The human gut microbiome is linked to many states of human health and disease.
1
The metabolic repertoire of the gut microbiome is vast, but the health implications of these bacterial pathways are poorly understood. In this study, we identify a link between members of the genus
Veillonella
and exercise performance. We observed an increase
Veillonella
relative abundance in marathon runners post-marathon and isolated a strain of
Veillonella atypica
from stool samples. Inoculation of this strain into mice significantly increased exhaustive treadmill runtime.
Veillonella
utilize lactate as their sole carbon source, which prompted us to perform shotgun metagenomic analysis in a cohort of elite athletes, finding that every gene in a major pathway metabolizing lactate to propionate is at higher relative abundance post-exercise. Using
13
C
3
-labeled lactate in mice we demonstrate that serum lactate crosses the epithelial barrier into the lumen of the gut. We also show that intrarectal instillation of propionate is sufficient to reproduce the increased treadmill runtime performance observed with
V. atypica
gavage. Taken together, these studies reveal that
V. atypica
improves runtime via its metabolic conversion of exercise-induced lactate into propionate, thereby identifying a natural, microbiome-encoded enzymatic process that enhances athletic performance.
We present HiGlass, an open source visualization tool built on web technologies that provides a rich interface for rapid, multiplex, and multiscale navigation of 2D genomic maps alongside 1D genomic tracks, allowing users to combine various data types, synchronize multiple visualization modalities, and share fully customizable views with others. We demonstrate its utility in exploring different experimental conditions, comparing the results of analyses, and creating interactive snapshots to share with collaborators and the broader public. HiGlass is accessible online at http://higlass.io and is also available as a containerized application that can be run on any platform.Electronic supplementary materialThe online version of this article (10.1186/s13059-018-1486-1) contains supplementary material, which is available to authorized users.
Highlights d Cross-study meta-analysis of metagenomes covering 3,655 samples from two body sites d Meta-analysis uncovers staggering microbial gene diversity d 50% of all genes in a metagenomic sample are individualspecific or ''singletons'' d Individual's microbiomes can be fingerprinted via rare microbial strains
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