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

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 ...

Inside every cell, a cleanup operation runs around the clock. Proteins are constantly damaged by wear and tear. Some can be repaired, while others must be dismantled and recycled. When this system ...

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

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

Mayo Clinic's Translational Neuromuscular Disease Research Lab led by Nathan P. Staff, M.D., Ph.D., studies the biological ...

It can be estimated theoretically that more unique biological interactions exist than stars in our known universe. The ...

In recent years, the field of stem cell and developmental biology has seen remarkable breakthroughs that have deepened our understanding of how organisms grow, age and regenerate, with major ...

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 ...

Labroots and the Cell Biology Planning Committee are pleased to announce the 10th Annual Event in the Cell Biology Virtual Event Series 2026 on September 16th, 2026. This event provides an opportunity ...

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, ...