Overview
- Editors:
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Elli Kohen
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University of Miami, Coral Gables, USA
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Joseph G. Hirschberg
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University of Miami, Coral Gables, USA
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Table of contents (47 chapters)
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- Eva M. Sevick-Muraca, Christina L. Hutchinson, Tamara L. Troy
Pages 31-40
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- Enrico Gratton, Sergio Fantini, Maria Angela Franceschini, Scott Walker, John Maier
Pages 41-52
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- Philippe I. H. Bastiaens, Thomas M. Jovin
Pages 53-57
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- Roger M. Leblanc, Germain Puccetti
Pages 59-64
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- Joseph R. Lakowicz, Ewald Terpetschnig, Henryk Szmacinski, Henryk Malak, Józef Kuśba, Ignacy Gryczynski
Pages 65-79
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- M. Sinaasappel, M. van Iterson, C. Ince
Pages 91-96
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- Marc Gèze, Jean-Michel Gaullier, Marc Bazin, René Santus
Pages 113-121
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- W. R. Potter, D. A. Bellnier
Pages 123-128
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- David G. Menter, Thomas W. Smith, Zhong Yun, John Patton, Larry V. McIntire, Garth L. Nicolson
Pages 137-148
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- Anne T. O’Meara, Bernd-Uwe Sevin, James Perras
Pages 157-172
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- Wade E. Bolton, Melissa O’Brien
Pages 173-179
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- Sylvie Cassanelli, Agnès Mialhe, Josette Louis, Daniel Seigneurin
Pages 181-188
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- S. Folli, P. Westermann, D. Braichotte, A. Pèlegrin, J. Mizeret, G. Wagnières et al.
Pages 189-204
About this book
Fluorescence is a very powerful tool for work at the frontier of cell biology, photobiology and bioinstrumentation. The stated aim of the workshop was to highlight the significance of fluorescence work for the understanding of cell and tissue physiology, physiopathology and pharmacology, particulary in terms of the analytical use of fluorescent probes in oncology. In the organization of the workshop a multidisciplinary approach was selected. The purpose of the Advanced Research Workshop (ARW) was to bring together researchers in the various disciplines of tissue optics, imaging, microspectrofluorometry and state of the art probes, in order to explore the full benefits that can be derived in biomedicine through the convergence of these approaches. When applied to in vivo and in situ studies, fluorescence and related optical methods enable us to explore within tissues, cells and organelles photon effects previously understood only in solution photochemistry. Processes which can be studied at the molecular level by photophysics, photochemistry and physical chemistry can be evaluated in living tissue by fluorescence spectroscopy and imaging at the intracellular level in terms of structure and function. Thus, fluorescence adds a new dimension to cell biology and physiology. This approach is now supported by a full and versatile, rapidly growing armamentarium of new selective probes for organelles, enzymes, cations, cytoskeleton and metabolic control.