Characterization of a Multifunctional Caffeoyl-CoA O-methyltransferase Activated in Grape Berries Upon Drought Stress

Overview

Journal Plant Physiol Biochem

Specialties Biochemistry
Biology

Date 2016 Feb 7

PMID 26851572

Citations 27

Authors

Debora Giordano

Sofia Provenzano

Alessandra Ferrandino

Marco Vitali

Chiara Pagliarani

Federica Roman

Francesca Cardinale

Simone D Castellarin

Andrea Schubert

Affiliations

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Abstract

Drought stress affects anthocyanin accumulation and modification in vegetative and reproductive plant tissues. Anthocyanins are the most abundant flavonoids in grape (Vitis vinifera L.) coloured berry genotypes and are essential markers of grape winemaking quality. They are mostly mono- and di-methylated, such modifications increase their stability and improve berry quality for winemaking. Anthocyanin methylation in grape berries is induced by drought stress. A few caffeoyl-CoA O-methyltransferases (CCoAOMTs) active on anthocyanins have been described in grape. However, no drought-activated O-methyltransferases have been described in grape berries yet. In this study, we characterized VvCCoAOMT, a grapevine gene known to induce methylation of CoA esters in cultured grape cells. Transcript accumulation of VvCCoAOMT was detected in berry skins, and increased during berry ripening on the plant, and in cultured berries treated with ABA, concomitantly with accumulation of methylated anthocyanins, suggesting that anthocyanins may be substrates of this enzyme. Contrary as previously observed in cell cultures, biotic stress (Botrytis cinerea inoculation) did not affect VvCCoAOMT gene expression in leaves or berries, while drought stress increased VvCCoAOMT transcript in berries. The recombinant VvCCoAOMT protein showed in vitro methylating activity on cyanidin 3-O-glucoside. We conclude that VvCCoAOMT is a multifunctional O-methyltransferase that may contribute to anthocyanin methylation activity in grape berries, in particular under drought stress conditions.

Citing Articles

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Unveiling Iso- and Aniso-Hydric Disparities in Grapevine-A Reanalysis by Transcriptome Portrayal Machine Learning.

Konecny T, Asatryan A, Nikoghosyan M, Binder H Plants (Basel). 2024; 13(17).

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Genome-wide identification, expression profiling, and protein interaction analysis of the CCoAOMT gene family in the tea plant (Camellia sinensis).

Wang Y, Wang T, Qi S, Zhao J, Kong J, Xue Z BMC Genomics. 2024; 25(1):238.

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Physiological and Transcriptome Analysis of the Effects of Exogenous Strigolactones on Drought Responses of Pepper Seedlings.

Shu H, Altaf M, Mushtaq N, Fu H, Lu X, Zhu G Antioxidants (Basel). 2023; 12(12).

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Genome-wide identification of the AOMT gene family in wax apple and functional characterization of to anthocyanin methylation.

Wei X, Li L, Xu L, Zeng L, Xu J Front Plant Sci. 2023; 14:1213642.

PMID: 37822338 PMC: 10562569. DOI: 10.3389/fpls.2023.1213642.