Project description:Screening for genes regulated by Etv2 within Flk-1+/PDGFRa+ ES derived mesoderm.Microarray analysis performed to screen for the candidate genes regulated by Etv2. TT2 ES cells differentiated on OP9 feeder cells were sorted using Flk-1 and PDGFRa antibodies.Gene expressions from these two populations were compared. Extract RNA from sorted Flk-1+/PDGFRa+ populations from Etv2Het vs KO cells. To obtain primitive mesoderm cells TT2 ES cells of corresponding genotypes were differentiated on OP9 cells for 4 days. Flk-1+/PDGFRa+ populations were sorted from Etv2 Het vs. KO cells for RNA extraction.

Project description:Screening for genes regulated by Etv2 within Flk-1+/PDGFRa+ ES derived mesoderm.Microarray analysis performed to screen for the candidate genes regulated by Etv2. TT2 ES cells differentiated on OP9 feeder cells were sorted using Flk-1 and PDGFRa antibodies.Gene expressions from these two populations were compared.

Project description:Screening for genes up in Etv2+ cells within Flk-1+ ES derived mesoderm Microarray analysis performed to screen for the candidate genes regulated by Etv2. Differentiated Flk-1+ mesoderm can be devided into Etv2+ or-. Etv2+ cells are assumed to be committed to hemato/endothelial cells. Comparison of two populations can reveal genes relevant in this commitment. Extract RNA from sorted Flk-1+/Etv2- vs Flk-1+/Etv2+ populations.Etv2-Venus KI ES cells were differentiated on OP9 for 4-5 days and Flk-1+ population was separated into Etv2-Venus+ or- cells. Total RNA was purified from each population for analysis.

Project description:Comparison of Flk-1+/Etv2- vs Flk-1+/Etv2+ populations

Project description:Comparison of ES vs EB cells

Project description:Previous studies have demonstrated that distinct progenitor subpopulations of mesoderm display tissue specific and vascular potential: hemangioblasts, a progenitor population capable of generating cells of the hematopoietic, endothelial and vascular smooth muscle lineages, and a multipotential progenitor capable of generating progeny of the cardiac, endothelial and vascular smooth muscle lineages. Each of these populations is characterized by co-expression of brachyury (Bry) and Flk-1, although the hemangioblast population is established before the cardiovascular progenitors in ES cell differentiation cultures (e.g. d3.5 for hemagioblast, versus d4.5 for cardiovascular progenitors). To investigate the role of Notch signalling in the establishment of cardiac lineages, we used a tet-inducible ES cell line (Ainv18) engineered to express an activated form of the Notch4 receptor following doxycycline treatment. This line also expresses a GFP cDNA from the Bry locus. Following 3.0-3.5 days of serum stimulation, three distinct populations based on Flk-1 and GFP expression are observed: Bry-GFP-/Flk-1-, Bry-GFP+/Flk-1- and Bry-GFP+/Flk-1+ cells. Previous studies have shown that the Bry-GFP+/Flk-1+ population contains hemangioblasts, whereas the Bry-GFP+/Flk-1- population displays cardiac potential.

Project description:We found that mouse ES cell-derived Flk1+ cells could be subdivided into three population by the expression of PDGFRa and CAR (Flk1+PDGFRa-CAR-, Flk1+PDGFRa-CAR+, and Flk1+PDGFRa+CAR+). Therefore, global gene expression analysis was perfomed by microarray to characterize these mesodermal subsets. RNA isolated from five separate experiments was pooled and used for comparison

Project description:Mouse ES cells vs. iPS cells

Project description:Previous studies have demonstrated that distinct progenitor subpopulations of mesoderm display tissue specific and vascular potential: hemangioblasts, a progenitor population capable of generating cells of the hematopoietic, endothelial and vascular smooth muscle lineages, and a multipotential progenitor capable of generating progeny of the cardiac, endothelial and vascular smooth muscle lineages. Each of these populations is characterized by co-expression of brachyury (Bry) and Flk-1, although the hemangioblast population is established before the cardiovascular progenitors in ES cell differentiation cultures (e.g. d3.5 for hemagioblast, versus d4.5 for cardiovascular progenitors). To investigate the role of Notch signalling in the establishment of cardiac lineages, we used a tet-inducible ES cell line (Ainv18) engineered to express an activated form of the Notch4 receptor following doxycycline treatment. This line also expresses a GFP cDNA from the Bry locus. Following 3.0-3.5 days of serum stimulation, three distinct populations based on Flk-1 and GFP expression are observed: Bry-GFP-/Flk-1-, Bry-GFP+/Flk-1- and Bry-GFP+/Flk-1+ cells. Previous studies have shown that the Bry-GFP+/Flk-1+ population contains hemangioblasts, whereas the Bry-GFP+/Flk-1- population displays cardiac potential. Bry-GFP+/Flk-1+ cells, sorted from EB's derived from ES cell differentiation cultures exposed to serum for 3.5 days, were allowed to reaggregate for 24 in the presence or absence of doxycycline, and the total RNA harvested at 4, 12, 24, 48, and 96 hours post Dox induction for microarray analysis. The induced populations were compared to non-induced population harvested at the same time points.

Project description:Screening for genes up in Etv2+ cells within Flk-1+ ES derived mesoderm Microarray analysis performed to screen for the candidate genes regulated by Etv2. Differentiated Flk-1+ mesoderm can be devided into Etv2+ or-. Etv2+ cells are assumed to be committed to hemato/endothelial cells. Comparison of two populations can reveal genes relevant in this commitment.