Project description:To understand gene expression signatures between wild-type and Satb1-deficient cells To examine genes regulated by Satb1 expression, sets of microarrays were conducted with Lin- c-kitHi Sca-1+ Flt3- HSC-enriched cells, Lin- c-kitHi Sca-1+ Flt3+LMPP-enriched cells, and Lin- c-kitLo Sca-1Lo IL7Rα+ CLP-enriched cells derived from E18.5 FL of Satb1-null mice or their WT littermates.
Project description:Our data show Satb1 deficiency leads to alterations in DNA cytosine methylation and a commitment-primed epigenetic state in HSCs. Examination of DNA cytosine methylation in wild type HSC and differentiation-committed progenitors as well as in wild type HSC and HSC lacking Satb1 (n=2 each).
Project description:We identified a new type of bone marrow progenitors termed early innate lymphoid cell progenitor (EILP) using TCF-1 GFP reporter mice. We compared the transcriptomes of early innate lymphoid cell progenitors (EILP) with other early progenitors, including HSC, LMPP, CMP, CLP, ETP and DN3.
Project description:Haematopoietic stem cells can differentiate into all blood cell types. In this process, cells become progressively restricted to a single cell type. The order in which differentiating cells loose lineage potential, and the prospective isolation of cells with a defined potential remains a long-standing question. We performed gene expression analysis of haematopoietic cells from Gata1-EGFP reporter mice, leading to a model for hematopoiesis where the initial lineage decision consists of a separation of erythroid/megakaryocyte/mast cell/eosinophil potential from lymphopoietic/monocyte/neutrophil potential RNA was isolated from HSC EGFP-, HSC EGFP+, LMPP, CLP, preGM EGFP-, preGM EGFP+, GMP EGFP-, GMP EGFP+ and preMegE cells with the QIAGEN RNeasy Micro Kit.
Project description:Bivalency has been postulated to be a ‘poised’ state from which removal of one or the other mark permits gene activation or repression. To determine whether gene expression changes accompanied resolution of bivalent genes, we first obtained the expression pattern of hematopoietic stem cells (HSC), lymphoid-primed multipotent progenitors (LMPP), common lymphoid progenitors (CLP) , early thymic precursors (ETP), double negative 2 (DN2) and double negative 3 (DN3) cells using Affymetrix arrays. Consistent with trends noted in earlier studies, K4+ genes were, on average, expressed at higher levels compared to K4+K27+ or K27+ genes in all subsets.