Surface active properties at the air–water interface of β-casein and its fragments derived by plasmin proteolysis

Abstract

Summary: β-Casein, was enzymically modified by incubation with plasmin to yield γ-caseins and proteose peptones. Whole γ-, γ₁-, γ₂/γ₃-caseins and whole proteose peptone (pp) were isolated from the hydrolysate mixture. The time dependence of surface tension at the air-water interface of solutions of β-casein and its plasmin derived fragments, at concentrations of 10⁻¹ to 10⁻⁴% (w/v) protein, pH 7.0, was determined, at 25 °C, using a drop volume apparatus. The ranking of the proteins with respect to rate of reduction of surface tension, during the first rate determining step, at 10^-2% (w/v) protein, was γ₂/γ₃ ≫ pp > whole γ- > γ₁- > β-casein. The ranking of the proteins with respect to surface pressures attained after 40 min (π₄₀) was concentration dependent. γ₂/γ₃-Caseins were found to be very surface active, decreasing surface tension rapidly and giving a high π₄₀. γ₁ Casein decreased surface activity somewhat faster than β-casein, but generally reached a lower π₄₀. Whole γ-casein reflected the properties of both γ₁ and γ₂/γ₃-caseins. Proteose peptone was found to decrease surface tension rapidly during the initial rate determining step; it gave a relatively high π₄₀ at a bulk phase concentration of 10⁻³% (w/v) protein, but, it was the least surface active protein at 10⁻¹ and 10⁻²% (w/v) protein.