High-Speed Super-Resolution Imaging Using Protein-Assisted DNA-PAINT

Authors :: Filius, M. (author)
Cui, T.J. (author)
Ananth, A.N. (author)
Docter, M.W. (author)
Hegge, Jorrit W. (author)
van der Oost, John (author)
Joo, C. (author)
Filius, M. (author)
Cui, T.J. (author)
Ananth, A.N. (author)
Docter, M.W. (author)
Hegge, Jorrit W. (author)
van der Oost, John (author)
Joo, C. (author)
Publication Year :: 2020
Abstract: Super-resolution imaging allows for the visualization of cellular structures on a nanoscale level. DNA-PAINT (DNA point accumulation in nanoscale topology) is a super-resolution method that depends on the binding and unbinding of DNA imager strands. The current DNA-PAINT technique suffers from slow acquisition due to the low binding rate of the imager strands. Here we report on a method where imager strands are loaded into a protein, Argonaute (Ago), which allows for faster binding. Ago preorders the DNA imager strand into a helical conformation, allowing for 10 times faster target binding. Using a 2D DNA origami structure, we demonstrate that Ago-assisted DNA-PAINT (Ago-PAINT) can speed up the current DNA-PAINT technique by an order of magnitude, while maintaining the high spatial resolution. We envision this tool to be useful for super-resolution imaging and other techniques that rely on nucleic acid interactions.<br />BN/Chirlmin Joo Lab<br />BN/Cees Dekker Lab<br />BN/Technici en Analisten