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Voltage-Gated Ion Channels and the Variability in Information Transfer
Rahul Kumar Rathour
,
Hanoch Kaphzan
Department of Neurobiology
Research output
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Article
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peer-review
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Keyphrases
Information Transfer
100%
Voltage-gated Ion Channels
100%
Model Neurons
33%
Firing Frequency
33%
A-type
33%
Synaptic
16%
Expression Level
16%
Intrinsic Properties
16%
Na +
16%
Information Processing
16%
Neuronal Model
16%
Ion Channels
16%
Ca++
16%
Mutual Information Transfer
16%
HCN Channels
16%
Variable Expression
16%
Delayed Rectifier
16%
T-type
16%
Reasonable Range
16%
K Channels
16%
Engineering
Mutual Information
100%
Reasonable Range
100%
Intrinsic Property
100%
Neuroscience
Voltage-Gated Ion Channel
100%
Excitatory Postsynaptic Potential
16%
Ion Channel
16%
Information Processing
16%
Calcium Channel
16%
Potassium Channel
16%
Mutual Information
16%
HCN Channel
16%
Inhibitory Postsynaptic Potential
16%
Biochemistry, Genetics and Molecular Biology
Voltage-Gated Channel
100%
Excitatory Postsynaptic Potential
16%
Calcium Channel
16%
Potassium Channel
16%
Inhibitory Postsynaptic Potential
16%
HCN Channel
16%
Ion Channel
16%
Earth and Planetary Sciences
Information Processing
100%