Scientists used IBM's R2 Heron quantum processor to predict the secondary protein structure of a 60-nucleotide-long mRNA ...

Scientists have discovered how harmful clumps inside brain cells—linked to diseases like ALS and Huntington’s—form, and found a way to break them apart. These sticky tangles of RNA develop inside tiny ...

‘AI-based protein design effectively enabled us to dream small proteins into existence that would bind ChuA,’ says Grinter.

"Unique structure." Scientists develop incredible new 3D printer 'ink' using unexpected material: 'Hasn't been done before' ...

This review explores how generative AI, through models like VAEs, GANs, transformers, and diffusion networks is ...

It enhances prediction accuracy by extensively sampling inverse folding models—AI models that generate compatible amino acid sequences based on protein 3D structures—while incorporating structural ...

Cryo-EM is a technique that allows researchers to determine the 3D structure of proteins and viruses at near atomic resolution.

It enhances prediction accuracy by extensively sampling inverse folding models—AI models that generate compatible amino acid sequences based on protein 3D structures—while incorporating structural ...

Furthermore, very few protein-ligand complexes have both a resolved 3D structure and potency measurement, so most AI algorithms are trained on indirect data like sequences or 2D chemical structures.

Two key protein structures in the body are being visualized for the first time, thanks in part to the latest technology in the University of Cincinnati's Center for Advanced Structural Biology ...

Scientists successfully 3D printed plant-based calamari rings using mung bean protein and microalgae, creating a seafood alternative that closely matches real squid in texture and even surpasses it in ...