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Fluorescence Correlation Spectroscopy

Fluorescence Correlation Spectroscopy (FCS) is a technique for the study of molecular movements and interactions. In FCS a laser beam is focused and parked somewhere in the specimen, see Fig. 1, and the fluctuations in the fluorescence signal is monitored as a function of time.

 

Fig. 1 The FCS experiment set-up.

 

 

 

 

 

 

 

 

 

These fluctuations, which are considered noice in confocal laser scanning images, depend on the number of fluorophores in the small confocal detection volume and how fast they move in and out of the volume, see Fig. 2.

 


Fig.2 The laser is focused in a small confocal volume of the specimen. When a flourescent molecule diffuses into this volume it can be excited and emit fluorescence.

Therefore the fluorescence fluctuations provide information about concentrations and diffusion parameters of a fluorescent particle. Since the diffusion is directly dependent on the particle's mass any increase in the mass of a biomolecule, e.g. as a result of an interaction with a second molecule, is readily detected as an increase in the particle's diffusion time.

The time-dependent fluorescence intensity (F(t)) is analysed by calculating its autocorrelation function (G(t)):

 

which compares the fluorescence intensity at time t with the intensity at (t + t), where t is a variable interval, averaged over all data points in the time series (denoted by < >), see Fig. 3.

Fig. 3 The fluorescence signal (left graph) is autocorrelated (right graph) to obtain the diffusion parameters.

The fluorophore concentration is found from the amplitude of the autocorrelation curve and diffusion time of the molecules is the halftime of the decay of the autocorrelation curve. Examples of how this autocorrelation function changes with different concentrations and different mass is pictured in Fig.4.

 


Fig.4 Left: A heavy molecule will move slower than a light molecule and therefore the correlation decays at a longer time scale. Right: The correlation amplitude is inversely proportional to the concentration of fluorophores.

Fluorescence Cross Correlation Spectroscopy (FCCS) uses the cross-correlation function, which compares the fluorescence intensity of one fluorescently labelled species at time t with the intensity of an other species, labelled with a different fluorophore, at (t + t). From this analysis the fraction of interacting particles can be obtained, without reference to their diffusion characteristics. In practice, discrimination on the basis of mass in conventional FCS requires that the interacting components should have a molecular weight ratio of at least 1:8.


Fig.5 Left) The individual fluorescence intensity spectra as a function of time. Right) The autocorrelation curves for two molecules (green and red dots) and the crosscorrelation curve (black dots).

FCS can be done at the CCI either with a ConfoCor2 unit, which is attached to the LSM 510 META system, or with the GaAsP detector on the LSM 780 system. Both of these systems can work in regular autocorrelation mode as well as dual color cross-correlation mode.
 

If you are interested in doing FCS, please contact Maria Smedh.

Page Manager: CCI web manager|Last update: 2/18/2014
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