Biology voices weigh in on the impact of AI on drug discovery from the largest NeurIPS research conference to date.

Unlike most animals’ weapons — like claws, horns or teeth — snake venom is in a perpetual race with the defenses of their prey. Snakes upgrade their venom; rodents and amphibians upgrade their ...

With the advent of AI-powered protein design tools, protein-based therapeutics may no longer be constrained by the limits imposed by natural selection.

For numerous fundamental processes of life, the formation of certain protein patterns is essential. Protein pattern formation ...

New types of sensors can generate environmental data in real time using a range of tools, including flexible, printed ICs and ...

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

The $12K machine promises AI performance can scale to 32 chip servers and beyond but an immature software stack makes harnessing that compute challenging ...

As bispecifics, ADCs, protein degraders, and AI-designed mini-proteins move into the clinic, discovery teams face a new bottleneck: engineering and producing molecules whose complexity challenges ...

AI is already sufficiently robust that it introduces new global risks and exacerbates existing threats. Its development is ...

RFdiffusion2, RFdiffusion3, and Riff-Diff each solve different structural problems in computational enzyme design ...

BoltzGen, an AI model from MIT, innovatively designs protein binders, combining structure prediction with flexible control ...