果胶和小分子量的同质半乳糖醛酸通过体外肠道发酵调节微生物群落并产生大量短链脂肪酸。

Pectin and homogalacturonan with small molecular mass modulate microbial community and generate high SCFAs via in vitro gut fermentation.

机构信息

Institute of Food Science and Technology, Chinese Academy of Agricultural Sciences (CAAS)/Key Laboratory of Agro-Products Processing, Ministry of Agriculture and Rural Affairs, Beijing 100193, China.

Institute of Food Science and Technology, Chinese Academy of Agricultural Sciences (CAAS)/Key Laboratory of Agro-Products Processing, Ministry of Agriculture and Rural Affairs, Beijing 100193, China; Hebei Normal University of Science & Technology, Qin Huangdao 066000, Heibei, China.

出版信息

Carbohydr Polym. 2021 Oct 1;269:118326. doi: 10.1016/j.carbpol.2021.118326. Epub 2021 Jun 10.

DOI:10.1016/j.carbpol.2021.118326

PMID:34294338

Abstract

The intestinal fermentability of pectic polysaccharides is largely determined by its molecular size. In this study, fermentation properties of enzymatic-modified apple pectin (AP) and homogalacturonans (HG) with high, medium and low molecular weight (Mw) were evaluated by in vitro fermentation model, and their structural changes were also investigated. Results showed that Mw, monosaccharide contents and molecular linearity of the AP hydrolysates were reduced after microbial degradation. On the other hand, culture media supplemented with low-Mw AP (60,300 g/mol) and low-Mw HG (861 g/mol) exhibited lower pH (5.1 and 5.7, respectively) and produced higher total short-chain fatty acid contents (SCFA, 230.40 mmol/L and 187.19 mmol/L, respectively). However, reduced trends in abundance of the pectinolytic microorganisms Faecalibacterium and Eubacterium were showed as Mw of the HG decreased, whereas growth of the SCFA-producer genera Bifidobaacterium, Megasphaera and Allisonella were improved. This work confirmed that low-Mw pectin and homogalacturonan generated more beneficial metabolites, developing structure-microbiota-gut health relationship.

摘要

果胶多糖的肠道发酵性在很大程度上取决于其分子量。本研究采用体外发酵模型评价了高分子量（Mw）、中分子量（Mw）和低分子量（Mw）酶解苹果果胶（AP）和均质半乳糖醛酸（HG）的发酵特性，并研究了其结构变化。结果表明，微生物降解后，AP 水解物的 Mw、单糖含量和分子线性度降低。另一方面，添加低 Mw AP（60300g/mol）和低 Mw HG（861g/mol）的培养基 pH 值较低（分别为 5.1 和 5.7），总短链脂肪酸（SCFA）含量较高（分别为 230.40mmol/L 和 187.19mmol/L）。然而，随着 HG 的 Mw 降低，果胶分解菌 Faecalibacterium 和 Eubacterium 的丰度呈下降趋势，而 SCFA 产生菌双歧杆菌属、Megasphaera 和 Allisonella 的生长得到改善。本研究证实，低 Mw 果胶和均质半乳糖醛酸产生了更多有益代谢物，从而建立了结构-微生物群-肠道健康关系。

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果胶和小分子量的同质半乳糖醛酸通过体外肠道发酵调节微生物群落并产生大量短链脂肪酸。

Pectin and homogalacturonan with small molecular mass modulate microbial community and generate high SCFAs via in vitro gut fermentation.

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