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A butterfly egg-killing hypersensitive response in Brassica nigra is controlled by a single locus, PEK, containing a cluster of TIR-NBS-LRR receptors
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  • Niccolò Bassetti,
  • Lotte Caarls,
  • Klaas Bouwmeester,
  • Patrick Verbaarschot,
  • Ewan van Eijden,
  • Bas Zwaan,
  • Guusje Bonnema,
  • Eric Schranz,
  • Nina Fatouros
Niccolò Bassetti
Wageningen University & Research Leerstoelgroep Biosystematiek
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Lotte Caarls
Wageningen University & Research Leerstoelgroep Biosystematiek
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Klaas Bouwmeester
Wageningen University & Research Leerstoelgroep Biosystematiek
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Patrick Verbaarschot
Wageningen University & Research Leerstoelgroep Biosystematiek
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Ewan van Eijden
Wageningen University & Research Leerstoelgroep Biosystematiek
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Bas Zwaan
Wageningen University & Research
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Guusje Bonnema
Wageningen University & Research Laboratorium voor Plantenveredeling
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Eric Schranz
Wageningen University & Research Leerstoelgroep Biosystematiek
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Nina Fatouros
Wageningen University & Research Leerstoelgroep Biosystematiek

Corresponding Author:nina.fatouros@wur.nl

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Abstract

The hypersensitive response (HR) characterizes monogenic qualitative resistance traits in several pathosystems. Knowledge on its role in plant resistance to insects is so far limited to a few resistance ( R) gene-based resistances against piercing-sucking insects. Egg deposition by cabbage white butterflies ( Pieris spp.), pests of cabbage crops ( Brassica spp.), can trigger an HR-like cell death, which reduces egg survival and represents an effective plant resistance trait before feeding damage occurs. Here, we identified natural variation of HR-like to Pieris egg deposition in the black mustard ( B. nigra L.) and performed genetic mapping. HR-like segregated as a Mendelian trait and a single dominant locus on chromosome B3, named PEK ( P ieris e gg- k illing) was identified. In the ~50 kb region, eleven candidate genes, are located, including a cluster of genes encoding intracellular receptor proteins, TIR-NBS-LRR (TNLs). The PEK locus was found to be highly polymorphic between the parental accessions of our mapping populations and among B. nigra reference genomes. Our study is the first that identifies a single locus potentially involved in HR-like cell death induced by insect eggs. Further fine-mapping, comparative genomics and validation of the PEK locus will shed light on the role of TNL receptors in egg-induced HR-like cell death.
15 Jul 2023Submitted to Plant, Cell & Environment
15 Jul 2023Submission Checks Completed
15 Jul 2023Assigned to Editor
22 Jul 2023Review(s) Completed, Editorial Evaluation Pending
01 Aug 2023Reviewer(s) Assigned
28 Aug 2023Editorial Decision: Revise Minor
25 Oct 20231st Revision Received
27 Oct 2023Submission Checks Completed
27 Oct 2023Assigned to Editor
28 Oct 2023Review(s) Completed, Editorial Evaluation Pending
29 Oct 2023Reviewer(s) Assigned
01 Nov 2023Editorial Decision: Accept