TY - JOUR
T1 - Identification of a soybean rust resistance gene in PI 567104B
AU - Liu, Min
AU - Li, Shuxian
AU - Swaminathan, Sivakumar
AU - Sahu, Binod B.
AU - Leandro, Leonor F.
AU - Cardinal, Andrea J.
AU - Bhattacharyya, Madan K.
AU - Song, Qijian
AU - Walker, David R.
AU - Cianzio, Silvia R.
N1 - Funding Information:
The study was funded by grants from the Iowa Soybean Association (ISA), ISU Project 4403 and the United Soybean Board (USB), Grant # 528, ISU Project Number 4403. The study was also partially supported by the USDA-ARS Projects 6402-21220-012-00D, Crop Genetics Research Unit, Stoneville, Mississippi, and by the Home Economic and Agricultural Experiment Station, College of Agriculture, Iowa State University. Appreciation is extended to the following collaborators of Iowa State University: Dr. Michelle Graham (ARS-USDA), and to graduate students Chantal Liepold, Alexander Luckew, Jordan Baumbach and to Assistant Researchers Peter Lundeen for their help, advice and support during the conduct of this work, to Gregory G. Gebhart for driving the plants to the USDA lab in Stoneville, Mississippi for SBR resistance screening, and to Nieves Rivera-Velez, for the scoring of the plants in the field tests conducted at Quincy FL. We also appreciate the help that David Wright and Jim Marois of the University of Florida provided in planting and managing the plots in Quincy, FL., and to Dr. Zenglu Li, Dr. Donna Harris, of the University of Georgia for providing molecular markers, and F hybrid seed obtained with PI 567104B. Appreciation is also extended to Drs. James Buck, Dan Phillips, and Roger Boerma of the University of Georgia for providing suggestions and reviews of the manuscript. Our gratitude also goes out to Drs. Perry Cregan and David Hyten, who were both at the USDA-ARS Soybean Genomics and Improvement Laboratory in Beltsville, MD at the time this research was conducted, and provided support in the molecular analysis of the RILs. 1
Publisher Copyright:
© 2016, Springer-Verlag Berlin Heidelberg (outside the USA).
PY - 2016/5/1
Y1 - 2016/5/1
N2 - Key message: Using a combination of phenotypic screening and molecular, statistical, and linkage analyses, we have mapped a dominant soybean rust resistance gene in soybean PI 567104B. Abstract: Asian soybean rust (SBR), caused by the fungus Phakopsora pachyrhizi Syd. and P. Syd., is one of the most economically important diseases that affect soybean production worldwide. A long-term strategy for minimizing the effects of SBR is the development of genetically resistant cultivars. The objectives of the study were to identify the location of a rust-resistance (Rpp) gene(s) in plant introduction (PI) 567104B, and to determine if the gene(s) in PI 567104B was different from previously mapped Rpp loci. The progeny of the cross of ‘IAR 2001 BSR’ × PI 567104B was phenotyped from field assays of the F2:3 and F4:5 generations and from a growth chamber assay of 253 F5:6 recombinant inbred lines (RILs). For the growth chamber, the phenotyping was conducted by inoculation with a purified 2006 fungal isolate from Mississippi. A resistance gene locus on PI 567104B was mapped to a region containing the Rpp6 locus on chromosome 18. The high level of resistance of F1 plants from two other crosses with PI 567104B as one of the parents indicated that the gene from PI 567104B was dominant. The interval containing the gene is flanked by the simple sequence repeat (SSR) markers Satt131 and Satt394, and includes the SSR markers BARCSOYSSR_18_0331 and BARCSOYSSR_18_0380. The results also indicated that the resistance gene from PI 567104B is different from the Rpp1 to the Rpp4 genes previously identified. To determine if the gene from PI 567104B is different from the Rpp6 gene from PI 567102B, additional research will be required.
AB - Key message: Using a combination of phenotypic screening and molecular, statistical, and linkage analyses, we have mapped a dominant soybean rust resistance gene in soybean PI 567104B. Abstract: Asian soybean rust (SBR), caused by the fungus Phakopsora pachyrhizi Syd. and P. Syd., is one of the most economically important diseases that affect soybean production worldwide. A long-term strategy for minimizing the effects of SBR is the development of genetically resistant cultivars. The objectives of the study were to identify the location of a rust-resistance (Rpp) gene(s) in plant introduction (PI) 567104B, and to determine if the gene(s) in PI 567104B was different from previously mapped Rpp loci. The progeny of the cross of ‘IAR 2001 BSR’ × PI 567104B was phenotyped from field assays of the F2:3 and F4:5 generations and from a growth chamber assay of 253 F5:6 recombinant inbred lines (RILs). For the growth chamber, the phenotyping was conducted by inoculation with a purified 2006 fungal isolate from Mississippi. A resistance gene locus on PI 567104B was mapped to a region containing the Rpp6 locus on chromosome 18. The high level of resistance of F1 plants from two other crosses with PI 567104B as one of the parents indicated that the gene from PI 567104B was dominant. The interval containing the gene is flanked by the simple sequence repeat (SSR) markers Satt131 and Satt394, and includes the SSR markers BARCSOYSSR_18_0331 and BARCSOYSSR_18_0380. The results also indicated that the resistance gene from PI 567104B is different from the Rpp1 to the Rpp4 genes previously identified. To determine if the gene from PI 567104B is different from the Rpp6 gene from PI 567102B, additional research will be required.
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U2 - 10.1007/s00122-015-2651-5
DO - 10.1007/s00122-015-2651-5
M3 - Article
C2 - 26952252
AN - SCOPUS:84960089910
SN - 0040-5752
VL - 129
SP - 863
EP - 877
JO - Theoretical and Applied Genetics
JF - Theoretical and Applied Genetics
IS - 5
ER -