Project description:Experiment 1 - miR-155 and miR-199 Phenotype miR-155 and miR-199 as 23mer miRNA mimics induced a double-stranded RNA response Cells were transfected with miR-155, miR-199 23 mers, negative control or nothing (empty); samples collected in triplicate

Project description:Experiment 2 - MiRNA mimics have a length and passenger strand specific effect Wildtype and mutant variants of miR-155 and negative control miRNA mimics were transfected to address the phenotype

Project description:Experiment 1 - miR-155 and miR-199 Phenotype miR-155 and miR-199 as 23mer miRNA mimics induced a double-stranded RNA response

Project description:Microarry analysis of mouse gene expression profile after transfected with miR-27a mimics (27a-7) and mimic NC (NC-9) Goal was to determine the effects of miR-27a transfection on global gene expression.

Project description:Microarry analysis of mouse gene expression profile after transfected with miR-27a mimics (27a-7) and mimic NC (NC-9) Goal was to determine the effects of miR-27a transfection on global gene expression. Two-condition experiment, 27a-7 vs.NC-9.

Project description:We investigated functions of miRNAs at the level of the whole transcriptome of primary neurons. We transfected mouse E17.5 forebrain primary neuronal cultures (at four to six days of in vitro development) with miRNA mimics and inhibitors. After approximately 48 h post transfection we profiled the effect of these transfections on gene expression with Illumina mRNA microarrays. Cultures were transfected with mimics and inhibitors of five mouse miRNAs (mmu-miR-124, mmu-miR-434-3p, mmu-miR-143, mmu-miR-145 and mmu-miR-25) and with a mimic of a non-mouse miRNA (cel-miR-67). Direct widespread inhibition of gene expression by the perturbed miRNAs was evident when gene expression in cultures transfected with miRNA mimics was compared to those transfected with the inhibitors (or to matched mock transfected cultures): 3-prime UTRs of downregulated transcripts were significantly enriched in seed matching sites for the perturbed miRNAs. Interestingly, analysis of differential gene expression in mock transfected cells (identified through comparison of mock transfected cultures with matched untreated cultures) revealed that genes inhibited by miRNAs were enriched in genes upregulated in mock transfected cultures. This inhibition was the most efficient by the two neuronal miRNAs under investigation (mmu-miR-124 and mmu-miR-434-3p). To investigate if miRNA mediated inhibition of stress induced genes (i.e. stress associated with transfections) was also the case in other stresses, we profiled gene expression changes triggered by chronic neuronal depolarisation. For this, we treated the cultures with KCl (15 mM, 48 h) and compared them to matched untreated cultures. We found that genes upregulated by KCl had a significant intersection with those upregulated by the mock transfection. Moreover, we also found that genes upregulated by KCl had a significant intersection with genes inhibited by mmu-miR-124 and mmu-miR-434-3p. Therefore we concluded that neuronal miRNAs stabilise the neuronal transcriptome by inhibiting stress inducible genes.

Project description:RAW264.7 mouse macrophages were transfected with negative control and miR-342-3p mimics and subjected to microarray analysis 18 hours after the transfection. We used microarray to obtain global mRNA expression data of negative control and miR-342-3p mimics-transfected RAW264.7 cells.

Project description:We examined the influence of chemical modifications patterns in a set of miR-200c, miR-155 and miR-34a mimics, assessing the regulation of the whole transcriptome in A549 cells. We examined the mimics and provided an initial set of rules for designing miRNA mimics with potency and selectivity similar to an unmodified miRNA duplex.

Project description:Mouse peritoneal macrophages were transfected with 80-120 nM miRIDIAN miRNA mimics (miR-mimic-33/miR-mimic-33*) or with 80-120 nM miRIDIAN miRNA inhibitors (anti-miR-33 ASO/anti-miR-33*ASO) Control samples were treated with an equal concentration of a non-targeting control mimics sequence (control mimic) or inhibitor negative control sequence (control aso), to control for non-specific effects in miRNA experiments.

Project description:800-plex Nanostring miRNA experession from CRL1790 cells transfected with miR mimics or no-transfection control.