To function correctly, cellular proteins depend not only on their complex tertiary and quaternary structures, but also on their proximity to and interactions with other molecules participating in the ...

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

In an ambitious collaboration, researchers added 1.8 million high-confidence protein complex structure predictions to the ...

H5_fold-0_Chantal, H5_fold-0_Elsa, H6_fold-C_Rei, H6_fold-Z_Gogy, H6_fold-U_Nomur, and H7_fold-K_Mussoc are presented. For each de novo designed protein, the computational model is shown on the left, ...

In biology, proteins don’t go it alone. They fold up in complexes and interact with each other to get stuff done. Those interactions create challenges for scientists working to predict protein ...

As people around the world marveled in July at the most detailed pictures of the cosmos snapped by the James Webb Space Telescope, biologists got their first glimpses of a different set of images — ...

Programs built by Google’s artificial intelligence company DeepMind have beaten humans playing chess, Go, and some Atari computer games. Biologists and computer scientists say the company has now done ...

Chemically, proteins are just a long string of amino acids. Their amazing properties come about because that chain can fold up into a complex, three-dimensional shape. So understanding the rules that ...

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

Artificial intelligence has surpassed the limits of scientific knowledge by predicting the shape of almost every known protein, a breakthrough that will significantly reduce the time required to make ...