Labmate Online

AI-lab discovers brominated lipids that boost mRNA delivery to human cells

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 ...

Robotic microfluidic platform brings AI to lipid nanoparticle design

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

Scientists reveal surface structure of lipid nanoparticles that could improve vaccine and drug delivery

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 ...

Smart materials and drug delivery could exploit lipid molecules that reorganize at drying interfaces

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

AI-powered platform accelerates discovery of new mRNA delivery materials

Integrating AI with advanced robotics to create self-driving labs (SDL) is a promising approach to tackling molecular ...
Nanowerk

High-throughput strategies reshape lipid nanoparticle development

A review maps high throughput strategies that link automation, microfluidics, and barcoding into a unified pipeline, enabling faster, more predictive lipid nanoparticle development for genetic ...
GEN

Nanoparticles for mRNA Delivery Get an Edge via Chemically Evolved Lipids

To create A1 lipid nanoparticles for delivering mRNA to target cells, scientists at the University of Pennsylvania used A3 coupling. A3 refers to the amine–aldehyde–alkyne coupling reaction, which the ...
Mirage News

AI Platform Speeds MRNA Delivery Material Discovery

Integrating AI with advanced robotics to create self-driving labs (SDL) is a promising approach to tackling molecular discovery. A new SDL ...