Functional stacking of broad spectrum resistance (R) genes could potentially be an effective strategy for more durable disease resistance, for example, to potato late blight caused by Phytophthora infestans (Pi). For this reason, three broad spectrum potato R genes (Rpi), Rpi-sto1 (Solanum stoloniferum), Rpi-vnt1.1 (S. venturii) and Rpi-blb3 (S. bulbocastanum) were selected, combined into a single binary vector pBINPLUS and transformed into the susceptible cultivar Desiree. Among the 550 kanamycin resistant regenerants, 28 were further investigated by gene specific PCRs. All regenerants were positive for the nptII gene and 23 of them contained the three Rpi genes, referred to as triple Rpi gene transformants. Detached leaf assay and agro-infiltration of avirulence (Avr) genes showed that the 23 triple Rpi gene transformants were resistant to the selected isolates and showed HR with the three Avr effectors indicating functional stacking of all the three Rpi genes. It is concluded that Avr genes, corresponding to the R genes to be stacked, must be available in order to assay for functionality of each stack component. No indications were found for silencing or any other negative effects affecting the function of the inserted Rpi genes. The resistance spectrum of these 23 triple Rpi gene transformants was, as expected, a sum of the spectra from the three individual Rpi genes. This is the first example of a one-step approach for the simultaneous domestication of three natural R genes against a single disease by genetic transformation.Electronic supplementary materialThe online version of this article (doi:10.1007/s11248-011-9510-1) contains supplementary material, which is available to authorized users.
The population structure of Phytophthora infestans in China was studied and three mitochondrial haplotypes (Ia, IIa, IIb) were observed. Genetic analysis with 10 highly informative SSR markers identified 68 different genotypes, including three dominant clonal lineages. In the Chinese P. infestans population, the genotypes were strongly clustered according to their geographic origin. One of dominant clonal lineages was genetically similar to Blue_13, a dominant clonal lineage found in Europe since 2004. This is the first report of Blue_13 outside Europe. Only one mating type (A1) was found in the northern and southeastern provinces, but in southern and northwestern China both mating types were observed. The mating type ratio and SSR allele frequencies indicate that in China the sexual cycle of P. infestans is rare. These results emphasize that the migration of asexual propagules and the generation of subclonal variation are the dominant driving factors of the population structure of P. infestans in China. They may also have implications for the role of monitoring P. infestans populations in potato late blight management strategies in China.
Genetic transformation with resistance (R) genes is expected to enhance resistance durability against pathogens, especially for potato, a vegetatively propagated crop with tetrasomic inheritance and a long-term breeding program. In this study, 128 potato transformants were analysed for the presence of vector T-DNA genes, borders and backbone sequences. They were harvested after transformation using a construct containing neomycin phosphotransferase II (nptII) and three R genes against potato late blight (Phytophthora infestans). Our analysis revealed that 45 % of the R gene-containing transformants possessed a low T-DNA copy number, without the integration of vector backbone and borders. The integration of vector backbone sequences was characterized using eight genes, and backbone gene tetA was selected for the early prediction of plants with backbone sequence integration. Three transformants, two plants harbouring one T-DNA copy and one plant harbouring three T-DNA copies, were crossed with susceptible cv. Katahdin. Based on our results, we conclude that all four T-DNA genes were inherited as one cluster and segregated in a Mendelian fashion. The three T-DNA inserts from the transformant harbouring three T-DNA copies were statistically proven to be un-linked and inherited into the offspring plants independently. All of the R genes were functionally expressed in the offspring plants as in their parental transformants. This functional gene stacking has important implications towards achieving more durable resistance against potato late blight.
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