Allelic variants of the NLR protein Rpi-chc1 differentially recognize members of the Phytophthora infestans PexRD12/31 effector superfamily through the leucine-rich repeat domain

Daniel Monino-Lopez, Maarten Nijenhuis, Linda Kodde, Sophien Kamoun, Hamed Salehian, Kyrylo Schentsnyi, Remco Stam, Anoma Lokossou, Ahmed Abd-El-Haliem, Richard G.F. Visser, Jack H. Vossen*

*Corresponding author for this work

Research output: Contribution to journalArticleAcademicpeer-review

Abstract

Phytophthora infestans is a pathogenic oomycete that causes the infamous potato late blight disease. Resistance (R) genes from diverse Solanum species encode intracellular receptors that trigger effective defense responses upon the recognition of cognate RXLR avirulence (Avr) effector proteins. To deploy these R genes in a durable fashion in agriculture, we need to understand the mechanism of effector recognition and the way the pathogen evades recognition. In this study, we cloned 16 allelic variants of the Rpi-chc1 gene from Solanum chacoense and other Solanum species, and identified the cognate P. infestans RXLR effectors. These tools were used to study effector recognition and co-evolution. Functional and non-functional alleles of Rpi-chc1 encode coiled-coil nucleotide-binding leucine-rich repeat (CNL) proteins, being the first described representatives of the CNL16 family. These alleles have distinct patterns of RXLR effector recognition. While Rpi-chc1.1 recognized multiple PexRD12 (Avrchc1.1) proteins, Rpi-chc1.2 recognized multiple PexRD31 (Avrchc1.2) proteins, both belonging to the PexRD12/31 effector superfamily. Domain swaps between Rpi-chc1.1 and Rpi-chc1.2 revealed that overlapping subdomains in the leucine-rich repeat (LRR) domain are responsible for the difference in effector recognition. This study showed that Rpi-chc1.1 and Rpi-chc1.2 evolved to recognize distinct members of the same PexRD12/31 effector family via the LRR domain. The biased distribution of polymorphisms suggests that exchange of LRRs during host–pathogen co-evolution can lead to novel recognition specificities. These insights will guide future strategies to breed durable resistant varieties.

Original languageEnglish
Pages (from-to)182-197
JournalPlant Journal
Volume107
Issue number1
Early online date21 Apr 2021
DOIs
Publication statusPublished - 2021

Keywords

  • late blight resistance gene
  • leucine-rich repeat
  • NLR cluster
  • Phytophthora infestans
  • potato
  • RXLR effector
  • Solanum species

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