Size-dependent physicochemical property and functionality of insoluble dietary fiber derived from wheat bran

Insoluble dietary fibers (IDFs) demonstrate healthy benefits, while the impact of particle sizes on their properties is far from understood. This study investigated physicochemical and functional properties of IDFs derived from wheat bran with three different sizes. Results indicated that water-hold...

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Bibliographic Details
Published in:Food science & technology 2024-02, Vol.193, p.115747, Article 115747
Main Authors: Wang, Anqi, Wang, Xuanyu, Zhuang, Min, Ke, Sheng, Ning, Ming, Yu, Peng, Zhou, Zhongkai
Format: Article
Language:English
Subjects:
Gut microbiota
Insoluble dietary fiber
Short-chain fatty acids
Size distribution
Wheat bran
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Summary:Insoluble dietary fibers (IDFs) demonstrate healthy benefits, while the impact of particle sizes on their properties is far from understood. This study investigated physicochemical and functional properties of IDFs derived from wheat bran with three different sizes. Results indicated that water-holding capacity, oil-holding capacity and α-amylase activity inhibition of IDF had a positive association with their corresponding size. Meanwhile, grinding progress also influenced particle antioxidant capacity, in which the IDFs with a medium size had the greatest antioxidant activity in term of DPPH, ABTS+ and FRAP, which might indicate the importance of appropriate processing for guaranteeing a greater exposure of functional groups. In contrast, extra grinding of IDF led to a lower antioxidant capacity, which might indicate the loss of functional groups on particle surface due to physical action. All IDFs promoted short-chain fatty acids production via gut microbiota fermentation associated with the alteration of gut microbiota. A clinical trial was further performed, and the results indicated that consumption of medium-size IDF increased D-alanyl-d-alanine and decreased kynurenic acid levels in feces, which was positively related to abundance of Romboutsia and NK4A214_group, respectively. This study may contribute to designing individual IDFs for meeting different functional criteria. [Display omitted] •Oil/water holding capacity of IDF was positively related to their individual size.•Extra grinding reduced antixodant capacity due to the loss of functional groups.•Medium-size IDFs decreased key metabolite kynurenic acid in human feces.•Size-dependent Romboutsia abundance revealed individual function of IDF in gut.
ISSN:0023-6438
1096-1127
DOI:10.1016/j.lwt.2024.115747