Project description:To examine whether LRF protein could bind cis-regulatory elements in the genes that LRF regulates. We performed Chromatin immunoprecipitation followed by deep-sequencing (ChIPseq) on activated T cells using an in vivo biotinylation and streptavidin pull-down approach.

Project description:Thpok genome-wide occupancy in CD4+ T cells

Project description:Genome-wide occupancy of the transcription factor Thpok in activated CD4+ T cells

Project description:Genome-wide mapping of Lef1 occupancy in conventional CD4+ T cells

Project description:Hemoglobinopathies, including sickle cell disease and _-thalassemia, are global public health concerns. Induction of fetal-type hemoglobin (HbF) is a promising means to treat these disorders; however, precisely how HbF expression is silenced in adult erythroid cells is not fully understood. Here, we show that the LRF/ZBTB7A transcription factor is a potent repressor of HbF production. LRF inactivation derepresses embryonic/fetal _-globin expression in mouse and human adult erythroid cells. We employed genome-wide analysis of the transcriptome, chromatin accessibility and LRF occupancy sites, and demonstrate that LRF occupies the _-globin loci and maintains nucleosome density necessary for _-globin silencing. LRF confers its repressive activity through a unique NuRD repressor complex independent of BCL11A. Strikingly, human erythroid lines lacking both LRF and BCL11A exhibited almost a complete switch in expression from adult- to fetal-type globin, suggesting that these two factors cumulatively represent the near entirety of _-globin repressive activity in adult erythroid cells. RNA-seq, LRF ChIP-seq and ATAC-seq assays were used to investigtae LRF binding, effect of LRF depletion on transcription and chromatin landscape in mouse and human cells.

Project description:Genome-wide mapping of Tcf1 occupancy in conventional and regulatory CD4+ T cells

Project description:To examine how the cluster composition of IELp and their transcriptomic signatures were affected by LRF disruption, single-cell gene expression of IELp from control (Cd4 Cre–Lrffl/fl) and LRF KO(Cd4 Cre+Lrffl/fl )mice were determined by scRNAseq

Project description:Hemoglobinopathies, including sickle cell disease and _-thalassemia, are global public health concerns. Induction of fetal-type hemoglobin (HbF) is a promising means to treat these disorders; however, precisely how HbF expression is silenced in adult erythroid cells is not fully understood. Here, we show that the LRF/ZBTB7A transcription factor is a potent repressor of HbF production. LRF inactivation derepresses embryonic/fetal _-globin expression in mouse and human adult erythroid cells. We employed genome-wide analysis of the transcriptome, chromatin accessibility and LRF occupancy sites, and demonstrate that LRF occupies the _-globin loci and maintains nucleosome density necessary for _-globin silencing. LRF confers its repressive activity through a unique NuRD repressor complex independent of BCL11A. Strikingly, human erythroid lines lacking both LRF and BCL11A exhibited almost a complete switch in expression from adult- to fetal-type globin, suggesting that these two factors cumulatively represent the near entirety of _-globin repressive activity in adult erythroid cells.

Project description:To examine how the cluster composition of CD8aa IEL and their transcriptomic signatures were affected by LRF disruption, single-cell gene expression of CD8aa IEL from control (Cd4 Cre–Lrffl/fl) and CD8aa splenocytes from LRF KO (Cd4 Cre+Lrffl/fl ) mice were determined by scRNAseq.

Project description:Determine genome-wide binding locations by Lef1 in conventional CD4+ T cells