Abstract
The drastic loss of biodiversity has alarmed the public and raised sociopolitical demand for chemical pesticide-free plant production, which is now treated by governments worldwide as a top priority. Given this global challenge, RNAi-based technologies are rapidly evolving as a promising substitute to conventional chemical pesticides. Primarily, genetically modified (GM) crops expressing double-stranded (ds)RNA-mediating gene silencing of foreign transcripts have been developed. However, since the cultivation of GM RNAi crops is viewed negatively in numerous countries, GM-free exogenous RNA spray applications attract tremendous scientific and political interest. The sudden rise in demand for pesticide alternatives has boosted research on sprayable RNA biopesticides, generating significant technological developments and advancing the potential for field applications in the near future. Here we review the latest advances that could pave the way for a quick lab-to-field transition for RNA sprays, which, as safe, selective, broadly applicable, and cost-effective biopesticides, represent an innovation in sustainable crop production. Given these latest advances, we further discuss technological limitations, knowledge gaps in the research, safety concerns and regulatory requirements that need to be considered and addressed before RNA sprays can become a reliable and realistic agricultural approach.
Highlights
Modern agriculture faces diverse challenges related to the fact that the world population is expected to rise by 26% by 2050
It has been hypothesized that the uptake of long, unprocessed double-stranded RNAs (dsRNAs) and its processing into many different inhibitory small interfering RNAs (siRNAs) by the target organism might lead to higher gene silencing efficiencies and increased disease resistance (Koch et al, 2019)
We lack a sufficient data basis for understanding how nano-formulated RNA biopesticides will behave under field conditions
Summary
Modern agriculture faces diverse challenges related to the fact that the world population is expected to rise by 26% by 2050. They showed the uptake of dsRNA into plant cells and induction of endogenous RNA silencing, which mediated systemic protection against the targeted VSR 2b gene of CMV on cowpea and tobacco.
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