Nano-scale mechanical probing of supported lipid bilayers with atomic force microscopy

Abstract

We present theory and experiments for the force-distance curve F(z0) of an atomic force microscope (AFM) tip (radius R) indenting a supported fluid bilayer (thickness 2d). For realistic conditions the force is dominated by the area compressibility modulus A of the bilayer, and, to an excellent approximation, given by F= π A R z02/(2d-z0)2. The experimental AFM force curves from coexisting liquid ordered and liquid disordered domains in 3-component lipid bilayers are well-described by our model, and provides A in agreement with literature values. The liquid ordered phase has a yield like response that we model by hydrogen bond breaking.