Project description:Purpose: To uncover immune and longevity genes and pathways that are modulated by the homeodomain PITX1/UNC-30, which plays a vital role in the GABAergic signaling in C elegans Methods: RNA was extracted from synchronized L4 stage unc-30(ok613) and WT animals grown at 20 C using Qiagen extraction kits and following standard methods Results: RNA seq analyses shows enriched and signficant upregulated immune, neuropeptide, ageing and metabolism genes and pathways that are dependent of GABAergic signaling Conclusions: Our study uncovered GABAgergic signaling to be modulator of the innate immunity in C elegans
Project description:Purpose: To uncover immune mediated genes and pathways by Pseudomonas aeruginosa infection that are modulated by the homeodomain PITX1/UNC-30, which plays a vital role in the GABAergic signaling in C. elegans Methods: RNA was extracted from synchronized Pseudomonas aeruginosa infected L4 stage unc-30(ok613) and WT using Qiagen extraction kits and following standard methods. The animals were grown on OP50 at 20 C and infected at 25 C. Results: RNA seq analyses shows enriched and signficant Pseudomonas aeruginosa mediated upregulated immune, neuropeptide and metabolism genes and pathways that are dependent of GABAergic signaling Conclusions: Our study uncovered GABAgergic signaling to be modulator of the innate immunity in C elegans during Pseudomonas aeruginosa infection
Project description:The hlh-30 gene encodes a C. elegans basic-helix-loop-helix (bHLH) transcription factor; We compared RNA from wild type worms and worms mutant for the hlh-30 gene to identify putative target genes of the HLH-30 transcription factor. Experiment Overall Design: Total RNA from three biological replicates were isolated from embryos, L1 larvae, and L2 larvae from both wild type and hlh-30(tm1978) mutant worms
Project description:To gain molecular insights on how UNC-49 regulates C. elegans innate immunity, we used RNA sequencing to profile gene expression in unc-49(e407) animals relative to wild-type animals with or without P. aeruginosa(PA14) infection. We found that UNC-49 suppresses the expression of insulin pathway genes, and lack of UNC-49-mediated suppression in unc-49(e407) animals contributes to their improved survival against P. aeruginosa infection.