terclim by ICS banner
IVES 9 IVES Conference Series 9 Open-GPB 9 Open-GPB-2024 9 Flash - Abiotic interactions 9 From genes to vineyards: system biology and new breeding technologies for water stress tolerance in grapevines

From genes to vineyards: system biology and new breeding technologies for water stress tolerance in grapevines

Abstract

One of the major challenges for food security and sovereignty is to produce stress-tolerant plants without introducing foreign DNA, because the legislative process, that bans transgenics, challenges us to find new solutions for producing plants that can survive the drought. To achieve this goal, we need to identify genes that can be modified to improve stress tolerance in plants. In this work, we present an online tool for exploring the transcriptome of grapevines under water stress, which is one of the most important abiotic stresses affecting viticulture. The tool is based on a comprehensive collection of rna-seq data from 997 experiments, covering four different tissues (leaf, root, berry, and shoot), various levels of water stress, and diverse genetic backgrounds (cultivars and rootstocks) with different levels of tolerance to water stress. The tool will be integrated within VitViz and Grapedia, two web portals that provide access to genomic data of grapevine. The tool allows us to compare the expression of all grapevine genes, using the V3 genome of ‘PN40024’ as a reference. With this app, we discovered a couple of genes that could boost the drought tolerance of grapevines by cis/trans-genesis (such as the raffinose synthase and AQUILO) or by genome editing (GRETCHEN HAGEN gene). We applied these two methods to different rootstocks and cultivars of grapevines.

DOI:

Publication date: June 13, 2024

Issue: Open GPB 2024

Type: Article

Authors

Álvaro Vidal Valenzuela1,2,3,4*, José Tomás Matus2,Antonio Santiago Pajuelo2, Maria Stella Grando4, Felipe Gainza-Cortés3, Lorenza Dalla Costa1, Mickael Malnoy1

1 Research and Innovation Centre, Fondazione Edmund Mach, Via Mach 1, 38098 San michelle all’adige(TN), Italy
2 Institute for Integrative Systems Biology (I2SysBio), Universitat de València-CSIC, Paterna, 46980, Valencia, Spain
3 Center for Research and Innovation (CII), Viña Concha y Toro, 3550000 , Pencahue, Chile
4 Center Agriculture Food Environment (C3A), University of Trento, via E. Mach 1, 38010 San Michele all’Adige, Italy

Contact the author*

Keywords

Transcriptome, Abiotic stress, Drought, Rna-seq, Bioinformatics

Tags

IVES Conference Series | Open GPB | Open GPB 2024

Citation

Related articles…

Rootstock effects on cv. Ugni blanc berry and wine composition

In the Cognac region in France, Ugni blanc is the most planted grape variety (98% of the 80 500 ha). This vine region is in expansion due to the success of the associated well-known brandy and the need of high grape yield to guarrantee the production of base wine for distillation. About 2 to 3000 ha are newly planted each year and rootstocks are one powerfull tool for vineyard adaptation to soil or climate change. As rootstocks ensure water and mineral nutrient supplies to the scion, it is important to better understand their effect on berry compostionnal parameters such as sugars and nitrogen compounds, which are the main precursors for fermentary aroma metabolites, the latter being quality markers for Cognac after distillation.

Forecasting the flight activity of Lobesia botrana in five sites of Mendoza, Argentina

Lobesia botrana is a quarantine pest for Argentina, detected in 2010 in Mendoza. Earlier stages of larvae feed on flowers and fruits. Wounds allow the development of fungi that decreases yield and quality. INTA is studying a phenological model based on day-degrees to predict the pest behavior. The study was conducted since 2015 in five different microclimatic growing areas of Mendoza. 30 pheromone traps have been used at each monitoring site.

Decoding antioxidant mechanisms in specific inactivated yeast

Inactivated yeasts, like many other enological biotechnologies, are routinely characterized by producers to assess their functional performance.

Lean management to improve sustainability in wine sector: an exploratory study in the Prosecco DOC appellation

The contemporary wine sector confronts a formidable array of challenges, including burgeoning production costs and the constricted availability of natural resources. Heightened consumer awareness regarding sustainability issues further compounds these pressures, compelling companies to adopt more judicious resource utilization strategies. In response to these imperatives, there is a growing recognition of the need to overhaul production methodologies within the wine industry with a view to minimizing inputs and eliminating waste.

Pruned vine biomass exclusion from a clay loam vineyard soil – examining the impact on physical/chemical properties

The wine industry worldwide faces increasing challenges to achieve sustainable levels of carbon emission mitigation. This project seeks to establish the feasibility of harvesting winter pruned vineyard biomass (PVB) for potential use in carbon footprint reduction, through its use as a renewable biofuel for energy production. In order to make this recommendation, technical issues such as the potential environmental impact, chemical composition and fuel suitability, and logistical challenges of harvesting biomass needs to be understood to compare with the results from similar studies. Of particular interest is the role PVB plays as a carbon source in vineyard soils and what effect annual removal might have on soil carbon sequestration. A preliminary trial was established in the Waite Campus vineyard (University of Adelaide) to test current management strategies. Vines are grown in a Eutrophic, Red Dermosol clay loam soil with well managed midrow swards. A comparison was undertaken of mid-row treatments in two 0.25 Ha blocks (Shiraz and Semillon), including annual cultivation for seed bed preparation, the deliberate exclusion of PVB (25 years) and incorporation of PVB (13 years) at an average of 3.4 and 5.5 Mg/Ha-1 for Shiraz and Semillon respectively. In both 0-10cm and 10-30cm soil core sample depths, combined soil carbon % measures in the desired range of 1.80 to 3.50, were not significantly different between treatments or cultivars and yielded an estimated 42 Mg/ha-1 of sequestered soil carbon. Other key physical and chemical measures were likewise not significantly different between treatments. Preliminary results suggest that in a temperate zone vineyard, managed such as the one used in this study, there is no long term negative impact on soil carbon sequestration through removing PVB. This implies that growers could confidently harvest PVB for use in several end fates including as a bio fuel.