Functional redundancy of variant and canonical histone H3 lysine 9 modification inDrosophila

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Abstract

ABSTRACT Histone post-translational modifications (PTMs) and differential incorporation of variant and canonical histones into chromatin are central modes of epigenetic regulation. Despite similar protein sequences, histone variants are enriched for different suites of PTMs compared to their canonical counterparts. For example, variant histone H3.3 occurs primarily in transcribed regions and is enriched for “active” histone PTMs like Lys9 acetylation (H3.3K9ac), whereas the canonical histone H3 is enriched for Lys9 methylation (H3K9me), which is found in transcriptionally silent heterochromatin. To determine the functions of K9 modification on variant versus canonical H3, we compared the phenotypes caused by engineering H3.3 K9R and H3 K9R mutant genotypes in Drosophila melanogaster . Whereas most H3.3 K9R and a small number of H3 K9R mutant animals are capable of completing development and do not have substantially altered protein coding transcriptomes, all H3.3 K9R H3 K9R combined mutants die soon after embryogenesis and display decreased expression of genes enriched for K9ac. These data suggest that the role of K9ac in gene activation during development can be provided by either H3 or H3.3. Conversely, we found that H3.3K9 is methylated at telomeric transposons, and this mark contributes to repressive chromatin architecture, supporting a role for H3.3 in heterochromatin that is distinct from that of H3. Thus, our genetic and molecular analyses demonstrate that K9 modification of variant and canonical H3 have overlapping roles in development and transcriptional regulation, though to differing extents in euchromatin and heterochromatin.

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europepmc
last seen: 2026-05-19T01:45:01.086888+00:00