Project description:Retinal pigment epithelial cells are critical for eye function and loss of cell function is linked to age-related blindness. Relatively little is known about the transcriptional regulatory networks in these cells. The datasets presented here are ChIP-seq experiments for RNA polymerase II , transcription factors and histone modifications in human retinal pigment epithelial cells. ChIP-Seq for transcription factors, RNA polymerase, histone modifications and CTCF in retinal pigment epithelial cells
Project description:Comparitive analysis of the retinal stem/progentior cells derived from the ciliary and iris pigment epithelial cells and the subsequent differentiated cells derived from the stem/progenitor cells. Gene expression profiling has shown great promise in analysing the reprogramming pattern of the cells under various culture conditions, in this context we analysed the various differential gene expression pattern of the neurospheres derived from the ciliary and iris pigment epithelial cells, and their differentiated cells. This provide an insite for the stem cell transplantation studies. We analysed 3 biological cultures derived from each catogory like the primary cells of both ciliary and iris pigment epithelial cells, the stem/progenitor cells (Neurospheres), neurosphere derived differentiated cells. No technical replicates were performed.
Project description:We generated hiPSCs from patients fibloblast with retinitis pigmentosa (RP) using retrovirus and Sendai virus vectors, which we differentiated into hiPSC derived retinal pigment epithelium using two different methods (SDIA and SFEB methods). We investigated whether these hiPSC-RPE colonies, which were differentiated from various cell lines and methods, showed similar gene expression patterns to those of native RPE. We classified hiPSC-RPE, hiPSCs, and fibroblasts from RP patients, hRPE (commercially available human fetal RPE, Lonza) , ARPE19 (a human RPE cell line), and other human tissues from 54,675 probe sets using microarray data.
Project description:Retinal pigment epithelial cells are critical for eye function and loss of cell function is linked to age-related blindness. Relatively little is known about the transcriptional regulatory networks in these cells. The datasets presented here are ChIP-seq experiments for RNA polymerase II , transcription factors and histone modifications in human retinal pigment epithelial cells.
Project description:Comparitive analysis of the retinal stem/progentior cells derived from the ciliary and iris pigment epithelial cells and the subsequent differentiated cells derived from the stem/progenitor cells. Gene expression profiling has shown great promise in analysing the reprogramming pattern of the cells under various culture conditions, in this context we analysed the various differential gene expression pattern of the neurospheres derived from the ciliary and iris pigment epithelial cells, and their differentiated cells. This provide an insite for the stem cell transplantation studies.
Project description:To study the function of AMD-associated gene POLDIP2 in retinal pigment epithelial (RPE) cells, we used CRISPR/Cas to knockout POLDIP2 in the human RPE cell line ARPE19. We then performed RNA-seq to profile the transcriptome of wildtype ARPE19 and POLDIP2 knockout.
Project description:Human retinal and RPE SAGE libraries. Profile of the genes expressed in the human peripheral retina, macula, and retinal pigment epithelium determined through serial analysis of gene expression (SAGE). Keywords: other
Project description:Human retinal and RPE SAGE libraries. Profile of the genes expressed in the human peripheral retina, macula, and retinal pigment epithelium determined through serial analysis of gene expression (SAGE). Keywords: other
