Project description:Transcriptional profiling of left ventricular tissues of Dahl rat with or without treatment of chaetocin Three-condition experiment, Control vs. failing heart, failing heart vs. treatment with chaetocin. 3 samples mixture per each group
Project description:Allergic asthmatic, allergy only, asthma only (no allergy), and non-allergic non-asthmatic (control) subjects underwent bronchoscopy with instillation of saline, lipopolysaccharide (LPS), and house dust mite antigen in separate subsegmental bronchi. Bronchoalveolar lavage (BAL) fluid was collected four hours later (three samples per subject). Inflammatory cells from each specimen were isolated and RNA was extracted for microarray analysis. Experiment Overall Design: There are four main phenotypic groups: Experiment Overall Design: 1. control (no allergy or asthma) Experiment Overall Design: 2. allergy only (no asthma) Experiment Overall Design: 3. asthma only (no allergy) Experiment Overall Design: 4. allergy and asthma Experiment Overall Design: and three exposures: saline, house dust mite antigen (HDM), and LPS. Experiment Overall Design: Samples from the different exposures were all collected at the same time: four hours after instillation. The hybridizations were carried out in two main 'batches': samples in batch 1 were processed in mid 2004, samples in batch 2 about a year later in 2005. There is a clear 'batch effect': differences between expression profiles from the two batches (likely caused by technical differences between hybridization and scanning methods). This should be considered when analyzing the data.
Project description:Allergic asthmatic, allergy only, asthma only (no allergy), and non-allergic non-asthmatic (control) subjects underwent bronchoscopy with instillation of saline, lipopolysaccharide (LPS), and house dust mite antigen in separate subsegmental bronchi. Airway epithelial cells were collected four hours later (three samples per subject). RNA was extracted from these cells for microarray analysis. Experiment Overall Design: There are four main phenotypic groups: Experiment Overall Design: 1. control (no allergy or asthma) Experiment Overall Design: 2. allergy only (no asthma) Experiment Overall Design: 3. asthma only (no allergy) Experiment Overall Design: 4. allergy and asthma Experiment Overall Design: and three exposures: saline, house dust mite antigen (HDM), and LPS. Samples from the different exposures were all collected at the same time: four hours after instillation. The hybridizations were carried out in two main "batches": samples in batch 1 were processed in mid 2004, samples in batch 2 about a year later in 2005. There is a clear "batch effect": differences between expression profiles from the two batches (likely caused by technical differences between hybridization and scanning methods). This should be considered when analyzing the data.
Project description:Global gene expression in C. parvum environmental stage (oocysts) and the oocysts treated with UV comparing control untreated ones. Goal was to uncover the metabolic features in oocysts and the oocysts treated with UV. two-condition experiment, UV treatment vs. UV untreatment; two time points, 0.5h and 5h. Each time point, two Biological replicates(1, 2) with two technique replicates(1-1,1-2 ; 2-1, 2-2).
Project description:CHD8 is a putative chromatin remodeling ATPase of the SNF2 family. We found that depletion of CHD8 impairs cell proliferation. In order to identify CHD8 target genes, we performed a transcriptomic analysis of CHD8-depleted cells. CHD8 was knockdown by doxycyclin-dependent expression of a shRNA that target the CHD8 mRNA. Experiment Overall Design: C33KD2 is a stable cell line where expression of a shRNA, that targets the CHD8 mRNA, is dependent on doxycycline. Addition of doxyclycin provokes a significant reduction in the level of CHD8 protein. Total RNA samples coming from C33KD2 cells cultured for 48 hours either with or without 2 µg/ml doxycycline were used to generate complementary RNA labelled with Cy5 with the Agilent Low RNA Input Fluorescent Linear Amplification Kit (Agilent Technologies). The reference sample was Stratagene human universal reference and was amplified at the same time as the sample RNA using the same method. Reference samples were labeled using Cy3.
Project description:RNA form the heart a goupe of 9 patients with end stage cardiomyopathy (CAD) and 11 patiensts with coronary artery disease (CAD) was hybridized against pooled RNA form 4 normal nonfailing hearts.
Project description:A common bacterial strategy for monitoring environmental challenges is to use two-component systems, which consist of a sensor histidine kinase (HK) and a response regulator (RR). In the food-borne pathogen Bacillus cereus, the alternative sigma factor ÏB is activated by the RR RsbY. Here we present strong indications that the PP2C-type phosphatase RsbY receives its input from the multi-sensor hybrid kinase BC1008 (renamed RsbK). Genome analyses revealed that, across bacilli, rsbY and rsbK are located in a conserved gene cluster. A B. cereus rsbK deletion strain was shown to be incapable of inducing ÏB upon stress conditions and was impaired in its heat adaptive response. Comparison of the wild-type and rsbK mutant transcriptomes upon heat shock revealed that RsbK was primarily involved in the activation of the ÏB-mediated stress response. Truncation of the RsbK RR receiver domain demonstrated the importance of this domain for ÏB induction upon stress. The domain architecture of RsbK suggests that in the B. cereus group and in other bacilli, environmental and intracellular stress signalling routes are combined into one single protein. This strategy is markedly different from the ÏB activation pathway in other low-GC Grampositives. Two different comparisons were performed (both in duplo and Cy5-Cy3 dye-swapped): (1) B. cereus WT 30°C versus B. cereus WT 42°C (10 min heat shock) (2) B. cereus WT 42°C versus B. cereus FM1404 42°C Data from comparisons (2) were subsequently compared with transcriptome data obtained previously by Van Schaik et al., 2007
Project description:High-density phage epitope microarray from 31 samples were used for unsupervised analysis (GSM36153...GSM36183). 129 samples from prostate cancer patients and controls were screened on small focused epitope chips, which contained 180 phage elements. These data were used to train GA/KNN program (GSM36184...GSM36312). 128 samples from localized prostate cancer patients and controls were screened on small focused epitope chips. These independent data were used to validate the epitomic profile (GSM36313...GSM36375, GSM40203...GSM40213, GSM40216, GSM40218, GSM40219, GSM40222, GSM40225, GSM40227, GSM40229, GSM40233, GSM40237, GSM40246...GSM40294). Three subgroups of samples were used as test sets to validate the specificity of epitomic profile (GSM36376...GSM36410, GSM40214, GSM40215, GSM40217, GSM40220, GSM40221, GSM40224, GSM40226, GSM40228, GSM40231, GSM40234...GSM40236, GSM40238...GSM40244). Project----Identification of humoral signature for prostate cancer diagnosis We constructed a prostate cancer cDNA phage display library. cDNAs were reverse-synthesized from mDNA pool isolated from prostate cancer tissues. Enzyme-digested cDNA fragments were then inserted into phage vector to make a whole prostate cancer phage expressed cDNA library. In order to select cancer specific phage epitope from this library, we performed several cycles of affinity enrichment. We used the bounded IgG pool isolated from prostate cancer patient sera to select the tumor specific phage epitope clones. Once we had the enriched phage epitope library, we cultured the phage library on LB-agar dish for individual phage colonies. About 2300 phage colonies from agar dish were picked up using toothstick and cultured in 96-well microtiter plates. Each clone was labeled as microtiter plate #, column #, row#, i.e. clone ID. These 2300 clones were then spotted on slides in single spot (no any duplicate), i.e. each spot (labeled by clone ID) represents a single phage clone. The phage epitope microarrays were then screened using cancer or control sera. We employed two color system. Cy5-anti human IgG was to detect human IgG. For green color, we used Cy3-labeled anti-phage capsid protein as internal reference to normalize the ammount difference of phage particles spotted on each spot. Thus the ratio of Cy5/Cy3 would count for the immune response in cancer or control sera. Once we identified humoral signature in prostate cancer patients, we could sequence the phage clone to characterize the nature of the genes or proteins.
Project description:Objective: Vascular malformations affect 3% of neonates. Venous malformations (VMs) are the largest group representing more than 50 % of cases. In hereditary forms of VMs gene mutations have been identified, but for the large group of spontaneous forms the primary cause and downstream dysregulated genes are unknown. Methods and Results: We have performed a global comparison of gene; expression in slow-flow VMs and normal saphenous veins using human whole genome micro-arrays. Genes of interest were validated with qRT-PCR. Gene expression in the tunica media was studied after laser micro-dissection of small pieces of tissue. Protein expression in endothelial cells (ECs) was studied with antibodies. We detected 511 genes more than 4-fold down- and 112 genes more than 4-fold up-regulated. Notably, chemokines, growth factors, transcription factors and regulators of extra-cellular matrix (ECM) turnover were regulated. We observed activation and arterialization of ECs of the VM proper, whereas ECs of vasa vasorum exhibited up-regulation of inflammation markers. In the tunica media, an altered ECM turnover and composition was found. Conclusions: Our studies demonstrate dysregulated gene expression in tunica interna, media and externa of VMs, and show that each of the three layers represents a reactive compartment. The dysregulated genes may serve as therapeutic targets. Experiment Overall Design: - 4 samples Experiment Overall Design: - samples are replicates with dye swap
Project description:The cystic leukoencephalopathy without megalencephaly has been defined as distinct autosomal-recessive syndrome of quasi-static encephalopathy with normo- or microcephaly, impaired psychomotor development and characteristic pattern on brain MRI. We identified mutations in the gene encoding the RNASET2 glycoprotein in seven affected individuals as the cause of disease. The results suggest that RNASET2 plays an important role in central nervous system myelination and development. 2-Color dye swap design independent for two different families including technical and biologial replicates for affected family members (disease) and not affected family members (controls).