GEO DataSets

(Submitter supplied) Carbonic anhydrase 1 (Car1), an early specific marker of the erythroid differentiation, has been used to distinguish fetal and adult erythroid cells since its production closely follows the γ- to β-globin transition, but the molecular mechanism underlying transcriptional regulation of Car1 is unclear. Here, we show that Car1 mRNA decreases significantly when erythroid differentiation is induced in MEL cells. more...

Organism:

Mus musculus

Type:

Expression profiling by array

Platform:

GPL16368

10 Samples

Download data: CEL

(Submitter supplied) We used ChIP-Seq to map Ldb1, Scl and Gata1 binding sites in mouse total bone marrow cells. Together with functional studies comparing gene expression in Murine Erythroleukemia (MEL) cells expressing Ldb1 shRNA or control shRNA and bioinformatics analysis, we systematically determined the transcriptional program controlled by Ldb1 complexes in erythropoiesis. This represents the ChIP-Seq component of the study only

Organism:

Mus musculus

Type:

Genome binding/occupancy profiling by high throughput sequencing

Platform:

GPL9185

4 Samples

Download data: BED, TXT

(Submitter supplied) The Ldb1/GATA-1/TAL1/LMO2 complex mediates long range interaction between the β-globin locus control region (LCR) and gene in adult mouse erythroid cells but whether this complex mediates chromatin interactions at other developmental stages or in human cells is unknown. We investigated human NLI (Ldb1 homologue) complex occupancy and chromatin conformation of the β-globin locus in human erythroid cells. more...

Organism:

Homo sapiens

Type:

Genome binding/occupancy profiling by genome tiling array

Platform:

GPL13738

6 Samples

Download data: TXT

(Submitter supplied) Many questions remain about how close association of genes and distant enhancers occurs and how this is linked to transcription activation. In erythroid cells, LDB1 is recruited to the β-globin locus via LMO2 and is required for looping of the β-globin locus control region (LCR) to the active β-globin promoter. We show that the LDB1 dimerization domain (DD) is necessary and, when fused to LMO2 is sufficient, to completely restore LCR-promoter looping and transcription in LDB1 depleted cells. more...

Organism:

Mus musculus

Type:

Expression profiling by high throughput sequencing

Platform:

GPL13112

12 Samples

Download data: TXT

(Submitter supplied) During the human cord blood CD34+ cell differentiation, expression of the genes which contribute to erycyte maturation are increased, inculding ALAS2, SLC25A37, GYPA and KLF1. ETO2 functions as a transcription repressor and is required for the erythrocyte maturation and the hemoglobin switch. During mouse embryonic erythropoiesis, RNA-seq data in E8.5 yolk sac /E12.5, E14.5 fetal liver cells indicated that eto2 promoted a critical developmental transition and played an important role in globin switch from embryonic to adult β-globin transcription since its function is essential for erythorid maturation regulators (Alas2,Slc25a37,Epb42,Gypc,Klf1) and globin genes (Hbb-y and Hba-x) regulation.

Organism:

Homo sapiens; Mus musculus

Type:

Expression profiling by high throughput sequencing

Platforms:

GPL21103 GPL20301

30 Samples

Download data: TXT

(Submitter supplied) This SuperSeries is composed of the SubSeries listed below.

Organism:

Mus musculus; Homo sapiens

Type:

Expression profiling by high throughput sequencing; Genome binding/occupancy profiling by high throughput sequencing

4 related Platforms

100 Samples

Download data: NARROWPEAK, TXT

(Submitter supplied) To determine direct targets and the regulatory role of ETO2 in gene expression, we performed ChIPmentation with antibodies to unmodified ETO2 and ETO2 interacted factor LDB1. A de novo MEME search performed on ETO2-occupied sites, revealed enrichment for GATA and TAL binding motifs, which are the components in LDB1 complex. Nearly 86% of ETO2-binding sites were intergenic or intronic, suggesting ETO2 functions primarily in regions of the genome likely to encompass enhancers. more...

Organism:

Homo sapiens

Type:

Genome binding/occupancy profiling by high throughput sequencing

Platform:

GPL11154

6 Samples

Download data: NARROWPEAK

(Submitter supplied) ETO2 functions as a transcription repressor and is required for the embryonic erythropoiesis and the hemoglobin switch. To gain insight into ETO2 regulatory function during human erythropoiesis, we performed RNA-seq for WT and ETO2 KO K562 cells and found that up-regulated genes upon ETO2 loss in human cells included many markers of mature erythroid cells EPB42, ALAS2, GYPA and SLC25a37. Notably, the α-globin genes (HBA1, HBA2 and HBZ) and embryonic and fetal β-globin genes (HBE1, HBG1, and HBG2) were significantly increased after deletion of ETO2. more...

Organism:

Homo sapiens; Mus musculus

Type:

Expression profiling by high throughput sequencing

Platforms:

GPL11154 GPL13112

64 Samples

Download data: TXT

(Submitter supplied) The molecular mechanisms underlying erythroid-specific gene regulation remain incompletely understood. Closely spaced binding sites for GATA, NF-E2/maf and CACCC interacting transcription factors play functionally important roles in globin and other erythroid-specific gene expression. We and others recently identified the CACCC-binding transcription factor ZBP-89 as a novel GATA-1 and NF-E2/mafK interacting partner. more...

Organism:

Homo sapiens

Type:

Expression profiling by array

Platform:

GPL571

4 Samples

Download data: CEL

(Submitter supplied) The molecular mechanisms underlying erythroid-specific gene regulation remain incompletely understood. Closely spaced binding sites for GATA, NF-E2/maf and CACCC interacting transcription factors play functionally important roles in globin and other erythroid-specific gene expression. We and others recently identified the CACCC-binding transcription factor ZBP-89 as a novel GATA-1 and NF-E2/mafK interacting partner. more...

Organism:

Homo sapiens

Type:

Genome binding/occupancy profiling by genome tiling array

Platform:

GPL6129

2 Samples

Download data: BAR, BED, CEL

(Submitter supplied) Transcript elongation by RNA polymerase II (RNAPII) is accompanied by conserved patterns of histone modification within transcribed regions, but it remains uncertain how these modifications influence, or are influenced by, properties of the elongation complex. Here we establish an intimate link between Cdk9, the kinase component of positive transcription elongation factor b (P-TEFb), and mono-ubiquitylation of histone H2B (H2Bub1), in the fission yeast Schizosaccharomyces pombe. more...

Organism:

Schizosaccharomyces pombe

Type:

Genome binding/occupancy profiling by genome tiling array

Platform:

GPL16218

6 Samples

Download data: GPR, TIFF

(Submitter supplied) How transcription factors (TFs) cooperate within large protein complexes to allow rapid modulation of gene expression during development is still largely unknown. Here we show that the key haematopoietic LIM-domain-binding protein-1 (LDB1) TF complex contains several activator and repressor components that together maintain an erythroid-specific gene expression programme primed for rapid activation until differentiation is induced. more...

Organism:

Mus musculus

Type:

Genome binding/occupancy profiling by high throughput sequencing; Expression profiling by high throughput sequencing

Platform:

GPL13112

27 Samples

Download data: BW, TXT

(Submitter supplied) Release of promoter-proximal paused RNA polymerase II (Pol II) during early elongation is a critical step in transcriptional regulation in metazoan cells. Paused Pol II release is thought to require the kinase activity of cyclin-dependent kinase 9 (CDK9) for the phosphorylation of DRB sensitivity-inducing factor, negative elongation factor, and C-terminal domain (CTD) serine-2 of Pol II. We found that Pol II-associated factor 1 (PAF1) is a critical regulator of paused Pol II release, that positive transcription elongation factor b (P-TEFb) directly regulates the initial recruitment of PAF1 complex (PAF1C) to genes, and that the subsequent recruitment of CDK12 is dependent on PAF1C. more...

Organism:

Homo sapiens

Type:

Expression profiling by high throughput sequencing; Genome binding/occupancy profiling by high throughput sequencing

Platforms:

GPL11154 GPL16791

32 Samples

Download data: BEDGRAPH, TXT

(Submitter supplied) LMO2 is a component of multisubunit DNA-binding transcription factor complexes that regulate gene expression in hematopoietic stem and progenitor cell development. Enforced expression of LMO2 causes leukemia by inducing hematopoietic stem cell-like features in T-cell progenitor cells, but the biochemical mechanisms of LMO2 function have not been fully elucidated. In this study we systematically dissected the LMO2/LDB1 binding interface to investigate the role of this interaction in T-cell leukemia. more...

Organism:

Homo sapiens

Type:

Expression profiling by high throughput sequencing

Platform:

GPL16791

10 Samples

Download data: TXT

(Submitter supplied) We used ChIP-Seq to map Ldb1, Scl and Gata2 binding sites in mouse hematopoietic progenitor cells (HPCs). Together with functional studies using conventional and conditional Ldb1 deficient mouse models and bioinformatics analysis, we systematically determined a transcriptional program controlled by Ldb1 complexes in HSC maintenance.

Organism:

Mus musculus

Type:

Genome binding/occupancy profiling by high throughput sequencing

Platform:

GPL9185

4 Samples

Download data: BED

(Submitter supplied) Utilize high-throughput transcriptomic and cistromic analysis to determine the functional requirement for LDB1 and ISL1 in mature murine pancreatic β-cells while simultaneously assessing their functional interdependence at the chromatin level.

Organism:

Mus musculus

Type:

Expression profiling by high throughput sequencing; Genome binding/occupancy profiling by high throughput sequencing

Platform:

GPL17021

21 Samples

Download data: BED, BW, XLSX

(Submitter supplied) This SuperSeries is composed of the SubSeries listed below.

Organism:

Mus musculus

Type:

Expression profiling by array; Expression profiling by high throughput sequencing; Genome binding/occupancy profiling by high throughput sequencing

Platforms:

GPL1261 GPL13112

16 Samples

Download data: CEL

(Submitter supplied) The first site exhibiting hematopoietic activity in mammalian development is the yolk sac blood island, which originates from the hemangioblast. Here we performed differentiation assays, as well as genome-wide molecular and functional studies in BL-CFCs to gain insight into the function of the essential Ldb1 factor in early primitive hematopoietic development. We show that the previously reported lack of yolk sac hematopoiesis and vascular development in Ldb1-/- mouse result from a decreased number of hemangioblasts and a block in their ability to differentiate into erythroid and endothelial progenitor cells. more...

Organism:

Mus musculus

Type:

Expression profiling by array

Platform:

GPL1261

6 Samples

Download data: CEL

(Submitter supplied) The first site exhibiting hematopoietic activity in mammalian development is the yolk sac blood island, which originates from the hemangioblast. Here we performed differentiation assays, as well as genome-wide molecular and functional studies in BL-CFCs to gain insight into the function of the essential Ldb1 factor in early primitive hematopoietic development. We show that the previously reported lack of yolk sac hematopoiesis and vascular development in Ldb1-/- mouse result from a decreased number of hemangioblasts and a block in their ability to differentiate into erythroid and endothelial progenitor cells. more...

Organism:

Mus musculus

Type:

Expression profiling by high throughput sequencing; Genome binding/occupancy profiling by high throughput sequencing

Platform:

GPL13112

10 Samples

Download data: TXT

(Submitter supplied) More than 30% of genes in higher eukaryotes are regulated by RNA Polymerase II (Pol II) promoter proximal pausing. Pausing is released by the positive transcription elongation factor complex (P-TEFb). However, the exact mechanism by which this occurs and whether phosphorylation of the carboxyl-terminal domain of Pol II is involved in the process remains unknown. We previously reported that JMJD5 could generate tailless nucleosomes at position +1 from transcription start sites (TSS) thus perhaps enable progression of Pol II. more...

Organism:

Mus musculus

Type:

Genome binding/occupancy profiling by high throughput sequencing

Platform:

GPL17021

8 Samples

Download data: BW