RRC ID 85139
Author Fukushima HS, Takeda H.
Title Coordinated action of multiple active histone modifications shapes the zygotic genome activation in teleost embryos.
Journal Nat Commun
Abstract Zygotic genome activation (ZGA) is a critical developmental milestone characterized by the rapid and simultaneous activation of genome-widely silenced chromatin. Various active histone modifications accumulate upon ZGA and have long been implicated in ZGA. However, their biological relevance still remains unclear. Here, we comprehensively examined the functional significance of active histone modifications and their writers during ZGA in teleost embryos. Our data propose that developmental genes and housekeeping genes are distinctively regulated during ZGA; CBP/P300 activity is required for developmental gene activation, whereas housekeeping genes depend on non-CBP/P300 histone acetylations H3K9ac/H4K16ac/H3K14ac. Moreover, accumulation of H3K4me2/3 is not prerequisite for activation of all types of genes during ZGA, in contrast to previous reports with cell lines. Finally, temporal accumulation of H3.3S31ph greatly enhances CBP/P300 activity specifically at ZGA, ensuring the activation of developmental genes. Our data demonstrate that multiple histone modifications cooperatively shape ZGA-specific gene activation programs in non-mammalian vertebrates.
Volume 16(1)
Pages 5222
Published 2025-6-16
DOI 10.1038/s41467-025-60246-x
PII 10.1038/s41467-025-60246-x
PMID 40523893
PMC PMC12170911
MeSH Acetylation Animals Chromatin / metabolism Embryo, Nonmammalian / metabolism Gene Expression Regulation, Developmental* Genome* Histone Code* / genetics Histones* / genetics Histones* / metabolism Transcriptional Activation Zebrafish* / embryology Zebrafish* / genetics Zygote* / metabolism
IF 12.121
Resource
Human and Animal Cells BRF41(RCB0804)
Zebrafish RIKEN WT (RW)