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 ...

Most gene-editing tools are blind to context. Point them at a DNA sequence and they cut, whether that sequence sits inside a ...

OHSU scientist helps develop imaging strategy that unlocks next-generation dyes to study how cancer cells grow, move, change ...

A recent narrative review looks at the most effective and emerging options for diagnosing and treating basal cell carcinoma.

A new analytical method could improve how cancer treatments are designed—by allowing scientists to track, for the first time, ...

Metastases are a key problem in many types of cancer. As descendants of the primary tumor, they can grow in other organs ...

As the second leading cause of death globally, cancer is a worldwide health crisis, particularly as life expectancies continue to increase. In its final stages, cancer spreads throughout the body in a ...

New NE-AFM method measures nuclear stiffness in living cells. It shows cancer nuclei change softness with chromatin and environment, aiding diagnosis and treatment. By employing a technique called ...

A team led by researchers at Baylor College of Medicine has identified flavonoids, natural compounds found in plants, that are toxic to bladder cancer cells cultured in the lab. The researchers report ...

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, ...