1. Correlation of fluorescence evolution for quantitative analysis of labels and sensors.
- Author
-
Pellissier-Tanon A, Adelizzi B, Jullien L, Le Saux T, and Lemarchand A
- Subjects
- Kinetics, Signal-To-Noise Ratio, Microscopy, Fluorescence methods
- Abstract
Titration without separation, e.g. quantification of a target species in living cells, is a challenge of analytical chemistry. We perform the selective detection of a target using the kinetics involved in a photochemical process and develop a correlation method that we illustrate by the titration of a fluorescent photoswitcher and the target of a photoswitching sensor. Correlating an input time series and a well-chosen weighting function associated with a variable characteristic time yields a spectrum of characteristic times. The upper integration limit of the correlation output can be chosen to match the argument of an extremum of the spectrum with a characteristic time of the input time series in order to quantify the target. A similar procedure is followed to optimize the signal-to-noise ratio. Selectivity and signal-to-noise ratio associated with 15 weighting functions are theoretically predicted. The results are applied to the titration of the reversibly photoswitchable fluorescent protein Dronpa-2 and the titration of calcium using a reversibly photoswitchable fluorescent sensor. The performance of the correlation method is favorably compared to the one of other dynamic contrast protocols., (Copyright © 2022 Elsevier B.V. All rights reserved.)
- Published
- 2022
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