Open AccessA FLIM Microscopy Based on Acceptor-Detected Förster Resonance Energy Transfer
Author(s) -
Roberto F. Delgadillo,
Katie A. Carnes,
Kathia Zaleta-Rivera,
Omar Olmos,
Lawrence J. Parkhurst
Publication year - 2021
Publication title -
analytical chemistry
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.117
H-Index - 332
eISSN - 1520-6882
pISSN - 0003-2700
DOI - 10.1021/acs.analchem.0c04492
Subject(s) - förster resonance energy transfer , chemistry , acceptor , biomolecule , microscopy , fluorescence , fluorescence microscope , optics , physics , biochemistry , condensed matter physics
Time-resolved donor-detected Förster resonance energy transfer (trDDFRET) allows the observation of molecular interactions of dye-labeled biomolecules in the ∼10-100 Å region. However, we can observe longer-range interactions when using time-resolved acceptor-detected FRET (trADFRET), since the signal/noise ratio can be improved when observing the acceptor emission. Therefore, we propose a new methodology based on trADFRET to construct a new fluorescence lifetime microscopy (FLIM-trADFRET) technique to observe biological machinery in the range of 100-300 Å in vivo, the last frontier in biomolecular medicine. The integrated trADFRET signal is extracted in such a way that noise is canceled, and more photons are collected, even though trADFRET and trDDFRET have the same rate of transfer. To assess our new methodology, proof of concept was demonstrated with a set of well-defined DNA scaffolds.