Abstract
Key messageThe potato late blight resistance geneR8has been cloned.R8is found in five late blight resistant varieties deployed in three different continents. R8 recognises Avr8 and is homologous to the NB-LRR protein Sw-5 from tomato.The broad spectrum late blight resistance gene R8 from Solanum demissum was cloned based on a previously published coarse map position on the lower arm of chromosome IX. Fine mapping in a recombinant population and bacterial artificial chromosome (BAC) library screening resulted in a BAC contig spanning 170 kb of the R8 haplotype. Sequencing revealed a cluster of at least ten R gene analogues (RGAs). The seven RGAs in the genetic window were subcloned for complementation analysis. Only one RGA provided late blight resistance and caused recognition of Avr8. From these results, it was concluded that the newly cloned resistance gene was indeed R8. R8 encodes a typical intracellular immune receptor with an N-terminal coiled coil, a central nucleotide binding site and 13 C-terminal leucine rich repeats. Phylogenetic analysis of a set of representative Solanaceae R proteins shows that R8 resides in a clearly distinct clade together with the Sw-5 tospovirus R protein from tomato. It was found that the R8 gene is present in late blight resistant potato varieties from Europe (Sarpo Mira), USA (Jacqueline Lee, Missaukee) and China (PB-06, S-60). Indeed, when tested under field conditions, R8 transgenic potato plants showed broad spectrum resistance to the current late blight population in the Netherlands, similar to Sarpo Mira.Electronic supplementary materialThe online version of this article (doi:10.1007/s00122-016-2740-0) contains supplementary material, which is available to authorized users.
Highlights
Genetic resistance against pests and diseases is the most sustainable crop protection strategy (Michelmore et al 2013) and has already provided durable solutions in many different agrosystems
We show that R8 encodes a coiled coil (CC)-nucleotide binding (NB)-leucine-rich repeats (LRR) protein with 89 % identity to Sw-5, a tomato spotted wilt virus resistance R protein
R8 is located at the bottom end of chromosome 9, flanked by Tm-22-like CDP markers at the proximal side and by Sw-5 CDP markers on the distal side (Jo et al 2011)
Summary
Genetic resistance against pests and diseases is the most sustainable crop protection strategy (Michelmore et al 2013) and has already provided durable solutions in many different agrosystems. Potato late blight, caused by the oomycete Phytophthora infestans, is still a serious problem for one of the major food crops in this world. Limiting factors in late blight resistance breeding are the long breeding cycles and the highly heterozygous tetraploid genome. P. infestans is notorious for its short asexual spore cycles, allowing mitotic mutations, and sexual generation which allows rapid genetic recombination in many regions of the world. To achieve durable resistance to late blight, multiple resistance (R) genes must be introduced in varieties to provide incremental and insurmountable hurdles for P. infestans, thereby further delaying the breeding process.
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