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Showing 1–5 of 5 results

Advanced filters: Author: Eduard M. Unterauer Clear advanced filters

Left-handed DNA for efficient highly multiplexed imaging at single-protein resolution

By combining left- and right-handed DNA-PAINT probes, Unterauer et al. achieve simple, robust, and highly multiplexed super-resolution. They show 13-plex neuronal maps, revealing nanoscale organization of cytoskeleton, organelles, and synapses.

Eduard M. Unterauer
Eva-Maria Schentarra
Ralf Jungmann
ResearchOpen Access02 Oct 2025
Nature Communications

Volume: 16, P: 1-8
Quantification of absolute labeling efficiency at the single-protein level

Super-resolution imaging of reference and target structures enables precise determination of the labeling efficiency of high-affinity binding proteins in cells for improved quantitative assessment of protein organization at the single-molecule level.

Joschka Hellmeier
Sebastian Strauss
Ralf Jungmann
ResearchOpen Access24 Apr 2024
Nature Methods

Volume: 21, P: 1702-1707
Ångström-resolution fluorescence microscopy

The authors introduce a single-molecule DNA-barcoding method, resolution enhancement by sequential imaging, that improves the resolution of fluorescence microscopy down to the Ångström scale using off-the-shelf fluorescence microscopy hardware and reagents.

Susanne C. M. Reinhardt
Luciano A. Masullo
Ralf Jungmann
ResearchOpen Access24 May 2023
Nature

Volume: 617, P: 711-716
The DNA-PAINT palette: a comprehensive performance analysis of fluorescent dyes

The dyes chosen for DNA-PAINT microscopy are pivotal for data quality. This Analysis shows a comprehensive comparison of 18 fluorescent dyes in DNA-PAINT and offers guidance for optimum dye selection in single-color and multiplexed imaging.

Philipp R. Steen
Eduard M. Unterauer
Ralf Jungmann
ResearchOpen Access07 Aug 2024
Nature Methods

Volume: 21, P: 1755-1762
Calcium stabilizes the strongest protein fold

Staphylococcal pathogens adhere to their human targets using adhesins, which can withstand extremely high forces. Here, authors use single-molecule force spectroscopy to determine the similarly high unfolding forces of B domains that link the adhesin to the bacterium.

Lukas F. Milles
Eduard M. Unterauer
Hermann E. Gaub
ResearchOpen Access12 Nov 2018
Nature Communications

Volume: 9, P: 1-10