A newly developed single-cell metabolomics approach enabled researchers to measure the metabolites produced by individual ...

Researchers found that targeting a protein fragment, huntingtin 1a, restored baseline gene activity and reduced aggregate ...

Researchers identified a protein production switch in hippocampal mossy cells that explains delayed antidepressant effects.

A new study shows cells use dual RNA signals to control microRNA lifespan. This selective process protects gene regulation ...

Researchers developed FLAV-27, an epigenetic drug that inhibits G9a to restore gene expression in Alzheimer’s models. The ...

Researchers show amyloid beta and tau compete for microtubule binding, disrupting cellular transport. This interference may ...

In this interview, Katalin Karikó reflects on her path through science, the long road to recognition, and the lessons learned ...

A powerful new real-world data platform could transform how scientists predict and understand Alzheimer’s disease and ...

An MSU-led team found promising therapeutics for two diseases that currently lack effective treatment, demonstrating how gene ...

A study reveals tumors use glutathione as a nutrient source. Inhibiting this pathway reduced tumor growth, offering a new ...

Researchers developed a compound that protects the liver after small bowel resection in mice. The drug improved nutrient ...

Researchers found a grin2a mutation disrupts a brain circuit that updates beliefs using new information. In mice, restoring ...