期刊
PLANT DISEASE
卷 98, 期 9, 页码 1200-1204出版社
AMER PHYTOPATHOLOGICAL SOC
DOI: 10.1094/PDIS-09-13-1014-RE
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资金
- U.S. National Science Foundation Plant Genome Research Program [0701745]
- ARS [813509, ARS-0425080] Funding Source: Federal RePORTER
Identification of resistance (R) genes to races of Magnaporthe oryzae in rice (Oryza sativa) germplasm is essential for the development of rice cultivars with long-lasting blast resistance. In the present study, one major quantitative trait locus, qPi93-3, was fine mapped using a recombinant inbred line (RIL), F-8 RIL171, derived from the cross between 'Nipponbare' and '93-11'. RIL171 contained a heterozygous qPi93-3 allele which was found to be resistant against nine U.S. common races-ID1, IA1, IB49, IE1, IA45, IB1, IC17, IB45, and IH1-of M. oryzae. An F-2 mapping population consisting of 2,381 individuals derived from RIL171was evaluated with a field isolate (race) ARB82 (IA1) of M. oryzae under greenhouse conditions. Disease reaction of a resistant/susceptible ratio of 3:1 was identified with F-2:F-3 families. In total, 12 simple sequence repeat markers spanning qPi93-3 were used for fine mapping. Consequently, qPi93-3 was delimited to 4.2 Mb between RM3246 and RM7102. Three insertion-deletion (InDel) markers located between RM3246 and RM7102, that had previously used to map Pi61(t), showed that qPi93-3 was Pi61(t). The existence of Pi61(t) in 136 rice germplasm lines from the United States Department of Agriculture rice core collection was evaluated using Pi61(t)-specific InDel markers. Pi61(t) was identified as a source of resistance in 5 of the 136 lines. The characterized germplasm will be useful for rice breeders to use for improving blast resistance.
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