Project description:To understand the impact of murine rotavirus infection on mouse intestinal epithelial tissue, we isolated total intestinal epithelium from uninfected and infected C57Bl6J mice and performed single-cell RNAseq.
Project description:RNAseq of coding and noncoding RNA isolated from intestinal tuft cells reveals murine rotavirus replication in intestinal tuft cells.
Project description:The intestinal epithelium is our first line of defense against infections of the gut and the plasticity in cellular differentiation of the intestinal epithelium is an important part of this response. Here we sequenced the small intestinal epithelium from mice infected with Nippostrongylus brasiliensis to determine how the intestinal epithelium adapts in the context of an infection. By comparing these data to small intestinal organoids treated with cytokines (see related accessions) we determine that the intestinal epithelial response to N. brasiliensis infection correspond to a type II infection driven by IL-13.
Project description:The intestinal epithelium is our first line of defense against infections of the gut and the plasticity in cellular differentiation of the intestinal epithelium is an important part of this response. Here we sequenced the colon intestinal epithelium from mice infected with Citrobacter rodentium to determine how the intestinal epithelium adapts in the context of an infection. By comparing these data to small intestinal organoids treated with cytokines (see related accessions) we determine that the intestinal epithelial response to C. rodentium infection correspond to a type III infection driven by IL22.
Project description:We report bulk RNAseq of in vitro cultured horizontal basal cells, and in vivo isoalted respiratory basal cells of the murine olfactory epithelium, and compared their profiles with pre-existing bulk RNAseq of in vivo isolated HBCs and single cell RNAseq of in vivo HBCs.