Conjugates of β-conglycinin and dextran were prepared by heating in solution under macromolecular crowding environment and dry-heating methods, and then fractionated by solubility at pH 4.8 and pH 6.5 and characterized. The results showed that the degree of glycation of the conjugates extracted from pH 4.8 were higher than the conjugates extracted from pH 6.5. Corresponding to the higher degree of glycation, it was supposed that the β-conglycinin of groups 4.8 of macromolecular crowding environment was completely surrounded by the dextran molecular while that of groups 6.5 were encircled partially with a lower degree of glycation. Compared to β-conglycinin, groups 4.8 demonstrated a decreasing surface hydrophobicity and sulfhydryl group content while groups 6.5 increased. The secondary structure of β-conglycinin soluble at pH 4.8 after conjugating under macromolecular crowding environment tended to stretch out and the highly ordered structure turn to random structures. The differences between the extraction of pH 4.8 and pH 6.5 conjugated by dry-heating methods were not as remarkable as the difference between the extraction conjugated by macromolecular crowding environment.
Keywords: Dextran; Macromolecular crowding environment; Maillard reaction; Physicochemical properties; β-Conglycinin.
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