Sexual reproduction contributes to the evolution of resistance breaking isolates of the spinach pathogen Peronospora effusa

Petros Skiadas, Joël Klein, Thomas Quiroz Monnens, Joyce Elberse, Ronnie de Jonge, Guido Van den Ackerveken, Michael F Seidl

Research output: Contribution to journalArticleAcademicpeer-review

Abstract

Peronospora effusa causes downy mildew, the economically most important disease of cultivated spinach worldwide. To date, 19 P. effusa races have been denominated based on their capacity to break spinach resistances, but their genetic diversity and the evolutionary processes that contribute to race emergence are unknown. Here, we performed the first systematic analysis of P. effusa races showing that those emerge by both asexual and sexual reproduction. Specifically, we studied the diversity of 26 P. effusa isolates from 16 denominated races based on mitochondrial and nuclear comparative genomics. Mitochondrial genomes based on long-read sequencing coupled with diversity assessment based on short-read sequencing uncovered two mitochondrial haplogroups, each with distinct genome organization. Nuclear genome-wide comparisons of the 26 isolates revealed that 10 isolates from six races could clearly be divided into three asexually evolving groups, in concordance with their mitochondrial phylogeny. The remaining isolates showed signals of reticulated evolution and discordance between nuclear and mitochondrial phylogenies, suggesting that these evolved through sexual reproduction. Increased understanding of this pathogen's reproductive modes will provide the framework for future studies into the molecular mechanisms underlying race emergence and into the P. effusa-spinach interaction, thus assisting in sustainable production of spinach through knowledge-driven resistance breeding.

Original languageEnglish
Pages (from-to)1622-1637
Number of pages16
JournalEnvironmental Microbiology
Volume24
Issue number3
Early online date22 Feb 2022
DOIs
Publication statusPublished - Mar 2022

Keywords

  • Downy mildew pathogen
  • Genome
  • Identification
  • Inverted repeats
  • Races
  • Sequence
  • Strains

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