pH-dependent structural transitions in cationic ionizable lipid mesophases are critical for lipid nanoparticle function
Julian Philipp(Ludwig-Maximilians-Universität München), Joachim O. Rädler(Center for NanoScience), Svante Johansson(AstraZeneca (Sweden)), Urban Skantze(AstraZeneca (Sweden)), Aleksandra P. Dabkowska(AstraZeneca (Sweden)), Anita Reiser(Center for NanoScience), Lennart Lindfors(AstraZeneca (Sweden)), Christiane Brummer(Center for NanoScience), Kilian Frank(Center for NanoScience), Bård Smedsrød(UiT The Arctic University of Norway), Clément Blanchet(Deutsches Elektronen-Synchrotron DESY), Nadine Schwierz(University of Augsburg), Bert Nickel(Center for NanoScience), Pia Skantze(AstraZeneca (Sweden)), Sofia Östman(AstraZeneca (Sweden)), Akhil Sudarsan(University of Augsburg), Mohd Ali Ibrahim(University of Augsburg), Neil Henderson(AstraZeneca (Sweden)), Marie Johansson(AstraZeneca (Sweden)), Kjetil Elvevold(Nofima), Rafał Krzysztoń(Center for NanoScience)
Cited by 127
Related Papers
Kinetics of RNA-LNP delivery and protein expression
|European Journal of Pharmaceutics and Biopharmaceutics|2024|25
Combining molecular dynamics simulations and x-ray scattering techniques for the accurate treatment of protonation degree and packing of ionizable lipids in monolayers
|The Journal of Chemical Physics|2023|21