Tyrosinase-catalyzed synthesis of soy 7S/11S-phlorizin conjugates was performed, and the reaction sites, conformation alterations and functional properties of complexes were evaluated using proteomic, in combination with multispectral technologies. Phlorizin was conjugated to 7S/11S primarily via residues of Lys, Cys, His and Arg residues. The phlorizin binding equivalents and decreased contents of free and total sulfhydryl groups and free amino groups confirmed the covalent interaction in the 7S/11S-phlorizin complexes. Conjugation with phlorizin promoted the conversion of α-helix to β-sheet and β-turn, with simultaneous transformation of the microenvironments around Trp and Tyr residues to hydrophilic and hydrophobic microenvironments, respectively, and lowering of the surface hydrophobicity of 7S/11S. The DPPH and ABTS radical scavenging abilities and α-glucosidase inhibitory activities of 7S/11S were increased by three-, two- and three-fold after the covalent binding of phlorizin. The study provided an ideal tyrosinase-catalyzed approach to fabricate custom-tailored nutritional soy protein-polyphenol products.
Keywords: Glycinin (11S); Mass spectrometry; Phlorizin (PubChem CID: 6072); Polyphenol; α-Glucosidase inhibition; β-Conglycinin (7S).
Copyright © 2022 Elsevier Ltd. All rights reserved.