Characterization of histone modifications inside nucleosome H4K31ac and H4K31me1 in Apicomplexan parasites

Apicomplexan genome architecture is typified by a binary chromatin structure, with a major fraction of the bulk genome packaged as transcriptionally permissive euchromatin while few loci are embedded in silenced heterochromatin. There is evidence that histone modifications occurring at the lateral surface of the nucleosome play a substantial role in shaping chromatin structure, yet our understanding of the exact mechanism of action is poor. Here, we address how versatile modifications at Lys31 within the globular domain of histone H4 contribute to genome organization and expression in Apicomplexa. H4K31 acetylation was found at the promoter of active genes. The residue lies where the DNA wraps around the histone and its acetylation may enhance nucleosome disassembly, thereby favoring a more relaxed, open chromatin state. This residue tends also to be monomethylated and depending of the parasite examined different patterns were found. H4K31me1 was enriched in the core body of Toxoplasma active genes, yet its occupancy was inversely correlated with transcripts levels likely because the mark by reducing histone turnover impedes RNA polymerase progression across transcribed units. In contrast to the methylation of H3, it is the first time that a methylated residue of H4 has been clearly associated with transcriptional regulation. In Plasmodium, H4K31me1 was exclusively enriched at transcriptionally inactive genomic regions and peculiarly at pericentromeric heterochromatin, likely to replace the missing H3K9me3 that commonly decorated pericentric nucleosomes in other species.