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Aging and the evolution of the sex-specific chromatin structure in Drosophila

$682,757R56FY2017AGNIH

University Of California Berkeley, Berkeley CA

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Abstract

Aging and the sex-specific chromatin in Drosophila The chromatin landscape is key for gene regulation, but little is known about how it differs between sexes, or over adult life. There is accumulating evidence that chromatin changes during an individual's lifespan contribute to cellular aging. In particular, loss of heterochromatin has been observed in aged cells of several species, including Drosophila. Age-specific mortality rates of male flies are higher and average lifespans are shorter than those of females. Males also contain substantially more heterochromatic DNA than females, due to the presence of a large, repeat-rich Y chromosome, and our preliminary data suggest that the presence of sex chromosomes with different epigenetic profiles in Drosophila (that is, a hyper-transcribed dosage compensated X chromosome, and a silenced heterochromatic Y) result in global changes of chromatin structure between sexes. We propose to compare sex-specific gene expression and epigenetic profiles in Drosophila species and strains with different sex chromosome karyotypes across their lifespan, to study the influence of sex- specific chromatin differences on cellular aging. We will experimentally modify protein levels of genes involved in heterochromatin maintenance, to directly test if heterochromatin formation is a main contributor to sex-specific epigenetic profiles and longevity. Additionally, we will assay chromatin states in time- series samples, and characterize tissue-specific chromatin states in aged vs. young flies, to address the temporal dynamics of changes in chromatin during aging, and potentially important differences in cellular aging across tissues.

View original record on NIH RePORTER →