2015
DOI: 10.1038/ncomms8795
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Conserved nematode signalling molecules elicit plant defenses and pathogen resistance

Abstract: Plant-defense responses are triggered by perception of conserved microbe-associated molecular patterns (MAMPs), for example, flagellin or peptidoglycan. However, it remained unknown whether plants can detect conserved molecular patterns derived from plant-parasitic animals, including nematodes. Here we show that several genera of plant-parasitic nematodes produce small molecules called ascarosides, an evolutionarily conserved family of nematode pheromones. Picomolar to micromolar concentrations of ascr#18, the… Show more

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Cited by 211 publications
(183 citation statements)
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References 46 publications
(66 reference statements)
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“…In addition, immunogenic molecular patterns have also been enriched from nematodes, insects, and parasitic plants [6,18,19]. Taken together, this demonstrates the central role of MAMP sensing for plant defense against different types of invaders.…”
Section: Microbe-associated Molecular Patterns (Mamps)mentioning
confidence: 76%
“…In addition, immunogenic molecular patterns have also been enriched from nematodes, insects, and parasitic plants [6,18,19]. Taken together, this demonstrates the central role of MAMP sensing for plant defense against different types of invaders.…”
Section: Microbe-associated Molecular Patterns (Mamps)mentioning
confidence: 76%
“…In our recent studies using transcriptome profiling to characterize the molecular mechanism of the soybean-SCN interaction, significant changes in the expression of genes participating in calcium and ethylene-related pathways were observed, suggesting that calcium and ethylene play important roles in soybean defense against or response to SCN infection (Klink et al 2007b; Klink et al 2007a; Kandoth et al 2011). Calcium- and ethylene-mediated plant defense signaling was recently verified conserved in the plant defenses against nematodes, as previously described (Manosalva et al 2015). …”
Section: Discussionmentioning
confidence: 99%
“…52 Ascarosides featuring short to medium length side chains (C 3 –C 11 ) are abundantly produced by the free-living C. elegans , 46 Panagrellus redivivus , 53 and many other nematode species, 52 whereas ascarosides incorporating longer side chains (C 11 –C 20 ) have been identified in the entomopathogenic Heterorhabditis bacteriophora , 52,54 the animal parasite Pelodera strongyloides , 52 and several plant-parasitic nematode species. 55 Ascarosides with very long-chain fatty acid residues (C 21 –C 33 ) have been identified in the metabolomes of C. elegans peroxisomal β-oxidation mutants 56 as well as in mammalian parasites of the genus Ascaris . 40,57 Considering that many nematode species share identical habitats, overlap in the production of putative ascaroside-based signalling molecules raises interesting questions regarding the maintenance of species-specific communication.…”
Section: Ascaroside Signalling Is Highly Conserved In Nematodesmentioning
confidence: 99%