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

AI is making waves in health care and medicine. Does the technology have the potential for breakthroughs in how we tackle ...

Researchers at Oregon Health & Science University have identified a previously unknown system inside cells that works like internal “trade winds,” rapidly carrying essential proteins to the cell’s ...

A new study co-led by an Oregon Health & Science University researcher describes a breakthrough in microscopy tools that ...

A new Yale study of roundworms, a species with the unique ability to regenerate, reveals that disruptions in the body's ...

This past year, we explored a lot of new cell biology research—from cancer to plants to microbes, and more! It’s hard to believe what can fit in a year. Yet as we say goodbye to 2025, we want to take ...

The brain is shielded from many substances by the blood-brain barrier, but this shield is not impenetrable. There are immune cells in the brain called microglia that can respond to potential invaders ...

When do peripheral nerves develop? Researchers used "mosaic barcodes" to prove that neural crest cells commit to their ...

On the far right side of the periodic table, just beneath oxygen, sits a lesser-known group of elements called the chalcogens ...

For the millions of people living with genetic diseases like muscular dystrophy and inherited liver disorders, one of the ...

Cells aren’t as passive as scientists once thought—they actively create internal currents to move proteins quickly and efficiently. These “cellular winds” push materials to the front of the cell, ...