Photo-Induced Depletion of Binding Sites in DNA-PAINT Microscopy.
Philipp BlumhardtJohannes SteinJonas MückschFlorian StehrJulian BauerRalf JungmannPetra SchwillePublished in: Molecules (Basel, Switzerland) (2018)
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.
Keyphrases
- single molecule
- living cells
- circulating tumor
- high resolution
- cell free
- high glucose
- atomic force microscopy
- diabetic rats
- reactive oxygen species
- nucleic acid
- drug induced
- high throughput
- endothelial cells
- oxidative stress
- label free
- optical coherence tomography
- cell death
- circulating tumor cells
- deep learning
- photodynamic therapy
- mass spectrometry
- highly efficient
- high speed
- stress induced