Site-specific DNA demethylation during spermatogenesis presets the sites of nucleosome retention in mouse sperm

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Site-specific DNA demethylation during spermatogenesis presets the sites of nucleosome retention in mouse sperm

Authors

Maezawa, S.; Yukawa, M.; Sakashita, A.; Barski, A.; Namekawa, S. H.

Abstract

DNA methylation patterns are inherited from the parental germline to the embryo. In mature sperm, the sites of unmethylated DNA are tightly coupled to sites of histone retention at gene regulatory elements that are implicated in paternal epigenetic inheritance. The timing and mechanism of site-specific DNA demethylation in the male germline currently remains unknown. Here, we perform genome-wide profiling of DNA methylation during spermatogenesis by capturing methylated DNA through interaction with a methyl-DNA binding protein domain (MBD). Our data demonstrate that there is a site-specific change in DNA methylation during the mitosis-to-meiosis transition. Importantly, the genomic sites that are demethylated during this transition predetermine nucleosome retention sites in spermatozoa. These results suggest that site-specific DNA demethylation during the mitosis-to-meiosis transition of spermatogenesis prepares embryonic gene expression after fertilization. We therefore propose DNA demethylation during spermatogenesis as a novel phase of epigenetic reprogramming that contributes to embryonic gene regulation.

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