Project description:We report high throughput profiling and co-occupancy of Trim33, Ctcf and H3K27ac in differentiating embryoid bodies derived from mouse embryonic stem cells. An average of ~37 million reads were generated for each of the described samples and input sample generating 4,426, 52,446, 30,047 peaks respectively for Trim33, CTCF and H3K27ac. Motif enrichment analyses for Trim33 ChiP-Seq data returned CTCF and BORIS (CTCF analog) motifs as best matches. Of the merged peaks, 723 were shared by Trim33, CTCF as well as H3K27ac. In addition, 1299 peaks were shared by Trim33 and CTCF, 1131 were shared by Trim33 and H3K27ac and 3321 were shared by CTCF and H3K27ac.
Project description:Mst1/Mst2 are central components of Hippo pathway. We examined the role of Mst1/Mst2 in ES cell differentiation. In this data set, we include expression data from day 4 and day 8 Mst1/Mst2 knockout ES cell formed embryoid bodies and wild type embryoid body controls.
Project description:Mst1/Mst2 are central components of Hippo pathway. We examined the role of Mst1/Mst2 in ES cell differentiation. In this data set, we include expression data from day 4 and day 8 Mst1/Mst2 knockout ES cell formed embryoid bodies and wild type embryoid body controls. total 4 samples.
Project description:TRIM33 is a chromatin reader required for mesendoderm differentiation upon activation of Nodal signaling. But, its role in mESCs is still elusive. Here, we found that TRIM33 co-localizes with promyelocytic leukemia nuclear bodies (PML NBs) specifically in mESCs to mediate Nodal signaling-directed transcription of Lefty1/2. We showed that TRIM33 puncta formation in mESCs depends on PML and specific assembly of PML NBs. Moreover, TRIM33 and PML co-regulate Lefty1/2 expression in mESCs. In addition, both PML and mESCs-specific PML NBs are required for TRIM33 recruitment at Lefty1/2 loci. Remarkably, PML NBs directly associate with the Lefty1/2 loci in mESCs. Finally, a TurboID proximity labeling experiment confirmed that TRIM33 is highly enriched in the mESCs-specific PML NBs. Thus, our study provides the mechanistic insight about TRIM33 condensate in regulating Nodal signaling-directed transcription in mESCs, it also reveals that PML NBs recruit distinct sets of client proteins in cell context dependent manner.
Project description:Analysis of embryonic sten cell-derived embryoid bodies following endoglin knock out. Loss of endoglin leads to profound reduction of key hematopoietic regulators including SCL, LMO2, Gata2, and TGF-β signaling molecule ALK-1. Results provide insight into molecular mechanisms underlying hemangioblast and primitive hematopoietic development.
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:The epigenome of a cell is established and maintained by chromatin modifiers and remodelers, which are recruited to the chromatin by specific transcription factors. In this report, we show that nodal cross-talks with the epigenome through TRIM33-H3K18ac to mediate mesendodermal genes expression. The chromatin accessibility at mesendodermal genes depends on TRIM33. Moreover, histone acetylation is essential for TRIM33 recruitment to many nodal target genes involved in mesendodermal differentiation. The distribution pattern of the H3K18ac mark changes from foci to expanded domains at the mesendodermal genes promoter during embryonic stem cells (ESCs) differentiation to embryoid bodies (EBs). This could be the cue to facilitate TRIM33 colocalized with Smad2/3 at chromatin in EBs but not in ESCs. TRIM33 interacts with the H3K18ac “writer” p300 dependent on nodal signaling, providing a positive feedback to promote activation of mesendodermal genes and association with HDAC1 plays a negative role in activation of mesendodermal genes.