Determination of the size of lipid rafts studied through single-molecule FRET simulations
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Fluorescence resonance energy transfer (FRET) is a high-resolution technique that allows the characterization of spatial and temporal properties of biological structures and mechanisms. In this work, we developed an in silico single-molecule FRET methodology to study the dynamics of fluorophores inside lipid rafts. We monitored the fluorescence of a single acceptor molecule in the presence of several donor molecules. By looking at the average fluorescence, we selected events with single acceptor and donor molecules, and we used them to determine the raft size in the range of 5–16 nm. We conclude that our method is robust and insensitive to variations in the diffusion coefficient, donor density, or selected fluorescence threshold. © 2021 Biophysical Society
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fluorescent dye; computer simulation; fluorescence resonance energy transfer; membrane microdomain; nanotechnology; Computer Simulation; Fluorescence Resonance Energy Transfer; Fluorescent Dyes; Membrane Microdomains; Nanotechnology
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