A Plant miRNA Contributes to Antibacterial Resistance by Repressing Auxin Signaling
Lionel Navarro(John Innes Centre), Patrice Dunoyer(John Innes Centre), Florence Jay(John Innes Centre), Benedict Arnold(John Innes Centre), Nihal Dharmasiri(John Innes Centre), Mark Estelle(John Innes Centre), Olivier Voinnet(John Innes Centre), Jonathan D. G. Jones(John Innes Centre)
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Abstract
Plants and animals activate defenses after perceiving pathogen-associated molecular patterns (PAMPs) such as bacterial flagellin. In Arabidopsis, perception of flagellin increases resistance to the bacterium Pseudomonas syringae, although the molecular mechanisms involved remain elusive. Here, we show that a flagellin-derived peptide induces a plant microRNA (miRNA) that negatively regulates messenger RNAs for the F-box auxin receptors TIR1, AFB2, and AFB3. Repression of auxin signaling restricts P. syringae growth, implicating auxin in disease susceptibility and miRNA-mediated suppression of auxin signaling in resistance.
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