Quantum physics is usually associated with particle colliders and vacuum chambers, not with the proteins quietly shuttling ...

Nobel laureate David Baker’s latest foundation model can design proteins that interact to any biomolecule for broad biotech applications.

Using on-surface synthesis (OSS) guided by atomic-resolution scanning probe microscopy, the scientists have created ...

Catalysts play a vital role in modern society, supporting processes from metallurgy to pharmaceutical production. To reduce ...

Researchers developed a polymer-based single-atom catalyst platform, enhancing gas binding and efficiency, opening doors to sustainable industrial reactions and enzyme-like catalytic precision.

David Baker's lab at the University of Washington is announcing two major leaps in the field of AI-powered protein design.

A new study led by the Wuhan Botanical Garden of the Chinese Academy of Sciences (WBG, CAS) has identified a unique trait in ...

Using catalytic chemistry, researchers at Institute of Science Tokyo have achieved dynamic control of artificial membranes, enabling life-like membrane behavior. By employing an artificial ...

Amino acids that were abundant since the prebiotic era are enriched in protein binding sites of the most ancient coenzymes, supporting the plausibility of an early coenzyme–peptide world.