Add to ORKGThe microbiota, and the genes that comprise its microbiome, play key roles in human health. Host-microbe interactions affect immunity, metabolism, development, and behavior, and dysbiosis of gut bacteria contributes to disease. Despite advances in correlating changes in the microbiota with various conditions, specific mechanisms of host-microbiota signaling remain largely elusive. We discuss the synthesis of microbial metabolites, their absorption, and potential physiological effects on the host. We propose that the effects of specialized metabolites may explain present knowledge gaps in linking the gut microbiota to biological host mechanisms during initial colonization, and in health and disease
Recent metagenomic studies have highlighted significant associations between dysregulation of the in...
The bacteria that colonize the gastrointestinal tracts of mammals represent a highly selected microb...
The human gut microbiota is a complex consortium of trillions of microorganisms, whose collective ge...
The microbiota, and the genes that comprise its microbiome, play key roles in human health. Host-mic...
The microbiota, and the genes that comprise its microbiome, play key roles in human health. Host-mic...
Trillions of microorganisms, termed the “microbiota”, reside in the mammalian gastrointestinal tract...
Evidence from the literature keeps highlighting the impact of mutualistic bacterial communities of t...
The essential role of gut microbiota in health and disease is well recognized, but the biochemical d...
The unexpected diversity of the human microbiome and metabolome far exceeds the complexity of the hu...
Intestinal metabolites participate in various physiological processes, including energy metabolism, ...
Observational findings achieved during the past two decades suggest that the intestinal microbiota m...
The human microbiome has been associated with health status, and risk of disease development. While ...
Modulation of host signaling by the products of microbial activity in the gut may affect weight gain...
The human gut microbiome expands the host’s metabolic functionality approximately 10-fold and subseq...
A broader understanding of factors underlying interindividual variation in pharmacotherapy is import...
Recent metagenomic studies have highlighted significant associations between dysregulation of the in...
The bacteria that colonize the gastrointestinal tracts of mammals represent a highly selected microb...
The human gut microbiota is a complex consortium of trillions of microorganisms, whose collective ge...
The microbiota, and the genes that comprise its microbiome, play key roles in human health. Host-mic...
The microbiota, and the genes that comprise its microbiome, play key roles in human health. Host-mic...
Trillions of microorganisms, termed the “microbiota”, reside in the mammalian gastrointestinal tract...
Evidence from the literature keeps highlighting the impact of mutualistic bacterial communities of t...
The essential role of gut microbiota in health and disease is well recognized, but the biochemical d...
The unexpected diversity of the human microbiome and metabolome far exceeds the complexity of the hu...
Intestinal metabolites participate in various physiological processes, including energy metabolism, ...
Observational findings achieved during the past two decades suggest that the intestinal microbiota m...
The human microbiome has been associated with health status, and risk of disease development. While ...
Modulation of host signaling by the products of microbial activity in the gut may affect weight gain...
The human gut microbiome expands the host’s metabolic functionality approximately 10-fold and subseq...
A broader understanding of factors underlying interindividual variation in pharmacotherapy is import...
Recent metagenomic studies have highlighted significant associations between dysregulation of the in...
The bacteria that colonize the gastrointestinal tracts of mammals represent a highly selected microb...
The human gut microbiota is a complex consortium of trillions of microorganisms, whose collective ge...