7kk8 Citations

The fluoride permeation pathway and anion recognition in Fluc family fluoride channels.

OpenAccess logo Elife 10 (2021)
Related entries: 7kk9, 7kka, 7kkb, 7kkr

Cited: 5 times
EuropePMC logo PMID: 34250906

Abstract

Fluc family fluoride channels protect microbes against ambient environmental fluoride by undermining the cytoplasmic accumulation of this toxic halide. These proteins are structurally idiosyncratic, and thus the permeation pathway and mechanism have no analogy in other known ion channels. Although fluoride-binding sites were identified in previous structural studies, it was not evident how these ions access aqueous solution, and the molecular determinants of anion recognition and selectivity have not been elucidated. Using x-ray crystallography, planar bilayer electrophysiology, and liposome-based assays, we identified additional binding sites along the permeation pathway. We used this information to develop an oriented system for planar lipid bilayer electrophysiology and observed anion block at one of these sites, revealing insights into the mechanism of anion recognition. We propose a permeation mechanism involving alternating occupancy of anion-binding sites that are fully assembled only as the substrate approaches.

Articles - 7kk8 mentioned but not cited (1)

  1. The fluoride permeation pathway and anion recognition in Fluc family fluoride channels. McIlwain BC, Gundepudi R, Koff BB, Stockbridge RB. Elife 10 e69482 (2021)


Articles citing this publication (4)

  1. Ion permeation, selectivity, and electronic polarization in fluoride channels. Yue Z, Wang Z, Voth GA. Biophys J 121 1336-1347 (2022)
  2. Dimerization mechanism of an inverted-topology ion channel in membranes. Ernst M, Orabi EA, Stockbridge RB, Faraldo-Gómez JD, Robertson JL. Proc Natl Acad Sci U S A 120 e2308454120 (2023)
  3. Fluoride permeation mechanism of the Fluc channel in liposomes revealed by solid-state NMR. Zhang J, Song D, Schackert FK, Li J, Xiang S, Tian C, Gong W, Carloni P, Alfonso-Prieto M, Shi C. Sci Adv 9 eadg9709 (2023)
  4. Recombinant Pseudomonas growing on non-natural fluorinated substrates shows stress but overall tolerance to cytoplasmically released fluoride anion. Dodge AG, Thoma CJ, O'Connor MR, Wackett LP. mBio 15 e0278523 (2024)