From rare diseases to chronic conditions, epigenetic editing unlocks new ways to control gene activity without altering the genetic code.

Cancer isn't just about broken genes-it's about broken architecture. Imagine a city where roads suddenly vanish, cutting off neighborhoods from essential services.

New research from Liverpool School of Tropical Medicine (LSTM) has shown gut and bloodstream infections are caused by the same bacteria, giving hope of better prevention and diagnosis of deadly ...

Researchers at Duke University used CRISPR technologies to discover previously unannotated stretches of DNA in the 'dark genome' that are responsible ...

Researchers at the Department of Cell and Molecular Biology, Karolinska Institutet have captured the first detailed molecular snapshots of human polynucleotide phosphorylase (hPNPase) in action, ...

Researchers demonstrated that it is feasible to encode executable payloads into synthetic DNA that, once sequenced and ...

Today's biomedical researchers are relentlessly searching for genes that drive disease, with the goal of creating therapies ...

The FDA approved a Phase 2b trial of CS1, a new PAH therapy being tested for its impact on lung vessel resistance and ...

Analysis of more than 1 million people shows that mental-health disorders fall into five clusters, each of them linked to a ...

RFdiffusion2, RFdiffusion3, and Riff-Diff each solve different structural problems in computational enzyme design ...

A recent study highlights how DNA microarray technology enables high-throughput gene analysis, supporting variation detection, expression ...

The rollout of a type of genetic technology called a gene drive for tackling malaria could be edging closer after a lab study ...