RNAi-based biocontrol for crops: a revised expectation for a non-recent technology.

Abstract

Main conclusion: The exogenous application of RNAi technology offers new promises for crops improvement. Cell-based or synthetically produced strands are economical, non-transgenic and could induce the same responses. The substantial population growth demands novel strategies to produce crops without further damaging the environment. RNA interference mechanism is one of the promising technologies to biologically control pests and pathogens in crops, suppressing them by cancelling protein synthesis related to parasitism/pathogenesis. The transgenic approach to generate host-induced gene silencing demonstrated high efficacy in controlling pests or pathogens by RNAi mechanism. However, transgenic technology is tightly regulated and still negatively perceived by global consumers. This review presents the basic biology of small RNA, the main actor of the RNAi mechanism, and tested non-transgenic approaches to induce RNAi exogenously. Novel avenues are offered by the discovery of cross-kingdom RNAi, that naturally, plants also deliver small RNA to suppress the growth of their threats. Future applications of non-transgenic RNAi-based biocontrol will involve the production of dsRNA on an industrial scale. Here, the attempts to provide dsRNA for routine application in farms are also discussed, emphasizing that the technology must be accessible by the countries with the greatest population which mostly are poorer ones.