The kinetics of competitive adsorption of beta-casein and lysozyme at
the air-water interface has been studied using the radiotracer method.
The presence of beta-casein in the bulk phase dramatically decreased
the lag time for adsorption of lysozyme. However, the apparent diffusi
on coefficients of beta-casein and lysozyme in the binary mixture were
exactly the same as those in single-component systems. The interfacia
l composition of the proteins at any given bulk concentration ratio wa
s only affected by the relative rate of arrival of each protein at the
interface and the molecular area available at the interface at the ti
me of arrival. At bulk concentration ratios below 1:1, beta-casein and
lysozyme formed a mixed monolayer; the ratio of beta-casein to lysozy
me in the mixed monolayer increased as the ratio in the bulk phase was
increased. However, at a beta-casein/lysozyme ratio of 2.8, the late
arriving lysozyme was essentially excluded from the monolayer. It was
also observed that when the average surface area per protein molecule
of the mixed film reached a value of about 4500 angstrom2, the adsorpt
ion of lysozyme was abruptly inhibited, whereas the adsorption of beta
-casein continued. Sequential adsorption experiments showed that bulk
phase beta-casein could not displace adsorbed lysozyme, and lysozyme c
ould not displace adsorbed beta-casein. Critical analysis of these res
ults indicated that the extent of adsorption of these proteins from a
bulk mixture is affected by the rate of arrival at the interface, and
in this sense is not a thermodynamically-controlled competitive adsorp
tion process.