Model Membrane Systems Used to Study Plasma Membrane Lipid Asymmetry

It is well known that the lipid distribution in the bilayer leaflets of mammalian plasma membranes (PMs) is not symmetric. Despite this, model membrane studies have largely relied on chemically symmetric model membranes for the study of lipid-lipid and lipid-protein interactions. This is primarily due to the difficulty in preparing stable, asymmetric model membranes that are amenable to biophysical studies. However, in the last 20 years, efforts have been made in producing more biologically faithful model membranes. Here, we review several recently developed experimental and computational techniques for the robust generation of asymmetric model membranes and highlight a new and particularly promising technique to study membrane asymmetry.

Automated summary

Traditional model membrane studies have relied on chemically symmetric membranes, but in recent years efforts have been made to develop more biologically faithful asymmetric model membranes. Several experimental and computational techniques for generating robust asymmetric model membranes have been introduced, with a new promising technique highlighted for studying membrane asymmetry.