Shusaku Abe scite author profile

Establishment of the DNA methylation landscape of mammalian oocytes, mediated by the DNMT3A-DNMT3L complex, is crucial for reproduction and development. In mouse oocytes, high levels of DNA methylation occur exclusively in the transcriptionally active regions, with moderate to low levels of methylation in other regions. Histone H3K36me3 mediates the high levels of methylation in the transcribed regions; however, it is unknown which histone mark guides the methylation in the other regions. Here, we show that, in mouse oocytes, H3K36me2 is highly enriched in the X chromosome and is broadly distributed across all autosomes. Upon H3K36me2 depletion, DNA methylation in moderately methylated regions is selectively affected, and a methylation pattern unique to the X chromosome is switched to an autosome-like pattern. Furthermore, we find that simultaneous depletion of H3K36me2 and H3K36me3 results in global hypomethylation, comparable to that of DNMT3A depletion. Therefore, the two histone marks jointly provide the chromatin platform essential for guiding DNMT3A-dependent DNA methylation in mouse oocytes.

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Thermoosmosis through charged membranes

Tasaka

Abe

Sugiura

et al. 1977

Biophysical Chemistry

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TFB2M and POLRMT are essential for mammalian mitochondrial DNA replication

Inatomi

Matsuda

Ishiuchi

et al. 2022

Biochimica et Biophysica Acta (BBA) - Molecular Cell Research

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Shusaku Abe

Reprogramming of the histone H3.3 landscape in the early mouse embryo

Zfp281 Shapes the Transcriptome of Trophoblast Stem Cells and Is Essential for Placental Development

Histone H3K36me2 and H3K36me3 form a chromatin platform essential for DNMT3A-dependent DNA methylation in mouse oocytes

Thermoosmosis through charged membranes

TFB2M and POLRMT are essential for mammalian mitochondrial DNA replication

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