Ergot alkaloids are not essential for endophytic fungus-associated population suppression of the lesion nematode, Pratylenchus scribneri, on perennial ryegrass

AbstractSeveral endophytic fungi of the genus Neotyphodium form symbiotic associations with Lolium spp. grasses and are renowned for production of bioactive alkaloids such as ergot alkaloids. Some of these endophytes make their grass partners less suitable as hosts for endoparasitic nematodes, inclu...

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Published in:Nematology : international journal of fundamental and applied nematological research 2006-01, Vol.8 (4), p.583-590
Main Authors: Panaccione, Daniel, Kotcon, James, Schardl, Christopher, Johnson, Richard, Morton, Joseph
Format: Article
Language:English
Subjects:
Agronomy. Soil science and plant productions
Biological and medical sciences
biological resistance
CLAVINES
DEFENSIVE MUTUALISM
ENDOPHYTE
endophytes
ergot alkaloids
ERGOVALINE
Fundamental and applied biological sciences. Psychology
fungi
GENE KNOCKOUT
Genetics and breeding of economic plants
host plants
knockout mutants
Lolium perenne
mutualism
nematode motility
NEOTYPHODIUM
Neotyphodium lolii x Epichloe typhina
Pest animals
Pest resistance
plant defense
Pratylenchus scribneri
resistance mechanisms
root lesion nematodes
Varietal selection. Specialized plant breeding, plant breeding aims
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Summary:AbstractSeveral endophytic fungi of the genus Neotyphodium form symbiotic associations with Lolium spp. grasses and are renowned for production of bioactive alkaloids such as ergot alkaloids. Some of these endophytes make their grass partners less suitable as hosts for endoparasitic nematodes, including Pratylenchus spp. The potential for ergot alkaloids to affect nematode motility was investigated in vitro. Ergovaline, the ergot alkaloid pathway end product of several Neotyphodium spp., was the only ergot alkaloid tested that inhibited motility of Pratylenchus scribneri. The association of ergot alkaloids with nematode population suppression was examined in glasshouse experiments with strains of the perennial ryegrass endophyte Neotyphodium sp. isolate Lp1 (syn. Neotyphodium lolii × Epichloë typhina) that have been genetically modified to lack ergot alkaloids or to have an altered ergot alkaloid profile. Populations of P. scribneri were significantly smaller in pots of perennial ryegrass containing the wild-type, ergot alkaloid-producing endophyte than in pots of endophyte-free perennial ryegrass. Elimination of certain complex ergot alkaloids (ergovaline and lysergic acid amides) in one gene knockout strain, or complete elimination of ergot alkaloids in another, did not affect the ability of the endophyte to suppress populations of nematode. Presence and concentrations of ergot alkaloids in pseudostems were as expected based on presence and genotype of endophyte in each plant, but frequently were undetectable or in low concentration in roots. The data indicate that ergot alkaloids do not contribute significantly to the endophyte-associated suppression of Pratylenchus spp.
ISSN:1388-5545
1568-5411
1388-5545
DOI:10.1163/156854106778614074