Personalized algorithms may quietly sabotage how people learn, nudging them into narrow tunnels of information even when they start with zero prior knowledge. In the study, participants using ...

Researchers at the University of Pennsylvania have developed ApexGO, a novel, AI-powered method for turning promising but imperfect antibiotic candidates into more potent ones. Unlike many existing AI ...

It’s hard to imagine that a snail could kill a person, but a particularly venomous group of marine molluscs called cone ...

He was brainstorming ideas with an artificial-intelligence tool and getting it to code and create them quickly. Together, ...

Researchers at the University of Pennsylvania developed ApexGO, an AI-powered system that optimizes antimicrobial peptides.

This article was co-authored with Emma Myer, a student at Washington and Lee University who studies Cognitive/Behavioral Science and Strategic Communication. In today’s digital age, social media has ...

Ligand-based drug design combines AI and QSAR modeling to prioritize drug candidates, minimizing preclinical failures and ...

MOZAIC leverages deep learning to optimize fecal microbiota transplantation, enhancing treatment efficacy through precise ...

Advances in artificial intelligence (AI) are transforming the way we analyze, model, and interpret both microbial systems and complex biomedical data.