Curvature-induced lipid sorting beyond the critical packing parameter
Citation (APA 7)
Konig, M., de Vries, R., Grunewald, F., Marrink, S. J., & Pezeshkian, W. (2023). Curvature-induced lipid sorting beyond the critical packing parameter. bioRxiv, 2023-12.
Abstract
Over the last few decades, the spatial organization of biomembranes has received a lot of attention. With the fluid mosaic model, Singer and Nicolson proposed that biomembranes behave as two-dimensional fluids, allowing proteins and lipids to diffuse freely and thus react to external stimuli. Biological functionality and membrane organization are intricately linked to each other, however, how these organizations emerge is yet to be established. Here we use coarse-grained molecular dynamics simulations to explore the relationship between membrane shape and lateral organization at the nanoscale for a broad range of lipid mixtures. Our results illustrate that membrane curvature and lateral organization are intimately linked at the nanoscale and the relationship is much more complicated compared to the traditional views, in particular the lipid shape concept. Furthermore, we show that large membrane curvature can disrupt phase separation, line tension, and interleaflet coupling leading to non-intuitive lipid sorting. Our findings highlight how curvature-driven sorting can alter the phase behavior of lipid mixtures, which could be crucial for cellular functionality.