Analysis of binding site dependent labelling efficiency for DNA-PAINT using particle fusion

Hamidreza Heydarian; Sjoerd Stallinga; Bernd Rieger

doi:10.1016/j.optcom.2024.130834

Analysis of binding site dependent labelling efficiency for DNA-PAINT using particle fusion

Hamidreza Heydarian, Sjoerd Stallinga, Bernd Rieger^*

^*Corresponding author for this work

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Abstract

DNA-origami nanostructures have shown promising applications in single molecule localization microscopy. They have become a reference standard for benchmarking and for developing new techniques for nanoscopy. Here, we present a pipeline for quantifying the quality of these nano-structures when imaging multiple instances of them using DNA-PAINT technique. We show on several experimental datasets that these structures can have deformations and that the designed binding sites are not equally accessible for the labelled imager strands during the image acquisition process. These limitations result in non-uniform activation of the sites over the origami pattern when fusing the instances into a single reconstruction.

Original language	English
Article number	130834
Journal	Optics Communications
Volume	569
DOIs	https://doi.org/10.1016/j.optcom.2024.130834
Publication status	Published - 2024

Keywords

Clustering
DNA-PAINT
Labelling efficiency
Particle fusion
Single molecule localization microscopy

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10.1016/j.optcom.2024.130834

1-s2.0-S0030401824005716-mainFinal published version, 1.18 MBLicence: CC BY

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abstract = "DNA-origami nanostructures have shown promising applications in single molecule localization microscopy. They have become a reference standard for benchmarking and for developing new techniques for nanoscopy. Here, we present a pipeline for quantifying the quality of these nano-structures when imaging multiple instances of them using DNA-PAINT technique. We show on several experimental datasets that these structures can have deformations and that the designed binding sites are not equally accessible for the labelled imager strands during the image acquisition process. These limitations result in non-uniform activation of the sites over the origami pattern when fusing the instances into a single reconstruction.",

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AU - Heydarian, Hamidreza

AU - Stallinga, Sjoerd

AU - Rieger, Bernd

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Y1 - 2024

N2 - DNA-origami nanostructures have shown promising applications in single molecule localization microscopy. They have become a reference standard for benchmarking and for developing new techniques for nanoscopy. Here, we present a pipeline for quantifying the quality of these nano-structures when imaging multiple instances of them using DNA-PAINT technique. We show on several experimental datasets that these structures can have deformations and that the designed binding sites are not equally accessible for the labelled imager strands during the image acquisition process. These limitations result in non-uniform activation of the sites over the origami pattern when fusing the instances into a single reconstruction.

AB - DNA-origami nanostructures have shown promising applications in single molecule localization microscopy. They have become a reference standard for benchmarking and for developing new techniques for nanoscopy. Here, we present a pipeline for quantifying the quality of these nano-structures when imaging multiple instances of them using DNA-PAINT technique. We show on several experimental datasets that these structures can have deformations and that the designed binding sites are not equally accessible for the labelled imager strands during the image acquisition process. These limitations result in non-uniform activation of the sites over the origami pattern when fusing the instances into a single reconstruction.

KW - Clustering

KW - DNA-PAINT

KW - Labelling efficiency

KW - Particle fusion

KW - Single molecule localization microscopy

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SN - 0030-4018

VL - 569

JO - Optics Communications

JF - Optics Communications

M1 - 130834

ER -

Analysis of binding site dependent labelling efficiency for DNA-PAINT using particle fusion

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Keywords

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