This interview dives into Curisosis' live cell imaging systems and how they improve reproducibility in cell-based assays.

Biological tissues have a remarkable ability to organize and change shape, driven by forces generated by their own cells. One ...

A rogue set of “zombie” immune cells may be driving aging and fatty liver disease by flooding tissues with inflammation.

UCLA researchers have identified a rogue population of immune cells that quietly accumulates in aging tissues and in the ...

If scientists could shrink themselves to microscopic size and take a journey through the human body—like the submarine crew ...

A growing body of research suggests astrocytes, star-shaped brain cells once dismissed as support players, may lead the way ...

Mitochondria don’t just generate energy—they also carefully organize their own DNA in a surprisingly elegant way. Scientists have discovered that a long-overlooked phenomenon called “mitochondrial ...

In this animated video, we explore the fascinating world of the human body, focusing on various parts and their functions, ...

After a decade-long quest to fill a major gap in basic biology, UChicago scientists have built a complete map of how cells ...

EPFL scientists discover that a simple shape change in mitochondria helps cells evenly distribute their mitochondrial DNA, ...

Cancer stem cells (CSCs) play a central role in tumor initiation, progression, recurrence, and therapy resistance. Their abilities for self-renewal, multi-lineage differentiation, and strong ...