Dnmt1a is essential for gene body methylation and the regulation of zygotic genome activation in the wasp
2021
Abstract Gene body methylation (GBM) is an ancestral aspect of DNA methylation (Sarda, Zeng, Hunt, & Yi, 2012; Yi, 2012; Zemach, McDaniel, Silva, & Zilberman, 2010) whose role in development has been obscured by the more prominent roles of promoter and CpG island methylation. The wasp Nasonia has little promoter and CpG island methylation, yet retains strong GBM (Park et al., 2011; Wang et al., 2013; Werren et al., 2010), making it an excellent model for elucidating the role of GBM. Here we show that Nasonia DNA methyl transferase 1a (Nv-Dnmt1a) knockdown leads to failures in cellularization and gastrulation of the embryo. Both of these disrupted events are hallmarks of the maternal-zygotic transition (MZT) in insects. Analysis of the embryonic transcriptome and methylome revealed strong reduction of GBM and widespread disruption of gene expression during embryogenesis after Nv-Dnmt1a knockdown. There was a strong correlation between loss of GBM and reduced gene expression in thousands of methylated loci, while affected unmethylated genes tended to be upregulated. We propose that reduced GBM and subsequent lower expression levels of methylated genes was the direct effect of Nv-Dnmt1 knockdown, and that this disruption led to widespread downstream dysregulation of MZT, and manifesting in developmental failure at gastrulation. Significance Statement The importance of gene-body methylation (GBM) in development is unclear, due to the difficulty in teasing apart the effects of cis-regulatory methylation from those of GBM in vertebrate model systems. Unlike vertebrate models, the methylation machinery in the jewel wasp Nasonia vitripennis appears to exclusively mediate GBM, thus simplifying interpretation of the role of GBM in development. Knockdown of DNMT1 (Nv-Dnmt1a) in Nasonia leads to embryonic lethality, which we show is caused by a failure of cellularization and gastrulation. Nv-Dnmt1a knockdown resulted in a global loss of GBM in the embryo, which was strongly correlated with a down-regulation of gene expression. We propose that GBM facilitated by Nv-Dnmt1a is required for proper zygotic genome activation in the wasp.
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