The role of maternal-specific H3K9me3 modification in establishing imprinted X-chromosome inactivation and embryogenesis in mice

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Fukuda, Atsushi
Tomikawa, Junko
Miura, Takumi
Hata, Kenichiro
Nakabayashi, Kazuhiko
Akutsu, Hidenori
Umezawa, Akihiro
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https://doi.org/10.1038/ncomms6464Metadata
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Fukuda, Atsushi, Junko Tomikawa, Takumi Miura, Kenichiro Hata, Kazuhiko Nakabayashi, Kevin Eggan, Hidenori Akutsu, and Akihiro Umezawa. 2014. “The role of maternal-specific H3K9me3 modification in establishing imprinted X-chromosome inactivation and embryogenesis in mice.” Nature Communications 5 (1): 5464. doi:10.1038/ncomms6464. http://dx.doi.org/10.1038/ncomms6464.Abstract
Maintaining a single active X-chromosome by repressing Xist is crucial for embryonic development in mice. Although the Xist activator RNF12/RLIM is present as a maternal factor, maternal Xist (Xm-Xist) is repressed during preimplantation phases to establish imprinted X-chromosome inactivation (XCI). Here we show, using a highly reproducible chromatin immunoprecipitation method that facilitates chromatin analysis of preimplantation embryos, that H3K9me3 is enriched at the Xist promoter region, preventing Xm-Xist activation by RNF12. The high levels of H3K9me3 at the Xist promoter region are lost in embryonic stem (ES) cells, and ES-cloned embryos show RNF12-dependent Xist expression. Moreover, lack of Xm-XCI in the trophectoderm, rather than loss of paternally expressed imprinted genes, is the primary cause of embryonic lethality in 70–80% of parthenogenotes immediately after implantation. This study reveals that H3K9me3 is involved in the imprinting that silences Xm-Xist. Our findings highlight the role of maternal-specific H3K9me3 modification in embryo development.Other Sources
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4243243/pdf/Terms of Use
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