Project description:Using RNA-seq technology, we quantitatively determined the expression profile of microRNAs during mouse terminal erythroid differentiation. CFU-E erythroid progenitors were isolated from E14.5 fetal liver as the Ter119, B220, Mac-1, CD3 and Gr-1 negative, C-Kit positive and 20% high CD71 population. Mature Ter119+ erythroblasts were isolated from E14.5 fetal liver as C-Kit negative and Ter119 positive population. Consistent with nuclear condensation and global gene expression shut down during terminal erythroid differentiation, we found that the majority of microRNAs are downregulated in more mature Ter119+ erythroblasts compared with CFU-E erythroid progenitors. Examination of microRNA expression profiles in 2 cell types

Project description:Transcription cofactor Rcor1 has been linked biochemically both to neurogenesis and hematopoiesis. Here we studied the function of Rcor1 in vivo and showed it is essential to erythropoeisis during embryonic development. Rcor1 mutant proerythroblasts, unlike normal cells, can form myeloid colonies in vitro. To investigate the underlying molecular mechanisms for block of erythropoiesis and increased myeloid potential, we used RNA-seq to reveal the differentially expressed genes from erythroid progenitors due to depletion of Rcor1. RNA were extracted from FACS sorted CD71+,TER119- erythroid progenitors from control (Rcor1+/+ and Rcor1+/-) or Mutant (Rcor1-/- ) E13.5 fetal liver. Each library was made by pooling RNA from several fetal livers. Two biological replicates were made for either control or mutant condition.

Project description:We generated genome-wide chromatin state and RNA Polymerase II binding maps in mouse erythroid cells by ChIP-Seq. Examination of 4 different histone modifications (H3K4me3, H3K4me1, H3K27me3, H3K27ac) and RNA Polymerase II (RNAP2) binding in mouse erythroid cells (Ter119+).

Project description:This SuperSeries is composed of the following subset Series: GSE27893: Genome-wide maps of chromatin state in early erythroid precursors versus later, more differentiated erythroblasts. GSE32110: RNA-seq expression profiles during terminal erythropoiesis Refer to individual Series

Project description:Coordination of cellular processes through the establishment of tissue-specific gene expression programmes is essential for lineage maturation. The basic helix-loop-helix haemopoietic transcriptional regulator SCL/Tal1 is required for terminal differentiation of red blood cells. To gain insight into SCL function and mechanisms of action in erythropoiesis, we performed ChIP-sequencing and gene expression analyses from primary fetal liver erythroid cells. We show that SCL coordinates expression of genes in most known red cell-specific processes. The majority of SCL’s genomic targets require direct DNA-binding activity. However, one fifth of SCL’s target sequences, mainly amongst those showing high affinity for SCL, can recruit the factor independently of its DNA binding activity. An unbiased DNA motif search of sequences bound by SCL identified CAGNTG as SCL-preferred E-box motif in erythroid cells. Novel motifs were also characterised that may help distinguish activated from repressed genes and suggest a new mechanism by which SCL may be recruited to DNA. Finally, analysis of recruitment of GATA1, a protein partner of SCL, to sequences occupied by SCL suggests that SCL’s binding is necessary prior or simultaneous to that of GATA1. This work provides the framework to study regulatory networks leading to erythroid terminal maturation and to model mechanisms of action of tissue-specific transcription factors. Total RNA extracted from wild-type (WT) day E12.5 fetal liver Ter119- erythroid progenitor cells was compared to total RNA extracted from E12.5 fetal liver Ter119- cells expressing a DNA-binding mutant form of SCL (SclRER/RER).

Project description:microRNA miR-144/451 is highly expressed during erythropoiesis. We deleted the miR-144/451 gene locus in mice and compared the transcriptomes of miR-144/451-null bone marrow erythroid precursors to stage-matched wild-type control cells. Ter119+/CD71+/FSC-high bone marrow erythroblasts were sorted directly into Trizol LS reagent. Total RNAs extracted from three miR-144/451 knock-out and three wide type mice were analyzed using Affymetrix Mouse Genome 430 2.0 Arrays.

Project description:We report genome-wide maps of transcription in mouse erythroid cells. We used an approach to survey poly(A)+ (mRNA) (GSE26877) and non-polyadenylated RNA poly(A)- (GSE27920) separately. This provides an alternative framework for comprehensive transcriptome profiling in mammalian cells. Two Samples. mRNA-seq from wild type murine Ter119+ cells and mRNA-seq from ?MCS-P6MCS-R3-/- Ter119+ cells

Project description:The aim of this experiment was to investigate the role of KLF3 in regulating gene expression at different stages throughout the erythroid maturation process. Affymetrix microarrays were performed on fetal liver cells (both TER119- progenitor cells and TER119+ erythroblast cells) from E14.5 wildtype and Klf3 KO mice. Four wildtype TER119- replicates, four Klf3 KO TER119- replicates, four wildtype TER119+ replicates, three Klf3 KO TER119+ replicates. All are from E14.5 fetal liver.

Project description:We report genome-wide maps of transcription in mouse erythroid cells. We used an approach to survey poly(A)+ (mRNA) (Transcriptiome of mouse erythroid cells (part1) GSE26877) and non-polyadenylated RNA separately. This provides an alternative framework for comprehensive transcriptome profiling in mammalian cells. Examination of non-polyadenylated RNA in mouse erythroid cells (Ter119+).

Project description:Transcription Start Site analysis in Mouse Ter119+ erythroid cells Strand Specific Paired end NanoCage analysis of Total RNA from Mouse Ter119+ erythroid cells