Project description:Isogenic individuals growing in the same environment often show substantial phenotypic variation. The causes, consequences and molecular bases of inter-individual variation are usually poorly understood. To characterize molecular differences between isogenic individuals, we measured genome-wide expression profiles in synchronized single young adult C. elegans worms.

Project description:Beta-naphthoflavone treated worms

Project description:Comprehensive list of SUMO targets from the nematode Caenorhabditis elegans. SUMO conjugates isolated from transgenic worms carrying 8His and GFP tagged SUMO. The constructs rescues the lethal knock-out of a single SUMO gene, smo-1. SUMO conjugates where isolated from heat shock, arsenite exposure, and UV treated SUMO-GFP worms as well as from control non treated animals. In parallel identical purification procedure was performed with non-transgenic worms and proteins identified with this control where excluded.

Project description:N2 worms treated with Resveratrol

Project description:The gene expression of wild-type worms and kin-1(ok338) mutant worms exposing Salmonella entericaSL1344 at 24 hours

Project description:Worms spun in centrifuge at elevated g values

Project description:Caenorhabditis elegans Variation

Project description:Expression data of worms under different caloric restriction mimetic treatments

Project description:C. elegans daf-10(m79) mutants vs wild-type worms

Project description:Diabesity, characterized by obesity-driven Type 2 diabetes mellitus (T2DM), arises from intricate genetic and environmental interplays that induce various metabolic disorders. The systemic lipid and glucose homeostasis is controlled by an intricate cross-talk of internal glucose/insulin and fatty acid molecules to maintain a steady state of internal environment. In this study, Caenorhabditis elegans were maintained to achieve glucose concentrations resembling the hyperglycemic conditions in diabetic patients to delve into the mechanistic foundations of diabesity. Worms raised on diets high in glucose and cholesterol exhibited notably increased intracellular triglyceride levels, a decrease in both mean and maximum lifespan, and reduced pharyngeal pumping. The diabesity condition induced oxidative stress, evident from heightened ROS levels and distinct FT-IR spectroscopy patterns revealing lipid and protein alterations. Furthermore, impaired dopamine signalling and diminished locomotors behaviour in diabesity-afflicted worms correlated with reduced motility. Through proteomic analysis, differentially regulated proteins encompassing dysregulated KEGG pathways included insulin signalling, Alzheimer's disease, and nicotinic acetylcholine receptor signalling pathways were observed. Moreover, diabesity led to decreased collagen production, resulting in anatomical disruptions validated through microscopy and immunofluorescence staining. This underscores the impact of diabesity on cellular components and structural integrity in C. elegans, providing insights into diabesity-associated mechanisms.