Abstract
Ribonucleic acid-mediated transcriptional gene silencing (known as RNA-directed DNA methylation, or RdDM, in Arabidopsis thaliana) is important for influencing gene expression and the inhibition of transposons by the deposition of repressive chromatin marks such as histone modifications and DNA methylation. A key event in de novo methylation of DNA by RdDM is the production of long non-coding RNA (lncRNA) by RNA polymerase V (Pol V). Little is known about the events that connect Pol V transcription to the establishment of repressive chromatin modifications. Using RNA immunoprecipitation, we elucidated the order of events downstream of lncRNA production and discovered interdependency between lncRNA-associated proteins. We found that the effector protein ARGONAUTE4 (AGO4) binds lncRNA independent of the RNA-binding protein INVOLVED IN DE NOVO2 (IDN2). In contrast, IDN2 binds lncRNA in an AGO4-dependent manner. We further found that the de novo DNA methyltransferase DOMAINS REARRANGED METHYLTRANSFERASE2 (DRM2) also associates with lncRNA produced by Pol V and that this event depends on AGO4 and IDN2. We propose a model where the silencing proteins AGO4, IDN2 and DRM2 bind to lncRNA in a stepwise manner, resulting in DNA methylation of RdDM target loci.
Highlights
Eukaryotic genomes contain potentially mobile genomic elements called transposons
We previously demonstrated that polymerase V (Pol V)-mediated binding of AGO4 to chromatin is a general feature of RNA-directed DNA methylation (RdDM) targets (Zheng et al, 2013)
To test if the IN DE NOVO2 (IDN2) homologs IDNL1 and IDNL2 compensate for IDN2 in the idn2 mutant, we compared levels of CHH methylation on AGO4-bound nrpe1 differentially methylated regions (DMRs)
Summary
As new transposition events can damage genomes, for instance by causing insertion mutations (Belancio et al, 2010; Hancks and Kazazian, 2012), transcriptional gene silencing keeps transposons silent. This process is important for gene expression, presumably by targeting transposons embedded in the promoters of genes (Zheng et al, 2013; Zhong et al, 2012; Le Thomas et al, 2013; Taliaferro et al, 2013). Transcriptional gene silencing may control targets by establishing DNA methylation and other repressive chromatin modifications (Bernstein and Hake, 2006; Grewal and Elgin, 2007; Jiang and Pugh, 2009; Hargreaves and Crabtree, 2011). After initial methylation of DNA, CG and CHG methylation can be maintained by copying the information from the parental strand after
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
