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Preview: Fishing for obesity-related gut microbiome enterotype
With tripled meat but sharply reduced grain consumptions over the past 30 years in China, it is not unexpected that the diet-gut microbiota interactions are increasingly playing a significant role in contributing to the rising obesity in this country. National programs advocating for precise nutritional interventions targeting both the host and gut microbes are essential.
Cell Host & Microbe
2024
VIEW
Navigating the B vitamins: Dietary diversity, microbial synthesis, and human health
Here, we delve into the impact of these factors on B vitamins and introduce strategies,with a focus on microbiota-based therapeutic options, to enhance their availability for improved well-being.
Cell Host & Microbe
2024
VIEW
Spotlight: Unveiling Strain-Level Dynamics in Probiotic Activity
Divergent gene content among distinct probiotic strains contributes to varied or conflicting clinical efficacies.
Trends in Microbiology
2023
VIEW
Human Gut Microbiome Researches Over the Last Decade: Current Challenges and Future Directions
Eight selected challenges we are facing in human gut microbiome researches.
Phenomics
2023
VIEW
Microbial metabolites in chronic heart failure and its common comorbidities
This study aimed to identify microbial signatures that contribute to the shared etiologies between chronic heart failure (CHF), type 2 diabetes, and chronic kidney disease.
EMBO molecular medicine
2023
VIEW
Microbially produced vitamin B12 contributes to the lipid-lowering effect of silymarin
Improvement of hepatic lipid metabolism by silymarin largely depends on gut microbes and their B12 producing ability.
Nature Communications 14, 477
2023
VIEW
肠道菌与药物和食物相互作用对代谢性疾病防治的启发
Importance of gut microbes to the precise management of various metabolic disorders, the International Human Phenome Project, and personalized medicine.
Progress in Physiological Sciences 53(6)
2022
VIEW
The Gut Microbiota in Prediabetes and Diabetes: A Population-Based Cross-Sectional Study
Wu et al. now use two populations encompassing almost 1,500 subjects to demonstrate that the gut microbiota is altered in prediabetes and diabetes independent of diabetes medication.
Cell Metabolism, 32 (3), 379-390. e3
2020
VIEW
An integrated understanding of the rapid metabolic benefits of a carbohydrate-restricted diet on hepatic steatosis in humans
We show that the diet improves liver fat metabolism, promotes rapid shifts in the gut microbiota, increases circulating folate, and upregulates expression of genes involved in folate-dependent one carbon metabolism in the liver.
Cell Metabolism 27 (3), 559-571. e5
2018
VIEW
Microbially produced imidazole propionate impairs insulin signaling through mTORC1
Ara Koh et al identify imidazole propionate as a microbially produced histidine-derived metabolite that is present at higher concentrations in subjects with versus without type 2 diabetes.
Cell 175 (4), 947-961. e17
2018
VIEW
Metformin alters the gut microbiome of individuals with treatment-naive type 2 diabetes, contributing to the therapeutic effects of the drug
Our findings provide support for the notion that altered gut microbiota mediates some of metformin's antidiabetic effects.
Nature Medicine 23 (7), 850
2017
VIEW
Linking microbiota to human diseases: a systems biology perspective
We discuss how systems biology approaches combined with new experimental technologies may disentangle some of the mechanistic details in the complex interactions of diet, microbiota, and host metabolism.
Trends Endocrinol. Metab. 26 (12), 758-770
2015
VIEW
The quest for a unified view of bacterial land colonization
We hypothesize that bacterial land colonization is dominated by a single-gene sweep, that is, the emergence of dnaE2 derived from an early duplication event of the primordial dnaE。
The ISME journal 8 (7), 1358-1369
2014
VIEW
On the molecular mechanism of GC content variation among eubacterial genomes
Further investigation led to the discovery that two major mutator genes, polC and dnaE2, may be responsible for genomic GC content variation.
Biology direct 7 (1), 2
2012
VIEW
Strand-biased gene distribution in bacteria is related to both horizontal gene transfer and strand-biased nucleotide composition
We propose that strand-biased nucleotide composition plays a decisive role for strand-biased gene distribution.
Genom Proteom Bioinf 10 (4), 186-196
2012
VIEW
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