Analysis of Functional Component Alterations and Antioxidant Response Mechanisms in Microbial-Enzymatic Co-Fermentation-Induced Quinoa Bran
2025
Min Li | Qianfang Zhang | Jingyan Meng
This study utilised Bacillus subtilis and cellulase combined with Bacillus subtilis to ferment quinoa bran. The effects of different fermentation methods on the functional components, antioxidant activity, and structural changes of quinoa bran were evaluated. Fermentation altered the functional components of quinoa bran and enhanced its antioxidant capacity. The phenolic acid and polysaccharide contents increased in BFQ (Bacillus subtilis-fermented quinoa bran) and BEFQ (bacterio-enzyme co-fermented quinoa bran), whereas the protein content decreased. After fermentation, the phenolic acid content in BEFQ increased by 81.68%, while the DPPH and ABTS radical-scavenging rates increased by 43.99% and 31.44%, respectively. The antioxidant capacity in BEFQ was ranked as follows: ferulic acid >: p-coumaric acid >: vanillic acid >: 4-hydroxybenzoic acid. Thus, the antioxidant ability of quinoa bran phenolic acids was primarily dependent on hydroxycinnamic acid derivatives. The polysaccharide content in BEFQ increased by 80.73%. The DPPH and ABTS radical-scavenging rates increased by 52.59% and 50.48%, respectively, whereas the protein content decreased by 21.88%. Furthermore, the DPPH and ABTS radical-scavenging rates increased by 76% and 75.39%, respectively. These results indicate that fermentation using cellulase combined with Bacillus subtilis has the potential to enhance the antioxidant capacity and utilisation of quinoa bran.
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