Post-transcriptional gene silencing triggers dispensable DNA methylation in gene body in Arabidopsis

Abstract

Spontaneous post-transcriptional silencing of sense transgenes (S-PTGS) is established in each generation and is accompanied by DNA methylation, but the pathway of PTGS-dependent DNA methylation is unknown and so is its role. Here we show that CHH and CHG methylation coincides spatially and temporally with RDR6-dependent products derived from the central and 3' regions of the coding sequence, and requires the components of the RNAdirected DNA methylation (RdDM) pathway NRPE1, DRD1 and DRM2, but not CLSY1, NRPD1, RDR2 or DCL3, suggesting that RDR6-dependent products, namely long dsRNAs and/or siRNAs, trigger PTGSdependent DNA methylation. Nevertheless, none of these RdDM components are required to establish SPTGS or produce a systemic silencing signal. Moreover, preventing de novo DNA methylation in nonsilenced transgenic tissues grafted onto homologous silenced tissues does not inhibit the triggering of PTGS. Overall, these data indicate that gene body DNA methylation is a consequence, not a cause, of PTGS, and rule out the hypothesis that a PTGSassociated DNA methylation signal is transmitted independent of a PTGS signal.