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Permeability enhancement of the KcsA channel under radiation of a terahertz wave

Zhang-Hu Hu, Wen-Ping Lv, De-Xuan Hui, Xiao-Juan Wang, You-Nian Wang

2022Physical review. E21 citationsDOI

Abstract

Potassium ion channels are essential elements in cellular electrical excitability and help maintain a resting potential in nonexcitable cells. Their universality is based on a unique combination of strong selectivity for K^{+} ions and near-diffusion-limited permeation efficiency. Understanding how the channel regulates the ion conduction would be instructive to the treatment of ion channelopathies. In this work, by means of molecular dynamics simulations, we demonstrate the significantly enhanced permeation of KcsA channel in reaction to an external terahertz wave, due to the effective response of the K^{+} ions in the selectivity filter regions of the channel. Compared to the case without external terahertz wave, a fourfold increase in the ion current through the channel is found.

Topics & Concepts

KcsA potassium channelIonTerahertz radiationPermeationIon channelSelectivityMaterials scienceConductanceChemistryPotassium channelMolecular physicsThermal conductionAnalytical Chemistry (journal)Ion currentNanoporeMembrane potentialChemical physicsPermeability (electromagnetism)Atomic physicsMembraneIon transporterPotassiumChannel (broadcasting)BiophysicsOptoelectronicsRadiationHyperpolarization (physics)Ion channel regulation and functionstochastic dynamics and bifurcationMolecular Communication and Nanonetworks
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