Abstract
Dual-colour fluorescence cross-correlation spectroscopy is a powerful method of studying binding between labelled biomolecules in vitro as well as in vivo. However, numerous artefacts and experimental complexities complicate quantitative measurements. Here, we show that a combination of dual-colour fluorescence correlation spectroscopy (FCS) with dual-focus FCS avoids artefacts due to chromatic aberrations or saturation and circumvents the calibration of the detection volumes. In addition, we present a comprehensive mathematical framework that allows us to accurately analyse correlation curves even in the presence of spectral cross-talk, incomplete or stochastic labelling, multiple binding sites, a fluorescent background and depletion due to photobleaching. We demonstrate the merits of this approach using dual-colour dual-focus scanning FCS, which allows binding measurements on membranes not affected by membrane movements.
Highlights
Biological processes depend on concentrations, mobilities and interactions of biomolecules
Dual-colour fluorescence cross-correlation spectroscopy is a powerful method of studying binding between labelled biomolecules in vitro as well as in vivo
We show that a combination of dual-colour fluorescence correlation spectroscopy (FCS) with dual-focus FCS avoids artefacts due to chromatic aberrations or saturation and circumvents the calibration of the detection volumes
Summary
Biological processes depend on concentrations, mobilities and interactions of biomolecules. A powerful technique for measuring these parameters is fluorescence correlation spectroscopy (FCS). It is based on the statistical analysis of intensity fluctuations of fluorescent molecules diffusing through a sub-micrometre detection volume. Dualfocus FCS [9, 10] and circle-scanning FCS [11] overcome this problem for single-colour FCS by using two spatially distinct detection volumes or a well-defined scan path. In these methods, the knowledge of the distance between the detection volumes, or the scan radius, replaces the calibration of the volume size
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