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Abstract
This study examines the impact of Maillard-type conjugates formed between whey protein isolate (WPI) and the nonionic polysaccharide dextran by dry heating at 80°C for 2 hours (conjugate 1) and at 60°C for 5 days (conjugate 2) on the freeze-thaw stability of oil-in-water emulsions. Emulsions stabilized with WPI, WPI-dextran mixture, conjugates 1 and 2, were prepared using microfluidizer, respectively, and then subjected to from one to three freeze-thaw cycles (−18°C for 22 hours, +40°C for 2 hours). The emulsion stability to freeze-thaw processing was assessed by zeta potential, average particle size, polydispersity index (PDI) and backscattering profile by a recently developed optical analyzer (Turbiscan). Results demonstrated that WPI-dextran conjugates brought about a remarkable improvement in freeze-thaw stabilizing properties when compared with WPI or WPI-dextran mixture which can be attributed to the enhancement of repulsive steric forces between the oil droplets as a result of dextran overlapping the thicker interfacial coatings surrounding the oil droplets. The conjugate 2 stabilized emulsion showed much better stability after freeze-thaw cycling than the conjugate 1 probably due to the higher extent of conjugation.
Acknowledgments
This research was funded by the National Key Technology R&D Program of the Chinese Ministry of Science and Technology (2006BAD27B04).
