Project description:Expression data from RNAi knockdown HeLa cells

Project description:HNRNP1 was characterized in a multi-dimensional study involving RNAi knockdown of the protein in HeLa cells. Label-free proteomics was used to characterize protein expression changes.

Project description:Study of the effects of the VCP knockdown. VCP (p97, yeast cdc48) is a hexameric AAA ATPase involved in various cellular functions including degradation of proteins by the ubiquitin-proteasome system. We examine the consequences of the reduction of VCP levels after RNAi of VCP in HeLa cells. We find ~30 transcripts upregulated in a sequence independent manner. Those transcripts encode proteins involved in endoplasmic reticulum stress, apoptosis, and amino acid starvation.

Project description:In order to understand the underline mechanism of SHMT2 (serine hydroxymethyltransferase 2) effect on tumor growth, proteome and metabolome analysis were carried on an engineered HeLa cell line (HeLa-SHMT2-shSHMT2, short as HeLa-Ss), which has inducible SHMT2 over-expression or suppression by treating cell with tetracycline or IPTG, respectively. SHMT2 over-expression in HeLa-ss cell increased cell proliferation in vitro and in vivo, deceased expression of several mitochondrial complex I and III proteins, and increased glycine and glutathione levels in cells. BioID method identified more than 20 SHMT2 associated proteins that are involved in oxidation-reduction process. These results indicate SHMT2 involves in the regulation of cellular redox balance. SHMT2 suppression only reduced growth of cells under glycine depletion condition in cell culture. It increased expression of several proteins involved in glutaminolysis and amino acid transporters, and elevated metabolites related to glutamine metabolism. These results indicate tumor cells have a compensatory reaction after SHMT2 suppression. Further reducing glycine levels in cells by sodium benzoate caused cell death in cultured cell and slightly reduced tumor growth in vivo. Benzoate treatment induces more changes in protein expressions and metabolite levels, and it may provide a new addition for tumor treatment.

Project description:We report that knockdown of EJC core proteins, eIF4A3, Y14, Magoh, causes a transcript-wide changes in alternative splicing, as well as some transcriptional changes. These changes are specific to EJC core proteins, and KD of UPF1 protein caused different sets of alterantive splicing changes. These changes are linked to the rate of transcription. Examination of 4 different knockdown, as well as GFP knockdown in HeLa cells, 2 replicates each condition.

Project description:Transcriptional profiling was done following APE1/Ref1 silencing using conditional gene expression knockdown by RNA interference (RNAi) technology in HeLa cell lines. APE1 is a DNA-repair enzyme and transcriptional co-activator. Knockdown leads to cell-growth arrest, apoptosis and impairment in the intracellular redox state and cytoskeletal perturbation.

Project description:Using RNAi technology, Cyclin F, E2F7+8, or the combination of all proteins in were knocked down HeLa cells. The goal was to study which gene expression programmes are altered by cyclin F depletion in G2/M cells. Furthermore, we had performed experiments suggesting that cyclin F mediates degradation of the atypical E2F repressor proteins E2F7 and E2F8. Therefore we investigated using combinatorial knockdown if additional depletion of E2F7/8 rescues gene expression changes caused by cyclin F. Our resuilts show that cyclin F depletion downregulates expression hundreds of E2F target genes, which could be prevented by additional E2F7/8 depletion.

Project description:Raw data from E-MTAB-1585 was normalized by using reads per million. https://www.ebi.ac.uk/arrayexpress/experiments/E-MTAB-1585/ Strand specific RNA-Seq data E-MTAB-1585 was normalized and subtracted control from knockdown to generate tracks that more clearly displayed the unusual pattern of RNA expression caused by knockdown of 7SK. The following wig files were generated from multiple samples (i.e.raw data files), as indicated in the 'readme.txt' file. 7sk_3p_KD_norm.wig: 7SK 3P Knockdown normalized 7sk_3p_KDF_norm.wig: 7SK 3P Knockdown normalized (Forward) 7sk_3p_KDR_norm.wig: 7SK 3P Knockdown normalized (Reverse) 7sk_5p_KD_norm.wig: 7SK 5P Knockdown normalized 7sk_5p_KDF_norm.wig: 7SK 5P Knockdown normalized (Forward) 7sk_5p_KDR_norm.wig: 7SK 5P Knockdown normalized (Reverse) 7sk_Control_norm.wig: 7SK Control normalized 7sk_ControlF_norm.wig: 7SK Control normalized (Forward) 7sk_ControlR_norm.wig: 7SK Control normalized (Reverse) 7sk_3p_KDF-ControlF.wig: 7SK 3P Knockdown-Control (Forward) 7sk_3p_KDR-ControlR.wig: 7SK 3P Knockdown-Control (Reverse) 7sk_5p_KDF-ControlF.wig: 7SK 5P Knockdown-Control (Forward) 7sk_5p_KDR-ControlR.wig: 7SK 5P Knockdown-Control (Reverse)

Project description:Knockdown and overexpression of C* proteins in Hela and HEK293 cells was investigated by RNA-Seq.

Project description:A) We profiled gene expression changes during ES cell differentiation B) We profiled gene expression changes when Pou5f1 or Nanog is knockdown upon RNAi Keywords: Array Based