CONTINUOUS PHOTOBLEACHING IN VESICLES AND LIVING CELLS: A MEASURE OF DIFFUSION AND COMPARTMENTATION

doi:10.1529/biophysj.105.069815

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Biophys. J. BioFAST: First Published January 20, 2006. doi:10.1529/biophysj.105.069815
© 2006 by the Biophysical Society.

A more recent version of this article appeared on April 1, 2006.

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	Author home page(s): Antoine DELON Yves USSON Jacques DEROUARD Thierry BIBEN Catherine SOUCHIER


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SPECTROSCOPY, IMAGING, OTHER TECHNIQUES

CONTINUOUS PHOTOBLEACHING IN VESICLES AND LIVING CELLS: A MEASURE OF DIFFUSION AND COMPARTMENTATION

Antoine DELON ¹^*, Yves USSON ², Jacques DEROUARD ¹, Thierry BIBEN ³ and Catherine SOUCHIER ⁴

¹ Laboratoire de Spectrométrie Physique
² TIMC
³ Laboratoire de Physique de la matiére Condensée et Nanostructures
⁴ IAB

^* To whom correspondence should be addressed. E-mail: adelon{at}ujf-grenoble.fr.

Submitted on July 6, 2005
Revised on August 25, 2005
Accepted on 12 December 2005

Abstract
We present a comprehensive and analytical treatment of continuousphotobleaching in a compartment, under single photon excitation.In the very short time regime (t < 0.1 ms), the diffusiondoes not play any role. After a transition (or short time regime),one enters in the long time regime (t > 0.1 - 5 s), for whichthe diffusion and the photobleaching balance each other. Inthis long time regime, the diffusion is either fast (i.e. thephotobleaching probability of a molecule diffusing through thelaser beam is low) so that the photobleaching rate is independentof the diffusion constant and dependent only of the laser power,or the diffusion is slow (i.e. the photobleaching probabilityis high) and the photobleaching rate is mainly dependent ofthe diffusion constant. We illustrate our theory by using GiantUni-Lamellar vesicles ranging from about 10 to 100 µm indiameter, loaded with molecules of various diffusion constants(from 20 to 300 µm²/s) and various photobleaching cross-sections,illuminated under laser powers between 3 and 100 µW. Wealso demonstrated that information about compartmentation canbe obtained by this method in living cells, that expressed enhancedGreen Fluorescent Proteins or that were loaded with small FITC-dextrans.Our quantitative approach shows that molecules freely diffusingin a cellular compartment do experience a continuous photobleaching.We provide a generic theoretical framework that should be takeninto account when studying, under confocal microscopy, molecularinteractions, permeability, etc.

Key Words: Compartmentation, Confocal microscopy, Diffusion, Fluorescence correlation spectroscopy, Photobleaching

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