Abstract
A novel approach to study coupling of substrate and ion fluxes is presented. EmrE is an H(+)-coupled multidrug transporter from Escherichia coli. Detergent-solubilized EmrE binds substrate with high affinity in a pH-dependent mode. Here we show, for the first time in an ion-coupled transporter, substrate-induced release of protons in a detergent-solubilized preparation. The direct measurements allow for an important quantitation of the phenomenon. Thus, stoichiometry of the release in the wild type and a mutant with a single carboxyl at position 14 is very similar and about 0.8 protons/monomer. The findings demonstrate that the only residue involved in proton release is a highly conserved membrane-embedded glutamate (Glu-14) and that all the Glu-14 residues in the EmrE functional oligomer participate in proton release. Furthermore, from the pH dependence of the release we determined the pK of Glu-14 as 8.5 and for an aspartate replacement at the same position as 6.7. The high pK of the carboxyl at position 14 is essential for coupling of fluxes of protons and substrates.
Highlights
In this work we measure directly for the first time substrateinduced proton release in a detergent-solubilized transporter
We conclude that the glutamyl residue at position 14 in the wild type protein is the only amino acid involved in proton release and that all the Glu-14 residues in the oligomer participate in the release reaction
We describe substrate-induced proton release in a detergent-solubilized preparation of EmrE, a multidrug transporter from E. coli
Summary
In this work we measure directly for the first time substrateinduced proton release in a detergent-solubilized transporter. For the first time in an ion-coupled transporter, substrate-induced release of protons in a detergent-solubilized preparation. The detergent-solubilized EmrE is quite unique in its ability to bind substrates with high affinity; it provides an experimental system to study proton release.
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