Reduced Artifacts in Nanoscale Ratiometric Imaging and Sensing via Point-Spread Function Matching

  • ACS Nano. 2025 Jul 1;19(25):22755-22766. doi: 10.1021/acsnano.4c16338.
Toon Van Thillo  1 Vincent Van Deuren  1 Robin Van den Eynde  1 Wim Vandenberg  1 Peter Dedecker  1  2
Affiliations
  • 1. Lab for Nanobiology, Department of Chemistry, KU Leuven, Leuven 3001, Belgium.
  • 2. Université de Lille, LASIRE CNRS, Lille 59000, France.
Abstract

Ratiometric analysis of two or more fluorescence signals is a staple of quantitative imaging. However, this analysis becomes complicated at (near-) diffraction limited resolutions due to differences in how the emission colors are imaged by the microscope optics. We investigate this and find that point-spread function (PSF) mismatch between different emission wavelengths readily introduces spurious structuring in ratiometric images. We develop a postprocessing strategy that can correct for this effect by matching the respective PSFs, thus eliminating this deviation. To demonstrate this approach in live cells, we develop a highly photostable FRET biosensor against protein kinase A (PKA) activity and apply it to diffraction-limited biosensing, demonstrating that the spurious structuring can indeed be removed from the analyzed images. Our work further supports the feasibility of high-resolution ratiometric imaging using stable molecular probes and suitable correction strategies.

Keywords
chemigenetic biosensors; diffraction-limited imaging; fluorescence microscopy; mStayGold; point-spread-function; ratiometric imaging.
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