When simplicity triumphs: niche specialization of gut bacteria exists even for simple fiber structures.

IF 5.1 Q1 ECOLOGY
ISME communications Pub Date : 2024-04-11 eCollection Date: 2024-01-01 DOI:10.1093/ismeco/ycae037
Haidi Xu, Nicholas A Pudlo, Thaisa M Cantu-Jungles, Yunus E Tuncil, Xin Nie, Amandeep Kaur, Bradley L Reuhs, Eric C Martens, Bruce R Hamaker
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Abstract

Structurally complex corn bran arabinoxylan (CAX) was used as a model glycan to investigate gut bacteria growth and competition on different AX-based fine structures. Nine hydrolyzate segments of the CAX polymer varying in chemical structure (sugars and linkages), CAX, five less complex non-corn arabinoxylans, and xylose and glucose were ranked from structurally complex to simple. The substrate panel promoted different overall growth and rates of growth of eight Bacteroides xylan-degrading strains. For example, Bacteroides cellulosilyticus DSM 14838 (Bacteroides cellulosilyticus) grew well on an array of complex and simple structures, while Bacteroides ovatus 3-1-23 grew well only on the simple structures. In a competition experiment, B. cellulosilyticus growth was favored over B. ovatus on the complex AX-based structure. On the other hand, on the simple structure, B. ovatus strongly outcompeted B. cellulosilyticus, which was eliminated from the competitive environment by Day 11. This adaptation to fine structure and resulting competition dynamics indicate that dietary fiber chemical structures, whether complex or simple, favor certain gut bacteria. Overall, this work supports a concept that fiber degraders diversify their competitive abilities to access substrates across the spectrum of heterogeneity of fine structural features of dietary fibers.

当简单取胜时:即使是简单的纤维结构,也存在肠道细菌的生态位特化。
以结构复杂的玉米麸阿拉伯木聚糖(CAX)为聚糖模型,研究肠道细菌在不同的阿拉伯木聚糖精细结构上的生长和竞争情况。九段 CAX 聚合物水解物的化学结构(糖和连接)、CAX、五种不太复杂的非玉米阿拉伯木聚糖以及木糖和葡萄糖各不相同,从结构复杂到结构简单依次排列。底物组促进了八种木聚糖降解乳杆菌菌株不同的整体生长和生长速度。例如,纤维素硅化乳杆菌(Bacteroides cellulosilyticus DSM 14838)在一系列复杂和简单的结构上生长良好,而卵形乳杆菌(Bacteroides ovatus 3-1-23)只在简单结构上生长良好。在一项竞争实验中,在基于 AX 的复杂结构上,纤维素硅化杆菌的生长优于卵形杆菌。另一方面,在简单结构上,卵囊菌的生长速度明显优于纤维素芽孢杆菌,后者在第 11 天时已被淘汰出竞争环境。这种对精细结构的适应以及由此产生的竞争动态表明,无论是复杂还是简单的膳食纤维化学结构都有利于某些肠道细菌。总之,这项研究支持了这样一种概念,即纤维降解菌具有多样化的竞争能力,以获取各种不同细微结构特征的膳食纤维底物。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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