Locus-specific control of the de novo DNA methylation pathway in Arabidopsis by the CLASSY family

DNA methylation is essential for gene regulation, transposon silencing and imprinting. Although the generation of specific DNA methylation patterns is critical for these processes, how methylation is regulated at individual loci remains unclear. Here we show that a family of four putative chromatin remodeling factors, CLASSY (CLSY) 1–4, are required for both locus-specific and global regulation of DNA methylation in Arabidopsis thaliana . Mechanistically, these factors act in connection with RNA polymerase-IV (Pol-IV) to control the production of 24-nucleotide small interfering RNAs (24nt-siRNAs), which guide DNA methylation. Individually, the CLSYs regulate Pol-IV–chromatin association and 24nt-siRNA production at thousands of distinct loci, and together, they regulate essentially all 24nt-siRNAs. Depending on the CLSYs involved, this regulation relies on different repressive chromatin modifications to facilitate locus-specific control of DNA methylation. Given the conservation between methylation systems in plants and mammals, analogous pathways may operate in a broad range of organisms. CLASSY chromatin remodeling factors (CLSY 1–4) are shown to regulate DNA methylation in Arabidopsis , both globally and in a locus-specific manner. CLSYs and RNA polymerase IV control the production of 24-nucleotide siRNAs, which guide DNA methylation.