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Ion transfer mechanisms in Mrp-type antiporters from high resolution cryoEM and molecular dynamics simulations

Yongchan Lee, Outi Haapanen, Anton Altmeyer, Werner Kühlbrandt, Vivek Sharma, Volker Zickermann

2022Nature Communications22 citationsDOIOpen Access PDF

Abstract

Multiple resistance and pH adaptation (Mrp) cation/proton antiporters are essential for growth of a variety of halophilic and alkaliphilic bacteria under stress conditions. Mrp-type antiporters are closely related to the membrane domain of respiratory complex I. We determined the structure of the Mrp antiporter from Bacillus pseudofirmus by electron cryo-microscopy at 2.2 Å resolution. The structure resolves more than 99% of the sidechains of the seven membrane subunits MrpA to MrpG plus 360 water molecules, including ~70 in putative ion translocation pathways. Molecular dynamics simulations based on the high-resolution structure revealed details of the antiport mechanism. We find that switching the position of a histidine residue between three hydrated pathways in the MrpA subunit is critical for proton transfer that drives gated trans-membrane sodium translocation. Several lines of evidence indicate that the same histidine-switch mechanism operates in respiratory complex I.

Topics & Concepts

AntiportersMolecular dynamicsResolution (logic)High resolutionChemistryComputer scienceAntiporterBiochemistryMembraneComputational chemistryRemote sensingArtificial intelligenceGeologyNanopore and Nanochannel Transport StudiesElectron Spin Resonance StudiesNuclear Physics and Applications
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