The subunit of tropomyosin (α-TM) from Haliotis discus hannai is an important allergen. The methods to reduce the immunoreactivity of α-TM are worth investigating. Thus, this study confirmed the reacted conditions of α-TM with transglutaminase (TG)-catalyzed cross-linking reaction, TG-catalyzed glycosylation, and glycation. Three processing technologies reduced significantly the contents of α-helix and hydrophobic force of α-TM and increased the surface hydrophobicity. A serological experiment confirmed that the glycated α-TM with xylose showed the lowest IgG/IgE-binding capacity. The inhabitation dot blot displayed that five epitope peptides could bind with the site-specific IgE prepared by the glycated α-TM. Three in nine glycated sites (M68, N202, and N203) were verified to modify-two epitopes (L-HTM-3 and L-HTM-7) of α-TM, which affected the immunoreactivity of α-TM during glycation. These results indicated that glycation would be desired for developing hypo-allergenic abalone products.
Keywords: Epitope peptides; Haliotis discus hannai; Immunoreactivity; Processing technologies; Structure of α-helix; Tropomyosin.
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