Martin Groth scite author profile

Summary Histone variants play crucial roles in gene expression, genome integrity and chromosome segregation. However, to what extent histone variants control chromatin architecture remains largely unknown. We report genome-wide profiles of all four types of H2A variants in Arabidopsis and identify that the previously uncharacterized histone variant H2A.W specifically associates with heterochromatin. Genetic analyses show that H2A.W acts in synergy with the heterochromatic marks H3K9me2 and DNA methylation to maintain genome integrity. In vitro, H2A.W enhances chromatin condensation through a higher propensity to promote fiber-to-fiber interactions via its conserved C-terminal motif. In vivo, elimination of H2A.W causes decondensation of heterochromatin and conversely, ectopic expression of H2A.W promotes heterochromatin condensation. These results demonstrate that H2A.W plays critical roles in heterochromatin by promoting higher order chromatin condensation. Since motifs similar to the H2A.W C-terminal motif are present in other histone variants in other organisms, our findings impact our understanding of heterochromatin condensation in eukaryotes.

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Mechanism of DNA Methylation-Directed Histone Methylation by KRYPTONITE

Johnson

et al. 2014

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SUMMARY In Arabidopsis, CHG DNA methylation is controlled by the H3K9 methylation mark through a self-reinforcing loop between DNA methyltransferase CHROMOMETHYLASE3 (CMT3) and H3K9 histone methyltransferase KRYPTONITE/SUVH4 (KYP). We report on the structure of KYP in complex with methylated DNA, substrate H3 peptide and cofactor SAH, thereby defining the spatial positioning of the SRA domain relative to the SET domain. The methylated DNA is bound by the SRA domain with the 5mC flipped out of the DNA, while the H3(1-15) peptide substrate binds between the SET and post-SET domains, with the ε-ammonium of K9 positioned adjacent to bound SAH. These structural insights complemented by in vivo functional data on key mutants of residues lining the 5mC and H3K9-binding pockets within KYP, establish how methylated DNA recruits KYP to the histone substrate. Together, the structures of KYP and previously reported CMT3 complexes provide insights into molecular mechanisms linking DNA and histone methylation.

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A DNA methylation reader complex that enhances gene transcription

Harris

Scheibe

Wongpalee

et al. 2018

Science

200

158

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DNA methylation generally functions as a repressive transcriptional signal, but it is also known to activate gene expression. In either case, the downstream factors remain largely unknown. By using comparative interactomics, we isolated proteins in Arabidopsis thaliana that associate with methylated DNA. Two SU(VAR)3–9 homologs, the transcriptional anti-silencing factor SUVH1, and SUVH3, were among the methyl reader candidates. SUVH1 and SUVH3 bound methylated DNA in vitro, were associated with euchromatic methylation in vivo, and formed a complex with two DNAJ domain-containing homologs, DNAJ1 and DNAJ2. Ectopic recruitment of DNAJ1 enhanced gene transcription in plants, yeast, and mammals. Thus, the SUVH proteins bind to methylated DNA and recruit the DNAJ proteins to enhance proximal gene expression, thereby counteracting the repressive effects of transposon insertion near genes.

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Martin Groth

The Histone Variant H2A.W Defines Heterochromatin and Promotes Chromatin Condensation in Arabidopsis

Mechanism of DNA Methylation-Directed Histone Methylation by KRYPTONITE

A DNA methylation reader complex that enhances gene transcription

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