All-Optical Strategies to Minimize Photo-Bleaching in Reversibly Switchable Fluorescent Proteins

Photo-bleaching is a general hurdle of fluorescence-based techniques that becomes even more severe in high- resolution microscopy that relies on prolonged, focused and complex illumination sequences. Strategies to reduce photo-bleaching require chemical modifications of the cell media, which often stave off physiological cellular conditions. Here, we outline an all-optical strategy to minimize photo-bleaching in reversibly switching fluorescent proteins (RSFPs), a class of probes used in several super-resolution and protein-multiplexing imaging techniques. By identifying the photobleaching pathways, we developed novel imaging schemes to increase the number of ON- OFF photo-switching cycles based on a designed modulation of the on-switching light or a co-irradiation with red- shifted light. By rationalizing the photo-cycle, we expand multiplexing strategies with RSFPs to high- spatiotemporal resolutions while maintaining the accuracy and recording longer time-lapse imaging of sub-cellular structures with both confocal microscopy and parallelized RESOLFT nanoscopy.