Structural and Metabolic Remodeling of Mixed Lactic Acid Bacteria-Fermented Wheat Germ and Its In Vitro and In Vivo Digestive Stability
Zhenguo Liu, Dong Liang, Xin Wang, Shiyou Yu, Dawei Fu, Yongqiang Ma, Chunran Han, Yu Hao, Yiying Ma, Qingmin Kong

TL;DR
Fermenting wheat germ with lactic acid bacteria boosts its antioxidant power, which helps combat oxidative stress in both lab and living models.
Contribution
This study demonstrates that mixed lactic acid bacteria fermentation enhances wheat germ's antioxidant properties through metabolic and structural changes.
Findings
Fermented wheat germ extract showed higher antioxidant activity and active substance content compared to unfermented extract.
LFWGC improved in vivo antioxidant levels and behavioral performance in a Drosophila oxidative stress model.
Fermentation enriched intestinal flora and activated metabolic pathways to enhance antioxidant defenses.
Abstract
Fermentation utilizing a combination of lactic acid bacteria (LAB) is known to enhance the nutritional value of wheat germ extract via the production of functional bioactive compounds. In this work, fermentation via compound LAB significantly enhanced the antioxidant activity of wheat germ extract. Compared to the unfermented group (CON), the in vitro antioxidant indices of Lactobacillus fermented wheat embryo extract were increased significantly: DPPH·+/ABTS·+ clearance (67.87 ± 3.48%/71.44 ± 5.90%), FRAP value (1.33 ± 0.02 μmol Trolox/10 mg), and active substance content including GSH (78.04 ± 1.43 μmol/g), total phenols (0.53 ± 0.01 mg GAE/10 mg), and total flavonoids (0.032 ± 0.01 mg/10 mg). Moreover, the antioxidant activity and substances of lactic acid bacteria-fermented wheat embryo extract were improved after gastrointestinal digestion compared with CON. In the erastin-induced…
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Taxonomy
TopicsFood Science and Nutritional Studies · Food composition and properties · Probiotics and Fermented Foods
