Project description:To determine whether diet-induced changes in gut microbiota modified intestinal immune cell gene expression, we analyzed the transcriptome of CD4 T lymphocytes isolated from the lamina propria of the small intestine from mice fed with different diets.
Project description:Dietary lipids and gut microbiota may both influence adipose tissue physiology. By feeding conventional and germ-free mice high fat diets with different lipid compositon we aimed to investigate how dietary lipids and the gut microbiota interact to influence inflammation and metabolism in the liver Wild-type C57Bl/6 male mice 11 weeks of age were fed isocaloric diets (45% kcal fat) with either menhaden fish oil (Research Diets, D05122102) or lard (Research Diets, D10011202) for 11 weeks. Liver samples were harvested at the end of the experiment and analyzed by microarray.
Project description:Dietary lipids and gut microbiota may both influence adipose tissue physiology. By feeding conventional and germ-free mice high fat diets with different lipid compositon we aimed to investigate how dietary lipids and the gut microbiota interact to influence inflammation and metabolism in epididymal adipiose tissue (EWAT) Wild-type C57Bl/6 male mice 11 weeks of age were fed isocaloric diets (45% kcal fat) with either menhaden fish oil (Research Diets, D05122102) or lard (Research Diets, D10011202) for 11 weeks. Epididymal WAT samples were harvested at the end of the experiment and analyzed by microarray.
Project description:In this study, mice were colonized from birth on with the minimal microbiota Oligo-MM with or without the addition of Extibacter muris. Extibacter muris is known to metabolize cholic acid to deoxycholic acid via 7α-dehydroxylation. The impact of Extibacter muris colonization on the liver proteome of mice under different diets was investigated using untargeted proteomics.
Project description:Feces samples from pigs with two different diets were analysed. Proteins from the microbiota was extracted and analysed by LC-MS/MS. Differences along the time and between the diets were observed.
Project description:Dietary lipids and gut microbiota may both influence adipose tissue physiology. By feeding conventional and germ-free mice high fat diets with different lipid compositon we aimed to investigate how dietary lipids and the gut microbiota interact to influence inflammation and metabolism in the liver