Fag t 1, a legumin-type protein, is the major allergen in tartary buckwheat. In the current study, three recombinant derivatives of Fag t 1, designated as Fag t 1-rs1, Fag t 1-rs2, and Fag t 1-rs3, were constructed via rational design and genetic engineering. However, because of the loss of their native-like folds, the Fag t 1 derivatives failed to bind IgE, and their allergenic activities were reduced. The recombinant hypoallergenic variants are promising vaccine candidates for specific immunotherapy of buckwheat allergy. The unfolding of the Fag t 1 structure reduced its high resistance to gastrointestinal proteolysis and strongly reduced its IgE reactivity. The derivatives showed a more than 90% reduction in allergenic activity compared with rFag t 1. These results suggest that the structure-dependent stability of 11S seed storage proteins is directly related to digestive stability and allergenic potential. Therefore, the destruction of the native conformation is the appropriate strategy to reduce the allergenicity of the cupin family food allergens.
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