UT Austin researchers folded DNA into a nanoscale Longhorn, demonstrating a breakthrough that could help deliver cancer drugs ...

Scientists have developed a new way to improve the reliability of DNA origami for future biomedical, agritech and other ...

A three-dimensional DNA origami robot has been developed to probe the mechanism of recently discovered cellular receptors sensitive to touch and force. On a cellular level, our bodies have a dense ...

Researchers in the lab of Cancer Center at Illinois (CCIL) member Xing Wang have discovered the influential role of ...

Add Yahoo as a preferred source to see more of our stories on Google. Marking a significant advancement in molecular robotics, researchers have created custom-designed and programmable nanostructures ...

A dissertation study at the University of Jyväskylä (Finland) developed two-dimensional fishnet-like structures from DNA origami for silicon surfaces and investigated how different conditions affect ...

One of the challenges of fighting pancreatic cancer is finding ways to penetrate the organ's dense tissue to define the margins between malignant and normal tissue. A new study uses DNA origami ...

In one sentence: DNA origami is a self-assembly technique that folds a long single-stranded DNA molecule into precisely defined nanoscale shapes using hundreds of short, computer-designed staple ...

Researchers at the Karolinska Institute have used DNA origami to demonstrate how an important cell receptor can be activated in a previously unknown way. The new study provides insight into how the ...

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 ...