Project description:To identify methylated small RNAs in C. elegans, we deep sequenced both β-eliminated and untreated small RNAs isolated from wild type C. elegans.
Project description:This project aims to identify novel RNA binding proteins in the nematode, Caenorhabditis elegans. Since interactions between RNAs and proteins may be transient, these animals were crosslinked with UV light at 254 nm which promotes the covalent link between proteins and RNAs. After this, polyadenylated mRNAs were purified via oligo(dT) coupled to magentic beads under stringent conditions. Finally, samples were subjected to mass spectrometry analysis. To rule out the possibility of RNA-independent binding we also analysed other samples: i) samples digested with RNase one; ii) samples where we performed competition assays with polyadenylic acid
Project description:We investigated the transcriptome of B. cenocepacia under infection of the nematode Caenorhabditis elegans. RNAs fractions extracted from C. elegans infected with B. cenocepacia were used for Illumina high throughput sequencing using the CappableSeq method. The main objective of this work was to identify small non-coding RNAs (sRNAs) expressed by B. cenocepacia under infection conditions.
Project description:To identify methylated small RNAs in C. elegans, we deep sequenced both β-eliminated and untreated small RNAs isolated from wild type C. elegans. Small RNAs were isolated from larval and adult stage C. elegans and either subjected to β-elimination or no treatment. Small RNA cDNA libraries were sequenced on an Illumina HiSeq instrument, and enrichment or depletion of small RNAs by β-elimination was assessed after library size normalization based on the number of mappable reads in each library.
Project description:To determine if an endogenous 22G siRNA sensor transgene is subject to siRNA amplification, small RNAs were deep sequenced from the sensor and from a control transgene that is identical to the sensor but lacks an siRNA target site. Small RNAs were isolated from synchronized young adult C. elegans and subjected to deep sequencing.
Project description:How lifespan and the rate of aging are set is a key problem in biology. Small RNAs are conserved molecules that impact diverse biological processes through the control of gene expression. However, in contrast to miRNAs, the role of endo-siRNAs in aging remains unexplored. Here, by combining deep sequencing and genomic and genetic approaches in C.CaenorhabditisC. elegans elegans, we reveal an unprecedented role for endo-siRNA molecules in the maintenance of proteostasis and lifespan extension in germline-less animals. Furthermore, we identify an endo-siRNA-regulated tyrosine phosphatase, which limits the longevity of germline-less animals by restricting the activity of the heat shock transcription factor HSF-1. Altogether, our findings point to endo-siRNAs as a link between germline removal and the HSF-1 proteostasis and longevity-promoting somatic pathway. This establishes a role for endo siRNAs in the aging process and identifies downstream genes and physiological processes that are regulated by the endo siRNAs to affect longevity.
