Tests of continuum theories as models of ion channels. II. Poisson-Nernst-Planck theory versus brownian dynamics. - Wikidata - wikimedia - TriplyDB

Tests of continuum theories as models of ion channels. II. Poisson-Nernst-Planck theory versus brownian dynamics.

Tests of continuum theories as models of ion channels. II. Poisson-Nernst-Planck theory versus brownian dynamics.

http://www.wikidata.org/entity/Q34172994

about

Mechanisms of permeation and selectivity in calcium channels Hierarchical approach to predicting permeation in ion channels Simulation of polymer translocation through protein channels Modeling and simulation of ion channels.Ion conduction through MscS as determined by electrophysiology and simulation.Continuum electrostatics fails to describe ion permeation in the gramicidin channel.Poisson-Nernst-Planck models of nonequilibrium ion electrodiffusion through a protegrin transmembrane pore.Molecular dynamics simulations of membrane proteins.Simulation of charge transport in ion channels and nanopores with anisotropic permittivity.Testing the applicability of Nernst-Planck theory in ion channels: comparisons with Brownian dynamics simulations.Tests of continuum theories as models of ion channels. I. Poisson-Boltzmann theory versus Brownian dynamics.Model channel ion currents in NaCl-extended simple point charge water solution with applied-field molecular dynamics Reservoir boundaries in Brownian dynamics simulations of ion channels.Modeling diverse range of potassium channels with Brownian dynamics.The role of Trp side chains in tuning single proton conduction through gramicidin channels.Role of the dielectric constants of membrane proteins and channel water in ion permeation.Dielectric self-energy in Poisson-Boltzmann and Poisson-Nernst-Planck models of ion channels.The role of the dielectric barrier in narrow biological channels: a novel composite approach to modeling single-channel currents SIMULATION OF ION CONDUCTION IN α-HEMOLYSIN NANOPORES WITH COVALENTLY ATTACHED β-CYCLODEXTRIN BASED ON BOLTZMANN TRANSPORT MONTE CARLO MODEL.Salting out the ionic selectivity of a wide channel: the asymmetry of OmpF Ion permeation through the alpha-hemolysin channel: theoretical studies based on Brownian dynamics and Poisson-Nernst-Plank electrodiffusion theory Ion transport through membrane-spanning nanopores studied by molecular dynamics simulations and continuum electrostatics calculations.Electrostatic properties of the mechanosensitive channel of small conductance MscS.Rectification of the current in alpha-hemolysin pore depends on the cation type: the alkali series probed by MD simulations and experiments The effect of translocating cylindrical particles on the ionic current through a nanopore Conduction properties of KcsA measured using brownian dynamics with flexible carbonyl groups in the selectivity filter.Simulating Current-Voltage Relationships for a Narrow Ion Channel Using the Weighted Ensemble Method.Physics of ion channels.Permeation models and structure-function relationships in ion channels.The anomalous mole fraction effect in calcium channels: a measure of preferential selectivity Influence of concentration polarization on DNA translocation through a nanopore.Single-channel current through nicotinic receptor produced by closure of binding site C-loop.Reinterpreting the anomalous mole fraction effect: the ryanodine receptor case study.Effects of exogenous electromagnetic fields on a simplified ion channel model.Application of the Poisson-Nernst-Planck theory with space-dependent diffusion coefficients to KcsA.Multiscale modeling of a rectifying bipolar nanopore: Comparing Poisson-Nernst-Planck to Monte Carlo.Understanding pH-dependent selectivity of alamethicin K18 channels by computer simulation.Why can't protons move through water channels?Diffusion of Charged Species in Liquids.Dynamics of voltage profile in enzymatic ion transporters, demonstrated in electrokinetics of proton pumping rhodopsin.

P2860

Q28346206-56674FFF-9714-4C65-8827-0AC008DD1E2D Q28361950-E32007FD-0DAA-4A07-A211-313DBE616960 Q30159857-1A01EEF0-65C8-4F54-89B3-952F3ED7B465 Q30443341-1B780A6D-959F-496E-85EE-C3785F905636 Q30443788-A03BE348-A2A2-441E-AD80-01CE3EFEB1B7 Q30717229-5296AE57-747E-41A1-9F70-8FD451D8C187 Q33404057-59EF0971-A5A9-44B6-8399-06520C236AE3 Q33639627-1750F708-0D1D-418F-B256-59515FF131DD Q33824341-42CD945E-A2CF-4183-80BE-680213EFDE1F Q33952222-D534EE98-AA39-4A6B-BE86-9388435EF4CB Q34172986-EB647C6B-D3F8-4B9A-BCD9-166A2B4D7BB7 Q34176931-1889C8F2-B4EC-4DFC-A1B5-E80D3DC4CE2A Q34177614-0062DE5D-0608-4AFD-A8B9-CB5F2935443A Q34178294-0FCA240A-572A-40B1-9C42-E5E382EFF394 Q34178476-17C075CD-D523-49C4-A811-4910D6A8AD1C Q34181025-6E9C9DB7-10A8-49FC-8098-CA5807FC70E5 Q34181386-661EC9CF-BAA3-484F-8659-5EDDE28D848B Q34181406-317B6D3D-EAA4-429F-B2F1-E2C5E6E36ACE Q34184114-F4D06367-9BB7-4261-AC30-AC57EAA8E3EB Q34186770-DB01E161-2372-43ED-9DEF-2B220CDB3D4F Q34187301-B6A8DC5F-8696-40BC-B8D1-71C514B3CBE2 Q34351284-6C9D5035-F9A6-4B8D-8291-79D28E176FBF Q34546911-D99820E2-9AC5-476A-80E6-C182CE77AA0A Q35171840-A7B89174-3106-4114-B931-F1D93B7592CA Q35613626-B953B873-2444-409D-932D-A5C9A7865C8F Q35881292-E1A2CA99-2EB9-4173-BCDF-20633A4BA2E4 Q36069614-2FA010EA-A8DD-4645-914C-F31B0C67D9C8 Q36273195-4386252D-B531-41F6-B81E-115346B14E5B Q36274613-13F11A8E-E974-495C-9E3F-0994065E1004 Q36856444-6E5D62D7-402C-4321-BDDF-CAB457C23DC0 Q37012321-06908CD7-FFEC-4000-841F-ED00D96DAE30 Q37263502-23670F36-F764-4868-A31A-E526D1F476C9 Q37392654-CC15F0E1-C52F-47DD-AAF5-570631410FF9 Q38279755-8C248764-3122-4C9F-BA45-AC35EDD34470 Q38719249-CBCB9599-9DEE-4D98-BA9E-0F2831A0BE12 Q38847964-A679188F-9EE5-42E7-AD60-C722D82C03D8 Q40230594-71D5EC8D-3739-4324-993C-DCED33E898A5 Q40262805-7C550763-A1E1-42DA-99D3-E7E4A66816F4 Q41482174-8278AFDA-50B8-4CA9-8B72-FC96F390673D Q41668580-6A6669E4-2DAD-47CB-B9C0-0657FD5A27E5

P2860

Tests of continuum theories as models of ion channels. II. Poisson-Nernst-Planck theory versus brownian dynamics.

http://www.wikidata.org/entity/Q34172994

description

2000 nî lūn-bûn

@nan

2000 թուականի Մայիսին հրատարակուած գիտական յօդուած

@hyw

2000 թվականի մայիսին հրատարակված գիտական հոդված

@hy

2000年の論文

@ja

2000年論文

@yue

2000年論文

@zh-hant

2000年論文

@zh-hk

2000年論文

@zh-mo

2000年論文

@zh-tw

2000年论文

@wuu

name

Tests of continuum theories as ...... eory versus brownian dynamics.

@ast

Tests of continuum theories as ...... eory versus brownian dynamics.

@en

Tests of continuum theories as ...... eory versus brownian dynamics.

@nl

type

label

Tests of continuum theories as ...... eory versus brownian dynamics.

@ast

Tests of continuum theories as ...... eory versus brownian dynamics.

@en

Tests of continuum theories as ...... eory versus brownian dynamics.

@nl

prefLabel

Tests of continuum theories as ...... eory versus brownian dynamics.

@ast

Tests of continuum theories as ...... eory versus brownian dynamics.

@en

Tests of continuum theories as ...... eory versus brownian dynamics.

@nl

P1433

Q34172994-1B2F5EE1-4808-4B60-8FF8-45527E54157C

P1476

Q34172994-75BF44D3-9BCB-41F7-8C39-F269DBC9F591

P2093

Q34172994-0E6E59EF-1E25-4E97-820C-FBBFDFBB298A

Q34172994-135484AF-17FB-4F54-B79F-F08A70986F6F

Q34172994-CE195259-8987-4A1D-9890-83932EA4E08A

P2860

Q34172994-03FD5826-3498-4933-BE30-D8AB63C52984

Q34172994-1DA92B4B-6E24-4B36-8033-B0C7D478DF9D

Q34172994-2F342849-7BAE-466E-95E0-9EFB532557C0

Q34172994-3101078A-4EE5-427B-9137-789EAD4D9F17

Q34172994-63D207B8-B5AD-4920-A1BF-B74E466D9F37

Q34172994-7673DDE4-8FE9-4BCD-B43C-E94A35E47A08

Q34172994-768E9E7C-FD10-46A3-9E98-989E1000C5C1

Q34172994-7B7CA345-177B-4D59-BC27-9F2AE73C2C5B

Q34172994-7F965F02-75E4-48C2-A444-99C8106F4267

Q34172994-8D8110F9-4A2B-4320-B222-F32D7D68A42A

P304

Q34172994-123C0092-7863-4A23-81E8-B1902E35EED4

P31

Q34172994-6E7F37EA-438C-4EAC-89B5-4E39DA0510F9

P356

Q34172994-243614AA-4103-42D3-910D-0A5002488F88

P407

Q34172994-D6DD70A8-841B-47C8-A399-954CE4D23C9B

P433

Q34172994-5A595410-08B3-4305-B05F-C3A308F2C3F2

P478

Q34172994-53E4909C-916F-41BF-9650-356A3389B8A5

P577

Q34172994-2FC94550-A0AF-4437-B220-C7B5EA6259D1

P698

Q34172994-B218C570-8E99-4F53-82FD-E5E580A7B68F

P932

Q34172994-C8ADB705-0003-47B1-AAF9-B9FED6FFA0CE

P356

S0006-3495(00)76781-6

P1433

Biophysical Journal

P1476

Tests of continuum theories as ...... eory versus brownian dynamics.

@en

P2093

Chung SH

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

Corry B

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

Kuyucak S

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

P2860

The Structure of the Potassium Channel: Molecular Basis of K+ Conduction and Selectivity

Interpretation of biological ion channel flux data--reaction-rate versus continuum theory.

Calcium channel permeation: A field in flux

Progress and prospects in permeation.

Ionic hopping defended.

Modeling of ion channels

From structure to function in open ionic channels.

Permeation through an open channel: Poisson-Nernst-Planck theory of a synthetic ionic channel.

Energy barrier presented to ions by the vestibule of the biological membrane channel

Brownian dynamics study of a multiply-occupied cation channel: application to understanding permeation in potassium channels.

P304

2364-2381

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

P31

scholarly article

P356

10.1016/S0006-3495(00)76781-6

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

P407

P433

5

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

P478

78

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

P577

2000-05-01T00:00:00Z

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

P698

10777733

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

P932

1300826

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