Researchers have designed a computer program that allows users to translate any free-form drawing into a two-dimensional, nanoscale structure made of DNA. Researchers at MIT and Arizona State ...

Marvel at the tiny nanoscale structures emerging from research labs at Duke University and Arizona State University, and it's easy to imagine you're browsing a catalog of the world's smallest pottery.

Simulations have led to the fabrication of a polymer-DNA gel that could be used in tissue regeneration and robotics. Simulations have led to the fabrication of a polymer-DNA gel that could be used in ...

DNA origami is a technique used for the nanoscale folding of DNA to develop two-dimensional (2D) and three-dimensional (3D) shapes at a nanoscale range. No bigger than a virus, each of these ...

Examples of the types of structures designed, and the real DNA origami created using the program. Scale bars: 20 nm (atomic structures); 50 nm (AFM images). (Courtesy: Hyungmin Jun et al Science ...

Scientists at MIT and Arizona State University created a program that enables users to transform a drawing into a DNA structure. Before this, it took technical know-how to design these two-dimensional ...

Where to start? It's unlikely that you've missed any of the extensive media coverage the Encyclopedia of DNA Elements (ENCODE) project has received over the past two weeks, after the international ...

Ever wanted to draw at the nanoscale? Well, now there’s an app for that. It’s called Perdix. The free, open-source software, designed by a team of scientists from MIT and Arizona State University, ...

Researchers at MIT and Arizona State University have designed a computer program that allows users to translate any free-form drawing into a two-dimensional, nanoscale structure made of DNA. Until now ...