Bacteroides ⇒ Bacteroides xylanisolvens {10000128}

Shared Reference Notes

• [1.1] [#β-blocker] 
  - A total of 46 associations were identified between microbial composition and single medications, exemplified by the depletion of #Akkermansia muciniphila by β-blockers and #Statins, and the enrichment of #Escherichia/#Shigella and depletion of Bacteroides xylanisolvens by #Metformin.
• [1.2] [#High fibre diet] 
  - F_NL had more fiber-degrading microorganisms like #Bacteroides thetaiotaomicron, Bacteroides xylanisolvens, #Roseburia sp., #Coprococcus eutactus and #Parabacteroides along with the highest number of genes encoding carbohydrate-active enzymes and gene richness.
• [1.3] 
  - In #Gout, #Bacteroides caccae and Bacteroides xylanisolvens are enriched. - #Faecalibacterium prausnitzii and #Bifidobacterium pseudocatenulatum depleted. - The established reference microbial gene catalogue for #Gout revealed disorder in purine degradation and #Butyric acid biosynthesis in #Gout patients. - Intestinal microbiota of #Gout are more similar to those of type-2 diabetes than to liver cirrhosis, whereas depletion of #Faecalibacterium prausnitzii and reduced butyrate biosynthesis are shared in each of the metabolic syndromes. - #Bacteroides caccae is one biomarker of IBD. OmpW protein produced by B. caccae is a target of the IBD-associated immune response, thus the enriched intestinal B. caccae in #Gout patients could potentially induce serious inflammatory response. - #Faecalibacterium prausnitzii has anti-inflammatory properties and contribute to gut health through butyrate production. for #Gout patients, potentially explaining the decline in #Butyric acid biosynthesis in #Gout patients.

References Notes