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Genome-wide and locus-specific DNA hypomethylation in G9a deficient mouse embryonic stem cells.

Genes to cells : devoted to molecular & cellular mechanisms (2007-01-11)
Kohta Ikegami, Misa Iwatani, Masako Suzuki, Makoto Tachibana, Yoichi Shinkai, Satoshi Tanaka, John M Greally, Shintaro Yagi, Naka Hattori, Kunio Shiota
RESUMEN

In the mammalian genome, numerous CpG-rich loci define tissue-dependent and differentially methylated regions (T-DMRs). Euchromatin from different cell types differs in terms of its tissue-specific DNA methylation profile as defined by these T-DMRs. G9a is a euchromatin-localized histone methyltransferase (HMT) and catalyzes methylation of histone H3 at lysines 9 and 27 (H3-K9 and -K27). To test whether HMT activity influences euchromatic cytosine methylation, we analyzed the DNA methylation status of approximately 2000 CpG-rich loci, which are predicted in silico, in G9a(-/-) embryonic stem cells by restriction landmark genomic scanning (RLGS). While the RLGS profile of wild-type cells contained about 1300 spots, 32 new spots indicating DNA demethylation were seen in the profile of G9a(-/-) cells. Virtual-image RLGS (Vi-RLGS) allowed us to identify the genomic source of ten of these spots. These were confirmed to be cytosine demethylated, not just at the Not I site detected by the RLGS but extending over several kilobase pairs in cis. Chromatin immunoprecipitation (ChIP) confirmed these loci to be targets of G9a, with decreased H3-K9 and/or -K27 dimethylation in the G9a(-/-) cells. These data indicate that G9a site-selectively contributes to DNA methylation.

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Normal Rabbit IgG, Normal Rabbit IgG Polyclonal Antibody control validated for use in Immunoprecipitation & Western Blotting.