Penn Engineers have cooked up a new way to improve mRNA delivery, developing an optimal "recipe" for ionizable lipids—key ...

Lipid nanoparticles made from lipids optimized via directed chemical evolution show high performance as mRNA delivery vehicles.

Engineers have cooked up a new way to improve mRNA delivery, developing an optimal 'recipe' for ionizable lipids -- key ingredients in lipid nanoparticles (LNPs), the molecules behind the COVID-19 ...

Penn Engineers have cooked up a new way to improve mRNA delivery, developing an optimal “recipe” for ionizable lipids — key ...

Researchers have cooked up a new way to improve mRNA delivery, developing an optimal “recipe” for ionizable lipids — key ...

These structures are believed to be capable of sequestering or releasing proteins and lipids to help the cells resist and/or signal damage to the membrane, using processes that were previously unknown ...

This lipid's structure influences the ability of LNPs to successfully deliver their contents and advances mRNA therapies ... the team developed a step-by-step, "directed chemical evolution" process.

This lipid's structure influences the ability of LNPs to successfully deliver their contents and advances mRNA therapies ... the team developed a step-by-step, "directed chemical evolution" process.

Salk scientists have tracked the flow of trans fats using mouse models to describe the molecular mechanisms that cause trans fats to promote atherosclerotic cardiovascular disease (ASCVD), explaining ...

Look closely at this image, stripped of its caption, and join the moderated conversation about what you and other students see. By The Learning Network Look closely at this image, stripped of ...