, change in capacitance, and pore-pore separation.Poloxamer 188 decreases susceptibility of artificial lipid membranes to electroporation.Dihydropyridine-sensitive skeletal muscle Ca channels in polarized planar bilayers. 1. Kinetics and voltage dependence of gating.Calculation of deformation energies and conformations in lipid membranes containing gramicidin channels.Energetics of inclusion-induced bilayer deformations Displacement currents associated with the insertion of Alzheimer disease amyloid beta-peptide into planar bilayer membranes Thermoelasticity of large lecithin bilayer vesicles.Voltage-dependent conductance induced by alamethicin-phospholipid conjugates in lipid bilayers.Pancuronium inactivates alamethicin-induced conductance in artificial membranes Effect of the anesthetics benzyl alcohol and chloroform on bilayers made from monolayers Measurement of the lateral compressibility of several phospholipid bilayers An experimental comparison between the continuum and single jump descriptions of nonactin-mediated potassium transport through black lipid membranes Mechanisms of Cs+ blockade in a Ca2+-activated K+ channel from smooth muscle.Planar bilayer membranes made from phospholipid monolayers form by a thinning process.Alamethicin adsorption to a planar lipid bilayer Large divalent cations and electrostatic potentials adjacent to membranes. Experimental results with hexamethonium.Formation of "solvent-free" black lipid bilayer membranes from glyceryl monooleate dispersed in squalene Ion transport mediated by the valinomycin analogue cyclo(L-Lac-L-Val-D-Pro-D-Val)3 in lipid bilayer membranes.Voltage-Gated Lipid Ion Channels Tonotopic relationships reveal the charge density varies along the lateral wall of outer hair cells.Common evolutionary origins of mechanosensitive ion channels in Archaea, Bacteria and cell-walled Eukarya.A modified cable formalism for modeling neuronal membranes at high frequencies Inactivation of the alamethicin-induced conductance caused by quaternary ammonium ions and local anesthetics.Tributyltin-mediated exchange diffusion of halides in lipid bilayers Thermodynamic and kinetic studies of the gating behavior of a K+-selective channel from the sarcoplasmic reticulum membrane.An amphipathic peptide from the C-terminal region of the human immunodeficiency virus envelope glycoprotein causes pore formation in membranes.Measured work of deformation and repulsion of lecithin bilayers.Voltage-dependent capacitance of human embryonic kidney cells.Mechano-capacitive properties of polarized membranes.Measurement of voltage dependence of capacitance of planar bilayer lipid membrane with a patch clamp amplifier.Spring constants for channel-induced lipid bilayer deformations. Estimates using gramicidin channels.Interaction of CAP18-derived peptides with membranes made from endotoxins or phospholipids.Inner field compensation as a tool for the characterization of asymmetric membranes and Peptide-membrane interactions.The Effect of the Nonlinearity of the Response of Lipid Membranes to Voltage Perturbations on the Interpretation of Their Electrical Properties. A New Theoretical Description Direct in situ measurement of specific capacitance, monolayer tension, and bilayer tension in a droplet interface bilayer.

P2860

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P2860

Voltage-dependent capacitance in lipid bilayers made from monolayers.

http://www.wikidata.org/entity/Q34656066

description

1978 nî lūn-bûn

@nan

1978 թուականի Յունուարին հրատարակուած գիտական յօդուած

@hyw

1978 թվականի հունվարին հրատարակված գիտական հոդված

@hy

1978年の論文

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1978年論文

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1978年論文

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1978年論文

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1978年論文

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1978年論文

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1978年论文

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name

Voltage-dependent capacitance in lipid bilayers made from monolayers.

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Voltage-dependent capacitance in lipid bilayers made from monolayers.

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Voltage-dependent capacitance in lipid bilayers made from monolayers.

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type

label

Voltage-dependent capacitance in lipid bilayers made from monolayers.

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Voltage-dependent capacitance in lipid bilayers made from monolayers.

@en

Voltage-dependent capacitance in lipid bilayers made from monolayers.

@nl

prefLabel

Voltage-dependent capacitance in lipid bilayers made from monolayers.

@ast

Voltage-dependent capacitance in lipid bilayers made from monolayers.

@en

Voltage-dependent capacitance in lipid bilayers made from monolayers.

@nl

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Biophysical Journal

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Voltage-dependent capacitance in lipid bilayers made from monolayers.

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Alvarez O

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Latorre R

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P2860

A quantitative description of membrane current and its application to conduction and excitation in nerve

Charge movement associated with the opening and closing of the activation gates of the Na channels

Currents related to movement of the gating particles of the sodium channels

Surface charge and the conductance of phospholipid membranes

Formation of bimolecular membranes from lipid monolayers and a study of their electrical properties

Nonactin-K+ complex as a probe for membrane asymmetry

Formation of planar bilayer membranes from lipid monolayers. A critique.

Letter: Comments on "electrical breakdown of bimolecular lipid membranes as an electromechanical instability".

Mechanics of electrocompression of lipid bilayer membranes.

The effects of a direct current potential bias on the electrical properties of bimolecular lipid membranes.

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1-17

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scholarly article

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10.1016/S0006-3495(78)85505-2

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1

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1473368

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