Project description:To confirme the influenece of introduction of T29I mutation in PRSS1 to the gene expression profile of ES cells, we isolated mRNA from wild-type ES cells or mutation-introduced ES cells. This data showed that the introduction of T29I mutation didn't affect the gene expression profile of ES cells.

Project description:Rat ES cells were derived using 3I medium from E4.5 blastocysts. Rat embryonic fibroblast cells were derived form E14.5 embryos. To analyze the mechanism under the selfrenewal of rat ES cells, microarrays were used for the genome wide analysis of gene expressoin profiles in rat ES cells. Rat embryonic fibroblast cells and mouse ES cells were tested at same time as control. Our results from clustering analysis demonstrated that the gene expression profile of rat ES cells resembles mouse ES cells, but not REFs. Keyword: 3I medium; rat embryonic stem cells; mouse ES cells; rat embryonic fibroblast cells

Project description:Genome wide analysis of gene expression of rat ES cells, rat embryonic fibroblast cells and mouse ES cells

Project description:Mouse ES cells had different gene expression level compared with that of the MEF cells. This difference gave the mouse ES cells unique characteristics which could then be compared with other species' ES cells or iPS cells like human ES cells and Rat iPS cells by the homologue genes comparison to show which species' ES cells or iPS cells were more competitive with the other.

Project description:Core circuits of transcription factors stabilize stem and progenitor cells by suppressing genes required for differentiation. We do not know how such core circuits are reorganized during cell fate transitions to allow differentiation and lineage choice to proceed. Here, we asked how the pluripotency circuit, a core transcriptional circuit that maintains mouse embryonic stem (ES) cells in a pluripotent state, is dismantled as ES cells differentiate and choose between the neural ectodermal and mesendodermal progenitor cell fates. When ES cells are recultured from pluripotency maintaining conditions to the basal media N2B27, the expression of the pluripotency circuit genes begins to change. At 48 hours post N2B27 addition, the ES cells are competent to respond to differentiation signals. Here, our microarray analysis compares the gene expression profile of ES cells vs. the gene expression profile of cells that have been treated with N2B27 for 48 hours, reaching the competent state.

Project description:The application of human embryonic stem (ES) cells in medicine and biology has an inherent reliance on understanding the starting cell population. Human ES cells differ from mouse ES cells and the specific embryonic origin of both cell types is unclear. Previous work suggested that mouse ES cells could only be obtained from the embryo before implantation in the uterus1–5. Here we show that cell lines can be derived from the epiblast, a tissue of the postimplantation embryo that generates the embryo proper. These cells, which we refer to as EpiSCs (post-implantation epiblastderived ES cells), express transcription factors known to regulate pluripotency, maintain their genomic integrity, and robustly differentiate into the major somatic cell types as well as primordial germ cells. The EpiSC lines are distinct from mouse ES cells in their epigenetic state and the signals controlling their differentiation. Furthermore, EpiSC and human ES cells share patterns of gene expression and signalling responses that normally function in the epiblast. These results show that epiblast cells can be maintained as stable cell lines and interrogated to understand how pluripotent cells generate distinct fates during early development. *Note: EpiSCs were previously referred to as post-ES cells Keywords: cell type comparison

Project description:Data present the expression analysis of different mouse ES cell line with altered expression of GTF2I.

Project description:PRC1.6 ChIPseq - mouse ES

Project description:Gene expression study in SF3B1-mutated, NOTCH1-mutated and WT CLL cells

Project description:Mouse ES Cells: Wild type vs. Zscan5b knockout