Genetic changes in the genus Vitis and the domestication of vine

Guzmán-Ardiles, Ruth Elena; Pegoraro, Camila; Maia, Luciano Carlos da; Oliveira, Antônio Costa de

doi:10.3389/fpls.2022.1019311

Cited by 3 publications

(1 citation statement)

References 177 publications

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“…Vitis vinifera is one of the oldest cultivated plants (Grassi, Arroyo-Garcia, 2020;Guzmán-Ardiles et al, 2023). It is grown especially around the Mediterranean, but it is consumed all over the world also in the form of juice or wine.…”

Section: Resultsmentioning

confidence: 99%

In silico Identification of Sequential Similarities of Selected Lipid Transfer Proteins

Hovaňáková,

Klongová,

Žiarovská

2024

Agrobiodivers Improv Nutr health life Qual

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Nonspecific lipid transfer proteins (nsLTP) are common allergens discovered and described 40 years ago. They are present in many plant species and protect plants from stressors such as heat and drought. Studies on the peach nsLTP, Pru p 3, show that nsLTP are very cross-reactive through presented IgE epitopes shared by nsLTP from other botanically related fruits. These allergens are to varying degrees resistant to heat and digestion, and sensitization may occur through the oral, cutaneous, or inhaled routes. In the last years, several web tools for the prediction of allergenicity of new molecules based on their homology with known allergens have been created, and have established guidelines to assess potential allergenicity of proteins through bioinformatics. Here, Allerbase and NCBI Protein BLAST were applied to characterize the protein sequences of nsLTPs of plant species -Malus domestica Borkh., Prunus persica (L.) Batsch., Daucus carota (L.), Vitis vinifera (L.) and Solanum lycopersicum (L.). Obtained primary data were evaluated by the algorithm NCBI BLAST (Basic Local Alignment Search Tools). This tool allows searching similar protein sequences, in this case, was used Protein BLAST for comparing protein sequences. Most of the analysed sequences displayed a high probability of being allergenic according to the high sequencing identity and sharing IgE epitopes to each other. The highest sequencing identity in preselected plant species was presented between Pru p 3 (isoform Pru p 3.0102) and Mal d 3 (isoform Mal d 3.0101), 91.32% and they share the same epitope, NNA. The lowest sequencing homology was identified between Mal d 3.0203 and Dau c LTP, 43.10% and they did not share any epitope to each other.

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Section: Resultsmentioning

confidence: 99%

In silico Identification of Sequential Similarities of Selected Lipid Transfer Proteins

Hovaňáková,

Klongová,

Žiarovská

2024

Agrobiodivers Improv Nutr health life Qual

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Exploring the patterns of evolution: Core thoughts and focus on the saltational model

Usai,

Fambrini,

Pugliesi

et al. 2024

BioSystems

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The Transcriptional Landscape of Berry Skin in Red and White PIWI (“Pilzwiderstandsfähig”) Grapevines Possessing QTLs for Partial Resistance to Downy and Powdery Mildews

Scariolo,

Gabelli,

Magon

et al. 2024

Plants

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PIWI, from the German word Pilzwiderstandsfähig, meaning “fungus-resistant”, refers to grapevine cultivars bred for resistance to fungal pathogens such as Erysiphe necator (the causal agent of powdery mildew) and Plasmopara viticola (the causal agent of downy mildew), two major diseases in viticulture. These varieties are typically developed through traditional breeding, often crossbreeding European Vitis vinifera with American or Asian species that carry natural disease resistance. This study investigates the transcriptional profiles of exocarp tissues in mature berries from four PIWI grapevine varieties compared to their elite parental counterparts using RNA-seq analysis. We performed RNA-seq on four PIWI varieties (two red and two white) and their noble parents to identify differential gene expression patterns. Comprehensive analyses, including Differential Gene Expression (DEGs), Gene Set Enrichment Analysis (GSEA), Weighted Gene Co-expression Network Analysis (WGCNA), and tau analysis, revealed distinct gene clusters and individual genes characterizing the transcriptional landscape of PIWI varieties. Differentially expressed genes indicated significant changes in pathways related to organic acid metabolism and membrane transport, potentially contributing to enhanced resilience. WGCNA and k-means clustering highlighted co-expression modules linked to PIWI genotypes and their unique tolerance profiles. Tau analysis identified genes uniquely expressed in specific genotypes, with several already known for their defense roles. These findings offer insights into the molecular mechanisms underlying grapevine resistance and suggest promising avenues for breeding strategies to enhance disease resistance and overall grape quality in viticulture.

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Genetic changes in the genus Vitis and the domestication of vine

Cited by 3 publications

References 177 publications

In silico Identification of Sequential Similarities of Selected Lipid Transfer Proteins

In silico Identification of Sequential Similarities of Selected Lipid Transfer Proteins

Exploring the patterns of evolution: Core thoughts and focus on the saltational model

The Transcriptional Landscape of Berry Skin in Red and White PIWI (“Pilzwiderstandsfähig”) Grapevines Possessing QTLs for Partial Resistance to Downy and Powdery Mildews

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