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

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

Researchers examined five AI models on multiple genomic tasks to see how well they performed Models performed well overall, with each having strengths and weaknesses based on the desired task Study pr ...

The microbe Pyrodictium abyssi is an archaeon—a member of what's known as the third domain of life—and an extremophile. It ...

The choreographed movements that cells perform to form complex biological shapes, like our hands, have fascinated scientists for centuries. Now, researchers at EMBL Barcelona have launched LimbNET, an ...

Fluorogenic DNA aptamers produce light only in the correct structural state, enabling programmable molecular logic, ...

Two 7,000-year-old mummies found in Libya reveal an isolated North African lineage and rewrite the genetic history of the ...

DNA scaffolds that mirror influenza virus protein geometry boost antiviral binding and reduce infection more effectively than free molecules, enabling a modular antiviral design strategy.

The commercial rollout of Babybel’s paper packaging has begun in the United Kingdom. The United States, Canada, and Northern ...

Researchers created a highly efficient gene-editing method that fixes multiple DNA mutations in a single step. The breakthrough could revolutionize genetic medicine by making treatments for complex ...

As artificial intelligence advances, the relationship between humans and machines is evolving, moving from simple typed ...