Project description:Gene expression profile in control and Cbx7 depleted (shRNA#33) mouse embryonic stem cells and embryoid bodies at day 9

Project description:time-course experiment with embryoid bodies of CGR8 mouse embryonic stem cells ; in the whole time-series RNA from 0 days old embryoid bodies were hybridized against RNA from 3 days and 10 days old embryoid bodies Keywords = embryoid bodies Keywords = mouse Keywords = time-course Keywords = oligonucleotide array Keywords: time-course

Project description:Gene expression profile in control and Cbx7 depleted (shRNA#33) mouse embryonic stem cells and embryoid bodies at day 9 4 samples, each one contains four biological replicas, except for ES-shCtr which contains 3 replicas

Project description:Tet enzymes (Tet1/2/3) convert 5-methylcytosine (5mC) to 5-hydroxy-methylcytosine (5hmC) and are dynamically expressed in various embryonic and adult cell types. While loss of individual Tet enzymes or combined deficiency of Tet1/2 allows for embryogenesis, the effect of complete loss of Tet activity and 5hmC marks in development is not established. We have generated Tet1/2/3 triple knockout (TKO) mouse embryonic stem cells (ESCs) and examined their developmental potential. Combined deficiency of all three Tets depleted 5hmC and impaired ESC differentiation as seen in poorly differentiated TKO embryoid bodies (EBs) and teratomas. Consistent with impaired differentiation, TKO-ESCs contributed poorly to chimeric embryos and could not support embryonic development. Global gene expression and methylome analyses of TKO-EBs revealed promoter hypermethylation and deregulation of genes implicated in embryonic development and differentiation. These findings suggest a requirement for Tet- and 5hmC-mediated DNA demethylation in proper regulation of gene expression during differentiation of ESCs and development. To quantify global gene expression in differentiating embryoid bodies (EBs) derived from wild type (WT) and Tet triple knockout (TKO), TKO and WT mouse embryonic stem cells (ESCs) were differentiated in vitro to EBs and cultured for 10 days. RNA was extracted using Qiagen RNeasy kit and subjected to microarray analysis. Global gene expression profile of two technical replicas of WT embryoid bodies (2 samples in total) was compared to two technical replicas of two independent TKO embryoid bodies (4 TKO samples in total).

Project description:ChIP-seq based determination of Rad21 binding sites in embryonic stem cells (ESC) and ESC derived Embryoid Bodies (EB) identified

Project description:Comparison of gene expression profiles of J1 embryonic stem cells and J1 embryoid bodies. This study should reveal genes that, when expressed, are responsible for the maintenance of the stem cell phenotype. Keywords: other

Project description:Here we determine the map of RNA methylation (m6A) in mouse embryonic stem cells, and embryoid bodies.

Project description:ChIP-seq based determination of Rad21 binding sites in embryonic stem cells (ESC) and ESC derived Embryoid Bodies (EB) identified Examination of Rad21 binding sites in 2 cell types

Project description:Geminin is a small nucleoprotein that neuralizes ectoderm in the Xenopus embryo. Geminin promotes neural fate acquisition of mouse embryonic stem cells: Geminin knockdown during neural fate acquisition decreased expression of neural precursor cell markers (Pax6, Sox1), while increasing expression of Pitx2, Lefty1 and Cited2, genes involved in formation of the mouse node. Here we differentiated mouse embryonic stem cells into embryoid bodies to study Geminin's ability to repress primitive streak mesendoderm fate acquisition. We used microarrays to define the sets of genes that are regulated by Geminin during cell fate acquisition in embryoid bodies, using Dox-inducible Geminin knockdown or overexpression mouse embryonic stem cell lines.

Project description:We differentiated mouse embryonic stem (mES) cells spontaneously into embryoid bodies (EBs). Gene expression of biological replicates of undifferentiated ES cells (0-day), 4-day, 8-day and 14-day EBs were measured by Affymetrix microarrays. Keywords: time course