Chemical Ecology Mediated by Fungal Endophytes in Grasses

Chemical Ecology Mediated by Fungal Endophytes in Grasses

Defensive mutualism is widely accepted as providing the best framework for understanding how seed-transmitted, alkaloid producing fungal endophytes of grasses are maintained in many host populations. Here, we first briefly review current knowledge of bioactive alkaloids produced by systemic grass-en...

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Bibliographic Details
Published in:Journal of chemical ecology Vol. 39; no. 7; pp. 962 - 968
Main Authors: Saikkonen, Kari, Gundel, Pedro E., Helander, Marjo
Format: Journal Article
Language:English
Published: Boston Springer US 01-07-2013
Springer Nature B.V
Subjects:
Agriculture
Alkaloids - biosynthesis
Animals
Biochemistry
Biological Microscopy
Biologists
Biomedical and Life Sciences
Chemical ecology
Defense mechanisms
Ecology
Endophytes
Endophytes - metabolism
Entomology
Environmental conditions
Fungi
Genotypes
Grasses
Herbivores
Herbivory
Insecta
Life Sciences
Mutualism
Organic compounds
Plant biology
Poaceae - microbiology
Review Article
Symbiosis
VOCs
Volatile organic compounds
Hormone pathways
Alkaloids
Herbivory
Defense mechanisms
Defensive mutualism
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Summary:Defensive mutualism is widely accepted as providing the best framework for understanding how seed-transmitted, alkaloid producing fungal endophytes of grasses are maintained in many host populations. Here, we first briefly review current knowledge of bioactive alkaloids produced by systemic grass-endophytes. New findings suggest that chemotypic diversity of the endophyte-grass symbiotum is far more complex, involving multifaceted signaling and chemical cross-talk between endophyte and host cells ( e.g. , reactive oxygen species and antioxidants) or between plants, herbivores, and their natural enemies ( e.g. , volatile organic compounds, and salicylic acid and jasmonic acid pathways). Accumulating evidence also suggests that the tight relationship between the systemic endophyte and the host grass can lead to the loss of grass traits when the lost functions, such as plant defense to herbivores, are compensated for by an interactive endophytic fungal partner. Furthermore, chemotypic diversity of a symbiotum appears to depend on the endophyte and the host plant life histories, as well as on fungal and plant genotypes, abiotic and biotic environmental conditions, and their interactions. Thus, joint approaches of (bio)chemists, molecular biologists, plant physiologists, evolutionary biologists, and ecologists are urgently needed to fully understand the endophyte-grass symbiosis, its coevolutionary history, and ecological importance. We propose that endophyte-grass symbiosis provides an excellent model to study microbially mediated multirophic interactions from molecular mechanisms to ecology.
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ISSN:0098-0331
1573-1561
DOI:10.1007/s10886-013-0310-3