Scientists at the VIB–VUB Center for Structural Biology have uncovered a counterintuitive principle that could reshape how ...

Cells can be thought of as cities, with factories, a transport system, and lots of building activity. An international team ...

Clues to the genetic code’s origin may be hidden in tiny protein fragments, revealing a synchronized and highly structured path to life’s earliest molecular systems.

Scientists created a definitive E3 ligase atlas, resolving inconsistencies and enabling better disease research and drug ...

Artificial intelligence is rapidly learning to autonomously design and run biological experiments, but the systems intended ...

Cells aren’t as passive as scientists once thought—they actively create internal currents to move proteins quickly and ...

Recent advances in de novo protein design are transforming biology into an increasingly generative discipline. Fueled by progress in machine learning, we can now generate novel proteins in silico with ...

AI is making waves in health care and medicine. Does the technology have the potential for breakthroughs in how we tackle ...

Integrating proteomics with systems biology reveals complex cellular networks, improving disease mechanisms understanding and precision medicine applications.

Protein engineering is a field primed for artificial intelligence research. Each protein is made up of amino acids; to ...

AI language models, used to generate human-like text to power chatbots and create content, are also revolutionizing biology ...

Precise intracellular transport is essential for neuronal function, yet the exact mechanism of selective cargo delivery by ...