Project description:ChIP-seq for H3K27me3 and Ring1B was performed in WT mESCs and mESCs containing catalytically inactive Ring1B (I53A mutant). Cells expressing catalytically inactive Ring1B maintain the spatial distribution of Ring1B and H3K27me3 but at reduced levels. These findings support the notion that PRC2 recruitment is, in part, dependent on H2A ubiquitination (H2AK119ub).

Project description:ChIP-seq for H3K27me3 and Ring1B was performed in WT mESCs and mESCs containing catalytically inactive Ring1B (I53A mutant). Cells expressing catalytically inactive Ring1B maintain the spatial distribution of Ring1B and H3K27me3 but at reduced levels. These findings support the notion that PRC2 recruitment is, in part, dependent on H2A ubiquitination (H2AK119ub). Two biological replicates were performed for Ring1B and H3K27me3 ChIPs in WT and Ring1B I53A/I53A mouse ESCs. Input chromatin was sequenced for each replicate as a control for ChIP enrichment.

Project description:This experiment was designed to determine the extent of gene misregulation in mESCs containing catalytically dead Ring1B in comparison to mESCs lacking Ring1B. Polyadenylated mRNA was prepared from wildtype mESCs (WT), mESCs deficient for Ring1B (KO) and mESCs cells containing catalytically dead Ring1B (I53A). Each sample is represented by 3 biological replicate hybridisations.

Project description:Mouse ES cells expressing catalytically inactive Ring1B display impaired Ring1B and H3K27me3 deposition.

Project description:This experiment was designed to determine the extent of gene misregulation in mESCs containing catalytically dead Ring1B in comparison to mESCs lacking Ring1B.

Project description: Not available

Project description:In vitro differentiation of Nsd1-/- erythroblasts with retroviral expression of wildtype Nsd1, or a catalytically-inactive Nsd1N1918Q SET-domain

Project description:In vitro differentiation of Nsd1-/- erythroblasts with retroviral expression of wildtype Nsd1, or a catalytically-inactive Nsd1N1918Q SET-domain

Project description:Transcriptome profile of oocytes expressing a catalytically inactive knock-in allele of Ago2

Project description: Not available