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Shrinking gate fluorescence correlation spectroscopy yields equilibrium constants and separates photophysics from structural dynamics

Tim Schröder, Johann Bohlen, Sarah E. Ochmann, Patrick Schüler, Stefan Krause, Don C. Lamb, Philip Tinnefeld

2023Proceedings of the National Academy of Sciences29 citationsDOIOpen Access PDF

Abstract

Fluorescence correlation spectroscopy is a versatile tool for studying fast conformational changes of biomolecules especially when combined with Förster resonance energy transfer (FRET). Despite the many methods available for identifying structural dynamics in FRET experiments, the determination of the forward and backward transition rate constants and thereby also the equilibrium constant is difficult when two intensity levels are involved. Here, we combine intensity correlation analysis with fluorescence lifetime information by including only a subset of photons in the autocorrelation analysis based on their arrival time with respect to the excitation pulse (microtime). By fitting the correlation amplitude as a function of microtime gate, the transition rate constants from two fluorescence-intensity level systems and the corresponding equilibrium constants are obtained. This shrinking-gate fluorescence correlation spectroscopy (sg-FCS) approach is demonstrated using simulations and with a DNA origami-based model system in experiments on immobilized and freely diffusing molecules. We further show that sg-FCS can distinguish photophysics from dynamic intensity changes even if a dark quencher, in this case graphene, is involved. Finally, we unravel the mechanism of a FRET-based membrane charge sensor indicating the broad potential of the method. With sg-FCS, we present an algorithm that does not require prior knowledge and is therefore easily implemented when an autocorrelation analysis is carried out on time-correlated single-photon data.

Topics & Concepts

Förster resonance energy transferFluorescence correlation spectroscopySpectroscopyAutocorrelationFluorescence spectroscopyFluorescenceChemistryFluorescence cross-correlation spectroscopyChemical physicsAnalytical Chemistry (journal)MoleculePhysicsOpticsStatisticsChromatographyQuantum mechanicsOrganic chemistryMathematicsAdvanced Fluorescence Microscopy TechniquesLipid Membrane Structure and BehaviorAdvanced biosensing and bioanalysis techniques
Shrinking gate fluorescence correlation spectroscopy yields equilibrium constants and separates photophysics from structural dynamics | Litcius