The Universe of Microbial Genes


31415755	The Landscape of Genetic Content in the Gut and Oral Human Microbiome. [PMID: 31415755] Braden T Tierney, Zhen Yang, Jacob M Luber, Marc Beaudin, Marsha C Wibowo, Christina Baek, Eleanor Mehlenbacher, Chirag J Patel, Aleksandar D Kostic 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. Cell Host Microbe. 2019:26(2) \| 210 Citations (from Europe PMC, 2025-12-20)

The Landscape of Genetic Content in the Gut and Oral Human Microbiome. [PMID: 31415755]

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

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.

Cell Host Microbe. 2019:26(2) | 210 Citations (from Europe PMC, 2025-12-20)

URL:	https://microbial-genes.bio
Full name:	The Universe of Microbial Genes
Description:	The resource is about a cross-study meta-analysis of metagenomes from two human body niches, the mouth and gut, covering 3,655 samples from 13 studies. 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.
Year founded:	2019
Last update:
Version:
Accessibility:	Accessible
Country/Region:	United States

Data type:	DNA
Data object:	Bacteria
Database category:	Gene genome and annotation Genotype phenotype and variation Phylogeny and homology
Major species:	Homo sapiens
Keywords:	mouth and gut microbiota microbiome heterogeneity microbiota

University/Institution:	Harvard University
Address:	Section on Pathophysiology and Molecular Pharmacology, Joslin Diabetes Center, Boston, MA, USA
City:	Boston
Province/State:
Country/Region:	United States
Contact name (PI/Team):	Aleksandar D. Kostic
Contact email (PI/Helpdesk):	Aleksandar.Kostic@joslin.harvard.edu

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