A family of double-homeodomain transcription factors regulates zygotic genome activation in placental mammals

In metazoan embryos, transcription is mostly silent for a few cell divisions, until release of a first major wave of embryonic transcripts by so-called zygotic genome activation (ZGA) 1. Maternally provided ZGA-triggering factors have been identified in Drosophila melanogaster and Danio rerio 2,3, but their mammalian homologues are still undefined. Here, we reveal that the DUX family of transcription factors 4,5 is essential to this process in human and mouse. First, human DUX4 and murine Dux are both expressed prior to ZGA in their respective species. Second, both orthologues bind the promoters and activate the transcription of ZGA genes. Third, Dux knockout in mouse embryonic stem cells (mESCs) prevents their cycling through a 2-cell-like state. Finally, zygotic depletion of Dux leads to impaired early embryonic development and defective ZGA. We conclude that DUX proteins are key inducers of zygotic genome activation in placental mammals.