Taxonomic composition and carbohydrate-active enzyme content in microbial enrichments from pulp mill anaerobic granules after cultivation on lignocellulosic substrates

Mabel T. Wong, Camilla L. Nesbø, Weijun Wang, Marie Couturier, Vincent Lombard, Pascal Lapebie, Nicolas Terrapon, Bernard Henrissat, Elizabeth A. Edwards, Emma R. Master
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Abstract

Metagenomes of lignocellulose-degrading microbial communities are reservoirs of carbohydrate-active enzymes relevant to biomass processing. Whereas several metagenomes of natural digestive systems have been sequenced, the current study analyses metagenomes originating from an industrial anaerobic digester that processes effluent from a cellulose pulp mill. Both 16S ribosomal DNA and metagenome sequences were obtained following anaerobic cultivation of the digester inoculum on cellulose and pretreated (steam exploded) poplar wood chips. The community composition and profile of predicted carbohydrate-active enzymes were then analyzed in detail. Recognized lignocellulose degraders were abundant in the resulting cultures, including populations belonging to Clostridiales and Bacteroidales orders. Poorly defined taxonomic lineages previously identified in other lignocellulose-degrading communities were also detected, including the uncultivated Firmicutes lineage OPB54 which represented nearly 10% of the cellulose-fed enrichment even though it was not detected in the bioreactor inoculum. In total, 3580 genes encoding carbohydrate-active enzymes were identified through metagenome sequencing. Similar to earlier enrichments of animal digestive systems, the profile encoded by the bioreactor inoculum following enrichment on pretreated wood was distinguished from the cellulose counterpart by a higher occurrence of enzymes predicted to act on pectin. The majority (> 93%) of carbohydrate-active enzymes predicted to act on plant polysaccharides were identified in the metagenome assembled genomes, permitting taxonomic assignment. The taxonomic assignment revealed that only a small selection of organisms directly participates in plant polysaccharide deconstruction and supports the rest of the community.
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木质纤维素基质培养后纸浆厂厌氧颗粒微生物的分类组成和碳水化合物活性酶含量
木质纤维素降解微生物群落的宏基因组是与生物质加工相关的碳水化合物活性酶的储存库。虽然已经对几种天然消化系统的宏基因组进行了测序,但目前的研究分析了源自纤维素纸浆厂废水处理的工业厌氧消化器的宏基因组。对纤维素和预处理杨木木屑进行厌氧培养,获得16S核糖体DNA和宏基因组序列。并对预测的碳水化合物活性酶的群落组成和分布进行了详细分析。已知的木质纤维素降解物在所得到的培养物中丰富,包括属于梭菌目和拟杆菌目的种群。以前在其他木质纤维素降解群落中发现的分类谱系也被检测到,包括未培养的厚壁菌门谱系OPB54,尽管在生物反应器接种中未检测到,但它代表了近10%的纤维素饲喂富集。通过宏基因组测序,共鉴定出3580个糖酶编码基因。与早期动物消化系统的富集类似,生物反应器接种物在预处理木材上富集后编码的剖面与纤维素对应的剖面不同,预测对果胶起作用的酶的发生率更高。大多数人(>在元基因组组装的基因组中鉴定出了93%的预测作用于植物多糖的碳水化合物活性酶,从而进行了分类分配。分类分配表明,只有一小部分生物直接参与植物多糖的解构,并支持群落的其余部分。
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