Researchers are enhancing the best features of AAV capsids and overcoming their limitations to accelerate gene-based therapies.

By creating gene editors not found in nature, or optimizing existing editors, AI can improve the accuracy, effectiveness, and accessibility of gene editing.

Stanford researchers introduced affordable gene-editing kits ready for the classroom, aiming to make the field more accessible for high school students.

Researchers have developed a groundbreaking AI model that identifies tumor-fighting immune cells, enhancing cancer ...

A groundbreaking clinical trial suggests that taking just 1 gram of omega-3 daily for three years can slow biological aging ...

A recent study from Stanford Medicine reveals a direct link between fiber intake and reduced cancer risk. Despite its ...

Andrew Teschendorff, Professor at the Chinese Academy of Sciences, is developing computational systems-biological tools to ...

Danés, principal investigator of the Cancer and Stem Cell Biology Lab at the Champalimaud Foundation, in Lisbon, has shown ...

In the field of biopharmaceuticals, every technological innovation has the potential to revolutionize treatment strategies. Sanyou Bio's Intelligent Hundred-Trillion Molecule Library (AI-STAL) has ...

A new study from Oregon Health & Science University has uncovered how small molecules within bacteria interact with proteins, revealing a network of molecular connections that could improve drug ...

Sr incorporation in PEEK via a polydopamine coating improves osteogenic potential, promoting cell adhesion and mineralization ...

Salk Institute researchers have identified a key protein that may help users of GLP-1 drugs such as Ozempic and Wegovy ...