Innovative research into the gene-editing tool targets influenza’s ability to replicate—stopping it in its tracks.

A new method for engineering natural killer cells could make cancer immunotherapy more efficient, scalable, and affordable, ...

A research team has delivered a comprehensive overview showing how microbial fermentation—guided by synthetic biology, metabolic engineering, and smart bioprocess design—can transform violacein from a ...

The biotech is developing drugs that target the biology of aging to treat obesity, cardiovascular disease, and more ...

Alumis is firmly in focus after announcing positive topline results from two Phase 3 trials (ONWARD1 and ONWARD2) evaluating envudeucitinib , its next-generation oral TYK2 inhibitor, in ...

Pea-size clusters of human cells called brain organoids inspire both hope and fear. Experts are debating how scientists can ...

Rather than yeast or microalgae, the company is working with oleaginous bacteria—which it claims are more productive.

AI can now create genome viruses in laboratories and redesign toxins to evade controls, raising biosafety alert and rise of ...

There are different kinds of vaccines, and each requires different processes to move from the laboratory to your physician's ...

Biology has always been an unruly science. Cells divide when they want to. Genes switch on and off like temperamental lights.

Gastric cancer cells can activate KRAS-driven signals, enabling autonomous tumor growth by producing their own WNT proteins. New research reveals how gastric cancer cells exploit WNT signaling for ...

Cells live in a world of chaos, constantly buffeted by random molecular jolts that can derail even the most carefully tuned ...