Identification of bacterial protein–protein interactions and predicting the structures of these complexes could aid in the understanding of pathogenicity mechanisms and developing treatments for ...

Lipid-protein interactions are crucial for virtually all biological processes in living cells. However, existing structural databases focusing on these interactions are limited to integral membrane ...

Proteins are the molecular workhorses of the human body. They perform a vast range of essential functions, from building ...

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 ...

Researchers from the U and beyond discussed in the Thursday symposium how AI reduces both the time and cost for medical ...

Scientists have designed a publicly-available software and web database to break down barriers to identifying key protein-protein interactions to treat with medication. The computational tool is ...

Researchers capture first-of-its-kind video of dynein–Lis1 protein interaction, supporting future drug development for neurological disorders. Our cells rely on microscopic highways and specialized ...

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 ...

Illustration showing how integrating protein three-dimensional structures with artificial intelligence algorithms can predict synergistic or antagonistic effects of drug combinations, guiding safer ...

X, a generative AI model that predicts and designs protein–protein interactions. By building interfaces from the bottom up, ...

Scientists from Cleveland Clinic and Cornell University have designed a publicly-available software and web database to break down barriers to identifying key protein-protein interactions to treat ...