A largely overlooked structure inside our cells may play a crucial role in how the brain forms, offering new insight into ...

That means researchers can now use it to better understand how genes function, how diseases start and how to design better treatments. "Every single cell can have a different chromosome structure," ...

Some of the body's cells stay put for life, while others are free to roam. To move, these migratory cells rely on filopodia—sensitive, finger-like protrusions that reach out from the cell membrane ...

For decades, depression has been explained to patients as a “chemical imbalance” in the brain, a vague phrase that never ...

When the body encounters infection or cancer, cytotoxic T lymphocytes attach to the affected cell and form the immune synapse ...

Even after decades of peering into cells, biologists are still finding surprises. In a twist, researchers at the University of Virginia and the National Institutes of Health uncovered a new organelle, ...

Professor Bo Liu, Department of Plant Biology, holds an Arabidopsis plant while Professor Jawdat Al-Bassam, Department of Molecular and Cellular Biology, holds a model of the augmin protein complex.

A Moffitt Cancer Center researcher has introduced a new model that addresses one of biology's most fundamental questions: How does genetic information keep living systems organized and therefore alive ...

A collaboration between the University of Geneva and Lausanne University Hospital has shown in new detail how the body's defenses fight back against malignant cells. Those defenses involve T ...

In mouse brain cells, and in follow-up work involving worms and human cortical neurons, the team found that many axons ...