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:To investigate which genes are up- or down-regulated during L4 sleep in C. elegans mutant aptf-1(gk794) we performed whole genome microarray expression profiling using the C. elegans (V2) Gene Expression Microarray, 4x44K from Agilent Technologies.
Project description:Comparison of gene expression profiles from C. elegans mutant strains (MIR73, MIR75 or MIR77) overexpressing genes involved in proline metabolism (B0513.5 or T22H6.2) with wildtype strain (N2) at 5 days after L4 larvae stage. Jena Centre for Systems Biology of Ageing - JenAge (www.jenage.de)
Project description:To investigate which genes are up- or down-regulated during L4 sleep in C. elegans mutant aptf-1(gk794) we performed whole genome microarray expression profiling using the C. elegans (V2) Gene Expression Microarray, 4x44K from Agilent Technologies. Approximately 200 sleeping L4 worms were used per sample. As a control we have used N2 C. elegans wild type strain. Mutant condition (aptf-1(gk794)) and control (N2) were done in four replicates.
Project description:Transcriptional profiling of N2 (WT) and miR-85(m4117) Caenorhabditis elegans at larval stage 4 (L4) compared at either control temperature (20°C) or after 3hr HS (35°C).
Project description:The nematode Caenorhabditis elegans (C. elegans) is often used as a model organism to study cell and developmental biology. Quantitative mass spectrometry has only recently been performed in C. elegans and, so far, most studies have been done on adult worm samples. Here we use quantitative mass spectrometry to characterise protein level changes across the four larval developmental stages (L1-L4) of C. elegans, in biological triplicate. In total, we identify 4,130 proteins and quantify 1,541 proteins that were identified across all four stages in all three biological repeats with at least 2 unique peptides per protein. Using hierarchical clustering and functional ontological analyses, we identify 21 protein groups containing proteins with similar protein profiles across the four stages, and highlight the most overrepresented biological functions in each of these protein clusters. In addition, we use the dataset to identify putative larval stage specific proteins in each individual developmental stage, as well as in the early and late developmental stages. In summary, this dataset provides a system-wide analysis of protein level changes across the four C. elegans larval developmental stages, which serves as a useful resource for the worm development research community.
