Subdiffraction imaging through the selective donut-mode depletion of thermally stable photoswitchable fluorophores: numerical analysis and application to the fluorescent protein Dronpa |
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Authors: | Dedecker Peter Hotta Jun-ichi Flors Cristina Sliwa Michel Uji-i Hiroshi Roeffaers Maarten B J Ando Ryoko Mizuno Hideaki Miyawaki Atsushi Hofkens Johan |
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Affiliation: | Department of Chemistry and INPAC, Katholieke Universiteit Leuven, Celestijnenlaan 200 F, 3001 Heverlee, Belgium. |
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Abstract: | The fast and reversible on/off switching of the fluorescence emission of the GFP-like fluorescent protein Dronpa has attracted considerable interest for applications in subdiffraction imaging. In this paper we study the use of a donut-mode beam in combination with two more overlapping laser beams to increase the imaging resolution through selective switching to the nonfluorescent photoswitched state. We devise and run a series of numerical simulations to determine suitable photophysical parameters of prospective, thermally stable photoswitchable molecules, in terms of photoswitching quantum yields, fatigue resistance, and possible presence of transient nonfluorescent states. Many of our findings are applicable to other measurements that make use of donut beams, and these guidelines can be used in the synthesis and screening of novel photoswitchable compounds. We experimentally demonstrate the possibility of obtaining increased resolution by making use of the efficient and thermally stable Dronpa photoswitching, using equipment that is commonly available. |
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