Molecular Horticulture (Aug 2024)

6-Methyl-5-hepten-2-one promotes programmed cell death during superficial scald development in pear

  • Junpeng Niu,
  • Mingzhen Xu,
  • Xu Zhang,
  • Luqi Li,
  • Weiqi Luo,
  • Meng Ma,
  • Lin Zhu,
  • Decai Tian,
  • Shaoling Zhang,
  • Bing Xie,
  • Guodong Wang,
  • Libin Wang,
  • Wei Hui

DOI
https://doi.org/10.1186/s43897-024-00107-1
Journal volume & issue
Vol. 4, no. 1
pp. 1 – 18

Abstract

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Abstract Plants possess the ability to induce programmed cell death (PCD) in response to abiotic and biotic stresses; nevertheless, the evidence on PCD initiation during pear scald development and the involvement of the scald trigger 6-methyl-5-hepten-2-one (MHO) in this process is rudimentary. Pyrus bretschneideri Rehd. cv. ‘Dangshansuli’ pear was used to validate such hypothesis. The results showed that superficial scald occurred after 120-d chilling exposure, which accompanied by typical PCD-associated morphological alterations, such as plasmolysis, cell shrinkage, cytosolic and nuclear condensation, vacuolar collapse, tonoplast disruption, subcellular organelle swelling, and DNA fragmentation. These symptoms were aggravated after MHO fumigation but alleviated by diphenylamine (DPA) dipping. Through transcriptome assay, 24 out of 146 PCD-related genes, which were transcribed during cold storage, were identified as the key candidate members responsible for these cellular biological alternations upon scald development. Among these, PbrCNGC1, PbrGnai1, PbrACD6, and PbrSOBIR1 were implicated in the MHO signaling pathway. Additionally, PbrWRKY2, 34 and 39 could bind to the W-box element in the promoter of PbrGnai1 or PbrSOBIR1 and activate their transcription, as confirmed by dual-luciferase, yeast one-hybrid, and transient overexpression assays. Hence, our study confirms the PCD initiation during scald development and explores the critical role of MHO in this process.

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