AI Article Synopsis
- Germ cell development requires significant changes to the epigenome to prepare for totipotency in zygotes, with H3K4 methylations being key markers regulated by specific methyltransferases, including Setd1a and Setd1b in mammals.* -
- Setd1a is not involved in oocyte development, but a lack of Setd1b in mice leads to female sterility, with observed age-related follicular loss and abnormalities in oocytes.* -
- Setd1b is crucial for expressing important oocyte transcription factors, and its absence results in increased upregulation of certain mRNAs, indicating its role as a maternal effect gene essential for proper oocyte development.*
Article Abstract
Germ cell development involves major reprogramming of the epigenome to prime the zygote for totipotency. Histone 3 lysine 4 (H3K4) methylations are universal epigenetic marks mediated in mammals by six H3K4 methyltransferases related to fly Trithorax, including two yeast Set1 orthologs: Setd1a and Setd1b. Whereas Setd1a plays no role in oogenesis, we report that Setd1b deficiency causes female sterility in mice. Oocyte-specific conditional knockout ( cKO) ovaries develop through all stages; however, follicular loss accumulated with age and unfertilized metaphase II (MII) oocytes exhibited irregularities of the zona pellucida and meiotic spindle. Most cKO zygotes remained in the pronuclear stage and displayed polyspermy in the perivitelline space. Expression profiling of cKO MII oocytes revealed (1) that Setd1b promotes the expression of the major oocyte transcription factors including Obox1, 2, 5, 7, Meis2 and Sall4; and (2) twice as many mRNAs were upregulated than downregulated, suggesting that Setd1b also promotes the expression of negative regulators of oocyte development with multiple Zfp-KRAB factors implicated. Together, these findings indicate that serves as maternal effect gene through regulation of the oocyte gene expression program.
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| http://dx.doi.org/10.1242/dev.143347 | DOI Listing |
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