화학공학소재연구정보센터
Langmuir, Vol.27, No.21, 12938-12943, 2011
Molecular Dynamics Simulation of Free and Forced BSA Adsorption on a Hydrophobic Graphite Surface
The adsorption of bovine serum albumin (BSA) onto a hydrophobic graphite surface is studied using molecular-dynamics simulation. In addition to the free, that is, unsteered, adsorption, we also investigate forced adsorption, in which the action of an AFM tip pushing the protein with constant force to the surface is modeled. Using an implicit inviscid water model, the adsorption dynamics and energetics are monitored for two different initial protein orientations toward the surface. In all cases, we find that the protein partially unfolds and spreads on the surface. The spreading is in agreement with the well-known high biocompatibility of graphite-based implants. The denaturation is, however, greatly enhanced in the case of forced adsorption. We follow the position of the so-called lipid-binding pocket found in subdomain IIIA (Sudlow site II) during adsorption and find that it is tilted and moved toward the graphite surface in all cases, in agreement with its hydrophobic character. The relevance of our findings for the common measurement procedure of studying protein adhesion using AFM experiments is discussed.