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Synchrotron UV Fluorescence Microscopy Uncovers New Probes in Cells and Tissues

Abstract : Use of deep ultraviolet (DUV, below 350 nm) fluorescence opens up new possibilities in biology because it does not need external specific probes or labeling but instead allows use of the intrinsic fluorescence that exists for many biomolecules when excited in this wavelength range. Indeed, observation of label free biomolecules or active drugs ensures that the label will not modify the biolocalization or any of its properties. In the past, it has not been easy to accomplish DUV fluorescence imaging due to limited sources and to microscope optics. Two worlds were coexisting: the spectrofluorometric measurements with full spectrum information with DUV excitation, which lacked high-resolution localization, and the microscopic world with very good spatial resolution but poor spectral resolution for which the wavelength range was limited to 350 nm. To combine the advantages of both worlds, we have developed a DUV fluorescence microscope for cell biology coupled to a synchrotron beamline, providing fine tunable excitation from 180 to 600 nm and full spectrum acquired on each point of the image, to study DUV excited fluorescence emitted from nanovolumes directly inside live cells or tissue biopsies.
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Submitted on : Tuesday, July 19, 2011 - 2:54:28 PM
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Frederic Jamme, Sandrine Villette, Alexandre Giuliani, Valerie Rouam, Frank Wien, et al.. Synchrotron UV Fluorescence Microscopy Uncovers New Probes in Cells and Tissues. Microscopy and Microanalysis, Cambridge University Press (CUP), 2010, 16 (5), pp.507-514. ⟨10.1017/S1431927610093852⟩. ⟨hal-00609593⟩



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