Local trafficking and long-distance transport of small RNAs in plants.

Canonical small RNAs in plants, including miRNAs and siRNAs, are key triggers of RNA interference and regulate nearly every major biological process in plants. To establish systemic silencing, small RNAs undergo both short-distance intracellular trafficking or intercellular communication and long-distance transport from one organ to another, even across parasites or pathogens. This enables the delivery of effector molecules throughout the plant, promoting the spread of gene silencing. Biologically, the spatiotemporal regulation of small RNAs results in gradient distributions within cells or along the direction of organogenesis. Furthermore, the spreading capacity of small RNAs, generated in somatic or nurse cells, can guide target gene silencing in germlines in plants. In this review, we summarize recent advances in understanding the regulation and the functional roles of local trafficking and long-distance transport of plant small RNAs in developmental polarity, the maintenance of cell identity, and with a particular focus, the mechanisms of small RNA movement and delivery between companion cells and gametes in plants. Additionally, we discuss the methods and challenges of monitoring small RNA transport in vivo through live imaging, as well as the potential applications of small RNA transport and delivery in the development of RNA-based pesticides.