Wheat miR408 and miR159 Weaken the Virulence of Parastagonospora nodorum (Berk.) and Induce the Defense Response in Plants (Triticum aestivum L.) Against Pathogens
Svetlana Veselova, Tatyana Nuzhnaya, Guzel Burkhanova, Sergey Rumyantsev, Igor Maksimov

TL;DR
Wheat miR408 and miR159 reduce the harmful effects of a fungal pathogen and boost wheat's defense against it.
Contribution
First demonstration of wheat miRNAs penetrating fungal mycelium and suppressing pathogen virulence genes.
Findings
Spraying siRNA408 and siRNA159 increased wheat resistance to Parastagonospora nodorum.
siRNA159 and siRNA408 suppressed fungal virulence genes and transcription factors in the pathogen.
Wheat defense response included hydrogen peroxide accumulation and activation of salicylic acid signaling.
Abstract
The discovery of bidirectional microRNA transfer between two organisms during plant–microbe interactions and the ability of some fungal pathogens to absorb double-stranded RNA (dsRNA) or short interfering RNA (siRNA) from the environment provided an impetus for exploiting this mechanism in plant defense against pathogens. In this study, we investigated the role of conserved wheat microRNAs (miRNAs), miRNA408 and miRNA159, in inducing plant defense responses and suppressing the virulence of the phytopathogenic ascomycete fungus Parastagonospora nodorum, mediated by necrotrophic effectors (NEs) encoded by SnTox genes regulated by fungal transcription factors (TFs). The foliar spraying with in vitro synthesized siRNA408 and siRNA159 duplexes before inoculation with SnTox3-producing P. nodorum isolate increased wheat plant resistance to the SnB isolate and suppressed the pathogen growth and…
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Taxonomy
TopicsPlant Molecular Biology Research · Plant-Microbe Interactions and Immunity · Fungal and yeast genetics research
