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Super‐Resolution Fluorescence Microscopy Methods for Assessing Mouse Biology

Jessica Valli, Jeremy Sanderson

2021Current Protocols13 citationsDOIOpen Access PDF

Abstract

Super-resolution (diffraction unlimited) microscopy was developed 15 years ago; the developers were awarded the Nobel Prize in Chemistry in recognition of their work in 2014. Super-resolution microscopy is increasingly being applied to diverse scientific fields, from single molecules to cell organelles, viruses, bacteria, plants, and animals, especially the mammalian model organism Mus musculus. In this review, we explain how super-resolution microscopy, along with fluorescence microscopy from which it grew, has aided the renaissance of the light microscope. We cover experiment planning and specimen preparation and explain structured illumination microscopy, super-resolution radial fluctuations, stimulated emission depletion microscopy, single-molecule localization microscopy, and super-resolution imaging by pixel reassignment. The final section of this review discusses the strengths and weaknesses of each super-resolution technique and how to choose the best approach for your research. © 2021 The Authors. Current Protocols published by Wiley Periodicals LLC.

Topics & Concepts

MicroscopySTED microscopyResolution (logic)Super-resolution microscopyFluorescence microscopePhotoactivated localization microscopyMicroscopeNanotechnologyLight sheet fluorescence microscopyChemistrySuperresolutionMaterials scienceOpticsComputer scienceFluorescencePhysicsScanning confocal electron microscopyArtificial intelligenceImage (mathematics)Advanced Fluorescence Microscopy TechniquesCell Image Analysis TechniquesMolecular Biology Techniques and Applications