Project description:Transcriptional profiles on different yeast strain mutants (DEgd2/1, DEgd2/Btt1)were identified by microarray analysis comparing total mutant RNA vs wild type RNA. Set of arrays that are part of repeated experiments

Project description:Nascent polypeptides emerging from the ribosome during biogenesis can interact with many chaperones and protein homeostasis factors. The high sensitivity of RNA identification can be used to identify substrates of specific cotranslationally acting chaperones. Protein A-tagged (TAP-tag) chaperones associated with translating ribosomes were immunopurified by binding to magnetic IgG beads, washed, and chaperone complexes were eluted with TEV protease treatment. Immunopurified RNAs and total cell extract RNAs were isolated, reverse transcribed, coupled to Cy5 and Cy3 dyes, respectively, and comparatively hybridized to DNA microarrays Set of arrays that are part of repeated experiments

Project description:In order to identify what RNA messengers are being translated at the ER membrane, membrane-associated polysomes were separated from free polysomes by subcellular fractionation of WT and delta-egd1/delta-egd2 yeast strains and associated RNA was isolated and then identified by microarray analysis. Set of arrays that are part of repeated experiments

Project description:Array hybridizations profiling diverse human tissues; for each array the human tissue RNA is hybridized against a universal reference RNA. Series_type: Logical set Set of arrays organized by shared biological context, such as organism, tumors types, processes, etc. Keywords: other. This dataset is part of the TransQST collection.

Project description:Background MeCP2, methyl-CpG-binding protein 2, binds to methylated cytosines at CpG dinucleotides, as well as to unmethylated DNA, and affects chromatin condensation. MECP2 mutations in females lead to Rett syndrome, a neurological disorder characterized by developmental stagnation and regression, loss of purposeful hand use and speech, stereotypic hand movements, deceleration of brain growth, autonomic dysfunction and seizures. Most mutations occur de novo during spermatogenesis. Located at Xq28, MECP2 is subject to X inactivation, and affected females are mosaic. Rare hemizygous males suffer from a severe congenital encephalopathy. Methods To identify pathways mis-regulated by MeCP2 deficiency, microarray-based global gene expression studies were carried out on cerebellum of Mecp2 mutant mice. We compared transcript levels in mutant/wildtype male sibs of two different MeCP2-deficient mouse models at 2, 4 and 8 weeks of age. Increased transcript levels were evaluated by real-time quantitative RT-PCR. Chromatin immunoprecipitation assays were used to document in vivo MeCP2 binding to promoter regions of candidate target genes. Results In the mutants, several hundred genes showed altered expression levels. Twice as many were increased than decreased, and only 27 genes were differentially expressed at more than one time point. The number of misregulated genes was 30% lower in mice with an exon 3 deletion (Mecp2tm1.1Jae) than in mice with a larger deletion (Mecp2tm1.1Bird). Between the mutants, few misregulated genes overlapped at each time point. Real-time quantitative RT-PCR assays validated increased transcript levels for four genes: Irak1, interleukin-1 receptor-associated kinase 1; Fxyd1, phospholemman, associated with Na, K-ATPase; Reln, encoding reelin, an extracellular signaling molecule essential for neuronal lamination and synaptic plasticity; and Gtl2/Meg3, an imprinted maternally expressed non-translated RNA that serves as a host gene for C/D box snoRNAs and microRNAs. Chromatin immunoprecipitation assays documented in vivo MeCP2 binding to promoter regions of Fxyd1, Reln, and Gtl2. Conclusions Transcriptional profiling of cerebellum failed to detect significant global changes in Mecp2-mutant mice. Increased transcript levels of Irak1, Fxyd1, Reln, and Gtl2 may contribute to the neuronal dysfunction in MeCP2-deficient mice and individuals with Rett syndrome. Our data provide testable hypotheses for future studies of the regulatory or signaling pathways that these genes act on. A genetic modification design type is where an organism(s) has had genetic material removed, rearranged, mutagenized or added, such as knock out. Computed

Project description:This SuperSeries is composed of the following subset Series: GSE13206: Human shSIRT6 TNF-alpha timecourse GSE13207: Mouse Sirt6-/- TNF-alpha timecourse GSE13208: Mouse Sirt6-/- tissues GSE13209: Mouse Sirt6-/- RelA+/- tissues Refer to individual Series

Project description:Methods: We used an ex vivo culture model and measured gene expression changes in human lung fibroblasts after stimulation with BMPs and their antagonists using HEEBO microarrays. The in vitro data were correlated with in vivo observations in published expression datasets of human lung adenocarcinomas. Results: We have systematically analyzed the response to BMP2, BMP4, BMP7 and their antagonists, gremlin and noggin, to define common and specific gene expression patterns. A BMP2 induced gene expression signature was defined, which is specific for stromal fibroblasts. Gene expression profiles from lung adenocarcinoma biopsies were analyzed to determine the prognostic significance of the Fibroblast specific BMP2 induced gene list. This gene list successfully segregated patients with different prognostic outcome in 3 datasets. In a small dataset (Garber et al.) there was a strong trend for a worse prognosis of patients with adenocarcinomas of all stages over-expressing the Fibroblast specific BMP2 induced gene list. In two larger datasets with stage I adenocarcinomas we observed a significantly worse disease-free (p=0.002, Lee et al. and p=0.002, Bhattacharjee et al.) and overall survival (p=0.0002). Conclusions: The effects of BMPs and their antagonists are heterogeneous in different cell types. The gene expression pattern induced by BMP2 in primary lung fibroblasts may predict outcomes of patients with lung adenocarcinomas. A stimulus or stress experiment design type is where that tests response of an organism(s) to stress/stimulus. e.g. osmotic stress, behavioral treatment stimulus_or_stress_design

Project description:We harvested liver, spleen, thymus, and skin tissues from 21 or 29 day old Sirt6-/- animals and then completed genome-wide microarray analysis. Total RNA was extracted with TRIzol (Invitrogen) and amplified with Amino Allyl MessageAmp II Amplification kit. Amplified age-matched wild-type tissues were used as reference RNA for analysis. Array hybridization of mouse MEEBO arrays is as described (Hendrickson et al., PLoS ONE, 2008). Set of arrays that are part of repeated experiments Tissue type: Age & tissue harvested Keywords: Biological Replicate Biological Replicate Computed

Project description:We established HeLa cell lines stably expressing a short hairpin RNA against SIRT6 (S6 sh2), and then completed genome-wide microarray analysis in shSIRT6 knock-down and control pSR HeLa cells. Prior to RNA extraction, HeLa cells were treated with TNF-alpha (5 ng/ml) for the indicated times. Total RNA was extracted with TRIzol (Invitrogen) and amplified with Ambion MessageAmp RNA Amplification kit. Amplified human Universal Reference RNA (Stratagene) was used as reference RNA for analysis. Construction and array hybridization of human cDNA microarrays were performed as previously described (Perou et al., 2000). Groups of assays that are related as part of a time series. Compound Based Treatment: 5 ng/ml TNF-alpha Keywords: time_series_design Computed

Project description:We harvested spleen tissue from Sirt6-/- or Sirt6-/- RelA+/- animals and then completed genome-wide microarray analysis. Total RNA was extracted with TRIzol (Invitrogen) and amplified with Amino Allyl MessageAmp II Amplification kit. Amplified age-matched wild-type tissues were used as reference RNA for analysis. Array hybridization of mouse MEEBO arrays is as described (Hendrickson et al., PLoS ONE, 2008). Set of arrays that are part of repeated experiments Keywords: Biological Replicate Biological Replicate Computed