In an ambitious collaboration, researchers added 1.8 million high-confidence protein complex structure predictions to the AlphaFold Database, accelerating molecular biology research.

Jacobs School researchers have shown how an electron diffraction technique can quickly and efficiently create high-resolution molecular maps.

Tunable DNA hairpin springs stretch millions of protein copies under piconewton tension, enabling bulk biochemical discovery of binding partners invisible to single-molecule techniques.

They build our bodies and orchestrate the molecular processes in cells that keep them healthy. They also present a wealth of targets for new medications. From everyday pain relievers to sophisticated ...

Leveraging AI and quantum calculations, scientists developed a new tool that yielded higher-quality structural information and solved notoriously elusive proteins.

Toward the goal of efficient editing of farm animals for genetic improvements, this study explores an upgraded form of nuclease PE (uPEn). Based on the resolved structure of the NiV polymerase L-P ...

Complex protein interactions at synapses are essential for memory formation in our brains, but the mechanisms behind these processes remain poorly understood. Now, researchers have developed a ...

Four-way collaboration brings together world-leading AI and biological expertise to make AI-predicted protein complex structures openly available to the global scientific community.