Rice blast disease is one of the most devastating diseases in rice production,which severely affects the high and stable yield of rice.The formation of appressorium plays a key role in the pathogenesis of Magnaporthe grisea in rice.It has been confirmed that a P-type ATPase (P-ATPase) is involved in the formation of appressorium.A number of small molecular substances are able to enter the pathogen from the host during the interactions between pathogens and hosts,thus resisting the infection of pathogens.In this study,a 232 bp DNA sequence with good specificity from the first exon of P-ATPase gene MgAPT2 was used as an interference fragment and was inserted into interference vector forward and reversely.The interfering vector was then transformed into rice blast-susceptible rice variety Nipponbare via Agrobacterium-mediated transformation.Identification of rice plants inoculated with M.grisea at the seedling stage and detection of the expression level of P-ATPase gene MgAPT2 showed that the expression level of MgAPT2 gene in transgenic plants was reduced and the rice blast resistance was improved.This study provided a new way for the innovation of rice germplasm resources resistant to rice blast disease.
In this study, a population of chromosome segment substitution lines (CSSLs) derived from the cross between 9311 (indica) and Nipponbare (japonica) was employed to map the quantitative trait loci (QTLs) for salt tolerance under the salt stress simulated with 0.5% NaCI, using survival rate as the index. The data were analyzed by QTL IciMapping v3.1, and the results showed that one QTL (QSsr3) related to salt tolerance was located in the vicinity of the marker RM1350 on chromosome 3, into a genetic interval of 113.2-132.8 cM, with a contribution rate of 17.75%. The additive effect was 10.9, indicating that the QTL derived from the parent Nipponbare improved the salt tolerance of rice at seedling stage. This study will provide a theoretical basis for the selection of salt tolerant rice germplasm.
In this study, a population of 119 chromosome segment substitution lines (CSSLs) derived from backcross between indica 9311 and japonica Nipponbare was employed to map quantitative trait loci (QTL) associated with sheath blight resis-tance in rice with toothpick inoculation method. A total of three sheath blight resis-tance-associated QTLs (qsb8-1, qsb8-2 and qsb8-3) were identified, which were lo-cated on adjacent molecular markers RM3262, RM5485 and RM3496 of chromo-some 8; the genetic interval was 81.7cM-91.7cM, 91.7cM-108.1cM and 108.1cM-119.6cM, respectively. The additive effect of qsb8-2 was negative, indicating that sheath blight resistance of susceptible parent harboring qsb8-2 fragment was en-hanced; additive effects of qsb8-1 and qsb8-3 were positive, indicating that sheath blight resistance of susceptible parent harboring qsb8-1 and qsb8-3 fragments was reduced.
