Litcius/Paper detail

Synergizing Exchangeable Fluorophore Labels for Multitarget STED Microscopy

Marius Glogger, Dongni Wang, Julian Kompa, Ashwin Balakrishnan, Julien Hiblot, Hans‐Dieter Barth, Kai Johnsson, Mike Heilemann

2022ACS Nano46 citationsDOIOpen Access PDF

Abstract

Investigating the interplay of cellular proteins with optical microscopy requires multitarget labeling. Spectral multiplexing using high-affinity or covalent labels is limited in the number of fluorophores that can be discriminated in a single imaging experiment. Advanced microscopy methods such as STED microscopy additionally demand balanced excitation, depletion, and emission wavelengths for all fluorophores, further reducing multiplexing capabilities. Noncovalent, weak-affinity labels bypass this "spectral barrier" through label exchange and sequential imaging of different targets. Here, we combine exchangeable HaloTag ligands, weak-affinity DNA hybridization, and hydrophophic and protein-peptide interactions to increase labeling flexibility and demonstrate six-target STED microscopy in single cells. We further show that exchangeable labels reduce photobleaching as well as facilitate long acquisition times and multicolor live-cell and high-fidelity 3D STED microscopy. The synergy of different types of exchangeable labels increases the multiplexing capabilities in fluorescence microscopy, and by that, the information content of microscopy images.

Topics & Concepts

STED microscopyMicroscopyFluorophorePhotobleachingFluorescence microscopeFluorescence recovery after photobleachingFluorescenceBiophysicsConfocal microscopySuper-resolution microscopyChemistryFluorescence-lifetime imaging microscopyStimulated emissionNanotechnologyMaterials scienceOpticsPhysicsLaserBiologyAdvanced Fluorescence Microscopy TechniquesAdvanced Biosensing Techniques and ApplicationsCell Image Analysis Techniques