Rheo-Fermentation Dough Properties, Bread-Making Quality and Aroma Characteristics of Red Bean ( Vigna angularis ) Sourdough Induced by LAB Weissella confusa QS813 Strain Fermentation.
Chengye HuangJing HuangBinle ZhangJacob Ojobi OmediCheng ChenLiyuan ZhouLi LiangQibo ZouJianxian ZhengYongqing ZengWeining HuangPublished in: Foods (Basel, Switzerland) (2023)
This study investigated the impact of in situ-formed exopolysaccharides (EPS) in red bean ( Vigna angularis ) sourdough fermented by Weissella confusa QS813 on dough rheo-fermentation properties, bread-making quality and aroma characteristics of red bean sourdough bread. The EPS formed in red bean sourdough and sourdough-induced acidification improved the maximum dough fermentation height, gas retention coefficient and viscoelastic properties of dough. Doughs had a lower increase rate of total SDS-soluble gluten proteins, a low decline in GMP content and similar free sulfhydryl content to wheat dough. Resultantly, breads showed declines in baking loss and hardness, increase in specific volume and lower moisture loss and staling rate after 7 days of storage. Finally, despite a reduction in the total content of aroma compounds, new aroma compounds such as acetic acid and higher contents of 3-methyl-1-butanol and 2,3-butanediol were enriched in red bean sourdough bread. Sourdough acidification probably promoted interaction of EPS with gluten or red bean proteins through bond interactions to form structures which stabilized gluten in dough and increased water-binding ability in red bean sourdough bread. This study provided a better understanding of the role of EPS in sourdough in improving bread quality and of promising strategies to address consumer demand for nutritious and clean-label products.