Researchers have identified a previously unknown “hook-like” domain in the tail of the kinesin-2 motor protein that explains how these molecular machines select the right cargo inside cells.

Every cell in the body has the same DNA, but different cell types—such as muscle or brain cells—use different parts of it.

“It’s about freedom of thought, agency and mental privacy,” says Dafna Feinholz, acting head of Research, Ethics and Inclusion at UNESCO. She worries that the battle for mental privacy is being lost ...

In a landmark study released today, artificial intelligence (AI) has been used to reveal over a thousand previously hidden ...

From designing proteins not found in nature to extending healthy lifespan, Retro Biosciences is applying AI models to advance cellular reprogramming for aging research. The company operates across ...

Virtual screening methods fall broadly into two categories: ligand- and structure-based. Ligand-based virtual screening doesn’t require a target protein structure, Instead, it leverages known active ...

Scientists have known for decades that opioids relieve pain by binding to molecular switches in the brain called mu-opioid ...

Long Yuan, PhD, director of the Department of Drug Metabolism and Pharmacokinetics at Biogen, explains how artificial ...

South Korea stands again at an inflection point as technology, ambition and geopolitics intertwine with the dawn of the “age ...

The bug exposes the Metro development server to remote attacks, allowing arbitrary OS command execution on developer systems ...

Scientists have known for decades that opioids relieve pain by binding to molecular switches in the brain called mu-opioid ...

The Spurs' push for a publicly funded new arena showed Jones the limits of her power as San Antonio mayor. It was hard to ...