Julian Bauer scite author profile

The limited photon budget of fluorescent dyes is the main limitation for localization precision in localization-based super-resolution microscopy. Points accumulation for imaging in nanoscale topography (PAINT)-based techniques use the reversible binding of fluorophores and can sample a single binding site multiple times, thus elegantly circumventing the photon budget limitation. With DNA-based PAINT (DNA-PAINT), resolutions down to a few nanometers have been reached on DNA-origami nanostructures. However, for long acquisition times, we find a photo-induced depletion of binding sites in DNA-PAINT microscopy that ultimately limits the quality of the rendered images. Here we systematically investigate the loss of binding sites in DNA-PAINT imaging and support the observations with measurements of DNA hybridization kinetics via surface-integrated fluorescence correlation spectroscopy (SI-FCS). We do not only show that the depletion of binding sites is clearly photo-induced, but also provide evidence that it is mainly caused by dye-induced generation of reactive oxygen species (ROS). We evaluate two possible strategies to reduce the depletion of binding sites: By addition of oxygen scavenging reagents, and by the positioning of the fluorescent dye at a larger distance from the binding site.

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DNA origami nanorulers and emerging reference structures

Scheckenbach

Bauer

Zähringer

et al. 2020

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The DNA origami technique itself is considered a milestone of DNA nanotechnology and DNA origami nanorulers represent the first widespread application of this technique. DNA origami nanorulers are used to demonstrate the capabilities of techniques and are valuable training samples. They have meanwhile been developed for a multitude of microscopy methods including optical microscopy, atomic force microscopy, and electron microscopy, and their unique properties are further exploited to develop point-light sources, brightness references, nanophotonic test structures, and alignment tools for correlative microscopy. In this perspective, we provide an overview of the basics of DNA origami nanorulers and their increasing applications in fields of optical and especially super-resolution fluorescence microscopy. In addition, emerging applications of reference structures based on DNA origami are discussed together with recent developments.

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Tracking single particles for hours via continuous DNA-mediated fluorophore exchange

et al. 2021

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Monitoring biomolecules in single-particle tracking experiments is typically achieved by employing fixed organic dyes or fluorescent fusion proteins linked to a target of interest. However, photobleaching typically limits observation times to merely a few seconds, restricting downstream statistical analysis and observation of rare biological events. Here, we overcome this inherent limitation via continuous fluorophore exchange using DNA-PAINT, where fluorescently-labeled oligonucleotides reversibly bind to a single-stranded DNA handle attached to the target molecule. Such versatile and facile labeling allows uninterrupted monitoring of single molecules for extended durations. We demonstrate the power of our approach by observing DNA origami on membranes for tens of minutes, providing perspectives for investigating cellular processes on physiologically relevant timescales.

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Salt-induced conformational switching of a flat rectangular DNA origami structure

et al. 2022

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Julian Bauer

Photo-Induced Depletion of Binding Sites in DNA-PAINT Microscopy

DNA origami nanorulers and emerging reference structures

Tracking single particles for hours via continuous DNA-mediated fluorophore exchange

Salt-induced conformational switching of a flat rectangular DNA origami structure

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