Understanding how cells turn genes on and off is one of biology's most enduring mysteries. Now, a new technology developed by ...

MIT researchers discovered that the genome’s 3D structure doesn’t vanish during cell division as previously thought. Instead, ...

At times, aging doesn’t become evident in wrinkles or in gray hair, it occurs deep inside your body, in cells that have ...

A better understanding of protein glycosylation offers insights into disease mechanisms and helps improve therapeutic medicines.

By restructuring a common chemotherapy drug, scientists increased its potency by 20,000 times. In a significant step forward ...

An international research team has determined the first high-resolution structures of the herpes simplex virus origin-binding ...

Challenging a long-standing assumption regarding the adult brain, recent research has demonstrated that individuals can ...

An artificial intelligence model predicts how brain immune cells react to RNA and DNA nanoparticles, helping scientists design safer and more effective nucleic acid therapies faster.

Arabidopsis thaliana was always an unlikely candidate for the limelight. But 25 years ago, the diminutive thale cress ...

They observe how the mobile DNA LINE-1 copies its sequence in human cells, revealing the precise mechanism of the ORF2p gene.

Researchers say findings help to bridge the structure of the genome to its function in managing how genes are turned on and off.