Researchers use DNA origami to create programmable nanostructures, enabling drug delivery, adaptive materials, and more.

Researchers from Durham University, Jagiellonian University (Poland) and the John Innes Centre have achieved a breakthrough ...

In a first-of-its-kind breakthrough, a team of UBC Okanagan researchers has developed an artificial adhesion system that ...

Oxford Nanopore Technologies, the company delivering a new generation of nanopore-based molecular sensing technology, today ...

Human genome sequencing methods. (NIH) These overlooked genes have been hiding away in regions of our DNA thought not to code ...

According to the Mendocino County Sheriff’s Office, deputies were informed in late October 2012 that “human remains had been discovered buried in a shallow grave” near Piercy, located near ...

For millions of people who adore cats but are plagued by allergies, the dream of snuggling a furry friend without sneezing ...

Using high-resolution cryo-electron microscopy researchers uncovered unprecedented detail of gyrase’s action on DNA.

This enzyme, present in bacteria but absent in humans, plays a crucial role in supercoiling ... with each piece moving in a precise sequence to achieve DNA supercoiling. The results suggested the ...

Recent work has also revealed that Homo sapiens interbred with three separate Denisovan populations. As a consequence, all ...

Labs around the world are trying to turn cells into autobiographers, tracking their own development from embryos to adults.

Johns Hopkins engineers have developed gel strips that change shape when given chemical instructions written in DNA code.