Project description:We generated animals carrying a genomically integrated mir-124 promoter::gfp transgene and identified mir-124 promoter::GFP labelled cells as a subset of the C. elegans sensory neurons. We used fluorescence activated cell sorting (FACS) to isolate four distinct cell populations: mir-124 expressing (GFP+) and non-expressing (GFP-) cells from both wild-type and mutant animals. RNA samples obtained from the four cell populations were used for Affymetrix gene expression analysis to study the effect of mir-124 deletion on the transcriptome of mir-124 expressing (GFP+) and non-expressing (GFP-) cells.
Project description:The experiment was performed to identify autophagy targets in wildtype and autophagy-deficient forebrain excitatory neurons. Therefore, neurons were isolated from the cortex, hippocampus and striatum of 2-3 weeks old Atg5flox/flox:CamKIIα-Cretg/wt:tdTomato+ (KO) and Atg5wt/wt:CamKIIα-Cretg/wt:tdTomato+ (WT) mice. Neurons in suspension were FACS sorted and excitatory forebrain neurons expressing tdTomato were forwarded to global proteome analysis assessed by LC-MS/MS.
Project description:The experiment was performed to identify autophagy targets in wildtype and autophagy-deficient forebrain inhibitory neurons. Therefore, neurons were isolated from the cortex, hippocampus and striatum of 2-3 weeks old Atg5flox/flox:Slc32a1-Cretg/wt:tdTomato+ (KO) and Atg5wt/wt:Slc332a1-Cretg/wt:tdTomato+ (WT) mice. Neurons in suspension were FACS sorted and inhibitory forebrain neurons expressing tdTomato were forwarded to global proteome analysis assessed by LC-MS/MS.
Project description:Gene expression analysis was conducted on the wildtype Caenorhabditis elegans exposed to silver nanoparticles (AgNPs) using whole genome microarray. Differentially expressed genes from the microarray were selected for the quantitative analysis. The microarray study was conducted in an ecotoxicological context: the integration of gene expression with organism and population level endpoints (survival, growth, reproduction) was investigated, to test the ecotoxicological relevance of AgNPs-induced gene expression. Results provide insight into the global transcription response of C.elegans to AgNPs exposure and also contribute to enhance the potential of C.elegans microarray in ecotoxicology (ecotoxicogenomics). key word: ecotoxicogenomics