About the Seminar:

We aim at elucidating the molecular mechanism of passive membrane crossing of cell penetrating peptides, such as oligoarginines, using a combination of fluorescence and cryoelectron microscopies and molecular dynamics simulations.  Recently, we have shown using atomistic simulations that calcium dications can induce membrane fusion in vesicles rich in phosphatidylethanolamine. Moreover, we have shown that arginine-rich peptides are similarly fusogenic and have suggested that from mechanistic point of view the passive membrane penetration of arginine-rich peptides may be analogous to calcium-induced membrane fusion. Here, we employ fluorescence and cryo-electron microscopies on vesicles and cells combined with simulations to elucidate the molecular details of passive cell entrance of arginine-rich peptides. The experimental results point to a hitherto unexplored mechanism involving induction of membrane multilamellarity, potentially followed by a process analogous to calcium-induced membrane fusion.

About the Speaker:

Pavel Jungwirth is a Distinguished Chair at the Institute of Organic Chemistry and Biochemistry, Czech Academy of Sciences (group head since 2004). Since 2000, he has been a professor (external faculty) at the Charles University in Prague, Faculty of Mathematics and Physics. He has more than 280 research and review papers in international journals with more than 11000 citations (H-index 56). Several book chapters. Numerous invited lectures at international conferences (including GRC) and research laboratories in Europe, Israel, and USA. You can learn more about Dr. Jungwirth and his research here: http://jungwirth.uochb.cas.cz/cv.php