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Review
. 2024 Aug;33(4):159-174.
doi: 10.1007/s11248-024-00387-9. Epub 2024 Jun 10.

The role of microRNAs in NBS-LRR gene expression and its implications for plant immunity and crop development

J C M Rodrigues  1 J Carrijo  2 R M Anjos  3 N B Cunha  3 P Grynberg  2 F J L Aragão  2 G R Vianna  2
Affiliations
Review

The role of microRNAs in NBS-LRR gene expression and its implications for plant immunity and crop development

J C M Rodrigues et al. Transgenic Res. 2024 Aug.

Abstract

Plants evolved, over millions of years, complex defense systems against pathogens. Once infected, the interaction between pathogen effector molecules and host receptors triggers plant immune responses, which include apoptosis, systemic immune response, among others. An important protein family responsible for pathogen effector recognition is the nucleotide binding site-leucine repeat rich (NBS-LRR) proteins. The NBS-LRR gene family is the largest disease resistance gene class in plants. These proteins are widely distributed in vascular plants and have a complex multigenic cluster distribution in plant genomes. To counteract the genetic load of such a large gene family on fitness cost, plants evolved a mechanism using post transcriptional gene silencing induced by small RNAs, particularly microRNAs. For the NBS-LRR gene family, the small RNAs involved in this silencing mechanism are mainly the microRNA482/2118 superfamily. This suppression mechanism is relieved upon pathogen infection, thus allowing increased NBS-LRR expression and triggering plant immunity. In this review, we will discuss the biogenesis of microRNAs and secondary RNAs involved in this silencing mechanism, biochemical and structural features of NBS-LRR proteins in response to pathogen effectors and the evolution of microRNA-based silencing mechanism with a focus on the miR482/2118 family. Furthermore, the biotechnological manipulation of microRNA expression, using both transgenic or genome editing approaches to improve cultivated plants will be discussed, with a focus on the miR482/2118 family in soybean.

Keywords: Crop improvement; Gene silencing; Plant immunity; microRNAs.

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