20 articles
Scientists develop scBPS tool to identify which human cells interact with specific gut microbes, revealing new therapeutic targets.
A massive deep-sea genomic survey uncovers extraordinary genetic diversity and protein structures with real-world biotechnology applications.
TaxVAMB uses deep learning to dramatically improve how scientists reconstruct individual microbial genomes from complex gut microbiome samples.
New perspective reveals why gut microbiome discoveries struggle to translate into effective clinical treatments
New genome analysis reveals how different gut microbes metabolize dietary compounds, paving the way for personalized nutrition.
New research shows how carbon-rich environments promote beneficial microbial cooperation, offering insights into ecosystem health.
A new microbial gene atlas of infant nasopharyngeal swabs maps how cystic fibrosis and clinical interventions alter early respiratory microbiomes.
Stanford researchers develop standardized method to measure absolute bacterial abundance in stool samples, addressing key limitation in microbiome studies.
Advanced sequencing shows antibiotics affect gut microbiome resistance differently, with amoxicillin causing most gene expression changes.
Researchers discover unique RNA structures in bacteria that could inspire new approaches to cellular optimization and aging.
Comprehensive molecular analysis reveals complex host-microbiome interactions driving gastric cancer development and progression.
Comprehensive analysis of all tooth sites shows saliva captures broad microbial diversity while plaque better identifies specific periodontal pathogens.
Comprehensive review reveals how gut bacteria modify human gene expression through epigenetic mechanisms, opening new therapeutic avenues.
A global metagenomic study reveals that marine microbial diversity follows latitude โ but only at the surface, not in deeper waters.
A modular bioelectronic sensing system uses engineered bacterial co-cultures to detect metals, molecules, and peptides across diverse real-world environments.
Researchers develop 22-color flow cytometry to profile unconventional T cells that protect gut health and maintain immune balance.
Groundbreaking study identifies which gut metabolites come from microbes versus food using antibiotic depletion in humans.
New research shows how gut bacteria patterns can guide personalized diet strategies, potentially improving metabolic syndrome outcomes.
Bacterial metabolite from flavonoids protects against graft-versus-host disease while preserving anti-cancer effects in stem cell transplants.
Dr. Tim Spector shares breakthrough findings from the largest microbiome study and why most probiotics are scientifically obsolete.
