terclim by ICS banner
IVES 9 IVES Conference Series 9 Reduced berry skin epi-cuticular wax and cutin accumulation associates with a genomic deletion and increased polyphenols extractability in a clone of Tempranillo Tinto 

Reduced berry skin epi-cuticular wax and cutin accumulation associates with a genomic deletion and increased polyphenols extractability in a clone of Tempranillo Tinto 

Abstract

Tempranillo Tinto (TT) is the third-most planted red wine variety in the world, and it is mostly grown in the Iberian Peninsula. Spontaneous somatic variation appearing during vegetative propagation can be exploited to improve elite varieties as Tempranillo Tinto, including the selection of new phenotypes enhancing berry quality. We described previously that a somatic variant of TT with darker fruit color, the clone VN21, exhibits increased extractability of polyphenols during the winemaking process. To unravel the molecular mechanism underlying this phenomenon, we performed whole-genome resequencing to compare VN21 to other TT clones, revealing a 10 Mb deletion in chromosome 11 that likely affected only the L1 meristem cell layer of VN21 and tissues derived from it, such as external cell layers of berry skin. A putative loss-of-function allele of an ABCG32 gene (homologous to cuticle biogenesis transporters), was left hemizygous in this segment after the deletion in VN21. Scanning electron microscopy images suggested a lower content epi-cuticular wax in the berry cuticle of VN21, which likely leads to the shiny colour of VN21 berries. A GC-MS analysis of epi-cuticular waxes and cutins extracted from berry skin and leaves confirmed a general decrease in the accumulation of cuticle constituent compounds in VN21, supporting a role for the mutated ABCG32 transporter in the phenotype. Our findings show that somatic mutations altering berry cuticle biogenesis can have an effect on the extractability of polyphenols from the berry skin, which could be exploited for varietal wine innovation.

Download the abstract

DOI:

Publication date: June 13, 2024

Issue: Open GPB 2024

Type: Poster

Authors

Carolina Royo1*, Yolanda Ferradás1,2, Robin Bosman 3, Fernando Alba-Elías 4, Javier Ibáñez 1, Justin Lashbrooke 3, José Miguel Martínez-Zapater 1, Pablo Carbonell-Bejerano 1

1 Instituto de Ciencias de la Vid y del Vino, Finca La Grajera, Ctra. de Burgos Km. 6, 26007 Logroño. Spain
2 Current address: Facultad de Biología, Universidad de Santiago de Compostela, 15872 Santiago de Compostela. Spain
3 South African Grape and Wine Research Institute, Stellenbosch University, Stellenbosch, South Africa
4 Universidad de La Rioja, Departamento de Ingeniería Mecánica, Logroño, Spain

Contact the author*

Keywords

somatic variation, whole genome resequencing, deletion, waxes, GC-MS

Tags

IVES Conference Series | Open GPB | Open GPB 2024

Citation

Related articles…

Haplotype-resolved genome assemblies of Chasselas and Ugni Blanc

Haplotype-resolved genome assemblies were produced for Chasselas and Ugni Blanc, two heterozygous real-field genetic pool Vitis vinifera cultivars by combining high-fidelity long-read sequencing (HiFi) and high‐throughput chromosome conformation capture (Hi-C). The telomere-to-telomere full coverage of the chromosomes allowed us to assemble separately the two haplo-genomes of both cultivars and revealed structural variations between the two haplotypes of a given cultivar.

Read More

Discrimination of South Tyrol’s wines by their cultivation practices: A detailed mass spectrometric approach

Climate change is having a profound effect on viticulture by altering the conditions under which vines grow, leading to increased water stress and earlier harvests, which in turn affect the quality and character of wines [1].

Read More

Water and physiological response to early leaf removal of cv. Verdejo in rainfed conditions, at different times of the day, in the D.O. Rueda (Spain)

Aim: Early leaf removal, generally applied before flowering, is mostly conceived as a technique to control grape yield and improve the health of grapes and focused on the final objective of increasing wine quality.

Read More

Closure permeability: a key parameter for modulating the aroma of monovarietal white wines during bottle ageing

Bottle aging is crucial for wine quality, influencing its chemical and sensory properties [1]. Ideally, a phase of qualitative ageing enhances sensory attributes before a decline in quality occurs. Understanding the impact of oenological variables on these phases is a key challenge in modern winemaking.

Read More

Development of a new method for detecting acetic acid bacteria in wine

The presence of acetic acid bacteria in wine can lead to the appearance of acetic acid at concentrations above the perception threshold, causing the wine rejection by the consumer. During the winemaking process, avoiding the presence of acetic acid bacteria is very difficult, as there is always a residual population accompanying the wine[1], and the problem arises with the significant development of these microorganisms that metabolizes large amounts of acetic acid.
The concern of wineries to control the presence of acetic acid bacteria in wines during their conservation is due to the absence of simple and effective analyses that allow the detection of these microorganisms in the initial stages.

Read More