The RAD52-DNA complex is a dynamic guardian of genomic stability. When this balance falters, cells may either self-destruct or, worse, turn cancerous.

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

A team of Chinese scientists has uncovered a hidden 3D structure in rice DNA that allows the crop to grow more grain while ...

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.

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

Frogs have made significant contributions to Fred Hutch science over the years as a model organism that shares much of our ...

ETH Zurich scientists have created “MetaGraph,” a revolutionary DNA search engine that functions like Google for genetic data. By compressing global genomic datasets by a factor of 300, it allows ...

In a promising advance for cancer treatment, Northwestern University scientists have re-engineered the molecular structure of ...

Researchers used cryo-EM to study how the HIV enzyme integrase arranges in 3D to slip its DNA into the host genome and pack ...

The 55th Lewis S. Rosenstiel Award for Distinguished Work in Basic Medical Research has been awarded to professor Steven ...

Genetic tweaks allowed early humans to stand, balance and walk on two legs instead of moving on all fours like other primates, according to researchers.

The developers of OpenFold3 have released an early version of the tool, which they hope will one day perform on par with DeepMind’s protein-structure model.