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Neurophysiological Impact And Modeling-Independent Elucidation Of Inactivation Pathways In A-Type K+ Channels, J.D. Fineberg, David Ritter, Manuel Covarrubias

Department of Molecular Physiology and Biophysics Faculty Papers

Poster presented at Society for Neuroscience

Abstract:

A-type voltage-gated K⁺ channels auto-regulate their function by undergoing fast inactivation. Independent of molecular mechanisms, this inactivation can proceed after channel opening (open-state inactivation, OSI) or from a closed state prior to opening (closed-state inactivation, CSI). We hypothesize that the specific neurophysiological roles of A-type Kv channels depend on whether they undergo OSI, CSI or both (CSI+OSI). To explore these possibilities, we introduced Markov kinetic schemes of the A-type Kv4 conductance into a computational model of the hippocamcal CA1 neuron assuming either CSI or CSI+OSI and compared the properties of the somatic …