The Plant microRNA Pathway: The Production and Action Stages.

Abstract

Plant microRNAs are an endogenous class of small regulatory RNA central to the posttranscriptional regulation of gene expression in plant development and environmental stress adaptation or in response to pathogen challenge. The plant microRNA pathway is readily separated into two distinct stages: (1) the production stage, which is localized to the plant cell nucleus and where the microRNA small RNA is processed from a double-stranded RNA precursor transcript, and (2) the action stage, which is localized to the plant cell cytoplasm and where the mature microRNA small RNA is loaded into an effector complex and is used by the complex as a sequence specificity guide to direct expression repression of target genes harboring highly complementary microRNA target sequences. Historical research indicated that the plant microRNA pathway was a highly structured, almost linear pathway requiring a small set of core machinery proteins. However, contemporary research has demonstrated that the plant microRNA pathway is highly dynamic, and to allow for this flexibility, a large and highly functionally diverse set of machinery proteins is now known to be required. For example, recent research has shown that plant microRNAs can regulate target gene expression via a translational repression mechanism of RNA silencing in addition to the standard messenger RNA cleavage-based mechanism of RNA silencing: a mode of RNA silencing originally assigned to all plant microRNAs. Using Arabidopsis thaliana as our model system, here we report on both the core and auxiliary sets of machinery proteins now known to be required for both microRNA production and microRNA action in plants.