Abstract
To detect quantitative trait loci (QTLs) for resistance to rice sheath blight (SB) that expressed stably in different genetic backgrounds and environments, the reciprocal introgression line populations derived from the cross of Lemont and Teqing (LT-ILs and TQ-ILs) were planted in the field in 2006–2007 and inoculated with isolate RH-9 of Rhizoctonia solani. Lemont was highly susceptible, whereas Teqing was moderately resistant to RH-9. The relative lesion height (a ratio of lesion height to plant height) of TQ-ILs was normally distributed, whereas that of LT-ILs was apparently inclined to the susceptible parent Lemont. A total of 10 main-effect QTLs (M-QTLs) and 13 epistatic QTLs (E-QTLs) conferring sheath blight resistance (SBR) were mapped using data obtained from different years and genetic backgrounds. Among them, 6 M-QTLs detected in 2006 were verified in 2007, suggesting that these M-QTLs had reliable performance across years. QRlh4 was the only M-QTL expressed under the reciprocal backgrounds. On chromosome 10, QRlh10a between RM216 and RM311 detected in TQ-ILs and QRlh10b between RM222 and RM216 detected in LT-ILs were regarded as different genes because their directions of additive effect were opposite. Most QTLs identified in TQ-ILs were not expressed in LT-ILs, indicating the presence of a significant effect of genetic background. By comparative mapping, 8 M-QTLs detected in this study were located in the same or near regions that were associated with SBR identified in the previous studies. These M-QTLs have great potential to be applied in rice breeding for SBR by marker-assisted selection (MAS), and M-QTLs expressed stably in different backgrounds are favorable for gene pyramiding in SBR improvement in rice.
Published Version
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