Project description:NPM1 was reported to regulate the SOD2 gene expression through regulation of NF-kB. However, the effect of NPM1 on the NF-kB-dependent transcriptome has not been exmained. To examine the effect of NPM1 on NF-kB-dependent transcriptome. We used microarray to examine the effect of knockdown of NPM1 on the gene expression induced by TNF-a treatment which activates NF-kB pathway.

Project description:Expression data from RNAi knockdown HeLa cells

Project description:The goal of this study was to compare transcriptome of HeLa cells with or without TFIIB knockdown for gene expression changes in steady state or after TNF-a treatment. Although a broad effect on gene expression would be anticipated, TFIIB depletion led only to an altered expression of a limited number of genes.

Project description:Expression data from Dicer and Ago2-knockdown HeLa cells

Project description:Effect of UBLCP1 knockdown on gene expression in HeLa S3 cells

Project description:Expression of Data from EHMT1 siRNA transfected HeLa cell treated with TNF

Project description:HEK293T cells were treated with TNF-alpha for different periods of time to study the effect of siRNA-mediated knockdown of different genes (negative control: Renilla luciferase; positive controls: TNFRSF1A, RelA; gene of interest: CASP4) on TNF-induced gene expression

Project description:<p>During rheumatoid arthritis (RA), TNF activates fibroblast-like synoviocytes (FLS) inducing in a temporal order a constellation of genes, which perpetuate synovial inflammation. Although the molecular mechanisms regulating TNF-induced transcription are well characterized, little is known about the impact of mRNA stability on gene expression and the impact of TNF on decay rates of mRNA transcripts in FLS. To address these issues we performed RNA sequencing and genome-wide analysis of the mRNA stabilome in RA FLS. We found that TNF induces a biphasic gene expression program: initially, the inducible transcriptome consists primarily of unstable transcripts but progressively switches and becomes dominated by very stable transcripts. This temporal switch is due to: a) TNF-induced prolonged stabilization of previously unstable transcripts that enables progressive transcript accumulation over days and b) sustained expression and late induction of very stable transcripts. TNF- induced mRNA stabilization in RA FLS occurs during the late phase of TNF response, is MAPK-dependent, and involves several genes with pathogenic potential such as IL6, CXCL1, CXCL3, CXCL8/IL8, CCL2, and PTGS2. These results provide the first insights into genome-wide regulation of mRNA stability in RA FLS and highlight the potential contribution of dynamic regulation of the mRNA stabilome by TNF to chronic synovitis.</p>

Project description:Knockdown effect of CDK8 and CDK19 in HeLa S3 cell

Project description:Knockdown effect of CDK8 or CDK19 in HeLa S3 cell