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Literature DB >> 30975887

Bacterial medium-chain 3-hydroxy fatty acid metabolites trigger immunity in Arabidopsis plants.

Alexander Kutschera¹, Corinna Dawid², Nicolas Gisch³, Christian Schmid², Lars Raasch¹, Tim Gerster¹, Milena Schäffer¹, Elwira Smakowska-Luzan⁴, Youssef Belkhadir⁴, A Corina Vlot⁵, Courtney E Chandler⁶, Romain Schellenberger⁷, Dominik Schwudke³, Robert K Ernst⁶, Stéphan Dorey⁷, Ralph Hückelhoven¹, Thomas Hofmann², Stefanie Ranf⁸.

Abstract

In plants, cell-surface immune receptors sense molecular non-self-signatures. Lipid A of Gram-negative bacterial lipopolysaccharide is considered such a non-self-signature. The receptor kinase LIPOOLIGOSACCHARIDE-SPECIFIC REDUCED ELICITATION (LORE) mediates plant immune responses to Pseudomonas and Xanthomonas but not enterobacterial lipid A or lipopolysaccharide preparations. Here, we demonstrate that synthetic and bacterial lipopolysaccharide-copurified medium-chain 3-hydroxy fatty acid (mc-3-OH-FA) metabolites elicit LORE-dependent immunity. The mc-3-OH-FAs are sensed in a chain length- and hydroxylation-specific manner, with free (R)-3-hydroxydecanoic acid [(R)-3-OH-C10:0] representing the strongest immune elicitor. By contrast, bacterial compounds comprising mc-3-OH-acyl building blocks but devoid of free mc-3-OH-FAs-including lipid A or lipopolysaccharide, rhamnolipids, lipopeptides, and acyl-homoserine-lactones-do not trigger LORE-dependent responses. Hence, plants sense low-complexity bacterial metabolites to trigger immune responses.

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Year: 2019 PMID： 30975887 DOI： 10.1126/science.aau1279

Source DB: PubMed Journal: Science ISSN： 0036-8075 Impact factor: 47.728

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Cited

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