SRA

Early vertebrate embryos must achieve totipotency and prepare for zygotic genome activation (ZGA). To better understand, we determined DNAme profiles of zebrafish gametes, multiple embryo stages flanking ZGA, and somatic muscle - and compared them to gene activity and histone modifications. First, sperm chromatin patterns are virtually identical to those at ZGA. Unexpectedly, in the oocyte many genes important for germline functions (ie. piwil1) or early development (ie. hox genes) are DNA methylated. Remarkably, these maternal loci are demethylated during zygotic/cleavage stages to precisely the state observed in sperm, even in parthenogenetic embryos lacking a replicating paternal genome. Furthermore, this cohort constitutes the genes/loci that acquire DNAme during development (ie. ZGA to muscle). Finally, DNA methyltransferase inhibition experiments suggest that DNAme silences particular gene/chromatin cohorts at ZGA, preventing their precocious expression. Thus, zebrafish achieve a 'totipotent' chromatin state at ZGA through paternal genome competency and maternal genome DNAme reprogramming.