In a technique known as DNA origami, researchers fold long strands of DNA over and over again to construct a variety of tiny 3D structures, including miniature biosensors and drug-delivery containers.

Researchers bolster antitumor immune defenses using cancer vaccines made from DNA origami. “One of the attractive things about DNA origami is how relatively simple it is for anybody to design,” Shih ...

DNA origami and beyond. A) DNA octahedron that inspired development of DNA origami. B) 2D DNA origami (smiley face serves as an example). C) Hollow 3D DNA origami shapes that are folded from 2D ...

Origami — the art of making various shapes from a single piece of paper — has been realized at the nanoscale using DNA. Sheets of ‘DNA wireframe paper’ have been developed that, through folding along ...

DNA stores the instructions for life and, along with enzymes and other molecules, computes everything from hair color to risk of developing diseases. Harnessing that prowess and immense storage ...

Similarly to the artistic technique of folding paper into ornate shapes, DNA origami is a self-assembling technique of precisely folding single-stranded DNA scaffolds into well-defined nanostructures.

Griffith University researchers have played a key role in using DNA "origami" templates to control the way viruses are assembled. The global team behind the research, titled "DNA-origami-directed ...

DNA, the medium of life, is so deeply associated with the biochemical world that considering its nonbiological applications may seem far-fetched. However, for researchers in the 1980s and 1990s ...

Researchers introduce a pioneering breakthrough in the world of nanomotors -- the DNA origami nanoturbine. This nanoscale device could represent a paradigm shift, harnessing power from ion gradients ...

(Nanowerk News) A new technique in building DNA structures at a microscopic level has the potential to advance drug delivery and disease diagnosis, a study suggests. A team of scientists, from the ...

Skoltech researchers and their colleagues from Ludwig Maximilian University of Munich, Germany, Nanjing University of China, and the National Institute for Materials Science of Japan have developed a ...