Through DNA origami, oligonucleotides form complex nanostructures, driving advancements in nanotechnology and offering solutions for nanomedicine challenges.

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 ...

How Does DNA Origami Work? The creation of a specific nanostructure starts with its design, often utilizing advanced computational tools. A long, viral-origin scaffold strand of DNA is manipulated by ...

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, published in Nature ...

The sensor uses a DNA origami scaffold, which consists of two arms connected by a molecular “hinge.” Each arm is tagged with a fluorescent dye, and the distance between the tags is recorded by means ...

DNA nanotechnology has established approaches for designing programmable and precisely controlled nanoscale architectures through specific Watson—Crick base-pairing, molecular plasticity, and ...

The central ingredient of therapeutic cancer vaccines is antigens, which are preferentially produced or newly produced (neoantigens) by tumor cells and enable a patient’s immune system to search and ...

Flow-driven turbines lie at the heart of many revolutionary machines that have shaped our societies, from windmills to airplanes. Even life itself depends critically on turbines for fundamental ...

Thought LeadersEbbe Sloth Andersen, Ph.D.Associate Professor, iNANOAarhus University In this interview, AZoNano speaks with Associate Professor Ebbe Sloth Andersen from Aarhus University about a new ...

Researchers are using DNA 'origami' templates to control the way viruses are assembled. The global team behind the research developed a way to direct the assembly of virus capsids -- the protein shell ...