Research Project:
MOLECULAR APPROACHES TO UNDERSTANDING HOST RESISTANCE AND PATHOGEN VARIABILITY FOR IMPROVING POTATO DISEASE MANAGEMENT
Location: Genetic Improvement of Fruits and Vegetables
Project Number: 1275-21220-223-00
Project Type:
Appropriated
Start Date: Feb 27, 2007
End Date: Feb 26, 2012
Objective:
Objective 1: Characterize genetic differences in isolates of plant pathogenic streptomycetesand Phytophthora using targeted PCR, markers, regional genome sequencing and biological assays.
Sub-objectives:
a. Characterize populations of Streptomyces causing common scab in the U.S., using PCR and regional genome sequencing of 16s ribosomal RNA genes and genes from the pathogenicity island.
b. Identify and characterize genes and corresponding gene product proteins, peptides and other compounds produced by Streptomyces and Phytophthora that may contribute to pathogenicity.
c. Identify critical components of pathogen genetic variability contributing to variation in severity of common scab and late blight.
d. Identify critical components in the genetic variability of Phytophthora infestans which contributes to variation in disease severity.
Objective 2: Characterize genetic differences in disease resistance of solanaceous hosts in
response to Phytophthora and Streptomyces scabies.
Sub-objectives:
a. Characterize differences in gene expression in both hosts and pathogens to identify pathogenicity determinants, applying RT-PCR, microarray analysis, and functional genomics.
b. Map genes for resistance to common scab onto potato chromosomes, and develop molecular markers for common scab resistance.
Objective 3: Identify plant defense responses in tomato induced by the biocontrol agent F. oxysporum strain CS-20 and determine their contribution to observed biocontrol of Fusarium wilt. Other biocontrol-host-pathogen systems and biocontrol mechanisms will be included as time and resources permit, and as indicated by results.
Objective 4: Identify and characterize genetic traits and gene expression related to biocontrol ability in the biocontrol fungus F. oxysporum strain CS-20.
Objective 5: Characterize interactions between the biocontrol fungus F. oxysporum strain CS-20 and other components of the tomato rhizosphere community.
Approach:
Characterization of genetic differences in isolates of plant pathogenic streptomycetes and Phytophthora will be performed using targeted PCR, markers, regional genome sequencing and biological assays. Populations of Streptomyces causing common scab in the U.S. will be characterized, using PCR and regional genome sequencing of 16S ribosomal RNA genes and genes from the pathogenicity island. Genes and corresponding gene product proteins, peptides and other compounds produced by Streptomyces and Phytophthora that may contribute to pathogenicity will be identified and characterized. Critical components of pathogen genetic variability contributing to variation in severity of common scab and late blight will also be identified. Additionally, genetic differences in disease resistance of solanaceous hosts in response to Phytophthora and Streptomyces scabies are to be characterized, utilizing differences in gene expression in both hosts and pathogens to identify pathogenicity determinants, applying RT-PCR, microarray analysis, and functional genomics. Genes for resistance to common scab will be mapped onto potato chromosomes, and molecular markers for common scab resistance developed. BL1/BL1-P 03/20/07.
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