Maternal or zygotic: Unveiling the secrets of the Pancrustacea transcription factor zelda

6mA-DNA-binding factor Jumu controls maternal-to-zygotic transition upstream of Zelda

A long-standing question in the field of embryogenesis is how the zygotic genome is precisely activated by maternal factors, allowing normal early embryonic development. We have previously shown that N6-methyladenine (6mA) DNA modification is highly dynamic in early Drosophila embryos and forms an epigenetic mark. However, little is known about how 6mA-formed epigenetic information is decoded. Here we report that the Fox-family protein Jumu binds 6mA-marked DNA and acts as a maternal factor to regulate the maternal-to-zygotic transition. We find that zelda encoding the pioneer factor Zelda is marked by 6mA. Our genetic assays suggest that Jumu controls the proper zygotic genome activation (ZGA) in early embryos, at least in part, by regulating zelda expression. Thus, our findings not only support that the 6mA-formed epigenetic marks can be read by specific transcription factors, but also uncover a mechanism by which the Jumu regulates ZGA partially through Zelda in early embryos.

N6-methyladenine (6mA) DNA modification is a dynamic epigenetic mark in Drosophila embryos, but how 6mA is decoded is unclear. Here, the authors show that the protein Jumu binds 6mA-marked DNA to regulate the maternal-to-zygotic transition, partly through regulation the expression of the 6mA marked pioneer factor zelda.