LMU chemists have developed a versatile biosensor using DNA origami that can easily adapt to various biomolecular targets.
Researchers have developed a strategy that enables biosensors to be easily adapted for a wide range of applications.
In case you had any doubts that we live in the future, scientists just created a medical device straight out of Star Trek or, depending on your view of ...
Professor Leo Chou (BME) has been awarded $130,000 in funding from the Cancer Research Society (CRS) to propel forward an ...
Nanoscale robots can be programmed to walk a DNA origami track. Tiny, programmable robots: it sounds like something right out of science fiction. Yet scientists are beginning to engineer nanoscale ...
A key area of focus is DNA assembly, including a technique known as DNA origami. An ever-increasing number of research groups are exploiting programmable self-assembly properties of nucleic acids in ...
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This story appears in the January 2019 issue of National Geographic magazine. I would never have met Harriett were it not for our mutual friend, Linda. I’m a physician in Northern California ...
“Shine” by Yukio Nishimura -- Photo courtesy Schaefer International Gallery Paul Jackson, origami artist, explains that like DNA, which is folded, “You and I are born of folding.” We ...
DNA nanotechnology is a field of nanotechnology that uses DNA molecules as building blocks to create structures and devices on the nanoscale, including the emerging field of DNA computing. DNA ...
Evolution of DNA nanotechnology, from early DNA ligation techniques to modern DNA origami and dynamic DNA nanostructures. * The unique structural properties of tFNAs, including their high mechanical ...
Nanoscopic DNA chips assembled using the DNA origami method enable target detection in solution and hold promise for single-cell gene expression analysis. In 2006 Paul Rothemund of the California ...