Using a 3D culture system that imitates fatty tissue, researchers developed a simpler process to study mesenchymal stem cell aging and tissue regeneration.
Researchers engineer a protease-mediated post-translational path faster than gene switches for processes that need to happen quickly, such as insulin release.
By engineering structures out of DNA, scientists could potentially prevent larger viruses, like coronaviruses and influenza viruses, from interacting with cells.
Andrew Pelling shares how pursuing knowledge for its own sake breaks down interdisciplinary barriers and lays the foundation for ground-breaking research.
This month marks ten years since CRISPR-Cas9 was repurposed as a gene editing system, so we’re looking back at what has been accomplished in a decade of CRISPR editing.
The former thoracic surgeon was acquitted on two counts of intentional assault but convicted on a single count of felony bodily injury for a series of fatal procedures in the early 2010s.
Researchers in Japan have given a plastic robot finger a layered coating made from actual, living skin cells. Next, they aim to add hair and sweat glands.
The Scientist’s Creative Services Team | 1 min read
Molly Shoichet and Bridget Wagner discuss strategies for using phenotypic screening to identify novel agents against diseases such as cancer and diabetes.
Researchers are revealing the complexity of the microbial community living on the body—and paving the way for new bacteria-targeting treatments for acne and other dermatological conditions.
A technique that reversibly bundles tagged cargo into artificial membraneless compartments gives scientists the ability to switch cell processes on and off.
