The Maintenance of Extreme Amino Acid Diversity at the Disease Resistance Gene, RPP13, in Arabidopsis thaliana

doi:10.1534/genetics.166.3.1517

The Maintenance of Extreme Amino Acid Diversity at the Disease Resistance Gene, RPP13, in Arabidopsis thaliana

Laura E. Rose^a, Peter D. Bittner-Eddy^c, Charles H. Langley^a, Eric B. Holub^c, Richard W. Michelmore^b, and Jim L. Beynon^c
^a Center for Population Biology, University of California, Davis, California 95616
^b Department of Vegetable Crops, University of California, Davis, California 95616
^c Horticulture Research International, Wellesbourne, Warwick CV35 9EF, United Kingdom

Corresponding author: Jim L. Beynon, Wellesbourne, Warwick CV35 9EF, United Kingdom., jim.beynon{at}hri.ac.uk (E-mail)

Communicating editor: O. SAVOLAINEN

We have used the naturally occurring plant-parasite system ofArabidopsis thaliana and its common parasite Peronospora parasitica(downy mildew) to study the evolution of resistance specificityin the host population. DNA sequence of the resistance gene,RPP13, from 24 accessions, including 20 from the United Kingdom,revealed amino acid sequence diversity higher than that of anyprotein coding gene reported so far in A. thaliana. A significantexcess of amino acid polymorphism segregating within this speciesis localized within the leucine-rich repeat (LRR) domain ofRPP13. These results indicate that single alleles of the genehave not swept through the population, but instead, a diversecollection of alleles have been maintained. Transgenic complementationexperiments demonstrate functional differences among allelesin their resistance to various pathogen isolates, suggestingthat the extreme amino acid polymorphism in RPP13 is maintainedthrough continual reciprocal selection between host and pathogen.

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