Genomics

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Scalable Production of Mouse Erythroid Cells using an in vitro Embryoid Body differentiation System [ChIP-Seq]


ABSTRACT: Mouse embryonic stem (mES) cells can be manipulated ex-vivo to recapitulate the process of erythropoiesis, whereby multipotential haematopoietic stem cells undergo lineage specification, differentiation and maturation to produce functional erythroid cells. Although very useful for identifying specific progenitors and precursors, this cell system has not been fully exploited as a source of cells to analyse erythropoiesis, compared with primary erythroid cells or immortalised cell lines. Here we have established a protocol in which erythroid cells can be isolated in a scalable manner from differentiated embryoid bodies (EBs). Using transcriptional and epigenetic analysis, we show that all purified erythroid cells in this system are derived from the primitive haematopoietic lineage. Finally, we show that this system faithfully recapitulates normal erythropoiesis in the embryonic mouse and fully mimics the effects of natural and engineered mutations seen in full mouse models. Data deposited here comprises chromatin profiling of the EB derived CD71+ erythroid cells; chromatin accessibility (ATAC-Seq), characterisation of the open chromatin by associated histone modifications (ChIP-Seq), chromatin structure (CTCF ChIP-Seq and Capture C interaction data). WT CD71+ cells were compared to either mutant CD71+ cells or other erythroid tissues (mouse adult spleen, E13.5 fetal liver, early embryonic circulating blood) representing both definitve and primitive erythroid lineages.

ORGANISM(S): Mus musculus

PROVIDER: GSE184434 | GEO | 2021/09/22

REPOSITORIES: GEO

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