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Second-order Poisson Nernst-Planck solver for ion channel transportTests of continuum theories as models of ion channels. I. Poisson-Boltzmann theory versus Brownian dynamics.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.The formation and dynamics of proton wires in channel environments.Equivalence of two approaches for modeling ion permeation through a transmembrane channel with an internal binding siteReversal of charge selectivity in transmembrane protein pores by using noncovalent molecular adapters.ModFossa: A library for modeling ion channels using Python.Single ion occupancy and steady-state gating of Na channels in squid giant axon.Cystic fibrosis transmembrane conductance regulator. Physical basis for lyotropic anion selectivity patternsImage Charge Method for Reaction Fields in a Hybrid Ion-Channel ModelVariational multiscale models for charge transport.Multiscale Multiphysics and Multidomain Models I: Basic Theory.Modifications of alamethicin ion channels by substitution of Glu-7 for Gln-7.Dynamics of voltage profile in enzymatic ion transporters, demonstrated in electrokinetics of proton pumping rhodopsin.Energetics of ion permeation, rejection, binding, and block in gramicidin A from free energy simulations.Connexin hemichannels and cell-cell channels: comparison of properties.Poisson-Boltzmann-Nernst-Planck model.Test of Poisson-Nernst-Planck theory in ion channels.Ionic interactions in biological and physical systems: a variational treatment.Synthetic nanopores with fixed charges: an electrodiffusion model for ionic transport.Fractional Poisson-Nernst-Planck Model for Ion Channels I: Basic Formulations and Algorithms.Kernel representations for flux and concentration in ion channel models with time-varying concentrations.How the asymmetry of internal potential influences the shape of I-V characteristic of nanochannels.Equivalence of trans paths in ion channels.Kinetic models of ion transport through a nanopore.
P2860
Q30402421-A204EE2A-482B-4CF8-8226-2CD0ABCF8415Q34172986-0CC3950F-001D-4FB1-AD42-CF97637B46D7Q34172994-1DA92B4B-6E24-4B36-8033-B0C7D478DF9DQ34173372-950B63F7-B36F-4891-AD69-B20675056B6EQ34175283-C70FB480-26A8-40A1-A43B-4B69EFF6419EQ34922883-0C78E568-F58C-4E41-A1E7-7DFF6B59CFADQ35667285-FE1429A8-9D2F-4B7D-A0FB-84AF616A8C3BQ35942158-C1B14956-318C-40C3-BB42-E8DAAEC30CF3Q36412320-6326312B-3EAC-4DA8-A466-E6A64674A957Q36439003-2593E6A2-32B3-4EBD-A855-130E29E2C2A3Q36679910-DE62575C-4E75-4E20-B84C-53922E9F4F57Q38061625-33AF81C2-6D14-45E5-ABFF-069524BEB93CQ38266440-D46D5185-70E3-4FD5-97CE-8C6BAB8E1117Q40209823-29E16F04-1069-471A-A83D-F6F1CEB9CC08Q41668580-85A6B2C4-DB4D-4B42-A883-8C93BD095DC0Q42269231-C7FA4D2C-EEBE-4CA8-8360-08427BBF0A90Q42624638-33C85282-9CFA-4ADE-8A34-4B789D353DEEQ42771884-17D374A5-2DA1-433F-8B7C-0C44FA3F1D86Q43009280-272F02E9-067A-478C-B3C7-5B866A9B6D30Q47628412-56A55086-1D17-4681-B634-A9796D401C6DQ47669432-22F0B1FD-9E78-4C37-B858-1FD7519C8BA6Q47676893-BC9C9F93-530A-414B-8600-C460D3E1EB6EQ51929237-9079CEFE-CCFF-46DE-8A07-214526C40AE9Q51938379-782B09B3-679B-4A17-99BE-9C02E4CE6779Q51941329-6DCDEC6C-BF00-4F59-877F-611C689C5789Q52409717-97536B0D-8689-437A-9182-53EE9A7ACC5B
P2860
description
1999 nî lūn-bûn
@nan
1999 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
1999 թվականի հունիսին հրատարակված գիտական հոդված
@hy
1999年の論文
@ja
1999年論文
@yue
1999年論文
@zh-hant
1999年論文
@zh-hk
1999年論文
@zh-mo
1999年論文
@zh-tw
1999年论文
@wuu
name
Modeling of ion channels
@ast
Modeling of ion channels
@en
type
label
Modeling of ion channels
@ast
Modeling of ion channels
@en
prefLabel
Modeling of ion channels
@ast
Modeling of ion channels
@en
P2860
P921
P356
P1476
Modeling of ion channels
@en
P2093
D G Levitt
P2860
P304
P356
10.1085/JGP.113.6.789
P577
1999-06-01T00:00:00Z