安第斯土壤木质纤维素分解细菌群是新型类群和假定塑料活性酶的来源

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Laura Díaz-García , Maria Chuvochina , Golo Feuerriegel , Boyke Bunk , Cathrin Spröer , Wolfgang R. Streit , Luis M. Rodriguez-R , Jörg Overmann , Diego Javier Jiménez
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引用次数: 0

摘要

改造微生物环境群落的一种简单易行的方法是建立液体富集培养物,将特定的基质作为唯一的碳源。在这里,我们分析了从微生物联合体(T6)中提取的二十个单序列高质量元基因组(MAGs),该联合体是以安第斯土壤为接种体,木质纤维素为选择压力,通过稀释-刺激方法筛选出来的。根据基因组指标(如平均核苷酸和氨基酸相同度)和系统发生组分析,发现 20 个 MAGs 中有 15 个代表新的细菌物种,其中一个(MAG_26)属于与 Caenibius spp.(Sphingomonadaceae)密切相关的新属。根据 SeqCode 的规则和要求,我们建议将该类群命名为 Andeanibacterium colombiense gen.随后对所有 MAGs 进行的功能注释显示,MAG_7(半纤维素硅胶假单胞菌新种)分别含有 20、19 和 16 个来自碳水化合物活性酶家族 GH43、GH2 和 GH92 的预测基因。它的木质纤维素分解基因谱与 MAG_2(含量最高的成员)和 MAG_3858 相似,两者都属于鞘氨醇杆菌科。利用包含经实验验证的塑料活性酶(PAZymes)的数据库,在所有 MAGs 中检测到 27 种推定的细菌聚对苯二甲酸乙二醇酯(PET)活性酶(即 alpha/beta-fold 水解酶)。在 MAG_3858 中最多发现了五种推定 PET 酶,发现两种 PET 酶由 A. colombiense 编码。总之,我们证明了富含木质纤维素的液体培养物与基因组分辨元基因组学是揭示安第斯土壤生态系统中隐藏的细菌多样性及其聚合物降解潜力的合适方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Andean soil-derived lignocellulolytic bacterial consortium as a source of novel taxa and putative plastic-active enzymes

An easy and straightforward way to engineer microbial environmental communities is by setting up liquid enrichment cultures containing a specific substrate as the sole source of carbon. Here, we analyzed twenty single-contig high-quality metagenome-assembled genomes (MAGs) retrieved from a microbial consortium (T6) that was selected by the dilution-to-stimulation approach using Andean soil as inoculum and lignocellulose as a selection pressure. Based on genomic metrics (e.g., average nucleotide and amino acid identities) and phylogenomic analyses, 15 out of 20 MAGs were found to represent novel bacterial species, with one of those (MAG_26) belonging to a novel genus closely related to Caenibius spp. (Sphingomonadaceae). Following the rules and requirements of the SeqCode, we propose the name Andeanibacterium colombiense gen. nov., sp. nov. for this taxon. A subsequent functional annotation of all MAGs revealed that MAG_7 (Pseudobacter hemicellulosilyticus sp. nov.) contains 20, 19 and 16 predicted genes from carbohydrate-active enzymes families GH43, GH2 and GH92, respectively. Its lignocellulolytic gene profile resembles that of MAG_2 (the most abundant member) and MAG_3858, both of which belong to the Sphingobacteriaceae family. Using a database that contains experimentally verified plastic-active enzymes (PAZymes), twenty-seven putative bacterial polyethylene terephthalate (PET)-active enzymes (i.e., alpha/beta-fold hydrolases) were detected in all MAGs. A maximum of five putative PETases were found in MAG_3858, and two PETases were found to be encoded by A. colombiense. In conclusion, we demonstrate that lignocellulose-enriched liquid cultures coupled with genome-resolved metagenomics are suitable approaches to unveil the hidden bacterial diversity and its polymer-degrading potential in Andean soil ecosystems.

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CiteScore
7.20
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