Abstract
Plant RNA silencing operates via RNA-directed DNA-methylation (RdDM) to repress transcription or by targeting mRNAs via posttranscriptional gene silencing (PTGS). These pathways rely on distinct Dicer-like (DCL) proteins that process double-stranded RNA (dsRNA) into small-interfering RNAs (siRNAs). Here, we explored the expression and subcellular localization of Arabidopsis thaliana DCL4. DCL4 expression predominates as a transcription start site isoform encoding a cytoplasmic protein, which also represents the ancestral form in plants. A longer DCL4 transcript isoform encoding a nuclear localization signal, DCL4(NLS), is present in Arabidopsis, but DNA methylation normally suppresses its expression. Hypomethylation caused by mutation, developmental reprogramming, and biotic stress correlates with enhanced DCL4(NLS) expression, while hypermethylation of a DCL4 transgene causes a reduction in DCL4(NLS) expression. DCL4(NLS) functions in a noncanonical siRNA pathway, producing a unique set of 21-nucleotide-long "disiRNAs," for DCL4(NLS) isoform-dependent siRNAs, through the nuclear RdDM dsRNA synthesis pathway. disiRNAs originate mostly from transposable elements (TEs) and TE-overlapping/proximal genes, load into the PTGS effector ARGONAUTE1 (AGO1), and display a subtle effect on transcript accumulation together with overlapping 24-nucleotide siRNAs. We propose that, via PTGS, disiRNAs could help to tighten the expression of epigenetically activated TEs and genes using the methylation-state-responsive DCL4(NLS).