In a little over ten years, organoid models—miniature, lab-grown clusters of cells that imitate real organs—have transformed how we study human development and disease while accelerating drug ...

The animal world is an arena where creatures are endowed with incredible mysteries, where some animals live perfectly well ...

Researchers discovered that a long-misunderstood protein plays a key role in helping chromosomes latch onto the right “tracks” during cell division. Instead of acting like a motor, it works more like ...

Oil-in-water droplets respond to chemical cues by forming arm-like extensions that resemble filopodia, which are used by ...

Cells are not immortal, and that is a good thing. After a certain number of divisions, many human cells stop multiplying for ...

A one millimeter worm is helping scientists rethink what controls the pace of aging. By tracing how its tiny brain senses the world and broadcasts hormonal commands, researchers are starting to see ...

During the investigation, the team also discovered something unexpected: a group of enzymes called agmatinases plays an ...

Light-sensitive stem cells let bristleworms grow their eyes for life, shedding new light on how vision evolved.

A new technological frontier is rapidly taking shape as scientists move from silicon chips to computers built with human ...

A next-generation drug tested in yeast was found to extend lifespan and slow aging by influencing a major growth-control pathway. Researchers also uncovered an unexpected role for agmatinases, enzymes ...

Experts at SICP 2025 outline how molecular mechanisms and bedside assessments can guide personalised treatment for ...

As prominent artificial intelligence (AI) researchers eye limits to the current phase of the technology, a different approach is gaining attention: using living human brain cells as computational ...