Translocation of a single Arg$$_9$$ peptide across a DOPC/DOPG(4:1) model membrane using the weighted ensemble method

Abstract

AbstractIt is difficult to observe a spontaneous translocation of cell-penetrating peptides(CPPs) within a short time scale (e.g., a few hundred ns) in all-atom molecular dynamics(MD) simulations because the time required for the translocation of usual CPPs is on the order of minutes or so. In this work, we report a spontaneous translocation of a single Arg$$_9$$ 9 (R9) across a DOPC/DOPG(4:1) model membrane within an order of a few tens ns scale by using the weighted ensemble(WE) method. We identify how water molecules and the orientation of Arg$$_9$$ 9 play a role in translocation. We also show how lipid molecules are transported along with Arg$$_9$$ 9 . In addition, we present free energy profiles of the translocation across the membrane using umbrella sampling and show that a single Arg$$_9$$ 9 translocation is energetically unfavorable. We expect that the WE method can help study interactions of CPPs with various model membranes within MD simulation approaches.