A leftover from microbes’ meals is linked to early heart disease in people. In mice, it contributed to plaque buildup in the arteries.

Weill Cornell Medicine researchers have discovered that PD-1—a molecule best known for putting the brakes on immune cells—also plays a critical role in helping T cells become long-term immune ...

When environmental stress harms DNA, it can set off a cascade of failures linked to heart conditions, neurodegeneration, and chronic inflammation. A new chemical tool developed at UC Riverside ...

Researchers at Karolinska Institutet have discovered a previously unknown molecule that may explain why people with type 2 diabetes often suffer from muscle weakness and muscle loss - a condition ...

A research group led by Dr. Keisuke Obara, Dr. Kento Yoshioka, and Professor Yoshio Tanaka from the Department of Chemical Pharmacology, Faculty of Pharmaceutical Sciences, Toho University, has ...

Scientists have developed a new molecule that can deliver powerful immune-activating treatment directly to cancer cells, marking an important advancement in cancer therapy. Traditionally, one ...

Capital Medical University, in collaboration with the Chinese Academy of Sciences, reports that betaine, a molecule produced in the kidney and enhanced through sustained exercise, operates as a ...

The discovery itself is simple and fundamental, but the applications stretch far and wide into astrophysics and quantum technology, the researchers say.

Designed to tackle high-impact, hard-to-treat conditions such as neurodegenerative diseases and metastatic cancers, InFocus has built a proprietary RNA-targeted small molecule drug generation ...

Pfizer has added another chapter to its long-running drug discovery collaboration with Chinese tech startup XtalPi, this time upgrading their molecular modeling work. The aim is to help “grasp ...

Researchers have developed a blood test that detects Alzheimer's biomarkers at single-molecule levels, enabling earlier, non-invasive diagnosis using extracellular vesicles.

Discover how a new magnetic molecule can store 3TB per cm², transforming data storage with high density and stability at higher temperatures.