Project description:To investigate the effect of polar microbial metabolites on intestinal gene expression, we exposed Caco-2 cell to faecal water from control mice or the same mice under antibiotherapy (for 7-10 days).
Project description:To further decipher the alteration of gene expression profile of irradiated mice with or without faecal microbiota transplantation (FMT), we performed FMT for 10 days following total body irradiaton (6.5 Gy gamma ray). Twenty-one days after irradiation, the mice were euthanized and the small intestine tissues excised.
Project description:Previous experiments have shown that hexuronates regulate EHEC virulence, here we look at glucuronic acid effect on citrobacter rodentium
Project description:To further understand immune mechanims involved in regulating intestinal inflammation, we employed whole genome microarray expression profiling as a discovery platform to identify genes with the potential of regulating inflammation in the absence of IL-10. Whole colon tissue from IL-10-deficient and C57BL/6 (wild-type) mice was collected 2 weeks after Citrobacter rodentium infection and from uninfected controls. Consistent with the histological and cellular analysis, expression levels of many chemokines and cytokines involved in recruiting leukocytes and promoting inflammation were, on average, lower in IL-10 deficient compared to wild-type mice after infection. An exception to this general trend was IL-27, a cytokine with both pro- and anti-inflammatory properties. Two weeks after Citrobacter rodentium challenge, total RNA was extracted and analyzed from whole colon tissue of infected IL-10-deficient and wild-type mice, and compared to uninfected controls. Each sample contained equal amounts of total RNA from 4-5 female mice which were pooled and used in the experiment.
Project description:RNAseq and LC/MS metabolomics analysis of C. difficile strain 630 grown in BHIS media with 50% (vol/vol) faecal water added, compared with control BHIS containing only the additional PBS used for prep of Faecal water. Cells grown in biological triplicates to late log phase (T=6h) prior to harvest. Goal was to determine changes in gene expression caused by exposure to Faecal water, and changes in the metabolite profile of faecal water containing medium when incubated with actively growing C. difficile cells