Cuticular waxes of nectarines during fruit development in relation to surface conductance and susceptibility to Monilinia laxa

Changes in the composition of nectarine cuticular waxes along with variations in fruit conductance and brown rot susceptibility during development suggest a role for cuticular waxes in fruit permeability and defence. Abstract The cuticle is composed of cutin and cuticular waxes, and it is the first...

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Bibliographic Details
Published in:Journal of experimental botany 2020-09, Vol.71 (18), p.5521-5537
Main Authors: Oliveira Lino, Leandro, Quilot-Turion, Bénédicte, Dufour, Claire, Corre, Marie-Noëlle, Lessire, René, Génard, Michel, Poëssel, Jean-Luc
Format: Article
Language:English
Subjects:
Ascomycota
Biochemistry
Biochemistry, Molecular Biology
Fruit
Life Sciences
Phytopathology and phytopharmacy
Prunus persica
Research Papers
Vegetal Biology
Waxes
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Summary:Changes in the composition of nectarine cuticular waxes along with variations in fruit conductance and brown rot susceptibility during development suggest a role for cuticular waxes in fruit permeability and defence. Abstract The cuticle is composed of cutin and cuticular waxes, and it is the first protective barrier to abiotic and biotic stresses in fruit. In this study, we analysed the composition of and changes in cuticular waxes during fruit development in nectarine (Prunus persica L. Batsch) cultivars, in parallel with their conductance and their susceptibility to Monilinia laxa. The nectarine waxes were composed of triterpenoids, mostly ursolic and oleanolic acids, phytosterols, and very-long-chain aliphatics. In addition, we detected phenolic compounds that were esterified with sugars or with triterpenoids, which are newly described in cuticular waxes. We quantified 42 compounds and found that they changed markedly during fruit development, with an intense accumulation of triterpenoids during initial fruit growth followed by their decrease at the end of endocarp lignification and a final increase in very-long-chain alkanes and hydroxylated triterpenoids until maturity. The surface conductance and susceptibility to Monilinia decreased sharply at the beginning of endocarp lignification, suggesting that triterpenoid deposition could play a major role in regulating fruit permeability and susceptibility to brown rot. Our results provide new insights into the composition of cuticular waxes of nectarines and their changes during fruit development, opening new avenues of research to explore brown rot resistance factors in stone fruit.
ISSN:0022-0957
1460-2431
DOI:10.1093/jxb/eraa284