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ARS Home » Midwest Area » Madison, Wisconsin » Vegetable Crops Research » Research » Research Project #419068

Research Project: New Breeding Strategies for Verticillium Wilt Resistance (Wisconsin)

Location: Vegetable Crops Research

2011 Annual Report

1a. Objectives (from AD-416)
Verticillium wilt (VW) of potato is a widespread and persistent problem in virtually all significant production areas in the United States. The only successful control strategy currently available to growers is soil fumigation, which is expensive and environmentally harmful. Host plant resistance offers the most cost-effective long-term control strategy for VW. One likely candidate for a potato VW resistance (R) gene is an ortholog of the tomato Ve gene, which has been cloned and found to confer immunity to VW. We have recently developed a molecular marker within a Ve-like gene from resistant potato and found that this marker co-segregates with the VW resistance phenotype in a segregating population. Our specific objectives are to: 1. Identify germplasm that has been previously documented to be either resistant or susceptible to VW and verify the resistance phenotype using quantitative PCR. 2. Amplify and sequence Ve orthologs from the resistant and susceptible individuals for use in identifying single nucleotide polymorphisms that differentiate resistant from susceptible Ve alleles.

1b. Approach (from AD-416)
Seedling inoculations of wild species populations, phenotypic characterization of the inoculated seedlings, stem DNA extraction and analysis of Ve genes from resistant and susceptible germplasm.

3. Progress Report
This project is focused on further developing a molecular marker for resistance to verticillium wilt, a widespread problem for potato growers nationwide. We had previously identified a gene in potato that correlates with resistance and developed a way to track it in populations generated during breeding. However, the marker to track the gene is very specific for a certain source of resistance, Solanum chacoense. In the past year, 17 natural populations comprising 14 different tuber-bearing Solanum species were infected with Verticillium dahliae (isolates V18 and E10) using a seedling dip assay. The disease resistance or susceptibility data was used as the starting point for sequencing effort of the Ve gene from these species. Sequence differences are being used to differentiate resistant and susceptible species at the genetic level. The scientists associated with the project meet on a weekly basis to discuss progress on the project.

4. Accomplishments