The Landscape of Genetic Content in the Gut and Oral Human Microbiome.

Cell host & microbe Pub Date : 2019-08-14 DOI:10.1016/j.chom.2019.07.008

Braden T Tierney, Zhen Yang, Jacob M Luber, Marc Beaudin, Marsha C Wibowo, Christina Baek, Eleanor Mehlenbacher, Chirag J Patel, Aleksandar D Kostic

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Abstract

Despite substantial interest in the species diversity of the human microbiome and its role in disease, the scale of its genetic diversity, which is fundamental to deciphering human-microbe interactions, has not been quantified. Here, we conducted a cross-study meta-analysis of metagenomes from two human body niches, the mouth and gut, covering 3,655 samples from 13 studies. We found staggering genetic heterogeneity in the dataset, identifying a total of 45,666,334 non-redundant genes (23,961,508 oral and 22,254,436 gut) at the 95% identity level. Fifty percent of all genes were "singletons," or unique to a single metagenomic sample. Singletons were enriched for different functions (compared with non-singletons) and arose from sub-population-specific microbial strains. Overall, these results provide potential bases for the unexplained heterogeneity observed in microbiome-derived human phenotypes. One the basis of these data, we built a resource, which can be accessed at https://microbial-genes.bio.

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肠道和口腔人类微生物组中基因含量的景观。

尽管人们对人类微生物组的物种多样性及其在疾病中的作用非常感兴趣，但其遗传多样性的规模尚未量化，而遗传多样性是破译人类与微生物相互作用的基础。在这里，我们对口腔和肠道这两个人体小生境的宏基因组进行了交叉研究荟萃分析，涵盖了13项研究中的3655个样本。我们在数据集中发现了惊人的遗传异质性，在95%的同一性水平上共鉴定了45666334个非冗余基因（23961508个口腔和22254436个肠道）。50%的基因是“单重态”，或者说是单个宏基因组样本所特有的。单重态富集了不同的功能（与非单重态相比），并产生于亚群体特定的微生物菌株。总的来说，这些结果为在微生物组衍生的人类表型中观察到的无法解释的异质性提供了潜在的基础。在这些数据的基础上，我们构建了一个资源，可以在https://microbial-genes.bio.

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Cell host & microbe

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