Michelle Lee, PhD, unpacks how physical AI that integrate scientific reasoning with the wet lab will accelerate biological discovery.

A computational biology company that started in space tech is looking to change how biopharma finds disease targets by modeling how proteins behave.

Origami is collaborating with Ipsen to develop molecules designed to remove or correct abnormal proteins in neurodegenerative diseases.

A team of researchers at Queen's University has developed a powerful new kind of computing machine that uses light to take on ...

For decades, scientists assumed that order drives efficiency. Yet in the bustling machinery of mitochondria—the organelles ...

Overcoming tumor resistance to chemotherapy drugs has long been a challenge for oncology clinicians and researchers. Now, a new study suggests that blocking a key protein, p300, may force damaged ...

Deep-learning model decodes the regulatory effects of DNA changes ...

Robots have long excelled at repetitive factory work welding, picking, placing, and packaging yet they’ve struggled with the ...

quantum-protein-folding/ ├── qpf/ # Main package │ ├── __init__.py │ ├── encoding.py # Sequence encoding and preprocessing │ ├── circuits.py # Quantum circuit designs │ ├── operators.py # Quantum ...

WIRED spoke with DeepMind’s Pushmeet Kohli about the recent past—and promising future—of the Nobel Prize-winning research project that changed biology and chemistry forever. To understand what the ...

Artificial intelligence isn’t just changing how we search the web or generate images. It is reshaping how scientists approach one of biology’s oldest problems: the folding of proteins. Google DeepMind ...