GSE106672 Long-lived mutants daf-2(e1370) and eat-2 (ad465) expression profilings
In this study, we aimed to identif y key pathways and metabolite fingerprints of longevity shared between the two interventions in worms using a multi-omics integration approach. We collected transcriptomics and metabolomics data from two long-lived mutant worm strains, i.e. daf-2 (impaired IIS pathway) and eat-2 (CR model) and compa red with N2 strain. We detected many key pathways that were upregulated at the gene expression level in both long-lived mutants, such as defense response and lipid storage, while synthesis of macromolecules and developmental processes were downregulated at the transcript level. From our polar metabo lite analysis, we discovered several shared metabolic features between the two long-lived mutants, including glycerol-3P, adenine, xanthine and AMP. In addition, we detected a lowered amino acid pool and two fatty acid species, C18:0 and C17:1, that behaved similarly in both long-lived mutants. Afte r we integrated transcriptomics and metabolomics data based on the annotations in KEGG, our results highlighted a downregulation of pyrimidine metabolism and upregulation of purine metabolism in both long-lived mutants compared to N2 worms. Overall, our findings point towards the existence of shared metabolic pathways that are important for lifespan extension and provide novel insight of potential regulators and metabolic fingerprints for longevity.
Source: GEO: Gene Expression Omnibus - Category: Genetics & Stem Cells Tags: Expression profiling by array Caenorhabditis elegans Source Type: research
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