7kkb Citations

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

<div class='caption-title'>(a) Structure of Fluc-Ec2 with Br-. Monomers are shown in maize and blue, with fluoride ions as pink spheres, sodium as a gray sphere, and anomalous difference map shown as an orange mesh, contoured at 5σ. Zoomed-in views depict Br- as orange spheres, with the aqueous vestibule indicated by a blue mesh and vestibule arginines shown as sticks. (b) Comparison of vestibule anion-binding site for Fluc-Ec2 (top) and Fluc-Bpe (bottom; PDB: 5NKQ). For Fluc-Ec2, the Br- anomalous difference map is displayed as an orange mesh and contoured at 5σ. For Fluc-Bpe, the Fo-Fc map is displayed in green and contoured at 3σ. 2Fo-Fc electron density is shown for sidechains and displayed as a gray mesh, contoured at 2σ. (c) Additional views of the Br--binding site in Fluc-Ec2, with Ile48, Ser81, and Thr82 shown as sticks. (d) Electrical recordings for multichannel bilayers of Fluc-Ec2 I48C and wild-type (WT) Fluc-Ec2. Dashed line indicates the zero-current level. Saturating (2-sulfonatoethyl)methanethiosulfonate (MTSES) was added at the indicated time. Regions of the recording with electrical noise from mixing are colored light gray to assist with figure interpretation. Traces are representative of data collected from five independent bilayers. Right panel, normalized current after MTSES addition. Replicates from two independent preps are shown in black or white. Average current change for Ec2 I48C upon MTSES addition (mean ± SEM from five bilayers): 56 ± 3% decrease. Current change for Ec2 WT upon MTSES addition (mean ± SEM from five bilayers): 0.7 ± 1.7% increase.</div>
<div class='caption-title'>Fluoride efflux from Fluc-Ec2 C74A (blue and green traces) or WT Fluc-Ec2 channel (black trace) proteoliposomes.</div>
<div class='caption-title'>Fluoride efflux from Fluc-Bpe I50W (blue trace) or WT Fluc-Bpe channel (black trace) proteoliposomes.</div>
McIlwain BC, Gundepudi R, Koff BB, Stockbridge RB
OpenAccess logo Elife 10 (2021)
Related entries: 7kk8, 7kk9, 7kka, 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 - 7kkb 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)


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