Project description:Bromodomain member BRD4 is required for hematopoietic stem cell functions (RNA-Seq)

Project description:Bromodomain member BRD4 is required for hematopoietic stem cell functions (CUT&RUN)

Project description:Bromodomain member BRD4 is required for hematopoietic stem cell functions (scRNA-Seq)

Project description:Bromodomain member BRD4 is required for hematopoietic stem cell functions (ATAC-Seq)

Project description:To investigate the role of BRD4 in normal hematopoiesis, Brd4 conditional KO mouse model was generated. We purified the Lin-cKit+ cells from bone marrow of WT and Brd4 KO mice and performed the CUT&RUN to study the histone modification and Brd4 occupancy around genome in HSC/HPCs population.

Project description:To investigate the role of BRD4 in normal hematopoiesis, Brd4 conditional KO mouse model was generated. We purified the Lin-cKit+ cells from bone marrow of WT and Brd4 KO mice and performed the RNA-seq to study the molecular changes in each cell population.

Project description:To investigate the role of BRD4 in normal hematopoiesis, Brd4 conditional KO mouse model was generated. We purified the Lin-cKit+ cells from bone marrow of WT and Brd4 KO mice and performed the ATACseq to study the chromatin accessibility in each cell population.

Project description:To investigate the role of BRD4 in normal hematopoiesis, Brd4 conditional KO mouse model was generated. We purified the cKit+ and LSK cells from bone marrow of WT and Brd4 KO mice and performed the single cell RNA-seq to study the molecular changes in each cell population.

Project description:This SuperSeries is composed of the SubSeries listed below.

Project description:During heat stress cyto-protective genes including heat shock proteins are transcriptionally up-regulated and post-transcriptional splicing is inhibited. In contrast, co-transcriptional mRNA-splicing is maintained. These factors closely resemble the proteotoxic stress response during tumor development. The bromodomain protein BRD4 has been identified as an integral member of the oxidative stress as well as of the inflammatory response. Furthermore, there is evidence for BRD4's role in splicing regulation; Using RNA-Seq analyses we indeed found a significant increase in splicing inhibition, in particular intron retentions, during heat treatment in BRD4-deficient cells, but not under normal conditions. Subsequent experiments revealed that heat stress leads to the recruitment of BRD4 to nuclear stress bodies, to the interaction with the heat shock factor 1 (HSF1) and to the transcriptional up-regulation of non-coding Sat III RNA transcripts. These findings implicate BRD4 as a central regulator of splicing during heat stress. Since BRD4 is a potent target for anti-cancer therapies, our data linking BRD4 to the splicing machinery and the heat stress response - give additional insight into the mode of action of BRD4 inhibitors. WI38 cells have been treated by heatshock and anti BRD4 siRNA and combination.