Sanyou Bio conducted a full review of its Intelligent Super-trillion Molecule Discovery Platform. As the core technology of the platform, the intelligent super-trillion molecule library boasts a ...

Tucson suggests that an FDA-approved osteoporosis treatment could help restore the shape of a mutated protein and enhance ...

An international research collaboration led by the University of Surrey's Nuclear Physics Group has overturned the ...

A hybrid microscope allows scientists to simultaneously image the full 3D orientation and position of an ensemble of molecules, such as labeled proteins inside cells. The microscope combines polarized ...

New research shows that fluctuating environmental conditions helped chemical mixtures self-organize and evolve in structured ...

This study presents an important discovery regarding the diversity and evolution of gall-forming microbial effectors. Supported by convincing computational structural predictions and analyses, the ...

A team from the University of Washington led by Nobel laureate David Baker is using artificial intelligence to design ...

Evo 2 now includes information from humans, plants, and other eukaryotic species to expand its capabilities in generative functional genomics.

AI helps scientists decode a cone snail toxin’s targets, paving the way for safer drug development and ecological research.

Enzymes are molecular machines that carry out the chemical reactions that sustain all life, an ability that has captured the ...

A research team co-led by scientists at the University of Arizona College of Medicine – Tucson found that an osteoporosis drug might counter a rare genetic mutation underlying a type of heart disease.

Fluctuations in ancient Earth’s environment might have propelled the chemical complexity that laid the foundation for life.