Flat hydrogel substrate for atomic force microscopy to observe liposomes and lipid membranes

Abstract

In order to avoid denaturation of biomolecules due to strong adsorption on solid surfaces, a soft substrate has to be used for atomic force microscopy (AFM) observation. We propose a hydrophilic agarose gel surface as a soft substrate for AFM to observe liposomes and lipid membranes. Although our simple method does not require any delicate control at the molecular level, an agarose gel surface can be simply flattened to 0.3 nm in roughness using an atomically flat solid surface during gelation. The AFM images revealed that liposomes were unruptured on the gel surface at low liposome density, whereas an unruptured state was difficult to obtain on a solid surface like mica. This indicates that the weak interaction between the liposome and the soft surface inhibits the liposome from rupturing, and also that the surface rougher than the solid surface prevents lateral diffusion of the liposomes along the surface to be fused. Increasing the liposome density resulted in a lipid membrane at various thicknesses forming on the hydrogel surface by the fusion and rupture of liposomes. Using the soft substrate, it can be expected to promote investigations of structures and functions of biomolecules at the nanometer scale under physiological conditions with AFM.