Bulked Segregant Analysis Using the GoldenGateAssay to Locate the Rpp3 Locus that ConfersResistance to Soybean Rust in Soybean

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Hyten, D. L.; Smith, James R.; Frederick, Reid D.; Tucker, Mark L.; Song, Qijian; Cregan, P. B.
Agricultural Science; Agriculture; Agronomy and Crop Sciences; Botany; Horticulture; Life Sciences; Other Plant Sciences; Plant Biology; Plant Sciences
article description
Few resistance loci to soybean rust (SBR), caused by Phakopsora pachyrhizi Syd., have been genetically mapped and linked to molecular markers that can be used for marker assisted selection. New technologies are available for single nucleotide polymorphism (SNP) genotyping that can be used to rapidly map traits controlled by single loci such as resistance to SBR. Our objective was to demonstrate that the highthroughput SNP genotyping method known as the GoldenGate assay can be used to perform bulked segregant analysis (BSA) to fi nd candidate regions to facilitate effi cient mapping of a dominant resistant locus to SBR designated Rpp3. We used a 1536 SNP GoldenGate assay to perform BSA followed by simple sequence repeat (SSR) mapping in an F2 population segregating for SBR resistance conditioned by Rpp3. A 13-cM region on linkage group C2 was the only candidate region identifi ed with BSA. Subsequent F2 mapping placed Rpp3 between SSR markers BARC_Satt460 and BARC_Sat_263 on linkage group C2 which is the same region identifi ed by BSA. These results suggest that the GoldenGate assay was successful at implementing BSA, making it a powerful tool to quickly map qualitative traits since the Golden- Gate assay is capable of screening 1536 SNPs on 192 DNA samples in three days.