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Lipid-protein interactions modulate the conformational equilibrium of a potassium channel

Ruo‐Xu Gu, Bert L. de Groot

2020Nature Communications49 citationsDOIOpen Access PDF

Abstract

Cell membranes actively participate in the regulation of protein structure and function. In this work, we conduct molecular dynamics simulations to investigate how different membrane environments affect protein structure and function in the case of MthK, a potassium channel. We observe different ion permeation rates of MthK in membranes with different properties, and ascribe them to a shift of the conformational equilibrium between two states of the channel that differ according to whether a transmembrane helix has a kink. Further investigations indicate that two key residues in the kink region mediate a crosstalk between two gates at the selectivity filter and the central cavity, respectively. Opening of one gate eventually leads to closure of the other. Our simulations provide an atomistic model of how lipid-protein interactions affect the conformational equilibrium of a membrane protein. The gating mechanism revealed for MthK may also apply to other potassium channels.

Topics & Concepts

GatingBiophysicsPotassium channelMembraneMolecular dynamicsChemistryTransmembrane domainCrosstalkKcsA potassium channelMembrane proteinMembrane potentialProtein structureTransmembrane proteinIon channelPotassiumHelix (gastropod)BiochemistryBiologyPhysicsComputational chemistryReceptorEcologySnailOrganic chemistryOpticsLipid Membrane Structure and BehaviorIon channel regulation and functionProtein Structure and Dynamics
Lipid-protein interactions modulate the conformational equilibrium of a potassium channel | Litcius