Gut microbiota are shaped by a combination of ecological and evolutionary forces. While the ecological dynamics have been extensively studied, much less is known about how species of gut bacteria evolve over time. Here, we introduce a model-based framework for quantifying evolutionary dynamics within and across hosts using a panel of metagenomic samples. We use this approach to study evolution in approximately 40 prevalent species in the human gut. Although the patterns of between-host diversity are consistent with quasi-sexual evolution and purifying selection on long timescales, we identify new genealogical signatures that challenge standard population genetic models of these processes. Within hosts, we find that genetic differences that ...
Bacteria generally live in species-rich communities, such as the gut microbiota. Yet little is known...
<div><p>The relative role of drift versus selection underlying the evolution of bacterial species wi...
We live in a world suffused with microbial life. Universal trees of life show that microbial bacteri...
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...
Our intestine is a melting pot of interactions between microbial and human cells. This gene-rich eco...
Natural selection shapes bacterial evolution in all environments. However, the extent to which comme...
The human gut microbiome harbors substantial ecological diversity at the species level as well as at...
Hildebrand F, Goßmann T, Frioux C, et al. Dispersal strategies shape persistence and evolution of hu...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Biology, 2019Cataloged from PDF...
The recent emergence of powerful genomic tools, such as high-throughput genomics, transcriptomics an...
Gut microbial communities can respond to antibiotic perturbations by rapidly altering their taxonomi...
Here, the authors show that a colonizing bacterial strain evolves in the gut by either generating ec...
Horizontal gene transfer (HGT) is a ubiquitous force in microbial evolution. Previous work has shown...
© 2020 The Authors Mammalian gut microbiomes profoundly influence host fitness, but the processes th...
Bacteria generally live in species-rich communities, such as the gut microbiota. Yet little is known...
<div><p>The relative role of drift versus selection underlying the evolution of bacterial species wi...
We live in a world suffused with microbial life. Universal trees of life show that microbial bacteri...
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...
Our intestine is a melting pot of interactions between microbial and human cells. This gene-rich eco...
Natural selection shapes bacterial evolution in all environments. However, the extent to which comme...
The human gut microbiome harbors substantial ecological diversity at the species level as well as at...
Hildebrand F, Goßmann T, Frioux C, et al. Dispersal strategies shape persistence and evolution of hu...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Biology, 2019Cataloged from PDF...
The recent emergence of powerful genomic tools, such as high-throughput genomics, transcriptomics an...
Gut microbial communities can respond to antibiotic perturbations by rapidly altering their taxonomi...
Here, the authors show that a colonizing bacterial strain evolves in the gut by either generating ec...
Horizontal gene transfer (HGT) is a ubiquitous force in microbial evolution. Previous work has shown...
© 2020 The Authors Mammalian gut microbiomes profoundly influence host fitness, but the processes th...
Bacteria generally live in species-rich communities, such as the gut microbiota. Yet little is known...
<div><p>The relative role of drift versus selection underlying the evolution of bacterial species wi...
We live in a world suffused with microbial life. Universal trees of life show that microbial bacteri...