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SRA/SET domain-containing proteins link RNA polymerase V occupancy to DNA methylation


ABSTRACT: RNA-directed DNA methylation (RdDM) in Arabidopsis thaliana depends on the synthesis of non-coding RNAs by nuclear RNA polymerase E (NRPE or Pol V) 1-3, but the mechanism by which Pol V is targeted is unknown. Here we show that genome-wide Pol V association with chromatin redundantly requires the SU(VAR)3-9 homologs, SUVH2 and SUVH9. These proteins resemble histone methyltransferases, however a crystal structure reveals that SUVH9 lacks a peptide-substrate binding cleft and lacks a properly formed S-Adenosyl methionine (SAM) binding pocket necessary for normal catalysis, consistent with a lack of methyltransferase activity for these proteins. SUVH2 and SUVH9 both contain SET- and RING-ASSOCIATED (SRA) domains capable of binding methylated DNA, suggesting that they function to recruit Pol V through DNA methylation. Consistent with this model, mutation of the DNA METHYLTRANSFERASE 1, MET1, causes losses of DNA methylation, a nearly complete loss of Pol V at its normal locations, and redistribution of Pol V to sites that become hypermethylated. By tethering SUVH2 with a zinc finger to an unmethylated epiallele of the homeodomain transcription factor FWA, we demonstrate that SUVH2 is sufficient to both recruit Pol V and establish DNA methylation and gene silencing. Our results suggest that Pol V is recruited to DNA methylation through the methyl-DNA binding SUVH2 and SUVH9 proteins, and our mechanistic findings suggest a means for selectively targeting regions of the plant genome for epigenetic silencing.

ORGANISM(S): Arabidopsis thaliana

PROVIDER: GSE52041 | GEO | 2014/01/01

SECONDARY ACCESSION(S): PRJNA226579

REPOSITORIES: GEO

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