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Analysis of voltage-gated and synaptic conductances contributing to network excitability defects in the mutant mouse tottering
Santosh Helekar
, J. L. Noebels
Academic Institute
Stanley H. Appel Department of Neurology
Neurological Institute
Houston Methodist
Weill Cornell Medical College
Research output
:
Contribution to journal
›
Article
›
peer-review
20
Scopus citations
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Keyphrases
Amplitude Decay
6%
Bicuculline
6%
Cesium
6%
Clamping Method
6%
Conductance Change
20%
Current Clamp
6%
Current Measurement
6%
Electrode Voltage
6%
Equilibrium Potential
6%
Excitatory Input
6%
GABAA Receptor Antagonists
6%
Hippocampal Network
6%
Inhibitory Postsynaptic Potential
13%
Intracellular Current
6%
Negative Shift
6%
Net Reduction
6%
Presynaptic Inhibition
13%
QX-314
6%
Reversal Potential
13%
Shift Length
26%
Single Electrode
13%
Synaptic Conductance
100%
Voltage Clamp
20%
Voltage-clamp Recording
6%
Voltage-gated Sodium Channel Blockers
6%
Neuroscience
AP5
20%
Bicuculline
20%
Reversal Potential
40%
Synaptic Inhibition
40%
Voltage-Gated Sodium Channel Blocker
20%