Researchers at the University of Toronto have developed LUMI-lab, an AI-enabled self-driving laboratory that has identified brominated lipid tails as a potent and previously unrecognised enhancer ...

Minor changes in moisture level can promote lipid molecules to reorganize themselves in biomaterial or biomembranes. This can ...

AI has designed candidate drugs for antibiotic-resistant infections and genetic diseases. But efforts to incorporate AI into ...

Scientists who work with lipid nanoparticles (LNPs) say they have developed a new type of material capable of reaching the lungs and the eyes. They call their study “Thiophene-based lipids for mRNA ...

Interest in lipid nanoparticles (LNPs) as delivery vehicles for precision therapies in genetic diseases and cancers remains at an all-time high. Now, scientists from the University of Pennsylvania, ...

Minor changes in moisture level can promote lipid molecules to reorganise themselves in biomaterial or biomembranes. This can affect how the skin ...

A new tool enables biomedical researchers from around the world to quickly see the connections between lipids and proteins inside cells, thanks to a new initiative led by scientists at Oregon Health & ...

Scientists have developed a method for analysing the structure of lipid nanoparticles that could be used to improve vaccine and drug delivery, targeting a wide range of health issues. A team led by ...

“We’ve never had such an in-depth map of the CD1 lipidome available,” said Patricia Barral, an immunologist at King’s College London who was not involved with the work. “It will enable us to start ...

Researchers found that triple-negative breast cancer cells are “addicted” to lipids, a feature tied to obesity. By studying mice, they discovered that high lipid levels alone accelerate tumor growth.