Starch-free fatty acid complexation in the presence of whey protein.

Abstract The effect of whey protein on starch-free fatty acid (FFA) complexation was studied in a model system composed of sorghum starch, whey protein, and different FFAs (palmitic, oleic, linoleic, and lauric acids) in a weight ratio of 20:2:1(w/w/w). Whey protein decreased the enthalpy of the melting of the starch–lipid complex by 20–30% for the FFAs except linoleic acid, and increased the reformation exothermic enthalpy by 150–350% in the DSC cooling cycle. The large difference between enthalpies upon heating and cooling in the starch–FFA sample was diminished by the addition of whey protein. X-ray diffraction data showed more pronounced crystalline order of V-type starch–FFA complexes when whey protein was present. A previously described cooling stage viscosity peak, formed due to starch–FFA–protein complexation, paralleled formation of the better defined V-type crystallite of the starch–FFA complex. Whey protein also significantly decreased the amount of starch–FFA complexation in a dilute system. The effect of protein on starch–FFA complexation was related to the formation of a three-component complex composed of starch, FFA, and protein previously identified in our laboratory.