terclim by ICS banner
IVES 9 IVES Conference Series 9 Heat-stress responses regulated via a MYB24-MYC2 complex

Heat-stress responses regulated via a MYB24-MYC2 complex

Abstract

Throughout the growing season, grapevine frequently encounters environmental challenges associated with heat and light radiation stress, especially during the ripening stage, thereby constraining the yield and quality of berries. MYB24 has been previously proposed to control light responses during late fruit ripening stages, and it has been found to require the co-factor MYC2. We have generated transcriptomic data from grapevine leaves transiently co-transformed with MYB24 and MYC2. Differential expression analysis revealed 179 up-regulated genes (URGs). Considering tissue specificity, where MYB24 is specifically and highly expressed in flowers and late-ripening berries, the expression of these URGs was explored using a previously published Berry Development Atlas gathering berry development data of cv. ‘Pinot Noir’ and ‘Cabernet Sauvignon’ in different vintages. Half of URGs highly co-express with MYB24, and MapMan analysis discloses many significantly enriched heat-related terms. Specifically, 18 co-expressed URGs were reported as heat-induced genes. Due to the DNA-binding capacity of MYB24 and MYC2, we investigated their regulatory potential by taking advantage of DAP-seq data. More than 40 of these co-expressed URGs, named as MYB24/MYC2 high confidence targets (HCTs), are bound by both TFs or one of them in their 5kb upstream region. In particular, some HCTs have been previously and functionally validated as heat regulators or heat-induced genes. Furthermore, MYB24, MYC2, and a high proportion of their HCTs were significantly induced in reanalyzed heat-treatment transcriptomic studies. To sum up, our data suggests that the MYB24-MYC2 complex plays a key role in the hierarchical regulation of heat responses.

DOI:

Publication date: June 13, 2024

Issue: Open GPB 2024

Type: Poster

Authors

Chen Zhang1, David Navarro-Paya1, José Tomás Matus1*

1 Institute for Integrative Systems Biology (I2SysBio), Universitat de València-CSIC, 46980 Paterna, Valencia, Spain

Contact the author*

Keywords

MYB24, MYC2, heat stress, transcriptomics, transcriptional regulation

Tags

IVES Conference Series | Open GPB | Open GPB 2024

Citation

Related articles…

The weak role of organic mulches in shaping bacterial communities in grapevine

The interest in sustainable and ecologic agricultural practices in grapevine has grown significantly in recent years in the context of ecological transition. Organic mulches are treatments that support the circular economy and positively affect the soil and the plant. They are an alternative to herbicides and other conventional practices since they may influence soil moisture, erosion, structure and weed control. However, their effects on the soil and must microbiota remain unknown.

Re-examination and meta-analysis of previous research as a tool to evaluate the suitability of rootstocks in adaptation to global change. A study case from Spanish viticulture

Meta-analysis (MA) is a method that allows statistical synthesis of the results of several similar individual studies (Figure 1). This term was introduced by Glass in 1976 as a useful tool for the scientific community to pool and summarise the enormous amount of information collected in the literature.

Behavior of disease resistant grapevine varieties to downy mildew (Plasmopara viticola) infections in the Castelli Romani area (Central Italy)

At CREA – Centro di Ricerca di Viticoltura ed Enologia, based in Velletri (RM), an experimental vineyard including 10 downy mildew resistent/tolerant grape varieties and two susceptible varieties was set up with the principal goal to evaluate the behavoir of these varieties in term of resistance to downy mildew (Plasmopara viticola). This evaluation, together to oenological studies, are necessary to register them also in Regional Register (in Lazio region). Monitoring of behavior towards Plasmopara viticulture of resistant vines were done in 2020 and 2021 at different times (phenological stages) and until harvesting, according to an international standard code BBCH a centesimal phenological scale, based on coding system.

SO2 consumption in white wine oxidation: approaches to low input vinifications based on rapid electrochemical analyses and predictive enology

Oxidative stability is a critical factor in maintaining wine quality during its shelf-life. SO₂ is commonly added to wine due to its strong antioxidant activity, although there is a general push to reduce SO₂ use in vinification.

An operational model for capturing grape ripening dynamics to support harvest decisions

Grape ripening is a critical phenophase during which many metabolites driving wine quality are accumulated in berries. Major changes in berry composition include a rapid increase in sugar and a decrease in malic acid content and concentration. Its duration is highly variable depending on grapevine variety, climatic parameters, soil type and management practices.