Natural selection shapes bacterial evolution in all environments. However, the extent to which commensal bacteria diversify and adapt within the human gut remains unclear. Here, we combine culture-based population genomics and metagenomics to investigate the within-microbiome evolution of Bacteroides fragilis. We find that intra-individual B. fragilis populations contain substantial de novo nucleotide and mobile element diversity, preserving years of within-person history. This history reveals multiple signatures of within-person adaptation, including parallel evolution in sixteen genes. Many of these genes are implicated in cell-envelope biosynthesis and polysaccharide utilization. Tracking evolutionary trajectories using near-daily metage...
We live in a world suffused with microbial life. Universal trees of life show that microbial bacteri...
While the human microbiome's structure and function have been extensively studied, its within-specie...
Bacteria generally live in species-rich communities, such as the gut microbiota. Yet little is known...
Natural selection shapes bacterial evolution in all environments. However, the extent to which comme...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Biology, 2019Cataloged from PDF...
Gut microbiota are shaped by a combination of ecological and evolutionary forces. While the ecologic...
Gut microbiota are shaped by a combination of ecological and evolutionary forces. While the ecologic...
The adult human intestine contains trillions of bacteria, representing hundreds of species and thous...
The adult human intestine contains trillions of bacteria, representing hundreds of species and thous...
The mechanisms by which different microbes colonize the healthy human gut versus other body sites, t...
Hildebrand F, Goßmann T, Frioux C, et al. Dispersal strategies shape persistence and evolution of hu...
Gut microbial communities can respond to antibiotic perturbations by rapidly altering their taxonomi...
<div><p>The mechanisms by which different microbes colonize the healthy human gut versus other body ...
International audienceThe gut microbiomes of human populations worldwide have many core microbial sp...
Our intestine is a melting pot of interactions between microbial and human cells. This gene-rich eco...
We live in a world suffused with microbial life. Universal trees of life show that microbial bacteri...
While the human microbiome's structure and function have been extensively studied, its within-specie...
Bacteria generally live in species-rich communities, such as the gut microbiota. Yet little is known...
Natural selection shapes bacterial evolution in all environments. However, the extent to which comme...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Biology, 2019Cataloged from PDF...
Gut microbiota are shaped by a combination of ecological and evolutionary forces. While the ecologic...
Gut microbiota are shaped by a combination of ecological and evolutionary forces. While the ecologic...
The adult human intestine contains trillions of bacteria, representing hundreds of species and thous...
The adult human intestine contains trillions of bacteria, representing hundreds of species and thous...
The mechanisms by which different microbes colonize the healthy human gut versus other body sites, t...
Hildebrand F, Goßmann T, Frioux C, et al. Dispersal strategies shape persistence and evolution of hu...
Gut microbial communities can respond to antibiotic perturbations by rapidly altering their taxonomi...
<div><p>The mechanisms by which different microbes colonize the healthy human gut versus other body ...
International audienceThe gut microbiomes of human populations worldwide have many core microbial sp...
Our intestine is a melting pot of interactions between microbial and human cells. This gene-rich eco...
We live in a world suffused with microbial life. Universal trees of life show that microbial bacteri...
While the human microbiome's structure and function have been extensively studied, its within-specie...
Bacteria generally live in species-rich communities, such as the gut microbiota. Yet little is known...