Project description:Purpose: Characterize the role of the coactivator subunit TAF9b during differentiation of embryonic stem cells into motor neurons as well in mouse newborn spinal column tissues. RNA-seq comparing WT and TAF9B KO mouse ES cells differentiated into motor neurons. RNA-seq comparing WT and TAF9B KO mouse newborn spinal column tissues. ChIP-seq mapping TAF9b and RNA Pol II binding sites in in vitro differentiated motor neurons.
Project description:RNA-seq of WT, Tet2-het and Tet2-KO mTSCs in stem-state, RNA-seq of WT and Tet2-KO mTSCs in vitro differentiation, (h)MeDIP of WT and Tet2-KO mTSCs in stem-state
Project description:RNA-seq of WT, Tet2-het and Tet2-KO mTSCs in stem-state, RNA-seq of WT and Tet2-KO mTSCs in vitro differentiation, (h)MeDIP of WT and Tet2-KO mTSCs in stem-state
Project description:We reported loss of ARID1A promoted neurogenesis and inhibited cardiogenesis. Under microscopy, we observed that spontaneously differentiated cells were induced in ARID1A KO H9 hESCs cultured in mTesR medium. We did not know what cells types were. Here ATAC-seq were used to investigate chromatin accessibilities change in differentiated (day 4) WT H9 hESCs and ARID1A KO hESC cells.
Project description:CD4 T cells were isolated from Wt and PTPMT1 DT mice. Cells were activated in vitro and differentiated into regulatory T cells for 4 days. At this time point WT and KO cells were harvested and analysed by proteomics.
