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Molecular quantification of density and oligomerization

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Counting and characterizing molecules in their biological environment, whether it is in cells, extra-cellular matrix or biomimetic systems, is an important challenge for our fundamental understanding of life but also for clinical prospects (regenerative medicine, etc.). Beside pure observation, quantification thus aims at providing reliable numbers, e.g. the number of molecules that are present in some given region of space, at some time. For in vitro cellular studies, there is a strong demand for robust techniques working in situ.

Fluorescence Fluctuation Spectroscopy (FFS) is a family of techniques that takes benefit from the properties of statistical fluctuations. Thanks to the collaboration between LIPhy and CEA, BRM team, we were able to develop well controlled substrates for cellular studies and, by combining FFS with photobleaching, to provide reliable estimation of the number of molecules. In particular we developed a streptavidin (SAv) based platform on top of which different biotinylated molecules can be grafted. The SAv monolayer has been characterized with FFS but the remaining biotinylated molecules have not been quantified. We now want to make a step further by addressing more complex biomaterials for cellular studies where knowing the amount of molecule is fundamental. The same technique (called pbFFS for photobleaching Fluctuation Fluorescence Spectroscopy) can also be applied to oligomerization, clustering or aggregation, which mediate a myriad of biochemical processes. For example, in cellular signalling, the same molecule can modulate its affinity to its partners and activate different cellular response depending on whether it is in monomeric or oligomeric states.

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Contacts: Antoine Delon – tél. 04 76 63 58 01