Proanthocyanidins (PA) crosslink wheat gluten, increasing its polymer size and strength. However, mechanisms behind these interactions are unknown. This study used PA of different MW profiles (mean degree of polymerization 8.3 and 19.5) to investigate how PA polymerize gluten. The higher MW PA had greater binding affinity for both glutenins and gliadins than lower MW PA, whereas both PA precipitated glutenins more efficiently than gliadins. The PA preferentially bound the largest of the protein fractions available: high MW glutenin subunits (HMW-GS) over low MW-GS, and ω-gliadins over α- and γ-gliadins. Furthermore, within the HMW-GS, PA bound more of the larger x-type than the smaller y-type. Proanthocyanidins reduced gluten solubility in urea and decreased surface hydrophobicity of glutenins, but not gliadins. The PA appear to preferentially crosslink HMW-GS via hydrophobic interactions and hydrogen bonding, whereas their interaction with gliadins is dominated by hydrogen bonding and is relatively weaker.
Keywords: Condensed tannins; Gliadins; Glutenins; Noncovalent gluten crosslinking; Proanthocyanidins.
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