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Methylation of recombinant mononucleosomes by DNMT3A demonstrates efficient linker DNA methylation and a role of H3K36me3

Alexander Bröhm, Tabea Schoch, Michael Dukatz, Nora Graf, Franziska Dorscht, Evelin Mantai, Sabrina Adam, Pavel Bashtrykov, Albert Jeltsch

2022Communications Biology25 citationsDOIOpen Access PDF

Abstract

36me3 containing mononucleosomes by DNMT3A2, DNMT3A catalytic domain (DNMT3AC) and the DNMT3AC/3B3C complex. We show strong protection of the nucleosomal bound DNA against methylation, but efficient linker-DNA methylation next to the nucleosome core. High and low methylation levels of two specific CpG sites next to the nucleosome core agree well with details of the DNMT3A2/3B3-nucleosome structure. Linker DNA methylation next to the nucleosome is increased in the absence of H3K4me3, likely caused by binding of the H3-tail to the ADD domain leading to relief of autoinhibition. Our data demonstrate a strong stimulatory effect of H3K36me3 on linker DNA methylation, which is independent of the DNMT3A-PWWP domain. This observation reveals a direct functional role of H3K36me3 on the stimulation of DNA methylation, which could be explained by hindering the interaction of the H3-tail and the linker DNA. We propose an evolutionary model in which the direct stimulatory effect of H3K36me3 on DNA methylation preceded its signaling function, which could explain the evolutionary origin of the widely distributed "active gene body-H3K36me3-DNA methylation" connection.

Topics & Concepts

DNA methylationMethylationChemistryCell biologyCancer researchBiologyDNAGeneticsGeneGene expressionEpigenetics and DNA MethylationRNA modifications and cancerCancer-related gene regulation