Identification and characterization of molecular marker(s) associated with resistance to TSWV and white mold in peanuts

Authors: Guo, Baozhu; CHEN, XIAOPING - UNIV OF GA; CULBREATH, ALBERT - UNIV OF GA; BRENENMAN, TIM - UNIV OF GA; Holbrook, Carl - Corley

Submitted to: Georgia Peanut Commission Annual Research Project Report
Publication Type: Abstract Only
Publication Acceptance Date: 2/13/2008
Publication Date: 2/13/2008
Citation: Guo, B., Chen, X., Culbreath, A., Brenneman, T., Holbrook, Jr., C.C. 2008. Identification and characterization of molecular marker(s) associated with resistance to TSWV and white mold in peanuts [abstract]. Proceedings of the Georgia Peanut Commission Research Annual Report Meeting, February 13, 2008, Tifton, Georgia.

Interpretive Summary:

Technical Abstract: In peanut production areas in the southeastern U.S., tomato spotted wilt virus disease (TSWV) and white mold have become more prevalent and more severe. TSWV has become a major disease to peanut producers in this area and control methods are limited. White mold is a common and often destructive disease of in Georgia peanut fields. Chemical control adds considerably to the cost of production. Fungicides are already the single biggest cost to most peanut growers. Our strategy is to identify resistance genes and molecular markers associated with disease resistance and develop resistant peanut cultivars by using marker-assistant breeding and selection. A cultivar having disease resistance and high yield would present tremendous advantages for Georgia peanut growers to remain competitive. Progress has been made: 1) 540 SSR markers have been developed for peanut with polymorphisms among the tested diverse tetraploid peanut accessions, including Tifrunner, GT-C20, SunOleic 97R and NC94022. 2) Two mapping populations have been developed from Tifrunner x GT-C20 and SunOleic 97R x NC94022 with 200 F2s and 400 F2s, respectively. Tifrunner is resistant to TSWV and leaf spots. GT-C20 is a Spanish type peanut and has been identified with reduced aflatoxin contamination. NC94022 (botanical variety hirsuta) has been identified with higher resistance to TSWV by Culbreath et al. (2005). 3) We have sequenced over 45,000 peanut ESTs, and identified several peanut EST clones with similarities to tomato TSWV resistance genes. 4) We also have identified two resistance genes from our peanut EST sequence project against White Mold (Sclerotium rolfsii). 5) Cloning and characterization of these potential genes against TSWV and white mold are under way. We also will map these genes using these two F2/F3 mapping populations.