Researchers have developed a novel 3D printing strategy that preserves the folding structure and molecular function of various biopolymers.

We see this as a 'next-generation 3D printing' at the nanoscale, but now the power of DNA-based self-assembly allows us to establish massively parallel fabrication," said Gang.

On-demand DNA-based assembly suddenly makes many of these problems recede into the distance. The particular language used by Parabon’s founder, Steven Armentrout, at first sounds almost fanciful.

Coastal Genomics, experts in life sciences automation, selected Sculpteo, a leader in online 3D printing and digital manufacturing, to develop unique components for an automated DNA purification ...

Using standard DNA extraction kits that she orders online, she extracts the DNA from the samples with chemicals and a centrifuge.

Thanks to a set of computer algorithms, researchers have developed a way to streamline the design phase that comes before the DNA assembly — a substantial step toward 3D printing at the nanoscale.

Researchers developed a 3D printing technology that directly allows precise writing and patterning of various biopolymers with full mechanical stability and functional integrity.

If you want to print something a few inches tall, extruded plastic is a good medium. But when you need something at the nanometer scale, DNA is a better bet — but who has the time to design and ...

Rather, the team wanted to develop a fully-automated, 3D-printing-like method for folding DNA. Researchers could one day use the technique to create structures that don't break down in the human ...

Scientists have found that they can fold DNA into very particular shapes by way of a 3D printing method that could help deliver medication.

DNA printing is a 3D additive process, because each chromosome consists of two very large molecules of DNA wound around each other (each strand is a separate molecule).