Ethylene-auxin crosstalk regulates postharvest fruit ripening process in apple

The ripening of climacteric fruits, such as apple, is represented by a series of genetically programmed events orchestrated by the action of several hormones. In this study, we investigated the existence of a hormonal crosstalk between ethylene and auxin during the post-harvest ripening of three int...

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Bibliographic Details
Published in:Fruit research 2021, Vol.1 (1), p.1-13
Main Authors: Busatto, Nicola, Tadiello, Alice, Moretto, Marco, Farneti, Brian, Populin, Francesca, Vrhovsek, Urska, Commisso, Mauro, Sartori, Elisa, Sonego, Paolo, Biasioli, Franco, Costa, Guglielmo, Guzzo, Flavia, Fontana, Paolo, Engelen, Kristof, Costa, Fabrizio
Format: Article
Language:English
Subjects:
apple
auxin
cross-talk
ethylene
fruit quality
fruit ripening
hormone profiling
postharvest
rna-seq
transcriptomic
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Summary:The ripening of climacteric fruits, such as apple, is represented by a series of genetically programmed events orchestrated by the action of several hormones. In this study, we investigated the existence of a hormonal crosstalk between ethylene and auxin during the post-harvest ripening of three internationally known apple cultivars: 'Golden Delicious', 'Granny Smith' and 'Fuji'. The normal climacteric ripening was impaired by the exogenous application of 1-methylcyclopropene (1-MCP) that affected the production of ethylene and the physiological behaviour of specific ethylene-related quality traits, such as fruit texture and the production of volatile organic compounds. The application of 1-MCP induced, moreover, a de-novo accumulation of auxin. The RNA-Seq wide-transcriptome analysis evidenced as the competition at the level of the ethylene receptors induced a cultivar-dependent transcriptional re-programming. The DEGs annotation carried out through the KEGG database identified as most genes were assigned to the plant hormone signaling transduction category, and specifically related to auxin and ethylene. The interplay between these two hormones was further assessed through a candidate gene analysis that highlighted a specific activation of GH3 and ILL genes, encoding key steps in the process of the auxin homeostasis mechanism. Our results showed that a compromised ethylene metabolism at the onset of the climacteric ripening in apple can stimulate, in a cultivar-dependent fashion, an initial de-novo synthesis and de-conjugation of auxin as a tentative to restore a normal ripening progression.
ISSN:2769-4615
2769-4615
DOI:10.48130/FruRes-2021-0013