Dietary pectic glycans are degraded by coordinated enzyme pathways in human colonic Bacteroides

拟杆菌 糖苷水解酶 聚糖 生物化学 果胶 多糖 拟杆菌 鼠李糖 细胞壁 细菌 糖基转移酶 生物 化学 微生物学 脆弱类杆菌 遗传学 糖蛋白 抗生素
作者
Ana S. Luís,Jonathon A. Briggs,Xiaoyang Zhang,Benjamin Farnell,Didier Ndeh,Aurore Labourel,Arnaud Baslé,Alan Cartmell,Nicolas Terrapon,Katherine Stott,Elisabeth C. Lowe,Richard P. McLean,Kaitlyn Shearer,Julia Schückel,I. Venditto,Marie‐Christine Ralet,Bernard Henrissat,Eric C. Martens,S.C. Mosimann,D. Wade Abbott
出处
期刊:Nature microbiology [Nature Portfolio]
卷期号:3 (2): 210-219 被引量:416
标识
DOI:10.1038/s41564-017-0079-1
摘要

The major nutrients available to human colonic Bacteroides species are glycans, exemplified by pectins, a network of covalently linked plant cell wall polysaccharides containing galacturonic acid (GalA). Metabolism of complex carbohydrates by the Bacteroides genus is orchestrated by polysaccharide utilization loci (PULs). In Bacteroides thetaiotaomicron, a human colonic bacterium, the PULs activated by different pectin domains have been identified; however, the mechanism by which these loci contribute to the degradation of these GalA-containing polysaccharides is poorly understood. Here we show that each PUL orchestrates the metabolism of specific pectin molecules, recruiting enzymes from two previously unknown glycoside hydrolase families. The apparatus that depolymerizes the backbone of rhamnogalacturonan-I is particularly complex. This system contains several glycoside hydrolases that trim the remnants of other pectin domains attached to rhamnogalacturonan-I, and nine enzymes that contribute to the degradation of the backbone that makes up a rhamnose-GalA repeating unit. The catalytic properties of the pectin-degrading enzymes are optimized to protect the glycan cues that activate the specific PULs ensuring a continuous supply of inducing molecules throughout growth. The contribution of Bacteroides spp. to metabolism of the pectic network is illustrated by cross-feeding between organisms. This study describes the dynamic mechanisms driving utilization of pectins by Bacteroides thetaiotaomicron, where specific polysaccharide-utilization loci target specific pectin molecules with the products available for use by other bacteria.
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