Correlative superresolution microscopy with deep UV reactivation

Abstract

AbstractCorrelative superresolution microscopy has the potential to accurately visualize and validate new biological structures past the diffraction limit. However, combining different superresolution modalities, such as deterministic stimulated emission depletion (STED) and stochastic single-molecule localization microscopy (SMLM), is a challenging endeavor. For correlative STED and SMLM, the following poses a significant challenge: (1) the photobleaching of the fluorophores in STED; (2) the subsequent reactivation of the fluorophores for SMLM; and (3) finding the right fluorochrome and imaging buffer for both imaging modalities. Here, we highlight how the deep ultraviolet (DBUE) wavelengths of the Mercury (Hg) arc lamp can help recover STED bleaching and allow for the reactivation of single molecules for SMLM imaging. We also show that Alexa Fluor 594 and the commercially available Prolong Diamond turn out to be excellent fluorophores and imaging media for correlative STED and SMLM.