Expression analysis of HFF cells in G0 phase [TileShuffle]
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ABSTRACT: Whole transcriptome expression analysis of HFF cells on Affymetrix Human Tiling 1.0 array set. Cells were synchronised by serum starvation and transcriptome-wide expression in G0 phase. Expression data were processed with our new permutation approach TileShuffle. We analyzed one Affymetrix Human Tiling 1.0R set
Project description:Whole transcriptome expression analysis of HFF cells on Affymetrix Human Tiling 1.0 array set. Cells were synchronised by serum starvation and transcriptome-wide expression in G1 phase. Expression data were processed with our new permutation approach TileShuffle. We analyzed one Affymetrix Human Tiling 1.0R set
Project description:Whole transcriptome differential expression analysis of HFF cells on Affymetrix Human Tiling 1.0 array set. Cells were synchronised by serum starvation and transcriptome-wide changes occurring at the transition from G0 phase to G1 phase detected. Expression data and fold changes were processed with our new permutation approach TileShuffle variant B. We analyzed one Affymetrix Human Tiling 1.0R set each for HFF cells in G0 phase and cells in G1 phase
Project description:This SuperSeries is composed of the following subset Series: GSE36162: Expression analysis of HFF cells in G0 phase [TileShuffle] GSE36163: Expression analysis of HFF cells in G1 phase [TileShuffle] GSE36164: Differential expression analysis of HFF cells in G0 phase compared to cells in G1 [TileShuffle] Refer to individual Series
Project description:Whole transcriptome expression analysis of HFF cells on Affymetrix Human Tiling 1.0 array set. Cells were synchronised by serum starvation and transcriptome-wide expression in G1 phase. Expression data were processed with Tiling Array Software (TAS). We analyzed one Affymetrix Human Tiling 1.0R set
Project description:Whole transcriptome expression analysis of HFF cells on Affymetrix Human Tiling 1.0 array set. Cells were synchronised by serum starvation and transcriptome-wide expression in G0 phase. Expression data were processed with Tiling Array Software (TAS). We analyzed one Affymetrix Human Tiling 1.0R set
Project description:Whole transcriptome expression analysis of HFF cells on Affymetrix Human Tiling 1.0 array set. Cells were synchronised by serum starvation and transcriptome-wide expression in G0 phase. Expression data were processed with MAT (Johnson et al., "Model-based analysis of tiling-arrays for ChIP-chip." Proc Natl Acad Sci USA, 103:12457-62, 2006.). We analyzed one Affymetrix Human Tiling 1.0R set
Project description:Whole transcriptome expression analysis of HFF cells on Affymetrix Human Tiling 1.0 array set. Cells were synchronised by serum starvation and transcriptome-wide expression in G1 phase. Expression data were processed with MAT (Johnson et al., "Model-based analysis of tiling-arrays for ChIP-chip." Proc Natl Acad Sci USA, 103:12457-62, 2006.). We analyzed one Affymetrix Human Tiling 1.0R set
Project description:Whole transcriptome differential expression analysis of HFF cells on Affymetrix Human Tiling 1.0 array set. Cells were synchronised by serum starvation and transcriptome-wide changes occurring at the transition from G0 phase to G1 phase detected. Expression data and fold changes were processed with MAT (Johnson et al., "Model-based analysis of tiling-arrays for ChIP-chip." Proc Natl Acad Sci USA, 103:12457-62, 2006.). We analyzed one Affymetrix Human Tiling 1.0R set each for HFF cells in G0 phase and cells in G1 phase
Project description:Whole transcriptome differential expression analysis of HFF cells on Affymetrix Human Tiling 1.0 array set. Cells were synchronised by serum starvation and transcriptome-wide changes occurring at the transition from G0 phase to G1 phase detected. Expression data and fold changes were processed with Tiling Array Software (TAS). We analyzed one Affymetrix Human Tiling 1.0R set each for HFF cells in G0 phase and cells in G1 phase
Project description:Adenovirus small e1a causes ~70% reduction in cellular levels of histone H3 lysine 18 acetylation (H3K18ac). It is unclear, however, where this dramatic reduction occurs genome-wide. ChIP-seq revealed that e1a erases 95% of H3K18ac peaks in normal fibroblasts and replaces them with one-third as many at new genomic locations. H3K18ac at promoters and intergenic regions of genes with fibroblast-related functions are relocalized after infection to promoters of highly-induced genes that regulate cell cycling and to new putative enhancers. Strikingly, a significant fraction of the post-infection H3K18ac peaks occurs precisely at regions bound by RB1 in uninfected cells, but not by p107 or p130 without RB1. In contrast, over half of H3K9ac peaks are similarly distributed before and after infection, independently of RB1. The strategic redistribution of H3K18ac by e1a highlights the importance of this modification for transcriptional activation and cellular transformation. Examination of two histone acetylations and RB family members binding. mRNA-Seq RPKM file linked as supplementary file on Series record.