Add to ORKGBackgroundWhile human gut microbiomes vary significantly in taxonomic composition, biological pathway abundance is surprisingly invariable across hosts. We hypothesized that healthy microbiomes appear functionally redundant due to factors that obscure differences in gene abundance between individuals.ResultsTo account for these biases, we developed a powerful test of gene variability called CCoDA, which is applicable to shotgun metagenomes from any environment and can integrate data from multiple studies. Our analysis of healthy human fecal metagenomes from three separate cohorts revealed thousands of genes whose abundance differs significantly and consistently between people, including glycolytic enzymes, lipopolysaccharide biosynthetic ge...
Our knowledge of species and functional composition of the human gut microbiome is rapidly increasin...
peer reviewedThe human gut microbiome represents a complex ecosystem contributing essential function...
Figure S13. Genes only annotated in Proteobacteria or Euryarchaeota, but not Actinobacteria or Firmi...
BackgroundWhile human gut microbiomes vary significantly in taxonomic composition, biological pathwa...
Despite recent progress, the organization and ecological properties of the intestinal microbial ecos...
Microbial species (bacteria and archaea) in the gut are important for human health in various ways. ...
Population genomics of prokaryotes has been studied in depth in only a small number of primarily pat...
The gut microbiota is essentially a multifunctional bioreactor within a human being. The exploration...
The human microbiome, the complex and dynamic ecosystem that populates our body, performs essential ...
The mechanisms by which different microbes colonize the healthy human gut versus other body sites, t...
Numerous microbes inhabit the human intestine, many of which are uncharacterized or uncultivable. Th...
It is well accepted that dysbiosis of microbiota is associated with disease; however, the biological...
Our understanding of how the gut microbiome interacts with its human host has been restrained by lim...
Introduction: The breakthrough of next generation sequencing-technologies has enabled large-scale st...
The microbial communities that live inside the human gastrointestinal tract -the human gut microbiom...
Our knowledge of species and functional composition of the human gut microbiome is rapidly increasin...
peer reviewedThe human gut microbiome represents a complex ecosystem contributing essential function...
Figure S13. Genes only annotated in Proteobacteria or Euryarchaeota, but not Actinobacteria or Firmi...
BackgroundWhile human gut microbiomes vary significantly in taxonomic composition, biological pathwa...
Despite recent progress, the organization and ecological properties of the intestinal microbial ecos...
Microbial species (bacteria and archaea) in the gut are important for human health in various ways. ...
Population genomics of prokaryotes has been studied in depth in only a small number of primarily pat...
The gut microbiota is essentially a multifunctional bioreactor within a human being. The exploration...
The human microbiome, the complex and dynamic ecosystem that populates our body, performs essential ...
The mechanisms by which different microbes colonize the healthy human gut versus other body sites, t...
Numerous microbes inhabit the human intestine, many of which are uncharacterized or uncultivable. Th...
It is well accepted that dysbiosis of microbiota is associated with disease; however, the biological...
Our understanding of how the gut microbiome interacts with its human host has been restrained by lim...
Introduction: The breakthrough of next generation sequencing-technologies has enabled large-scale st...
The microbial communities that live inside the human gastrointestinal tract -the human gut microbiom...
Our knowledge of species and functional composition of the human gut microbiome is rapidly increasin...
peer reviewedThe human gut microbiome represents a complex ecosystem contributing essential function...
Figure S13. Genes only annotated in Proteobacteria or Euryarchaeota, but not Actinobacteria or Firmi...