DNA methylation plays important roles in silencing of transgenes, endogenous genes, and transposable elements (TEs). To identify genes involved in antagonizing transcriptional or DNA hypermethylation-induced gene silencing, a genetic screening was conducted and thus a tho2-8 mutant was recovered. THO2 is a major component of the THO/TREX (Transcription-Export) complex, which plays essential roles in mRNA export. The tho2-8 mutation caused overaccumulation of DNA methylation on a d35S promoter ahead of LUC, suggesting its roles in antisilencing of transgenes. This mutation also resulted in significant genome-wide alterations in DNA methylation in a locus-specific manner, including 2513 hyper-DMRs and 1717 hypo-DMRs. The hyper-DMRs in the tho2-8 mutant not only exhibited a considerable overlap with those in DNA demethylation mutants (like ros1-7), but also with hypo-DMRs from nrpd1-3 and nrpe1-11 mutants, demonstrating that THO2 is able to protect those loci targeted by DNA demethylation and/or RdDM pathways from hypermethylation. The tho2-8 mutant also contained a plethora of CHH hypo-DMRs, which overlapped in large numbers with those from the nrpd1-3 and nrpe1-11 mutants, indicating that THO2 is required for the establishment/maintenance of DNA methylation at many loci. Additionally, the tho2-8 mutation caused an increase in overall 24-nt siRNA levels and many upregulated and downregulated DEGs/DETEs. The effects of THO2 on DNA methylation patterns appeared to be associated with the functioning of Pol IV and Pol V because THO2 physically interacted with NRPD7 and was necessary for normal accumulation levels of several Pol V-dependent IGNs' transcripts. Thus, this study provided valuable insights into new roles of THO2 in DNA methylation patterning.
La et al. (Thu,) studied this question.