Project description:To study the effects of a high fat diet on the mouse lung transcriptional profile. 6 samples were analyzed. 3 wild type mice on a control diet (lung samples) vs. 3 wild type mice on a high fat diet (lung samples).
Project description:Investigating the transcriptional changes in mouse livers exposed to low and high fat diets for 11 weeks. Determine what gene changes in the Cyp1b1 null livers may be contributing to prevention of increased adiposity when givin a high fat diet. Three Comparison experiment. Comparing wild-type low fat vs Cyp1b1 null low fat, wild-type high fat vs Cyp1b1 null high fat and low fat vs high in wild-type mice. Sample size is 3 per group. Limma analysis data provided in Series supplementary file (Normalized log2 ratio of (Cy3/Cy5) representing test group/control group).
Project description:In this study, we investigated the effect of high-fat diet on prostate cancer progression. We specifically analyzed the metabolome, transcriptome, and tumor microenvironment of MYC transgenic and wild-type mice subjected to high-fat diet (enriched in saturated fat) and control diet for 21 weeks.
Project description:The impact of high fat diet on secreted milk small RNA transcriptome was studied by isolating total RNA from milk fat fraction collected on lactation day 10 from control diet fed (C; n=5; 10% fat; 7% sucrose; Research Diets #D12450J, Brunswick, NJ) and high fat diet fed (HF; n=4; Research Diets #D12492, 60% of total kcal energy is fat and match 7% of total kcal is sucrose; Brunswick, NJ) mice.
Project description:The impact of high fat diet on secreted milk small RNA transcriptome was studied by isolating total RNA from milk fat fraction collected on lactation day 10 from control diet fed (C; n=5; 10% fat; 7% sucrose; Research Diets #D12450J, Brunswick, NJ) and high fat diet fed (HF; n=4; Research Diets #D12492, 60% of total kcal energy is fat and match 7% of total kcal is sucrose; Brunswick, NJ) mice.
Project description:The aim of this study was to assess whether chronic treatment with RPV can modulate the progression of chronic liver disease, especially of non-alcoholic fatty liver disease (NAFLD), through a nutritional model in wild-type mice Mice were daily treated with RPV (p.o.) and fed with normal or high fat diet during 3 months to induce fatty liver disease
