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Voltage‐gating of aquaporins, a putative conserved safety mechanism during ionic stresses

Robin Mom, Beatriz Muries, Pierrick Benoit, Julien Robert‐Paganin, S. Réty, Jean‐Stéphane Venisse, Agı́lio A. H. Pádua, Philippe Label, Daniel Auguin

2020FEBS Letters23 citationsDOIOpen Access PDF

Abstract

Aquaporins are transmembrane water channels found in almost every living organism. Numerous studies have brought a good understanding of both water transport through their pores and the regulations taking place at the molecular level, but subtleties remain to be clarified. Recently, a voltage-related gating mechanism involving the conserved arginine of the channel's main constriction was captured for human aquaporins through molecular dynamics studies. With a similar approach, we show that this voltage-gating could be conserved among this family and that the underlying mechanism could explain part of plant AQPs diversity when contextualized to high ionic concentrations provoked by drought. Finally, we identified residues as adaptive traits which constitute good targets for drought resistance plant breeding research.

Topics & Concepts

AquaporinGatingMechanism (biology)BiophysicsBiologyIonic bondingIon channelCell biologyChemistryBiochemistryIonPhysicsOrganic chemistryReceptorQuantum mechanicsIon Transport and Channel RegulationMembrane-based Ion Separation TechniquesMagnesium in Health and Disease
Voltage‐gating of aquaporins, a putative conserved safety mechanism during ionic stresses | Litcius