Quantitative FRET measurement using emission‐spectral unmixing with independent excitation crosstalk correction

Summary Quantification of fluorescence resonance energy transfer (FRET) needs at least two external samples, an acceptor‐only reference and a linked FRET reference, to calibrate fluorescence signal. Furthermore, all measurements for references and FRET samples must be performed under the same instrumental conditions. Based on a novel notion to predetermine the molar extinction coefficient ratio ( R C ) of acceptor‐to‐donor for the correction of acceptor excitation crosstalk, we present here a robust and independent emission‐spectral unmixing FRET methodology, Iem‐spFRET, which can simultaneously measure the E and R C of FRET sample without any external references, such that Iem‐spFRET circumvents the rigorous restriction of keeping the same imaging conditions for all FRET experiments and thus can be used for the direct measurement of FRET sample. We validate Iem‐spFRET by measuring the absolute E and R C values of standard constructs with different acceptor‐to‐donor stoichiometry expressed in living cells. Our results demonstrate that Iem‐spFRET is a simple and powerful tool for real‐time monitoring the dynamic intermolecular interaction within single living cells.