Lipid nanoparticles address key drug delivery challenges, including immune evasion, toxicity, and regulatory approval.

Let's be honest, we're all drama queens sometimes. Whether you're texting your bestie you're “literally dying” over the latest celebrity gossip or declaring on social media that Monday mornings are ...

Biological membranes of cells and their subunits (organelles) are organized into tiny regions (nanodomains) made up of fats (lipids) and proteins. Those specialized regions carry out important tasks ...

Lipids are fatty molecules that play critical roles in cell function, including membrane structure, energy storage and nutrient absorption. Most lipids are made in a cell organelle called the ...

Lipids are fatty molecules that play critical roles in cell function, including membrane structure, energy storage and nutrient absorption. Most lipids are made in a cell organelle called the ...

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 ...

New study demonstrates that one type of lipid is so critical for immune evasion that certain cancers cannot proliferate without them. Modulating intake of dietary lipids could open up an avenue for ...

Genetically Proxied Lipid-Lowering Drug Target Perturbation and Ischemic Stroke Risk in European and African Ancestry Individuals: Mendelian Randomization Study ...

Learn about the latest trends and innovations in lipid research, including omega-3-enriched foods, plant-based lipids, functional lipid gels and emulsions, encapsulation of bioactive lipids, and ...