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.
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:In Caenorhabditis elegans, VA and VB motor neurons arise as lineal sisters but synapse with different interneurons to regulate locomotion. VA-specific inputs are defined by the UNC-4 homeoprotein and its transcriptional corepressor, UNC-37/Groucho, which function in the VAs to block the creation of chemical synapses and gap junctions with interneurons normally reserved for VBs. To reveal downstream genes that control this choice, we have employed a cell-specific microarray strategy that has now identified unc-4-regulated transcripts. One of these genes, ceh-12, a member of the HB9 family of homeoproteins, is normally restricted to VBs. We show that expression of CEH-12/HB9 in VA motor neurons in unc-4 mutants imposes VB-type inputs. Thus, this work reveals a developmental switch in which motor neuron input is defined by differential expression of transcription factors that select alternative presynaptic partners. The conservation of UNC-4, HB9, and Groucho expression in the vertebrate motor circuit argues that similar mechanisms may regulate synaptic specificity in the spinal cord.
Project description:Use untargeted lipidomics to investigate differences in hepatic lipid profile between wild type and knockout mice. Mice were fed with high fat diet for 10 weeks and sacrificed under randomly fed condition. Liver were harvested freshly and frozen into liquid nitrogen immediately. Each sample was combined liver tissues from three individual mice in the same group.