Project description:To investigate the role of ESRRB in cervical carcinogenesis, we established an ESRRB knockout HeLa cell line.

Project description:Analysis of HeLa cells following depletion of BRCA1 tumor supressor using RNAi against BRCA1. Results provide insight into the molecular mechanisms underlying loss of the BRCA1 function. Six samples (three control samples and three BRCA1 depleted samples) have been analysed. For the control, the samples derived from the HeLa cells treated with RNAi against GFP were used.

Project description:Analysis of HeLa cells following depletion of BRCA1 tumor supressor using RNAi against BRCA1. Results provide insight into the molecular mechanisms underlying loss of the BRCA1 function.

Project description:Effect of LINC00899 depletion on histone mark enrichment in HeLa cells

Project description:Effect of ILF3 depletion in HeLa cells on RNA steady state levels

Project description:Effect of depletion of IMPDH1 and IMPDH2 on gene expression after DNA damage in HeLa cells

Project description:Effect of depletion of Elovl6 on gene expression

Project description:mRNA expression modification after XRN1 depletion in Hela Cells

Project description:We have characterized gene expression changes in HeLa cells following long term depletion of Cyclin T2 or Cyclin T1 using shRNA

Project description:In the murine system, Oct4, Sox2, c-Myc and Klf4 are sufficient to convert fibroblasts to induced pluripotent stem (iPS) cells that exhibit many characteristics of embryonic stem (ES) cells. Herein, we show that the orphan nuclear receptor Esrrb works in conjunction with Oct4 and Sox2 to mediate reprogramming of mouse embryonic fibroblasts (MEFs) to iPS cells. Esrrb reprogrammed cells share similar expression and epigenetic signatures as ES cells. These cells are also pluripotent and can differentiate in vitro and in vivo into the three major embryonic cell lineages. Furthermore, these cells contribute to mouse chimeras and are germline transmissible. In ES cells, Esrrb targets many genes involved in selfrenewal and pluripotency. This suggests that Esrrb may mediate reprogramming through the up-regulation of ES cell-specific genes. Our findings also indicate that it is possible to reprogram MEFs without exogenous Klf transcription factors and link a nuclear receptor to somatic cell reprogramming. Global gene expression effects of silencing the Esrrb gene. We used microarrays to detail the global programme of gene expression after silencing the Esrrb gene. Keywords: time-course Three biological replicates each for control GFP and Esrrb RNAi. The global gene expression profiles of the Esrrb knockdown cells were compared to control GFP knockdown cells for days 2, 4 and 6.