In germ cell lines, including early preimplantation embryos, centromeres and pericentromeres are known to show a marked hypomethylation pattern compared to somatic cells. Elucidation of the biological function of this region-specific DNA hypomethylation state, region-specific epigenomic manipulation is essential as an analytical method. We have applied genome editing to show that region-specific DNA methylation can be effectively introduced by a fusion protein, TALE, which recognizes pericentromeres, and SssI, a bacterial CpG methyltransferase. This makes it possible to increase the DNA methylation state of the pericentromeres, which is normally about 20%, to about 60-75%, enabling comparative analysis of the developmental processes of normal embryos with hypomethylated pericentromeres and embryos that have been epigenetically edited to be hypermethylated. In this chapter, we describe a method for introducing DNA methylation into pericentromeres of early mouse embryos by expressing TALE-SssI fusion protein and a method for detecting DNA methylation.
Keywords: CpG methyltransferase; DNA methylation; Epigenome editing; Live-cell imaging; Pericentromere; Preimplantation embryos; TALE.
© 2023. The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature.