SDE1/SGS2/RDR6, a putative RNA-dependent RNA polymerase (RdRP) from Arabidopsis thaliana, has previously been found to be indispensable for maintaining the posttranscriptional silencing of transgenes, but it is seemingly redundant for antiviral defense. To elucidate the antiviral role of this RdRP in a different host plant and to evaluate whether plant growth conditions affect its role, we down-regulated expression of the Nicotiana benthamiana homolog, NbRDR6, and examined the plants for altered susceptibility to various viruses at different growth temperatures. The results we describe here clearly show that plants with reduced expression of NbRDR6 were more susceptible to all viruses tested and that this effect was more pronounced at higher growth temperatures. Diminished expression of NbRDR6 also permitted efficient multiplication of tobacco mosaic virus in the shoot apices, leading to serious disruption with microRNA-mediated developmental regulation. Based on these results, we propose that NbRDR6 participates in the antiviral RNA silencing pathway that is stimulated by rising temperatures but suppressed by virus-encoded silencing suppressors. The relative strengths of these two factors, along with other plant defense components, critically influence the outcome of virus infections.RNA silencing is a surveillance system in eukaryotic organisms triggered by double-stranded RNA (dsRNA) that is subsequently digested by a dsRNA-specific RNase (Dicer or Dicer-like) into a small RNA species of 21 to 25 nucleotides (nt) long, called small interfering RNA (siRNA). The resultant siRNAs are then recruited into the RNA-induced silencing complex to direct the degradation of other RNAs with sequence complementarity to siRNAs (13). RNA silencing is thought to function primarily in defending eukaryotic cells against RNA molecular parasites, such as RNA viruses and transposon RNAs. Plant viruses, as well as some animal viruses, counteract this host defense mechanism by encoding suppressors of RNA silencing, which act at different steps of the pathway and with various strengths to ensure their successful systemic invasion of specific hosts (26,31).In addition to guarding the host against parasitic RNAs, recent studies have shown that processes highly related to RNA silencing are also involved in developmental regulation (22, 28), methylation of chromosomal DNA and histones, and chromatin maintenance (20,43). miRNA-mediated regulation of gene expression in both animal and plant systems is a particularly interesting discovery. Unlike siRNAs, miRNAs are encoded by genomes of eukaryotes in the form of partially double-stranded precursor molecules, which are processed by Dicer-like RNase(s) to release mature miRNAs. The miRNAs then mediate degradation or translational repression of the target RNAs (15). One well-studied example in plants is miR165/166. This miRNA targets the mRNA of three class III homeodomain leucine zipper (HD-ZIP III) transcription factors, PHABULOSA (PHB), PHAVOLUTA (PHV), and REVOLUTA (REV), for cleavage (10,...
