Lanthanum-fluoride electrode-based methods to monitor fluoride transport in cells and reconstituted lipid vesicles

Abstract

Fluoride (F^-) export proteins, including F^- channels and F^- transporters, are widespread in biology. They contribute to cellular resistance against fluoride ion, which has relevance as an ancient xenobiotic, and in more modern contexts like organofluorine biosynthesis and degradation or dental medicine. This chapter summarizes quantitative methods to measure fluoride transport across membranes using fluoride-specific lanthanum-fluoride electrodes. Electrode-based measurements can be used to measure unitary fluoride transport rates by membrane proteins that have been purified and reconstituted into lipid vesicles, or to monitor fluoride efflux into living microbial cells. Thus, fluoride electrode-based measurements yield quantitative mechanistic insight into one of the major determinants of fluoride resistance in microorganisms, fungi, yeasts, and plants.

Keywords: CLC; Efflux assay; Electrode; Fluoride; Ion channel; Liposome; Membrane protein; Reconstitution; Transporter.