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DNA methylation differs extensively between strains of the same geographical origin and changes with age in Daphnia magna
Summary
Researchers examined DNA methylation patterns across strains of the same geographical origin, finding methylated cytosines concentrated in early gene exons in a directed non-random pattern, and observed no effect of caloric restriction on methylation despite established impacts on phenotype and gene expression.
Methylated cytosines are concentrated in early exons of gene sequences indicative of a directed, non-random, process despite the low overall DNA methylation percentage in this species. We identify no effect of caloric restriction on DNA methylation, contrary to our previous results, and established impacts of caloric restriction on phenotype and gene expression. We propose our approach here is more robust in invertebrates given genome-wide CpG distributions. For both strain and ageing, a single gene emerges as differentially methylated that for each factor could have widespread phenotypic effects. Our data showed the potential for an epigenetic clock at a subset of age positions, which is exciting but requires confirmation.
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