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Research Project: Control of Fusarium Graminearum Mycotoxins in Wheat, Barley and Corn

Location: Mycotoxin Research

Title: Patterns of Trichothecene Production, Genetic Variability, and Virulence to Wheat of Fusarium Graminearum from Smallholder Farms in Nepal

Authors
item Desjardins, Anne
item Jarosz, Andrew - MSU, E LANSING, MI
item Plattner, Ronald
item Alexander, Nancy
item Brown, Daren
item Jurgenson, James - U OF N IA, CEDAR FALLS,IA

Submitted to: Journal Of Agricultural And Food Chemistry
Publication Acceptance Date: July 9, 2004
Publication Date: August 28, 2004
Citation: Desjardins, A.E., Jarosz, A.M., Plattner, R.D., Alexander, N.J., Brown, D.W., Jurgenson, J.E. 2004. Patterns Of Trichothecene Production, Genetic Variability, And Virulence To Wheat Of Fusarium Graminearum From Smallholder Farms In Nepal. Journal Of Agricultural And Food Chemistry. 52:6341-6346.

Interpretive Summary: The fungus Fusarium graminearum causes wheat head blight worldwide and contaminates grain with mycotoxins. Fusarium graminearum strains from the United States produce the mycotoxin DON only, but strains from Nepal produce both DON and the closely-related mycotoxin NIV. Our study of more than 500 fungal strains from Nepal showed that DON-producing strains cause more wheat head blight than NIV-producing strains. These data indicate that production of DON rather than NIV confers a selective advantage to this important wheat pathogen, and help explain why DON-producing strains predominate on wheat in the United States.

Technical Abstract: Fusarium graminearum causes wheat head blight and contaminates grain with the trichothecenes 4-deoxynivalenol (DON) and nivalenol (NIV). Sequence analysis of trichothecene genes indicates that NIV production is the ancestral trait, however, DON-producers occur worldwide and predominate in North and South America and in Europe. Analysis of a large field population (>500 strains) from Nepal identified three groups that were both genetically distinct and polymorphic for trichothecene production: SCAR1 comprising 95% DON-producers, SCAR2 comprising 94% NIV-producers, and SCAR 3/5 comprising 34% DON-producers/63% NIV-producers. Ability to cause wheat head blight differed between SCAR groups and trichothecene chemotypes: DON-producers were more virulent than NIV-producers across all three SCAR groups and within the SCAR3/5 genetic background. These data support the hypothesis that production of DON rather than NIV confers a selective advantage to this important wheat pathogen.

 
Project Team
Desjardins, Anne
Alexander, Nancy
McCormick, Susan
Proctor, Robert
Kendra, David

Publications

Related National Programs
  Food Safety, (animal and plant products) (108)

 
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