Multicolor Caged DSTORM Resolves the Ultrastructure of Synaptic Vesicles in the Brain

Overview

Journal Angew Chem Int Ed Engl

Specialty Chemistry

Date 2015 Sep 9

PMID 26346505

Citations 12

Authors

Martin Lehmann

Benjamin Gottschalk

Dmytro Puchkov

Peter Schmieder

Sergej Schwagerus

Christian P R Hackenberger

Volker Haucke

Jan Schmoranzer

Affiliations

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Abstract

The precision of single-molecule localization-based super-resolution microscopy, including dSTORM, critically depends on the number of detected photons per localization. Recently, reductive caging of fluorescent dyes followed by UV-induced recovery in oxidative buffer systems was used to increase the photon yield and thereby the localization precision in single-color dSTORM. By screening 39 dyes for their fluorescence caging and recovery kinetics, we identify novel dyes that are suitable for multicolor caged dSTORM. Using a dye pair suited for registration error-free multicolor dSTORM based on spectral demixing (SD), a multicolor localization precision below 15 nm was achieved. Caged SD-dSTORM can resolve the ultrastructure of single 40 nm synaptic vesicles in brain sections similar to images obtained by immuno-electron microscopy, yet with much improved label density in two independent channels.

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