Most of the activities that go on inside cells—the activities that keep us living, breathing, thinking animals—are handled by proteins. They allow cells to communicate with each other, run a cell’s ...

Artificial intelligence (AI) is reshaping the scientific landscape, offering fantastic solutions to some of the most pressing global challenges. From combating climate change to transforming ...

The proteins found in nature represent only a tiny fraction of the nearly limitless protein structures that could theoretically exist. By designing proteins de novo—from scratch—scientists can more ...

Various approaches to such protein redesign have drawbacks. Traditional methods include time-consuming trial and error efforts, and many models in the emerging field ...

This is the third in a three-part series from Medscape on the impact of AI on drug discovery and development. Part 1 is about AI's role in designing speedier, more effective clinical trials. Part 2 is ...

Uniform protein labeling in intact tissues is a challenge. An approach that allows antibodies to seep within organs could label proteins in millions of cells. Conventional protein-tagging methods, ...

The ability to alter proteins to refine control over binding affinity and specificity can create tailored therapeutics with reduced side effects, highly sensitive diagnostic tools, efficient ...