Keyphrases
Electromechanical Coupling
100%
Amino Acid Residues
100%
Voltage-gated K+ Channels
100%
S4-S5 Linker
100%
Glycine Residue
100%
Kv1.1
100%
Voltage Gating
66%
Episodic Ataxia
33%
Amino Acids
33%
Glycine
33%
Voltage Dependence
33%
Helix
33%
Linker
33%
In Silico Modeling
33%
Side Chain
33%
Channel Gating
33%
Cause of Disease
33%
Kv Channels
33%
Voltage-dependent Activation
33%
Aspartate
33%
Structural Correlates
33%
Window Current
33%
Gate Current
33%
Channel Closing
33%
Functional Amino Acids
33%
Channel Opening
33%
Control Channel
33%
Voltage Window
33%
Channel Dynamics
33%
Deactivation
33%
K Channels
33%
INIS
coupling
100%
amino acids
100%
residues
100%
voltage
100%
glycine
66%
diseases
33%
levels
16%
control
16%
chains
16%
proteins
16%
modeling
16%
dynamics
16%
interactions
16%
inactivation
16%
deactivation
16%
Biochemistry, Genetics and Molecular Biology
Amino Acids
100%
Potassium Channels
100%
Electric Potential
100%
Excitation Contraction Coupling
100%
Kv1.1
100%
Dynamics
20%
Computer Model
20%
Channel Gating
20%
Episodic Ataxia
20%
Neuroscience
Amino Acid
100%
Excitation Contraction Coupling
100%
Kv1.1
100%
Aspartic Acid
33%
Channel Gating
33%
Potassium Channel Kv1.1
33%
Episodic Ataxia
33%