Project description:A SWATH-based worflow has been developed for C. elegans proteome profiling, including sample preparation, SWATH spectral library generation and downstream data treatment. The influence of mrps-5 RNAi treatment on C. elegans total proteome were studied.

Project description:We previously showed that the C. elegans Mediator subunit MDT-15 impacts expression of select genes involved in fatty acid (FA) metabolism (Taubert et al, Genes & Dev, 2006). To comprehensively identify processes downstream of MDT-15 in an unbiased manner, we set out to globally discover new MDT-15-dependent genes. Keywords: Expression profiling, RNAi depletion

Project description:A SWATH-based worflow has been developed for C. elegans proteome profiling, including sample preparation, SWATH spectral library generation and downstream data treatment. The influences of several RNAi treatments (including mrps5, fzo1, drp1, eat3) on C. elegans total proteome were studied.

Project description:Gene expression was compared from adult C. elegans after RNAi

Project description:bmp4 RNAi gene expression profiling

Project description:equinox RNAi gene expression profiling

Project description:Gene silencing mediated by dsRNA (RNAi) can persist for multiple generations in C. elegans (termed RNAi inheritance). Here we describe the results of a forward genetic screen in C. elegans that has identified six factors required for RNAi inheritance: GLH-1/VASA, PUP-1/CDE-1, MORC-1, SET-32, and two novel nematode-specific factors that we term here (heritable RNAi defective) HRDE-2 and HRDE-4. The new RNAi inheritance factors exhibit mortal germline (Mrt) phenotypes, which we show is likely caused by epigenetic deregulation in germ cells. We also show that HRDE-2 contributes to RNAi inheritance by facilitating the binding of small RNAs to the inheritance Argonaute (Ago) HRDE-1. Together, our results identify additional components of the RNAi inheritance machinery whose sequence conservation provides insights into the molecular mechanism of RNAi inheritance, further our understanding of how the RNAi inheritance machinery promotes germline immortality, and show that HRDE-2 couples the inheritance Ago HRDE-1 with the small RNAs it needs to direct RNAi inheritance and germline immortality.

Project description:Comparison of gene expression profiles from C. elegans mutant strain CF1038 treated with L4440 and K02A4.1 RNAi and C. elegans mutant strain TU3311 treated with L4440 and B0412.2 RNAi for 5 days after L4 larvae stage. Jena Centre for Systems Biology of Ageing - JenAge (www.jenage.de)

Project description:This dataset addresses two phenomena affected by reference strain bias in model organism research, specifically in the nematode C. elegans. I) C. elegans is the leading system for research into RNA interference (RNAi); this research has been conducted exclusively in the reference strain. However, sensitivity to RNAi is remarkably diverse across wild-type strains. Here, we used RNA sequencing to evaluate the transcriptional response of the reference strain and four other strains to RNAi by transcriptionally profiling these strains in three conditions: exogenous RNAi targeting germline-expressed genes 1) par-1 and 2) pos-1, and 3) the control condition. II) Gene expression quantification in non-reference strains relies on successful alignment of DNA reads to the reference genome, but high sequence divergence can lead to mapping failure. Here, we used this RNA-seq dataset to characterize the extent to which poor DNA genome assembly limits expression quantification inferences.

Project description:Hsp90 RNAi in C. elegans