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Hierarchical approach to predicting permeation in ion channels
R. Jay Mashl
, Yuzhou Tang
, Jim Schnitzer
, Eric Jakobsson
Molecular and Integrative Physiology
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peer-review
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Keyphrases
Ion Channels
100%
Brownian Dynamics Simulation
100%
K+ Ion
100%
Hierarchical Approach
100%
KcsA Channel
100%
Molecular Dynamics Simulation
50%
Conductance
50%
Potential Profile
50%
Molecular Dynamics
50%
Channel Structure
50%
Mesoscopic
50%
Conformational Change
50%
Size Dependence
50%
PH Dependence
50%
Molecular Modeling
50%
Knock
50%
Dynamic Calculation
50%
Pore Size
50%
Current-voltage
50%
Channel Gating
50%
Flux Ratio
50%
Ion Distribution
50%
Concentration Curve
50%
Selectivity Filter
50%
Tetrabutylammonium
50%
Ion Flux
50%
Brownian Dynamics
50%
Electrostatic Calculations
50%
Barium Ion
50%
Interior Cavity
50%
Open Model
50%
Quaternary Ammonium Cation
50%
Computational Strategies
50%
Ussing
50%
Measurable Properties
50%
Current Concentration
50%
Tiered Approach
50%
Ion Channel Function
50%
Engineering
Model Structure
100%
Proof-of-Concept
100%
Channel Structure
100%
Ph Dependence
100%
Measurable Property
100%
Electrostatic Force
100%
Earth and Planetary Sciences
Dynamic Simulation
100%
Selectivity
33%
Ion Current
33%
Electrostatic Force
33%
Material Science
Potassium Ion
100%
Pore Size
33%
Barium
33%
Potassium
33%