Proteins, with their extraordinary diversity of structure and function, pose some of the toughest problems in the field of bioinformatics, giving rise to a growing arsenal of computational tools for ...

Nanopores are tiny, nanometer-scale apertures that are synthetically produced in manufactured materials as well as biological membranes. They allow ions or molecules to pass through and have been ...

Researchers have developed a new artificial intelligence (AI) model that can more accurately predict how proteins interact ...

Researchers headed by a team at the Centre for Genomic Regulation, Barcelona Institute of Science and Technology and at the Wellcome Sanger Institute have developed an AI tool that they say has made a ...

To ensure a robust domestic supply chain in the U.S., Lawrence Livermore National Laboratory (LLNL) scientists are using ...

For all the excitement surrounding AlphaFold and the surge of AI‑driven protein design tools, one fact often goes unexamined: nearly every model is trained on databases of known proteins. These ...

The genetic code has given rise to the enormous diversity of proteins we see in nature—and rearranging the order of codons that make up a protein’s sequence leads to an immense variety of structure ...

Researchers from MIT, Harvard, and the Broad Institute have unveiled PUPS, an AI method capable of predicting the location of any protein in any human cell line, even when both are previously untested ...