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High-pH structure of EmrE reveals the mechanism of proton-coupled substrate transport

A. Shcherbakov, Peyton J. Spreacker, Aurelio J. Dregni, Katherine A. Henzler‐Wildman, Mei Hong

2022Nature Communications40 citationsDOIOpen Access PDF

Abstract

Abstract The homo-dimeric bacterial membrane protein EmrE effluxes polyaromatic cationic substrates in a proton-coupled manner to cause multidrug resistance. We recently determined the structure of substrate-bound EmrE in phospholipid bilayers by measuring hundreds of protein-ligand H N –F distances for a fluorinated substrate, 4-fluoro-tetraphenylphosphonium (F 4 -TPP + ), using solid-state NMR. This structure was solved at low pH where one of the two proton-binding Glu14 residues is protonated. Here, to understand how substrate transport depends on pH, we determine the structure of the EmrE-TPP complex at high pH, where both Glu14 residues are deprotonated. The high-pH complex exhibits an elongated and hydrated binding pocket in which the substrate is similarly exposed to the two sides of the membrane. In contrast, the low-pH complex asymmetrically exposes the substrate to one side of the membrane. These pH-dependent EmrE conformations provide detailed insights into the alternating-access model, and suggest that the high-pH conformation may facilitate proton binding in the presence of the substrate, thus accelerating the conformational change of EmrE to export the substrate.

Topics & Concepts

ProtonationSubstrate (aquarium)DeprotonationChemistryCrystallographyProtonMembraneConformational changeLigand (biochemistry)Protein structureStereochemistryBiophysicsBiochemistryIonBiologyOrganic chemistryReceptorQuantum mechanicsEcologyPhysicsAdvanced NMR Techniques and ApplicationsBacterial Genetics and BiotechnologyDNA and Nucleic Acid Chemistry
High-pH structure of EmrE reveals the mechanism of proton-coupled substrate transport | Litcius