Molecular Plant-Microbe Interactions (Sep 1999)

Genetic and Physical Mapping of the RPP13 Locus, in Arabidopsis, Responsible for Specific Recognition of Several Peronospora parasitica (Downy Mildew) Isolates

  • Peter Bittner-Eddy,
  • Canan Can,
  • Nick Gunn,
  • Matthieu Pinel,
  • Mahmut Tör,
  • Ian Crute,
  • Eric B. Holub,
  • Jim Beynon

DOI
https://doi.org/10.1094/MPMI.1999.12.9.792
Journal volume & issue
Vol. 12, no. 9
pp. 792 – 802

Abstract

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Fifteen isolates of the biotrophic oomycete Peronospora parasitica (downy mildew) were obtained from a population of Arabidopsis thaliana plants that established naturally in a garden the previous year. They exhibited phenotypic variation in a set of 12 Arabidopsis accessions that suggested that the parasite population consisted of at least six pathotypes. One isolate, Maks9, elicited an interaction phenotype of flecking necrosis and no sporulation (FN) in the Arabidopsis accession Nd-1, and more extensive pitting necrosis with no sporulation (PN) in the accession Ws-2. RPP13 was designated as the locus for a single dominant resistance gene associated with the resistance in Nd-1 and mapped to an interval of approximately 60 kb on a bacterial artificial chromosome (BAC) contig on the lower arm of chromosome 3. This locus is approximately 6 cM telomeric to RPP1, which was previously described as the locus for the PN interaction with five Peronospora isolates, including resistance to Maks9 in Ws-2. New Peronospora isolates were obtained from four other geographically distinct populations of P. parasitica. Four isolates were characterized that elicited an FN phenotype in Nd-1 and mapped resistance to the RPP13 locus. This suggests that the RPP13 locus contains either a single gene capable of multiple isolate recognition or a group of tightly linked genes. Further analysis suggests that the RPP11 gene in the accession Rld-0 may be allelic to RPP13 but results in a different recognition capability.