Abstract
Epigenetic modifications must be reprogrammed with each new generation. In Caenorhabditis elegans , defects in histone methylation reprogramming allow for the transgenerational acquisition of longevity. For example, mutations in the putative H3K9 demethylase JHDM-1 extend lifespan after six to ten generations. We noticed that long-lived jhdm-1 mutants appear healthier than wild-type animals from the same generation. To quantify health, we compared the common metric of pharyngeal pumping rate at specific adult ages between early-gen populations with normal lifespans and late-gen populations with long lifespans. Longevity did not affect pumping rate, but long-lived mutants stop pumping at a younger age, suggesting a possible conservation of energy to extend lifespan.
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