Wheat gluten deamidation: structure, allergenicity and its application in hypoallergenic noodles

BACKGROUND Wheat gluten (WG) containing gliadin and glutenin are considered the main allergens in wheat allergy as a result of their glutamine‐rich peptides. Deamidation is a viable and efficient approach for protein modifications converting glutamine into glutamic acid, which may have the potential...

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Bibliographic Details
Published in:Journal of the science of food and agriculture 2024-03, Vol.104 (4), p.2477-2483
Main Authors: Liu, Mingxi, Dai, Shuhan, Yin, Lijun, Huang, Zhijie, Jia, Xin
Format: Article
Language:English
Subjects:
Allergenicity
Allergies
Citric acid
deamidation
Electrophoresis
Epitopes
Fluorescence spectroscopy
Fourier transforms
Gliadin
Glutamic acid
Glutamine
Gluten
Glutenin
Immunoblotting
Immunoglobulin E
Low molecular weights
Molecular weight
Noodles
Peptides
Polyacrylamide
Proteins
Reduction
Sodium dodecyl sulfate
Sodium lauryl sulfate
structure
textural properties
Wheat
wheat gluten
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Summary:BACKGROUND Wheat gluten (WG) containing gliadin and glutenin are considered the main allergens in wheat allergy as a result of their glutamine‐rich peptides. Deamidation is a viable and efficient approach for protein modifications converting glutamine into glutamic acid, which may have the potential for allergenicity reduction of WG. RESULTS Deamidation by citric acid was performed to investigate the effects on structure, allergenicity and noodle textural properties of wheat gluten (WG). WG was heated at 100 °C in 1 m citric acid to yield deamidated WG with degrees of deamidation (DD) ranging from DWG‐25 (25% DD) to DWG‐70 (70% DD). Fourier‐transform infrared and intrinsic fluorescence spectroscopy results suggested the unfolding of WG structure during deamidation, and sodium dodecyl sulphate‐polyacrylamide gel electrophoresis showed molecular weight shifts at the 35–63 kDa region, suggesting that the deamidation mainly occurred on low molecular weight glutenin subunits and γ‐ gliadin of the WG. An enzyme‐linked immunosorbent assay of deamidated WG revealed a decrease in absorbance and immunoblotting indicated that the intensities of protein bands at 35–63 kDa decreased, which suggested that deamidation of WG might have caused a greater loss of epitopes than the generation of new epitopes caused by unfolding of WG, and thereby reduction of the immunodominant immunoglobulin E binding capacity, ultimately leading to the decrease in allergenicity. DWG‐25 was used in the preparation of recombinant hypoallergenic noodles, and the hardness, elasticity, chewiness and gumminess were improved significantly by the addition of azodicarbonamide. CONCLUSION The present shows the potential for deamidation of the WG products used in novel hypoallergenic food development. © 2023 Society of Chemical Industry.
ISSN:0022-5142
1097-0010
DOI:10.1002/jsfa.13133