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2010
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ms. e.c. (estelle) verzaux: resistance and susceptibility to late blight in solanum: gene mapping, cloning and stacking
Ms. E.C. (Estelle) Verzaux: Resistance and susceptibility to late blight in Solanum: gene mapping, cloning and stacking
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17 Jun 2010 11:00
Unit:
Wageningen University
Location:
Aula, building 362, Gen. Foulkesweg 1, Wageningen
Organisation:
Wageningen University
Promotor:
prof.dr. R.G.F. Visser (Genetical Variation and Reproduction)
Promotor:
Prof.dr.ir. E. Jacobsen
The potato late blight disease, caused by the oomycete
Phytophthora infestans
, is a major threat for potato production worldwide. To breed potato varieties with durable resistance against
P. infestans
, it is necessary to combine two or more resistance (R) genes. Single R genes are easily overcome by the rapidly evolving pathogen, whereas the presence of several R genes could probably prevent gain of virulence from a single mutation in the pathogen. The large gene pool available within wild potato species offers sufficient possibilities to identify new and diverse R genes conferring resistance to
P. infestans
(Rpi). Map-based cloning is the most suitable strategy to isolate such new Rpi genes. The objective of this research was mapping, if possible, followed by cloning of Rpi genes from wild
Solanum
species. Resistance to P. infestans occurring in four different wild Solanum species were mapped in a major R gene cluster on chromosome 11. Natural stacking of three R genes located on different chromosomes was identified in a natural hybrid. In addition, we initiated studies on another type of defense system that is not based on the typical R genes, namely the response of
Solanum
to INF1 elicitin.
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