Genetics and Diet Shape Gut Bacteria-Bile Acid Communication Networks
Large mouse study reveals how genes and high-fat diet alter the crosstalk between gut microbes and bile acids, identifying new therapeutic targets.
Gut microbiome, probiotics, gut-brain axis, and digestive health
324 articles
Large mouse study reveals how genes and high-fat diet alter the crosstalk between gut microbes and bile acids, identifying new therapeutic targets.
Comprehensive review reveals how gut bacteria modify human gene expression through epigenetic mechanisms, opening new therapeutic avenues.
Research reveals strong connections between anxiety, small intestinal bacterial overgrowth, and severity of recurrent aphthous ulcers.
New research reveals how gut microbes produce indole compounds that directly influence emotional symptoms via hippocampal receptors.
Recent podcasts explore how gut bacteria influence sleep, hormones, metabolism, and lifespan extension through emerging therapeutic approaches.

Discover the hidden gut microbiome imbalances that could be driving inflammation, brain fog, and metabolic dysfunction.
New research shows this beneficial gut microbe blocks obesity and improves metabolism through nicotinamide riboside production.
New research reveals how gut microbiota-derived succinate exacerbates allergic airway inflammation by altering lung proteins.
Review reveals how gut microbiome disruption connects neuropsychiatric disorders with skin diseases like eczema and psoriasis.
Longitudinal study reveals how gut microbiome maturation influences cognitive development and temperament traits in early childhood.
Germ-free autism model mice show improved social behavior and reduced repetitive actions, revealing gut-brain-immune connections.
New review reveals how gut microbiota disruption triggers neurological diseases through inflammation and neurotransmitter changes.