# Metabolic and genetic analysis links TRITERPENE SYNTHASE 12 to oleanolic acid biosynthesis in grape berry wax

**Authors:** Jessica A Vervalle, Melané A Vivier, Jos D Cox, Boje Müller, Christian Schulze Gronover, Ken R Tobutt, Phyllis Burger, Rouvay Roodt-Wilding, Justin G Lashbrooke

PMC · DOI: 10.1093/jxb/eraf119 · Journal of Experimental Botany · 2025-03-18

## TL;DR

This study identifies a gene involved in the formation of oleanolic acid in grape berry waxes, which may influence fruit quality and disease resistance.

## Contribution

The study identifies VvTTPS12 as a β-amyrin synthase involved in oleanolic acid biosynthesis in grape berries.

## Key findings

- Wax composition in grape berries shifts from aldehydes to fatty acids during ripening.
- Oleanolic acid is the most abundant wax monomer and contributes to Botrytis cinerea susceptibility.
- VvTTPS12 is confirmed to be involved in oleanolic acid formation through co-expression and yeast heterologous expression.

## Abstract

Fruit surface cuticular waxes of grape berries are important in stress response and fruit quality. Despite extensive studies on the biosynthesis, regulation, and composition of fruit surface waxes, knowledge of the compositional variation and genetic mechanisms underlying grape berry cuticular wax formation remains limited. This study aimed to characterize grape berry cuticular wax composition and identify contributing genes. The wax composition of two grape cultivars (‘Deckrot’ and G1-7720) and their progeny shifted from aldehyde to fatty acid accumulation during ripening, while the composition was shown to influence Botrytis cinerea susceptibility. Alcohols and aldehydes contributed to the glaucous wax appearance, while the bioactive triterpene, oleanolic acid, was found to be the most abundant wax monomer. Metabolic quantitative trait locus analysis identified several genomic regions associated with wax monomer formation, including a cluster on chromosome 9 linked to triterpene content, which included eight putative triterpene synthases. Molecular phylogenetic analysis suggested that these genes code for amyrin synthases. Co-expression analysis, and subsequent heterologous expression in yeast, confirmed the involvement of VvTTPS12 in oleanolic acid formation. This study explores the role of grape berry wax composition and enhances understanding of genetic contributors to wax formation.

Metabolic quantitative trait locus analysis reveals the genetic architecture underlying grape berry wax formation and identifies VvTTPS12 as a β-amyrin synthase contributing to the formation of the triterpene oleanolic acid.

## Linked entities

- **Chemicals:** oleanolic acid (PubChem CID 10494), aldehyde (PubChem CID 6449839), amyrin (PubChem CID 73145)

## Full-text entities

- **Chemicals:** Alcohols (MESH:D000438), cuticular wax (-), triterpene (MESH:D014315), fatty acid (MESH:D005227), oleanolic acid (MESH:D009828), wax (MESH:D014885), aldehyde (MESH:D000447)
- **Species:** Botrytis cinerea (gray fruit mold, species) [taxon 40559], Saccharomyces cerevisiae (baker's yeast, species) [taxon 4932]

## Full text

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## Figures

9 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12321741/full.md

## References

101 references — full list in the complete paper: https://tomesphere.com/paper/PMC12321741/full.md

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Source: https://tomesphere.com/paper/PMC12321741