Retinal Cell Type Specific DNA Methylation and Histone Modifications

St. Jude Children's Research Hospital

St. Jude Children's Research Hospital

Mar 6, 2018

6.6K

RNA Sequencing
Methylation Array

Diverse cell types can be reprogrammed into pluripotent stem cells by ectopic expression of Oct4 (Pou5f1), Klf4, Sox3, and Myc. Many of these induced pluripotent stem cells (iPSCs) retain memory, in terms of DNA methylation and histone modifications (epigenetic memory), of their cellular origins, and this may bias subsequent differentiation. Neurons are difficult to reprogram, and there has not been a systematic side-by-side characterization of reprogramming efficiency or epigenetic memory across different neuronal subtypes. Here, we compare reprogramming efficiency of five different retinal cell types at two different stages of development. Retinal differentiation from each iPSC line was measured using a quantitative standardized scoring system called STEM-RET and compared to the epigenetic memory. Neurons with the lowest reprogramming efficiency produced iPSC lines with the best retinal differentiation and were more likely to retain epigenetic memory of their cellular origins. In addition, we identified biomarkers of iPSCs that are predictive of retinal differentiation. Cell Reports, Mar 2018 PMID 29514090. To see additional tracks, click on the 'Tracks' button in the genome browser toolbar. Choose the facet table under FACET. Click on individual cells, assays, or samples to show tracks of interest. Mousing over each colored bars reveals the HMM state. The FPKM expression value of the first gene in the viewing window is displayed as a bar plot on the right.

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