WIRED spoke with DeepMind’s Pushmeet Kohli about the recent past—and promising future—of the Nobel Prize-winning research ...

A new theoretical framework argues that the long-standing split between computational functionalism and biological naturalism misses how real brains actually compute.

MIT researchers have developed a new method for designing 3D structures that can be transformed from a flat configuration ...

One of the most detailed 3D maps of how the human chromosomes are organized and folded within a cell's nucleus is published ...

Scientists organize millions of proteins by shape, as predicted by AI, revealing 700,000 new families and some shapes unique ...

Black holes are among the most extreme objects in the universe, and now scientists can model them more accurately than ever ...

AlphaFold didn't accelerate biology by running faster experiments. It changed the engineering assumptions behind protein ...

As teens spend less time with their friends in person, scientists are beginning to uncover how isolation may affect the ...

Circular RNAs (circRNAs), recognized as covalently closed, single-stranded RNA molecules formed through reverse splicing, are characterized by their unique ring structures, site-specific splicing, and ...

Ramanujan’s elegant formulas for calculating pi, developed more than a century ago, have unexpectedly resurfaced at the heart ...

Understanding how molecules interact with metal surfaces is fundamental to catalysis and surface chemistry. However, traditional computational methods face a trade-off: achieving high accuracy often ...

As tough as medieval chainmail armor and as soft as a contact lens. This material is not taken from science fiction, it is a ...