A Jacobs School researcher is focused on learning more about how tight junctions form naturally — and how their breakdown can lead to disease.

In this webinar, Brian Haldeman will discuss how Leprechaun enables complete biophysical characterization of in-process or ...

Led by biomedical engineer Vadim Backman, the study reveals that DNA’s 3D physical structure holds a “geometric code” — a ...

Engineers are turning to animal origami, from insects that tuck away wings to a protist with an accordion-like neck, for ...

Lateone monsoon evening in Tiruppur, a textile buyer ran two fingers across a swatch he couldn’t quite place. It felt like ...

In iOS 26, Apple has given app developers access to Apple Intelligence's Foundation Models via a framework they can ...

Artificial intelligence is getting really good at helping doctors diagnose problems and even discover new drugs faster. It ...

MIT researchers discovered that the genome’s 3D structure doesn’t vanish during cell division as previously thought. Instead, ...

The Korea Research Institute of Standards and Science (KRISS) has developed an artificial intelligence (AI)-based image ...

Researchers say findings help to bridge the structure of the genome to its function in managing how genes are turned on and off.

Future surgeries might include a robotic 3D printer restoring body tissue, perfecting reconstructive procedures, or building ...

Before cells can divide, they first need to replicate all of their chromosomes, so that each of the daughter cells can ...