Abstract
Across kingdoms, RNA interference (RNAi) has been shown to control gene expression at the transcriptional- or the post-transcriptional level. Here, we describe a mechanism which involves both aspects: truncated transgenes, which fail to produce intact mRNA, induce siRNA accumulation and silencing of homologous loci in trans in the ciliate Paramecium. We show that silencing is achieved by co-transcriptional silencing, associated with repressive histone marks at the endogenous gene. This is accompanied by secondary siRNA accumulation, strictly limited to the open reading frame of the remote locus. Our data shows that in this mechanism, heterochromatic marks depend on a variety of RNAi components. These include RDR3 and PTIWI14 as well as a second set of components, which are also involved in post-transcriptional silencing: RDR2, PTIWI13, DCR1 and CID2. Our data indicates differential processing of nascent un-spliced and long, spliced transcripts thus suggesting a hitherto-unrecognized functional interaction between post-transcriptional and co-transcriptional RNAi. Both sets of RNAi components are required for efficient trans-acting RNAi at the chromatin level and our data indicates similar mechanisms contributing to genome wide regulation of gene expression by epigenetic mechanisms.
Highlights
RNA interference has been described to be an important epigenetic regulator in almost all eukaryotes
We asked for the silencing trigger, small RNAs, and further RNA interference (RNAi) components to be associated with RDR3-mediated silencing
Our data uncovers the molecular background of Small interfering RNAs (siRNAs) precursors, secondary siRNAs synthesis and heterochromatin formation in this pathway, indicate bidirectional transcription occurring at the transgene locus and, at first glance contradictory, involvement of two RDRs for primary siRNA synthesis
Summary
RNA interference has been described to be an important epigenetic regulator in almost all eukaryotes. This includes post-transcriptional inactivation by mRNA cleavage or inhibition of translation. The endonuclease Dicer or Dicer-like (Dcl) is required to cleave siRNAs of 20–24nt from dsRNA precursors. These are bound by proteins of the Argonaute family: siRNAs guide Argonautes to their target in a homology-dependent manner, inducing silencing by RNA cleavage (posttranscriptional gene silencing, PTGS) or by recruitment of chromatin modifying components an individual locus (transcriptional gene silencing, TGS). Argonautes divide in the Ago clade which was mainly described to act on miRNAs and siRNAs whereas the Piwi clade appears to be expressed mainly in germline cells interacting with Piwiinteracting small RNAs (piRNAs) [8]
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