Hydrophobin can prevent secondary protein adsorption on hydrophobic substrates without exchange

By combining several surface analytical tools, we show that an adsorbed layer of the protein H*Protein B prevents the adsorption of secondary proteins bovine serum albumin, casein, or collagen at low-salinity conditions and at pH 8. H*Protein B is an industrially producible fusion protein of the hydrophobin family, known for its high interfacial activity. While applications of hydrophobin have been reported to facilitate adhesion of proteins under different pH conditions, careful analysis by quartz-crystal microbalance and ellipsometry prove that no additional adsorption can be found on top of the H*Protein B layer in this study. Surface analysis by X-ray photoelectron spectroscopy and secondary ion mass spectrometry proves that the hydrophobin layer stays intact even after hours of exposure to solutions of the secondary proteins and that no exchange of proteins can be detected. Fig. 1 The combination of surface analytical methods shows that an adsorbed layer of H*Protein B, a technically available representative of the hydrophobin family, prevents adsorption of secondary proteins at low-salinity conditions and pH 8. Due to the multi-method approach it can be proven that no exchange of the adsorbed hydrophobin protein is taking place