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Carlos E. Castro | Programming Mechanical Function of DNA Origami @ MSD Workshop 2023

Presenter Carlos E. Castro, Ohio State University Professor Castro received his Bachelor’s and Master’s degrees in Mechanical Engineering both from the Ohio State University and his PhD in Mechanical Engineering from the Massachusetts Institute of Technology. He was post-doctoral fellow at the Technische Universität München working in structural DNA nanotechnology. Dr. Castro joined OSU in… Continue reading Carlos E. Castro | Programming Mechanical Function of DNA Origami @ MSD Workshop 2023

Caltech celebrates ten years of Scaffolded DNA Origami

California Institute of Technology is holding a symposium to honor Paul Rothemund’s seminal contribution to the field of DNA nanotechnology: the research paths opened by the technology, and where they might lead.

Surface assisted self-assembly of DNA origami nanostructures

A lipid bilayer supported by a mica surface assisted the mobile self-assembly of DNA nanostructures of various shapes into micrometer-scale 2D lattices.

Parallel to protein folding improves DNA origami process

Designing a small DNA origami that can fold in several almost equivalent ways demonstrates how understanding and guiding the folding pathway can improve the efficiency of the folding process, potentially leading in more complex situations to higher yields of the desired nanostructure and fewer misfolded structures.

Novel wireframe nanostructures from new DNA origami design process

A new set of design rules enables constructing any wireframe nanostructure, which may lead to new medical applications and new nanomachines.

Automated design of polyhedral meshes for DNA origami

An automated design process folds arbitrary meshes to produce DNA origami structures difficult to design by previous methods, including more open structures that are stable in ionic conditions used in biological assays.

Scaffolded DNA origami improvements advance DNA nanotechnology

A 10-fold larger breadboard and 350-fold lower DNA synthesis costs make DNA origami a more useful stepping-stone toward atomically precise manufacturing.

Testing and improving scaffolded DNA origami for molecular nanotechnology

In two different sets of experiments a German research group has shown that scaffolded DNA origami can be used to assemble complex structures with precise sub-nanometer positional control, and that constant temperature reaction can greatly increase yields and decrease production times.

Self-assembly of carbon nanotubes into two-dimensional geometries using DNA origami templates

Self-assembly of carbon nanotubes into two-dimensional geometries using DNA origami templates. Harnessing DNA origami to arrange CNTs.

Nano-boxes from DNA origami

Just a week ago I was at NIST to hear a talk by Paul Rothemund, winner of the 2006 Feynman Prize with Erik Winfree for the invention of DNA Origami. In just 3 years this has taken off in a big way. This story at Nanowerk News reports the latest: Danish researchers have made a… Continue reading Nano-boxes from DNA origami

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