Changes in Protein Non-Covalent Bonds and Aggregate Size during Dough Formation

This research investigated changes in the amounts and sizes of monomeric proteins and protein aggregates during dough mixing, with a focus on the contribution of non-covalent bonds in the aggregation of gluten proteins. High protein flour (HF) and low protein flour (LF) were used in this study. As d...

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Bibliographic Details
Main Authors: Sonoo Iwaki, Shiro Aono, Katsuyuki Hayakawa, Bin Xiao Fu, Chikako Otobe
Format: Article
Language:English
Published: MDPI AG 2020-11-01
Series:Foods
Subjects:
Online Access:https://www.mdpi.com/2304-8158/9/11/1643
Description
Summary:This research investigated changes in the amounts and sizes of monomeric proteins and protein aggregates during dough mixing, with a focus on the contribution of non-covalent bonds in the aggregation of gluten proteins. High protein flour (HF) and low protein flour (LF) were used in this study. As dough mixing progressed from flour to overmixed dough, the total amount of protein aggregates increased while the amount of monomeric protein decreased. Omega-gliadin was the major monomeric protein that decreased in quantity. Interestingly, the amount of larger-sized protein aggregates decreased and that of smaller-sized protein aggregates increased. The amount of gluten protein macro-polymer aggregated through strong non-covalent bonds decreased whereas aggregates formed with weaker non-covalent bonds increased. LF dough behaved similar to HF dough. Large-sized gluten protein aggregates disaggregated due to the weakening of non-covalent bonds and became smaller. Omega-gliadin was incorporated into gluten protein aggregates during dough mixing.
ISSN:2304-8158