A functional EXXEK motif is essential for proton coupling and active glucosinolate transport by NPF2.11

Morten Egevang Jørgensen, Carl Erik Olsen, Dietmar Geiger, Osman Asghar Mirza, Barbara Ann Halkier, Hussam Hassan Nour-Eldin

17 Citations (Scopus)

Abstract

The proton-dependent oligopeptide transporter (POT/PTR) family shares a highly conserved E1X1X2E2RFXYY (E1X1X2E2R) motif across all kingdoms of life. This motif is suggested to have a role in proton coupling and active transport in bacterial homologs. For the plant POT/PTR family, also known as the NRT1/PTR family (NPF), little is known about the role of the E1X1X2E2R motif. Moreover, nothing is known about the role of the X1 and X2 residues within the E1X1X2E2R motif. We used NPF2.11-a proton-coupled glucosinolate (GLS) symporter from Arabidopsis thaliana-to investigate the role of the E1X1X2E2K motif variant in a plant NPF transporter. Using liquid chromatography-mass spectrometry (LC-MS)-based uptake assays and two-electrode voltage clamp (TEVC) electrophysiology, we demonstrate an essential role for the E1X1X2E2K motif for accumulation of substrate by NPF2.11. Our data suggest that the highly conserved E1, E2 and K residues are involved in translocation of protons, as has been proposed for the E1X1X2E2R motif in bacteria. Furthermore, we show that the two residues X1 and X2 in the E1X1X2E2[K/R] motif are conserved as uncharged amino acids in POT/PTRs from bacteria to mammals and that introducing a positive or negative charge in either position hampers the ability to overaccumulate substrate relative to the assay medium. We hypothesize that introducing a charge at X1 and X2 interferes with the function of the conserved glutamate and lysine residues of the E1X1X2E2K motif and affects the mechanism behind proton coupling.

Original languageEnglish
JournalPlant and Cell Physiology
Volume56
Issue number12
Pages (from-to)2340-2350
Number of pages11
ISSN0032-0781
DOIs
Publication statusPublished - 9 Apr 2015

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