Dataset: Analysis of gene expression in wildtype and Notch1 mutant retinal cells by single cell profiling
Loss of Notch1 in retinal progenitor cells (RPCs) during postnatal retinal development results in the overproduction of rod...
Loss of Notch1 in retinal progenitor cells (RPCs) during postnatal retinal development results in the overproduction of rod photoreceptors at the expense of interneurons and glia. To examine the molecular underpinnings of this observation, microarray analysis of singla retinal cells from wildtype (WT) or Notch1 conditional knockout (N1-CKO) retinas was performed. The majority of N1-CKO cells lost expression of known Notch target genes. These cells also had low levels of RPC and cell cycle genes, and robustly upregulated rod precursor genes. In addition, single WT cells, in which cell cycle marker genes were downregulated, expressed markers of both rod photoreceptors and interneurons. These results demonstrate that individual, newly postmitotic retinal cells can begin to differentiate into more than one cell type, and that this transitional state may be dependent on Notch1 signaling. We used microarrays to examine gene expression changes that occur in single cells after the removal of Notch1 during retinal development. Retinas of Notch1fl/fl P0 pups were electroporated in vivo with plamids encoding Cre driven by a broadly active promoter, CAG, along with a Cre-responsive GFP reporter, also driven by CAG promoter (CALNL-GFP). For controls, the retinas of sibling Notch1fl/fl pups were electroporated with CAG:GFP. The animals were sacrificed at P3 to allow time for Notch1 to be genetically removed and downstream gene expression changes to occur. Retinas electroporated with either CAG;Cre and CALNL-GFP or CAG:GFP alone were dissected and dissociated to individual cells, which were harvested under a dissecting microscope on the basis of their GFP signal.
- Species:
- mouse
- Samples:
- 26
- Source:
- E-GEOD-35682
- PubMed:
- 23824579
- Updated:
- Dec.12, 2014
- Registered:
- Nov.12, 2014
Sample | CELL TYPE |
---|---|
GSM873400 | Retinal cell electroporated with CAG:GFP |
GSM873400 | Retinal cell electroporated with CAG:GFP |
GSM873400 | Retinal cell electroporated with CAG:GFP |
GSM873400 | Retinal cell electroporated with CAG:GFP |
GSM873400 | Retinal cell electroporated with CAG:GFP |
GSM873400 | Retinal cell electroporated with CAG:GFP |
GSM873400 | Retinal cell electroporated with CAG:GFP |
GSM873400 | Retinal cell electroporated with CAG:GFP |
GSM873400 | Retinal cell electroporated with CAG:GFP |
GSM873400 | Retinal cell electroporated with CAG:GFP |
GSM873400 | Retinal cell electroporated with CAG:GFP |
GSM8734 | Retinal cell electroporated with CAG:Cre and CALNL-GFP |
GSM8734 | Retinal cell electroporated with CAG:Cre and CALNL-GFP |
GSM8734 | Retinal cell electroporated with CAG:Cre and CALNL-GFP |
GSM8734 | Retinal cell electroporated with CAG:Cre and CALNL-GFP |
GSM8734 | Retinal cell electroporated with CAG:Cre and CALNL-GFP |
GSM8734 | Retinal cell electroporated with CAG:Cre and CALNL-GFP |
GSM8734 | Retinal cell electroporated with CAG:Cre and CALNL-GFP |
GSM8734 | Retinal cell electroporated with CAG:Cre and CALNL-GFP |
GSM8734 | Retinal cell electroporated with CAG:Cre and CALNL-GFP |
GSM8734 | Retinal cell electroporated with CAG:Cre and CALNL-GFP |
GSM8734 | Retinal cell electroporated with CAG:Cre and CALNL-GFP |
GSM8734 | Retinal cell electroporated with CAG:Cre and CALNL-GFP |
GSM8734 | Retinal cell electroporated with CAG:Cre and CALNL-GFP |
GSM873400 | Retinal cell electroporated with CAG:GFP |
GSM873400 | Retinal cell electroporated with CAG:GFP |