Project description:This series represents the effects of OVA, tg-IL-13, and direct effects of IL-13 on airway epithelial cells. Experiment Design: Type of experiment: comparison of three related murine models of asthma, 1) Ova model, 2) tg-IL-13 model, 3) IL-13/Epi model. Two control groups were used: PBS challenged mice to control for the effects of OVA and tg-IL-13+ and STAT6-/- mice as controls for tg-IL-13 and IL-13/Epi mice. Measurements were made in each model in two types of tissue samples, whole lung and tracheal perfusate. Experimental factors: Allergen vs sham challenge, natural STAT6 expression vs transgenic expression and no expression. The number of hybridizations performed in the experiment: 50 (25 whole lung and 25 tracheal perfusate). The type of reference used for the hybridizations, if any: Pooled reference from lung (whole lung or tracheal perfusate) from untreated wildtype mice. Hybridization design: two-color hybridizations with reference design. Each individual sample was hybridized to a separate array. Quality control steps taken: 5 experimental replicates per group. RNA integrity assessed by Agilent Bioanalyzer. Arrays with low signals, high background, or high spatial variation rejected and corresponding samples reanalyzed. URL of any supplemental websites or database accession numbers:GEO (http://www.ncbi.nlm.nih.gov/geo, accession number GSE1438). ********** Samples used, extract preparation and labeling: The origin of the biological sample: homogenized whole lung from mouse and perfusate of mouse trachea. Manipulation of biological samples and protocols used: Whole lungs mechanically homogenized in 7.0 ml Trizol reagent (Invitrogen) for total RNA collection. Tracheas perfused with lysis buffer (Qiagen Rneasy kit) for total RNA collection. Protocol for preparing the hybridization extract and labeling: Preparation of aminoallyl-UTP labeled whole lung cDNA was performed as described [1]. Total RNA from tracheal perfusate (1.0 - 1.5 g per sample) was amplified and labeled with aminoallyl-dUTP using the MessageAmp aRNA kit (Ambion). Labeled cRNAs were coupled to Cy3 or Cy5 dyes (CyScribe, Amersham Biosciences) and purified as described [1]. Labeling protocol(s): Coupled to Cy3 or Cy5.External controls (spikes): none. ********** Hybridization procedures and parameters: Hybridizations were performed as described [1] except Ambion SlideHyb Glass Array Hybridization Buffer #1 (neat concentration) was used as hybridization buffer and hybridizations were carried out for 40 h at 55 °C. Following hybridization, arrays were washed in 1X SSC with 0.03% SDS (wash 1), 0.2X SSC (wash 2), and 0.05X SSC (wash 3) for five minutes for each wash. ********** Measurement data and specifications: Arrays were scanned using an Axon Genepix 4000B scanner and GenePix Pro Analysis 5.0 software; laser power 100%, 10 micron resolution, PMT optimized for each array. Data from GPR files are available from GEO (http://www.ncbi.nlm.nih.gov/geo, accession number GSE1438).The “print-tip loess” normalization was used to correct for within-array dye and spatial effects and single channel quantile normalization was used to facilitate comparison between arrays. No background subtraction was performed. We used functions in the library marrayNorm of the R / Bioconductor package to perform these normalizations. After normalization we determined the log2 ratio of experimental sample intensity to reference sample intensity for each probe on each array. ********** Array Design: General array design Array design name: UCSF 10Mm Mouse v.2 Oligo Array (GEO GPL1089) and UCSF Gladstone 18K Mouse v.2 Oligo Array (GPL1196) Platform type: spotted oligonucleotides (70mers) Surface and coating specification: aminosilane coated glass slides Physical dimensions of array support (e.g. of slide): 25 x 75 x 1.0 mm Number of features on the array: GPL1089: 19152, GPL1196: 18240 (including empty and duplicate features) For production protocol, see http://www.microarrays.org/pdfs/PrintingArrays.pdf Feature information is available from GEO (GSE1438). Reporters: synthetic single stranded oligonucleotides. Sequence and annotation information available from GEO (GPL1089 and GPL1196) Method of reporter preparation: synthesized by Operon. The spotting protocols used, including the array substrate, the spotting buffer, and any post-printing processing, including cross-linking: see http://www.microarrays.org/pdfs/PrintingArrays.pdfAny additional treatment performed prior to hybridization: none. ********** Reference: 1. Barczak A, Rodriguez MW, Hanspers K, Koth LL, Tai YC, et al. (2003) Spotted long oligonucleotide arrays for human gene expression analysis. Genome Res 13: 1775-1785. Keywords = IL-13 Keywords = Epithelial Keywords = differential gene expression Keywords = microarray

Project description:Freshly isolated type I and type II alveolar epithelial cells were investigated for transcriptomes with dual-color DNA microarray using 3DNA 50 kit.

Project description:Splicing and expression analysis of a collection of 80 different mutations to the gene expression pathway in yeast

Project description:In this study, type II alveolar epithelial cells (AEC II) were isolated from normal, hyperoxia exposed (day 0) and recovery (day 1,3,5 and 7) rats with high purity (~95%). Total RNA from isolated cells were used for dual color DNA microarray hybridization with 3DNA 50 kit version 2. Keywords: time-course

Project description:Fetal lung development is a complex biological process, which involves temporal and spatial regulations of many genes. To understand molecular mechanisms of this process, we investigated gene expression profiling of lungs at gestational day 18, 19, 20, 21, new born, and adult rats using in-house rat DNA microarray containing 6,000 known genes and 4,000 ESTs. 1,512 genes passed SAM test and 583 genes (402 known genes and 181 ESTs) had a 2-fold change at least at one time point. K-means cluster analysis revealed 7 major expression patterns. Furthermore, using GeneMapp, we identified 3 regulatory pathways: TGF beta signaling pathway, cell cycle, and G-protein signaling; and 2 metabolism pathways: proteasome degradation and glycolysis. Our results suggest a complex regulatory pathway for fetal lung development. Loop Design as following: D18-D19-D20-D21-NB-AD-D18

Project description:Rat model of ARDS was induced by saline lavage and mechanical ventilation. Total RNA from rat lungs were used for dual color DNA microarray hybridization with 3DNA 50 kit version 2. Two-condition experiment, CON vs. ARDS lung tissues. replicates: 5 control, 7 ARDS. One replicate per array.

Project description:To facilitate collaborative research efforts between multi-investigator teams using DNA microarrays, we identified sources of error and data variability between laboratories and across microarray platforms and methods to accommodate this variability. RNA expression data were generated in seven laboratories, comparing two standard RNA samples using twelve microarray platforms. At least two standard microarray types (one spotted, one commercial) were used by all laboratories. Reproducibility for most platforms within any laboratory was typically good, but reproducibility between platforms and across laboratories was generally poor. Reproducibility between laboratories dramatically increased when standardized protocols were implemented for RNA labeling, hybridization, microarray processing, data acquisition and data normalization. Nonetheless, concordance could be found across different laboratories and platforms when data were analyzed in terms of enriched Gene Ontology categories. These findings indicate that microarray results generated by multiple sites and platforms can be comparable, and that multi-investigator teams will maximize data comparability by adopting a common platform and a common set of procedures to generate compatible data. Keywords: other

Project description:Recent human H3N2 influenza A viruses have evolved to bind elongated glycans terminated with α2,6-linked sialic acids. These extended glycans are of low abundance on cells that are used for the propagation of these viruses, which may explain why it is very difficult to isolate and propagate human H3N2 viruses. This greatly hampers the further study of these viruses. Therefore, we elongated the glycans on cells (MDCK and hCK) by overexpression of the glycosyltransferases that are responsible for building N-acetyllactosamine (LacNAc) repeats, namely B3GNT2 and B4GALT1. Overexpression was clearly shown by qPCR and MS experiments.

Project description:RNA isolated from the 0, 10, 25, 50 and 100 micromolar AFB1 cultures at 120 min treatment was used for cDNA microarray experiments. For each array hybridization experiment, RNAs from the treated sample and its corresponding time-matched control were co-hybridized to arrays and respectively quantified in different channels. A dye swap strategy was used to eliminate the dye bias. Keywords: dose response

Project description:RNA isolated from the cultures treated with 0 and 50 micromolar AFB1 at 15, 30, 60, 90, 120 min was used for microarray experiments. For each array hybridization experiment, RNAs from the treated sample and its corresponding time-matched control were co-hybridized to arrays and respectively quantified in different channels. A dye swap strategy was used to eliminate the dye bias. Keywords: time-course