Orsolya K. Wade scite author profile

Optical super-resolution techniques reach unprecedented spatial resolution down to a few nanometers. However, efficient multiplexing strategies for the simultaneous detection of hundreds of molecular species are still elusive. Here, we introduce an entirely new approach to multiplexed super-resolution microscopy by designing the blinking behavior of targets with engineered binding frequency and duration in DNA-PAINT. We assay this kinetic barcoding approach in silico and in vitro using DNA origami structures, show the applicability for multiplexed RNA and protein detection in cells, and finally experimentally demonstrate 124-plex super-resolution imaging within minutes.

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Bacterially Derived Antibody Binders as Small Adapters for DNA‐PAINT Microscopy

Schlichthaerle

Ganji

Auer

et al. 2019

ChemBioChem

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Current optical super‐resolution implementations are capable of resolving features spaced just a few nanometers apart. However, translating this spatial resolution to cellular targets is limited by the large size of traditionally employed primary and secondary antibody reagents. Recent advancements in small and efficient protein binders for super‐resolution microscopy, such as nanobodies or aptamers, provide an exciting avenue for the future; however, their widespread availability is still limited. To address this issue, here we report the combination of bacterial‐derived binders commonly used in antibody purification with DNA‐based point accumulation for imaging in nanoscale topography (DNA‐PAINT) microscopy. The small sizes of these protein binders, relative to secondary antibodies, make them an attractive labeling alternative for emerging superresolution techniques. We present here a labeling protocol for DNA conjugation of bacterially derived proteins A and G for DNA‐PAINT, having assayed their intracellular performance by targeting primary antibodies against tubulin, TOM20, and the epidermal growth factor receptor (EGFR) and quantified the increases in obtainable resolution.

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Orsolya K. Wade

124-Color Super-resolution Imaging by Engineering DNA-PAINT Blinking Kinetics

Bacterially Derived Antibody Binders as Small Adapters for DNA‐PAINT Microscopy

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