Abstract
Plants seem to take up exogenous RNA that was artificially designed to target specific genes, followed by activation of the RNA interference (RNAi) machinery. It is, however, not known whether plants use RNAs themselves as signalling molecules in plant-to-plant communication, other than evidence that an exchange of small RNAs occurs between parasitic plants and their hosts. Exogenous RNAs from the environment, if taken up by some living organisms, can indeed induce RNAi. This phenomenon has been observed in nematodes and insects, and host Arabidopsis cells secrete exosome-like extracellular vesicles to deliver plant small RNAs into Botrytis cinerea. Here we show that micro-RNAs (miRNAs) produced by plants act as signalling molecules affecting gene expression in other, nearby plants. Exogenous miRNAs, such as miR156 and miR399, trigger RNAi via a mechanism requiring both AGO1 and RDR6. This emphasizes that the production of secondary small interfering RNAs is required. This evidence highlights the existence of a mechanism in which miRNAs represent signalling molecules that enable communication between plants.
Highlights
Plants seem to take up exogenous RNA that was artificially designed to target specific genes, followed by activation of the RNA interference (RNAi) machinery
We explored the possibility that miRNAs can silence their target genes when applied exogenously to Arabidopsis seedlings grown in vitro
These results suggest that exogenous miRNAs trigger RNAi in the receiving plant
Summary
Plants seem to take up exogenous RNA that was artificially designed to target specific genes, followed by activation of the RNA interference (RNAi) machinery. Exogenous miRNAs, such as miR156 and miR399, trigger RNAi via a mechanism requiring both AGO1 and RDR6 This emphasizes that the production of secondary small interfering RNAs is required. SRNAs are mobile signalling and regulatory molecules within the plant, and move between plants and interacting organisms, including pathogens, to induce gene silencing. This phenomenon is known as cross-kingdom/organism RNA interference (RNAi)[9]. Locally sprayed double-stranded RNAs (dsRNAs) inhibit pathogen virulence at distal, non-treated leaves[13,14] This suggests that these artificially synthesized dsRNAs spread systemically within plants after external application on the leaf surface
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