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Abstract
DNA methylation has been viewed as a stable component of the epigenome, which is established during development and fixed thereafter. We show here using nearest neighbor analysis, immunocytochemistry, and high performance capillary electrophoresis that the DNA methylation pattern varies in HeLa cells during a single cell cycle. Immunocytochemical analysis in primary human fibroblasts shows similar variations. The global levels of DNA methylation decreased in G1 and increase during the S phase of the cell cycle. Since there was little change in the DNA methylation levels in repetitive sequences throughout the cell cycle, we examined the DNA methylation pattern of unique sequences using a human CpG island microarray. Hybridization with methylated DNA from G1 and S phase of the cell cycle revealed that 174 CG-containing sequences were differentially methylated between G1 and S. 75% of all the variations in DNA methylation detected in unique sequences represented hypomethylation at G0, with changes occurring in both CpG islands and non-CpG islands. Bisulfite mapping confirmed these changes in methylation in the regions identified by the microarray. This is the first demonstration of a dynamic DNA methylation pattern within a single cell cycle of a mature somatic cell. These data are important for our understanding of the stability of DNA methylation patterns in somatic cells.