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ARS Home » Northeast Area » Beltsville, Maryland (BARC) » Beltsville Agricultural Research Center » Soybean Genomics & Improvement Laboratory » Research » Publications at this Location » Publication #268764

Title: The Domesticated Tepary Bean Accession G40022 Has Broader Resistance to the Highly Variable Bean Rust Pathogen than the Known Rust Resistance Genes in Common Bean

Author
item Pastor Corrales, Marcial - Talo
item STEADMAN, JAMES - University Of Nebraska
item URREA, CARLOS - University Of Nebraska
item BLAIR, MATHEW - International Center For Tropical Agriculture (CIAT)
item VENEGAS, JOSE - University Of Nebraska

Submitted to: Bean Improvement Cooperative Annual Report
Publication Type: Trade Journal
Publication Acceptance Date: 5/1/2011
Publication Date: 7/1/2011
Citation: Pastor Corrales, M.A., Steadman, J., Urrea, C., Blair, M., Venegas, J. 2011. The Domesticated Tepary Bean Accession G40022 Has Broader Resistance to the Highly Variable Bean Rust Pathogen than the Known Rust Resistance Genes in Common Bean. Bean Improvement Cooperative Annual Report. p.122-123.

Interpretive Summary:

Technical Abstract: Management of the rust disease of dry and snap beans is complicated by the ability of the bean rust pathogen to recurrently produce new virulent strains. The most effective strategy to manage this hyper-virulent pathogen is to grow bean varieties with very broad rust resistance; however, this requires an assortment of effective rust resistance genes. About a dozen rust resistance genes are available in common bean. None of them are resistance to all races of the rust pathogen. Recently we discovered that the domesticated tepary bean accession G 40022 had broad resistance to rust. When we conducted a study to compare the resistance in G 40022 with that of the rust resistance genes present in common bean, the results were outstanding. They revealed that the resistance in the tepary bean was determined by a single gene. More importantly, this was the only gene with resistance to all races of the rust pathogen used in this study. Thus, the new rust resistance in the tepary bean was broader in spectrum than any rust resistance gene present in common bean. These results are particularly useful to plant breeders and geneticists using rust resistance genes to manage a disease caused by a highly variable pathogen. The new resistant varieties that could be developed using this gene will benefit dry and snap bean producers.