单胃年龄相关古菌纵向基因组研究中的新型完整产甲烷途径。

IF 4.9 Q1 MICROBIOLOGY
Brandi Feehan, Qinghong Ran, Victoria Dorman, Kourtney Rumback, Sophia Pogranichniy, Kaitlyn Ward, Robert Goodband, Megan C Niederwerder, Sonny T M Lee
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引用次数: 0

摘要

背景:古细菌在微生物组系统中发挥着关键作用,包括利用氢气促进微生物组成员的生长和影响宿主的整体健康。由于大多数微生物组研究都集中在细菌上,古细菌的功能在很大程度上仍在研究之中。了解宿主一生中的产甲烷功能将增加古细菌对肠道和宿主健康影响的有限知识。在我们的研究中,我们确定了古细菌的终生动态,包括检测和甲烷生成功能,同时评估了新型古细菌元基因组(MAGs)的全球、时间和宿主分布情况。我们对 7 头单胃猪进行了从出生到成年(1-156 日龄)的全程跟踪,并在 22 个时间点收集粪便。样本经过了 gDNA 提取、Illumina 测序、生物信息学质量和组装过程、MAG 分类分配和功能注释。除了确定产甲烷菌的功能潜力外,还利用 MAG 进行下游系统发生学分析,以确定全球、时间和宿主分布情况:我们生成了 1130 个非冗余 MAGs,代表了物种水平上的 588 个独特类群,其中 8 个被归类为甲烷发生古细菌。分类学分类如下:甲烷纤毛菌目(Methanomassiliicoccales)(5 个)和甲烷杆菌目(Methanobacteriales)(3 个);UBA71 属(3 个)、嗜甲烷甲烷菌属(Methanomethylophilus)(1 个)、MX-02 属(1 个)和甲烷苏云金杆菌属(Methanobrevibacter)(3 个)。我们首次在美国发现了猪甲烷杆菌 UBA71 sp006954425 和 Methanobrevibacter gottschalkii MAGs。甲烷杆菌属 MAGs 主要是在断奶前的幼年宿主体内发现的,而甲烷嗜热球菌属 MAGs 主要是在成年宿主体内发现的。此外,我们还在中国猪、美国成年人类、墨西哥成年人类、瑞典成年人类和古生物人类的元基因组序列中鉴定出了我们的甲烷菌,这表明甲烷菌跨越了不同的宿主、地域和时间。我们确定了所有三种甲烷生成途径的完整代谢路径:富氢型、富甲型和乙酰脆性型。这项研究首次证明了单胃宿主古细菌中的乙酰脆性甲烷生成过程,这表明单胃甲烷菌在甲烷生成过程中利用乙酸的能力以前是未知的。总之,我们推测与年龄相关的检测模式是由于宿主饮食和微生物代谢提供的底物不同,而这些产甲烷功能可能对不同宿主的甲烷菌至关重要。这项研究对单胃相关甲烷菌进行了全面的、以基因组为中心的调查,这将进一步提高我们对微生物组发展和功能的认识。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Novel complete methanogenic pathways in longitudinal genomic study of monogastric age-associated archaea.

Novel complete methanogenic pathways in longitudinal genomic study of monogastric age-associated archaea.

Novel complete methanogenic pathways in longitudinal genomic study of monogastric age-associated archaea.

Novel complete methanogenic pathways in longitudinal genomic study of monogastric age-associated archaea.

Background: Archaea perform critical roles in the microbiome system, including utilizing hydrogen to allow for enhanced microbiome member growth and influencing overall host health. With the majority of microbiome research focusing on bacteria, the functions of archaea are largely still under investigation. Understanding methanogenic functions during the host lifetime will add to the limited knowledge on archaeal influence on gut and host health. In our study, we determined lifelong archaea dynamics, including detection and methanogenic functions, while assessing global, temporal and host distribution of our novel archaeal metagenome-assembled genomes (MAGs). We followed 7 monogastric swine throughout their life, from birth to adult (1-156 days of age), and collected feces at 22 time points. The samples underwent gDNA extraction, Illumina sequencing, bioinformatic quality and assembly processes, MAG taxonomic assignment and functional annotation. MAGs were utilized in downstream phylogenetic analysis for global, temporal and host distribution in addition to methanogenic functional potential determination.

Results: We generated 1130 non-redundant MAGs, representing 588 unique taxa at the species level, with 8 classified as methanogenic archaea. The taxonomic classifications were as follows: orders Methanomassiliicoccales (5) and Methanobacteriales (3); genera UBA71 (3), Methanomethylophilus (1), MX-02 (1), and Methanobrevibacter (3). We recovered the first US swine Methanobrevibacter UBA71 sp006954425 and Methanobrevibacter gottschalkii MAGs. The Methanobacteriales MAGs were identified primarily during the young, preweaned host whereas Methanomassiliicoccales primarily in the adult host. Moreover, we identified our methanogens in metagenomic sequences from Chinese swine, US adult humans, Mexican adult humans, Swedish adult humans, and paleontological humans, indicating that methanogens span different hosts, geography and time. We determined complete metabolic pathways for all three methanogenic pathways: hydrogenotrophic, methylotrophic, and acetoclastic. This study provided the first evidence of acetoclastic methanogenesis in archaea of monogastric hosts which indicated a previously unknown capability for acetate utilization in methanogenesis for monogastric methanogens. Overall, we hypothesized that the age-associated detection patterns were due to differential substrate availability via the host diet and microbial metabolism, and that these methanogenic functions are likely crucial to methanogens across hosts. This study provided a comprehensive, genome-centric investigation of monogastric-associated methanogens which will further improve our understanding of microbiome development and functions.

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