General continuum theory for multiion channel. I. Theory.
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Interacting ions in biophysics: real is not idealModeling and simulation of ion channels.Ionic hopping defended.Modeling of ion channelsMolecular dynamics study of free energy profiles for organic cations in gramicidin A channelsTesting the applicability of Nernst-Planck theory in ion channels: comparisons with Brownian dynamics simulations.Energy barrier presented to ions by the vestibule of the biological membrane channelZero-current potentials in a large membrane channel: a simple theory accounts for complex behavior.The barrel-stave model as applied to alamethicin and its analogs reevaluatedIon flow in the bath and flux interactions between channels.Tests of continuum theories as models of ion channels. II. Poisson-Nernst-Planck theory versus brownian dynamics.Three-dimensional Poisson-Nernst-Planck theory studies: influence of membrane electrostatics on gramicidin A channel conductance.Origins of proton transport behavior from selectivity domain mutations of the aquaporin-1 channel.Charge delocalization in proton channels, I: the aquaporin channels and proton blockageProton transport behavior through the influenza A M2 channel: insights from molecular simulation.Gap junction channels exhibit connexin-specific permeability to cyclic nucleotides.Acid activation mechanism of the influenza A M2 proton channel.General continuum theory for multiion channel. II. Application to acetylcholine channel.Ionic transport in lipid bilayer membranes.Electrostatics and the ion selectivity of ligand-gated channels.A lattice relaxation algorithm for three-dimensional Poisson-Nernst-Planck theory with application to ion transport through the gramicidin A channel.Protonation of lysine residues inverts cation/anion selectivity in a model channel.Physical origin of selectivity in ionic channels of biological membranes.Why can't protons move through water channels?Intrinsic rectification of ion flux in alamethicin channels: studies with an alamethicin dimer.Molecular dynamics study of water and Na+ ions in models of the pore region of the nicotinic acetylcholine receptor.Particle tracking model of electrophoretic morphogen movement reveals stochastic dynamics of embryonic gradient.Kernel representations for flux and concentration in ion channel models with time-varying concentrations.Equivalence of trans paths in ion channels.Malignant hyperthermia: skeletal muscle defect(s) predisposing to labile Ca2+ regulation?
P2860
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P2860
General continuum theory for multiion channel. I. Theory.
description
1991 nî lūn-bûn
@nan
1991年の論文
@ja
1991年論文
@yue
1991年論文
@zh-hant
1991年論文
@zh-hk
1991年論文
@zh-mo
1991年論文
@zh-tw
1991年论文
@wuu
1991年论文
@zh
1991年论文
@zh-cn
name
General continuum theory for multiion channel. I. Theory.
@en
General continuum theory for multiion channel. I. Theory.
@nl
type
label
General continuum theory for multiion channel. I. Theory.
@en
General continuum theory for multiion channel. I. Theory.
@nl
prefLabel
General continuum theory for multiion channel. I. Theory.
@en
General continuum theory for multiion channel. I. Theory.
@nl
P2860
P1433
P1476
General continuum theory for multiion channel. I. Theory.
@en
P2093
P2860
P304
P356
10.1016/S0006-3495(91)82220-2
P407
P577
1991-02-01T00:00:00Z