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Principles of miRNA/miRNA* function in plant <i>MIRNA</i> processing

Santiago Rosatti, Arantxa M. L. Rojas, Belén Moro, Irina P. Suárez, Nicolás G. Bologna, Uciel Chorostecki, Javier F. Palatnik

2024Nucleic Acids Research27 citationsDOIOpen Access PDF

Abstract

MicroRNAs (miRNAs) are essential regulators of gene expression, defined by their unique biogenesis, which requires the precise excision of the small RNA from an imperfect fold-back precursor. Unlike their animal counterparts, plant miRNA precursors exhibit variations in sizes and shapes. Plant MIRNAs can undergo processing in a base-to-loop or loop-to-base direction, with DICER-LIKE1 (DCL1) releasing the miRNA after two cuts (two-step MIRNAs) or more (sequential MIRNAs). In this study, we demonstrate the critical role of the miRNA/miRNA* duplex region in the processing of miRNA precursors. We observed that endogenous MIRNAs frequently experience suboptimal processing in vivo due to mismatches in the miRNA/miRNA* duplex, a key region that fine-tunes miRNA levels. Enhancing the interaction energy of the miRNA/miRNA* duplex in two-step MIRNAs results in a substantial increase in miRNA levels. Conversely, sequential MIRNAs display distinct and specific requirements for the miRNA/miRNA* duplexes along their foldback structure. Our work establishes a connection between the miRNA/miRNA* structure and precursor processing mechanisms. Furthermore, we reveal a link between the biological function of miRNAs and the processing mechanism of their precursors with the evolution of plant miRNA/miRNA* duplex structures.

Topics & Concepts

BiologymicroRNAComputational biologyFunction (biology)GeneticsGenePlant Molecular Biology ResearchChromosomal and Genetic VariationsPlant Genetic and Mutation Studies