从 ICR 小鼠中检测和分离低分子量海藻酸盐和岩藻聚糖易感性肠道土著细菌。

Detection and isolation of low molecular weight alginate- and laminaran-susceptible gut indigenous bacteria from ICR mice.

机构信息

Department of Food Science and Technology, Tokyo University of Marine Science and Technology, 4-5-7 Konan, Minato-ku, Tokyo 108-8477, Japan.

出版信息

Carbohydr Polym. 2020 Jun 15;238:116205. doi: 10.1016/j.carbpol.2020.116205. Epub 2020 Mar 27.

DOI:10.1016/j.carbpol.2020.116205

PMID:32299574

Abstract

Alginate and laminaran are the main water-soluble polysaccharides in edible brown algae such as arame Eisenia bicyclis. To determine the alginate- and/or laminaran-susceptible indigenous bacteria (SIB) in the gut, the caecal microbiomes of ICR mice fed a diet containing 2% low molecular weight (LMW ≒50 kDa) alginate or laminaran were analysed by 16S rRNA gene (V4) amplicon sequencing. At the phylum level abundances, compared to those in mice fed a no-fibre diet, Firmicutes was lower and Bacteroidetes was higher in both LMW alginate- or laminaran-fed mouse groups. At the operational taxonomic unit level, Bacteroides acidifaciens- and Bacteroides intestinalis-like bacteria were considered alginate- and laminaran-SIB, respectively. B. acidifaciens PS-4 isolated from the ICR mice fermented LMW alginate and laminaran and mainly produced succinate. B. intestinalis ALB-11 also isolated from these mice fermented laminaran and mainly produced lactate. These SIB might exert interactive effects with edible brown algal consumption and affect host health.

摘要

褐藻中的岩藻聚糖和昆布多糖是可食用的水溶性多糖的主要成分，例如鹅肠菜 Eisenia bicyclis。为了确定肠道中对藻酸盐和/或昆布多糖具有敏感性的土著细菌（SIB），通过 16S rRNA 基因（V4）扩增子测序分析了喂食含 2%低分子量（LMW ≒50kDa）藻酸盐或昆布多糖的饮食的 ICR 小鼠的盲肠微生物组。与喂食无纤维饮食的小鼠相比，在 LMW 藻酸盐或昆布多糖喂养的两组小鼠中，厚壁菌门的丰度较低，拟杆菌门的丰度较高。在操作分类单元水平上，被认为是藻酸盐和昆布多糖 SIB 的是黄杆菌属和肠道拟杆菌属样细菌。从 ICR 小鼠中分离的 PS-4 可发酵 LMW 藻酸盐和昆布多糖，主要产生琥珀酸。同样从这些小鼠中分离的 ALB-11 发酵昆布多糖，主要产生乳酸。这些 SIB 可能与食用褐藻的摄入相互作用，并影响宿主健康。

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从 ICR 小鼠中检测和分离低分子量海藻酸盐和岩藻聚糖易感性肠道土著细菌。

Detection and isolation of low molecular weight alginate- and laminaran-susceptible gut indigenous bacteria from ICR mice.

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