Project description:RNA-seq transcriptomic comparison of C.elegans, grown on a lawn of OP50 vs on a lawn of vibrio cholerae; shk-1 has been knocked out. The corresponding wildtype data is located in #E-MTAB-13001
Project description:RNA-seq analysis of adult wildtype C.elegans worms which were exposed to two concentrations of H2S (50 and 150ppm) or oxygen control (7% O2), over time (1,2,12h). A likely mixup of some samples was noted based on clustering analysis, and metadata here has been corrected. The original filename contains the initial annotation.
Project description:Compare the global gene expression profiles of Sma-6 and Dbl-1 in L4 stage C. elegans Experiment Overall Design: Sma-6 and Dbl-1 mutants compared
Project description:Aging has been shown to be under genetic control in C. elegans. We performed Affymetrix micorarray-based transcriptional profililng of wild type C. elegans strain Bristol N2 during aging to detect temporal changes in gene expression. RNA was prepared for hybridization to Affy microarrays from synchronized populations of C. elegans at three points during aging: 1) the late larval L4 stage, 2) day 6 of adulthood, and 3) day 15 of adulthood.
Project description:The response of the nematode C. elegans to Y. pestis infection was evaluated by gene expression profiling. A synchronized population of nematodes were exposed to Y. pestis KIM5 for 24h. Transcript levels from Y. pestis-treated animals were compared with animals maintained on relatively nonpathogenic E. coli OP50 for 24h. Three independent RNA isolations were performed following exposure to either Y. pestis KIM5 or E. coli OP50. Exposures to the different pathogens were performed in parallel for each replicate isolation.
Project description:To identify genes differentially expressed during the molt, we collected RNA 30-40 minutes after feeding cessation at the start of the fourth larval stage (L4) lethargus. Additional time points for RNA collection were in the mid-L4 stage, approximately four hours prior to lethargus, and in the young adult stage, four hours after lethargus. These samples were interrogated with the Affymetrix C. elegans Genome Array. A total of 1,804 gene transcripts were up regulated, and 1,088 gene transcripts were down regulated, during the L4 lethargus period compared to the L4 and Adult stages (false discovery rate (FDR) < 0.05). There were a total of 3 groups and 5x replication for each group, for 15 total samples that were analyzed. The groups were (1) L4, (2) L4-lethargus, (3) Adult. We generated the following pairwise comparisons using R/maanova: L4-lethargus vs L4, L4-lethargus vs Adult. The permutation based p-values for each test were multiplied by 2 and transcripts with an FDRM-bM-^IM-$5% were selected.
Project description:The capacity to deal with stress declines during the aging process, and preservation of cellular stress responses is critical to healthy aging. The unfolded protein response of the endoplasmic reticulum (UPRER) is one such conserved mechanism which is critical for the maintenance of several major functions of the ER during stress, including protein folding and lipid metabolism. Hyperactivation of the UPRER by overexpression of the major transcription factor, xbp-1s, solely in neurons drives lifespan extension as neurons send a neurotransmitter-based signal to other tissue to activate UPRER in a non-autonomous fashion. Previous work identified serotonergic and dopaminergic neurons in this signaling paradigm. To further expand our understanding of the neural circuitry that underlies the non-autonomous signaling of ER stress, we activated UPRER solely in glutamatergic, octopaminergic, and GABAergic neurons in C. elegans and paired whole-body transcriptomic analysis with functional assays. We found that UPRER-induced signals from glutamatergic neurons increased expression of canonical protein homeostasis pathways and octopaminergic neurons promoted pathogen response pathways, while minor, but statistically significant changes were observed in lipid metabolism-related genes with GABAergic UPRER activation. These findings provide further evidence for the distinct role neuronal subtypes play in driving the diverse response to ER stress.
Project description:Developmental experiences play critical roles in shaping adult physiology and behavior. We and others previously showed that adult C. elegans which transiently experienced dauer arrest during development (PD: post-dauer) exhibit distinct gene expression profiles as compared to control adults which bypassed the dauer stage. In particular, the expression patterns of subsets of chemoreceptor genes are markedly altered in PD adults. Whether altered chemoreceptor levels drive plasticity in chemosensory behaviors in PD adults is unknown. Via transcriptional profiling of sorted populations of AWA neurons from control and PD adults, we further show that the expression of a subset of chemoreceptor genes in AWA are differentially regulated in PD animals. Our results suggest that developmental experiences may be encoded at the level of olfactory receptor regulation, and provide an elegant mechanism by which C. elegans is able to precisely modulate its behavioral preferences as a function of its current and past experiences.