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The Effects of Single- or Mixed-Strain Fermentation of Red Bean Sourdough, with or without Wheat Bran, on Bread Making Performance and Its Potential Health Benefits in Mice Model.

Chengye HuangBinle ZhangJing HuangYouyi LiuCheng ChenJacob Ojobi OmediLi LiangZhongkai ZhouWeining HuangNing Li
Published in: Foods (Basel, Switzerland) (2024)
The effects of single- ( Lactobacillus fermentum ) or mixed-strain ( Lactobacillus fermentum , Kluyveromyces marxianus ) fermentation of red bean with or without wheat bran on sourdough bread quality and nutritional aspects were investigated. The results showed that, compared to unfermented controls, the tannins, phytic acid, and trypsin inhibitor levels were significantly reduced, whereas the phytochemical (TPC, TFC, and gallic acid) and soluble dietary fiber were increased in sourdough. Meanwhile, more outstanding changes were obtained in sourdough following a mixed-strain than single-strain fermentation, which might be associated with its corresponding β-glucosidase, feruloyl esterase, and phytase activities. An increased specific volume, reduced crumb firmness, and greater sensory evaluation of bread was achieved after mixed-strain fermentation. Moreover, diets containing sourdough, especially those prepared with mixed-strain-fermented red bean with wheat bran, significantly decreased serum pro-inflammatory cytokines levels, and improved the lipid profile, HDL/LDL ratio, glucose tolerance, and insulin sensitivity of mice. Moreover, gut microbiota diversity increased towards beneficial genera (e.g., Bifidobacterium ), accompanied with a greater increase in short-chain fatty acid production in mice fed on sourdough-based bread diets compared to their controls and white bread. In conclusion, mixed-strain fermentation's synergistic effect on high fiber-legume substrate improved the baking, sensory quality, and prebiotic effect of bread, leading to potential health benefits in mice.
Keyphrases
  • lactic acid
  • saccharomyces cerevisiae
  • public health
  • high fat diet induced
  • healthcare
  • fatty acid
  • mental health
  • type diabetes
  • metabolic syndrome
  • molecular docking
  • adipose tissue
  • risk assessment
  • amino acid
  • high speed