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Systematic Tuning of Rhodamine Spirocyclization for Super-resolution Microscopy

Nicolas Lardon, Lu Wang, Aline Tschanz, Philipp Hoess, Mai Tran, Elisa D’Este, Jonas Ries, Kai Johnsson

2021Journal of the American Chemical Society180 citationsDOIOpen Access PDF

Abstract

Rhodamines are the most important class of fluorophores for applications in live-cell fluorescence microscopy. This is mainly because rhodamines exist in a dynamic equilibrium between a fluorescent zwitterion and a nonfluorescent but cell-permeable spirocyclic form. Different imaging applications require different positions of this dynamic equilibrium, and an adjustment of the equilibrium poses a challenge for the design of suitable probes. We describe here how the conversion of the ortho-carboxy moiety of a given rhodamine into substituted acyl benzenesulfonamides and alkylamides permits the systematic tuning of the equilibrium of spirocyclization with unprecedented accuracy and over a large range. This allows one to transform the same rhodamine into either a highly fluorogenic and cell-permeable probe for live-cell-stimulated emission depletion (STED) microscopy or a spontaneously blinking dye for single-molecule localization microscopy (SMLM). We used this approach to generate differently colored probes optimized for different labeling systems and imaging applications.

Topics & Concepts

RhodamineMicroscopyChemistryMoietyFluorescenceFluorescence microscopeZwitterionSuper-resolution microscopyFluorophoreResolution (logic)MoleculeNanotechnologyOpticsStereochemistryOrganic chemistryMaterials scienceArtificial intelligenceComputer sciencePhysicsAdvanced Fluorescence Microscopy TechniquesClick Chemistry and ApplicationsAdvanced biosensing and bioanalysis techniques
Systematic Tuning of Rhodamine Spirocyclization for Super-resolution Microscopy | Litcius