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1. ‘Nebbiolo’ genome assembly allows surveying the occurrence and functional implications of genomic structural variations in grapevines (Vitis vinifera L.)

Author

Maestri, Simone, Gambino, Giorgio, Lopatriello, Giulia, Minio, Andrea, Perrone, Irene, Cosentino, Emanuela, Giovannone, Barbara, Marcolungo, Luca, Alfano, Massimiliano, Rombauts, Stephane, Cantu, Dario, Rossato, Marzia, Delledonne, Massimo, and Calderón, Luciano

Subjects
Biological Sciences, Bioinformatics and Computational Biology, Genetics, Human Genome, Genomic Structural Variation, Italy, Vitis, Information and Computing Sciences, Medical and Health Sciences, Bioinformatics, Biological sciences, Biomedical and clinical sciences
Abstract

Background'Nebbiolo' is a grapevine cultivar typical of north-western Italy, appreciated for producing high-quality red wines. Grapevine cultivars are characterized by possessing highly heterozygous genomes, including a great incidence of genomic rearrangements larger than 50 bp, so called structural variations (SVs). Even though abundant, SVs are an under-explored source of genetic variation mainly due to methodological limitations at their detection.ResultsWe employed a multiple platform approach to produce long-range genomic data for two different 'Nebbiolo' clones, namely: optical mapping, long-reads and linked-reads. We performed a haplotype-resolved de novo assembly for cultivar 'Nebbiolo' (clone CVT 71) and used an ab-initio strategy to annotate it. The annotated assembly enhanced our ability to detect SVs, enabling the study of genomic regions not present in the grapevines' reference genome and accounting for their functional implications. We performed variant calling analyses at three different organizational levels: i) between haplotypes of clone CVT 71 (primary assembly vs haplotigs), ii) between 'Nebbiolo' and 'Cabernet Sauvignon' assemblies and iii) between clones CVT 71 and CVT 185, representing different 'Nebbiolo' biotypes. The cumulative size of non-redundant merged SVs indicated a total of 79.6 Mbp for the first comparison and 136.1 Mbp for the second one, while no SVs were detected for the third comparison. Interestingly, SVs differentiating cultivars and haplotypes affected similar numbers of coding genes.ConclusionsOur results suggest that SVs accumulation rate and their functional implications in 'Nebbiolo' genome are highly-dependent on the organizational level under study. SVs are abundant when comparing 'Nebbiolo' to a different cultivar or the two haplotypes of the same individual, while they turned absent between the two analysed clones.

Published
2022

2. Genomic Designing for Biotic Stress Resistant Grapevine

Author

Vezzulli, Silvia, Gramaje, David, Tello, Javier, Gambino, Giorgio, Bettinelli, Paola, Pirrello, Carlotta, Schwandner, Anna, Barba, Paola, Angelini, Elisa, Anfora, Gianfranco, Mazzoni, Valerio, Pozzebon, Alberto, Palomares-Rius, Juan Emilio, Martínez-Diz, Maria Pilar, Toffolatti, Silvia Laura, De Lorenzis, Gabriella, De Paoli, Emanuele, Perrone, Irene, D’Incà, Erica, Zenoni, Sara, Wilmink, Jurrian, Lacombe, Thierry, Crespan, Manna, Walker, M. Andrew, Bavaresco, Luigi, De la Fuente, Mario, Fennell, Anne, Tornielli, Giovanni Battista, Forneck, Astrid, Ibáñez, Javier, Hausmann, Ludger, Reisch, Bruce I., and Kole, Chittaranjan, editor

Published
2022
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4. Whole-genome sequencing and SNV genotyping of 'Nebbiolo' (Vitis vinifera L.) clones.

Author

Gambino, Giorgio, Dal Molin, Alessandra, Boccacci, Paolo, Minio, Andrea, Chitarra, Walter, Avanzato, Carla Giuseppina, Tononi, Paola, Perrone, Irene, Raimondi, Stefano, Schneider, Anna, Pezzotti, Mario, Mannini, Franco, Gribaudo, Ivana, and Delledonne, Massimo

Subjects
Clone Cells, Vitis, Plant Proteins, Phylogeny, Gene Expression Regulation, Plant, Genotype, Polymorphism, Single Nucleotide, Genome, Plant, Transcriptome, Whole Genome Sequencing, Biotechnology, Human Genome, Genetics
Abstract

'Nebbiolo' (Vitis vinifera) is among the most ancient and prestigious wine grape varieties characterised by a wide genetic variability exhibited by a high number of clones (vegetatively propagated lines of selected mother plants). However, limited information is available for this cultivar at the molecular and genomic levels. The whole-genomes of three 'Nebbiolo' clones (CVT 71, CVT 185 and CVT 423) were re-sequenced and a de novo transcriptome assembly was produced. Important remarks about the genetic peculiarities of 'Nebbiolo' and its intra-varietal variability useful for clonal identification were reported. In particular, several varietal transcripts identified for the first time in 'Nebbiolo' were disease resistance genes and single-nucleotide variants (SNVs) identified in 'Nebbiolo', but not in other cultivars, were associated with genes involved in the stress response. Ten newly discovered SNVs were successfully employed to identify some periclinal chimeras and to classify 98 'Nebbiolo' clones in seven main genotypes, which resulted to be linked to the geographical origin of accessions. In addition, for the first time it was possible to discriminate some 'Nebbiolo' clones from the others.

Published
2017

6. Grapevine Grafting: Scion Transcript Profiling and Defense-Related Metabolites Induced by Rootstocks.

Author

Chitarra, Walter, Perrone, Irene, Avanzato, Carla G, Minio, Andrea, Boccacci, Paolo, Santini, Deborah, Gilardi, Giovanna, Siciliano, Ilenia, Gullino, Maria L, Delledonne, Massimo, Mannini, Franco, and Gambino, Giorgio

Subjects
Plasmopara viticola, Vitis, abscisic acid, pathogens, stilbene compounds, transcriptome, Genetics, Plant Biology
Abstract

Rootstocks are among the main factors that influence grape development as well as fruit and wine composition. In this work, rootstock/scion interactions were studied using transcriptomic and metabolic approaches on leaves of the "Gaglioppo" variety, grafted onto 13 different rootstocks growing in the same vineyard. The whole leaf transcriptome of "Gaglioppo" grafted onto five selected rootstocks showed high variability in gene expression. In particular, significant modulation of transcripts linked to primary and secondary metabolism was observed. Interestingly, genes and metabolites involved in defense responses (e.g., stilbenes and defense genes) were strongly activated particularly in the GAG-41B combination, characterized in addition by the down-regulation of abscisic acid (ABA) metabolism. On the contrary, the leaves of "Gaglioppo" grafted onto 1103 Paulsen showed an opposite regulations of those transcripts and metabolites, together with the greater sensitivity to downy mildew in a preliminary in vitro assay. This study carried out an extensive transcriptomic analysis of rootstock effects on scion leaves, helping to unravel this complex interaction, and suggesting an interesting correlation among constitutive stilbenes, ABA compound, and disease susceptibility to a fungal pathogen.

Published
2017

7. Genome editing of a recalcitrant wine grape genotype by lipofectamine‐mediated delivery of CRISPR/Cas9 ribonucleoproteins to protoplasts.

Author

Gambino, Giorgio, Nuzzo, Floriana, Moine, Amedeo, Chitarra, Walter, Pagliarani, Chiara, Petrelli, Annalisa, Boccacci, Paolo, Delliri, Andrea, Velasco, Riccardo, Nerva, Luca, and Perrone, Irene

Subjects
GENOME editing, NUCLEOPROTEINS, CRISPRS, REGENERATION (Botany), GENOTYPES, GRAPES, VITIS vinifera
Abstract

SUMMARY: The main bottleneck in the application of biotechnological breeding methods to woody species is due to the in vitro regeneration recalcitrance shown by several genotypes. On the other side, woody species, especially grapevine (Vitis vinifera L.), use most of the pesticides and other expensive inputs in agriculture, making the development of efficient approaches of genetic improvement absolutely urgent. Genome editing is an extremely promising technique particularly for wine grape genotypes, as it allows to modify the desired gene in a single step, preserving all the quality traits selected and appreciated in elite varieties. A genome editing and regeneration protocol for the production of transgene‐free grapevine plants, exploiting the lipofectamine‐mediated direct delivery of CRISPR–Cas9 ribonucleoproteins (RNPs) to target the phytoene desaturase gene, is reported. We focused on Nebbiolo (V. vinifera), an extremely in vitro recalcitrant wine genotype used to produce outstanding wines, such as Barolo and Barbaresco. The use of the PEG‐mediated editing method available in literature and employed for highly embryogenic grapevine genotypes did not allow the proper embryo development in the recalcitrant Nebbiolo. Lipofectamines, on the contrary, did not have a negative impact on protoplast viability and plant regeneration, leading to the obtainment of fully developed edited plants after about 5 months from the transfection. Our work represents one of the first examples of lipofectamine use for delivering editing reagents in plant protoplasts. The important result achieved for the wine grape genotype breeding could be extended to other important wine grape varieties and recalcitrant woody species. [ABSTRACT FROM AUTHOR]

Published
2024
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9. The Dynamics of Embolism Refilling in Abscisic Acid (ABA)-Deficient Tomato Plants

Author

Secchi, Francesca, Perrone, Irene, Chitarra, Walter, Zwieniecka, Anna K, Lovisolo, Claudio, and Zwieniecki, Maciej A

Subjects
Abscisic Acid, Dehydration, Solanum lycopersicum, Mutation, Plant Leaves, Plant Stomata, Starch, Time Factors, Water, Xylem, abscisic acid, ABA-deficient tomato, starch, vessel embolism, water stress, Other Chemical Sciences, Genetics, Other Biological Sciences, Chemical Physics
Abstract

Plants are in danger of embolism formation in xylem vessels when the balance between water transport capacity and transpirational demand is compromised. To maintain this delicate balance, plants must regulate the rate of transpiration and, if necessary, restore water transport in embolized vessels. Abscisic acid (ABA) is the dominant long-distance signal responsible for plant response to stress, and it is possible that it plays a role in the embolism/refilling cycle. To test this idea, a temporal analysis of embolism and refilling dynamics, transpiration rate and starch content was performed on ABA-deficient mutant tomato plants. ABA-deficient mutants were more vulnerable to embolism formation than wild-type plants, and application of exogenous ABA had no effect on vulnerability. However, mutant plants treated with exogenous ABA had lower stomatal conductance and reduced starch content in the xylem parenchyma cells. The lower starch content could have an indirect effect on the plant's refilling activity. The results confirm that plants with high starch content (moderately stressed mutant plants) were more likely to recover from loss of water transport capacity than plants with low starch content (mutant plants with application of exogenous ABA) or plants experiencing severe water stress. This study demonstrates that ABA most likely does not play any direct role in embolism refilling, but through the modulation of carbohydrate content, it could influence the plant's capacity for refilling.

Published
2013

10. The dynamics of embolism refilling in abscisic acid (ABA)-deficient tomato plants.

Author

Secchi, Francesca, Perrone, Irene, Chitarra, Walter, Zwieniecka, Anna K, Lovisolo, Claudio, and Zwieniecki, Maciej A

Subjects
Lycopersicon esculentum, Plant Leaves, Dehydration, Water, Abscisic Acid, Starch, Mutation, Time Factors, Xylem, Plant Stomata, abscisic acid, ABA-deficient tomato, starch, vessel embolism, water stress, Other Chemical Sciences, Genetics, Other Biological Sciences, Chemical Physics
Abstract

Plants are in danger of embolism formation in xylem vessels when the balance between water transport capacity and transpirational demand is compromised. To maintain this delicate balance, plants must regulate the rate of transpiration and, if necessary, restore water transport in embolized vessels. Abscisic acid (ABA) is the dominant long-distance signal responsible for plant response to stress, and it is possible that it plays a role in the embolism/refilling cycle. To test this idea, a temporal analysis of embolism and refilling dynamics, transpiration rate and starch content was performed on ABA-deficient mutant tomato plants. ABA-deficient mutants were more vulnerable to embolism formation than wild-type plants, and application of exogenous ABA had no effect on vulnerability. However, mutant plants treated with exogenous ABA had lower stomatal conductance and reduced starch content in the xylem parenchyma cells. The lower starch content could have an indirect effect on the plant's refilling activity. The results confirm that plants with high starch content (moderately stressed mutant plants) were more likely to recover from loss of water transport capacity than plants with low starch content (mutant plants with application of exogenous ABA) or plants experiencing severe water stress. This study demonstrates that ABA most likely does not play any direct role in embolism refilling, but through the modulation of carbohydrate content, it could influence the plant's capacity for refilling.

Published
2012

12. The Role of Italy in the Use of Advanced Plant Genomic Techniques on Fruit Trees: State of the Art and Future Perspectives

Author

Nerva, Luca, primary, Dalla Costa, Lorenza, additional, Ciacciulli, Angelo, additional, Sabbadini, Silvia, additional, Pavese, Vera, additional, Dondini, Luca, additional, Vendramin, Elisa, additional, Caboni, Emilia, additional, Perrone, Irene, additional, Moglia, Andrea, additional, Zenoni, Sara, additional, Michelotti, Vania, additional, Micali, Sabrina, additional, La Malfa, Stefano, additional, Gentile, Alessandra, additional, Tartarini, Stefano, additional, Mezzetti, Bruno, additional, Botta, Roberto, additional, Verde, Ignazio, additional, Velasco, Riccardo, additional, Malnoy, Mickael Arnaud, additional, and Licciardello, Concetta, additional

Published
2023
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13. Photosynthetic recovery in drought‐rehydrated grapevines is associated with high demand from the sinks, maximizing the fruit‐oriented performance

Author

Patono, Davide L., primary, Said‐Pullicino, Daniel, additional, Eloi Alcatrāo, Leandro, additional, Firbus, Andrea, additional, Ivaldi, Giorgio, additional, Chitarra, Walter, additional, Ferrandino, Alessandra, additional, Ricauda Aimonino, Davide, additional, Celi, Luisella, additional, Gambino, Giorgio, additional, Perrone, Irene, additional, and Lovisolo, Claudio, additional

Published
2022
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16. Genomic designing for biotic stress resistant grapevine.

Author

Chittaranjan Kole, Vezzulli, Silvia, Gramaje, David, Tello, Javier, Gambino, Giorgio, Bettinelli, Paola, Pirrello, Carlotta, Schwandner, Anna, Barba, Paola, Angelini, Elisa, Anfora, Gianfranco, Mazzoni, Valerio, Pozzebon, Alberto, Emilio Palomares-Rius, Juan, Pilar Martínez-Diz, Maria, Laura Toffolatti, Silvia, De Lorenzis, Gabriella, De Paoli, Emanuele, Perrone, Irene, D’Incà, Erica, Zenoni, Sara, Wilmink, Jurrian, Lacombe, Thierry, Crespan, Manna, Andrew Walker, M., Bavaresco, Luigi, De la Fuente, Mario, Fennell, Anne, Battista Tornielli, Giovanni, Forneck, Astrid, Ibáñez, Javier, Hausmann, Ludger, Reisch, Bruce I., Silvia Vezzulli, Luigi Bavaresco (ORCID:0000-0002-1278-6587), Chittaranjan Kole, Vezzulli, Silvia, Gramaje, David, Tello, Javier, Gambino, Giorgio, Bettinelli, Paola, Pirrello, Carlotta, Schwandner, Anna, Barba, Paola, Angelini, Elisa, Anfora, Gianfranco, Mazzoni, Valerio, Pozzebon, Alberto, Emilio Palomares-Rius, Juan, Pilar Martínez-Diz, Maria, Laura Toffolatti, Silvia, De Lorenzis, Gabriella, De Paoli, Emanuele, Perrone, Irene, D’Incà, Erica, Zenoni, Sara, Wilmink, Jurrian, Lacombe, Thierry, Crespan, Manna, Andrew Walker, M., Bavaresco, Luigi, De la Fuente, Mario, Fennell, Anne, Battista Tornielli, Giovanni, Forneck, Astrid, Ibáñez, Javier, Hausmann, Ludger, Reisch, Bruce I., Silvia Vezzulli, and Luigi Bavaresco (ORCID:0000-0002-1278-6587)

Abstract

Grapevines are challenged by a range of diseases and pests, causing economic losses and requiring often costly approaches to mitigate damage. Public interest in reducing the use of chemicals is a related challenge, along with climate change. Yet, the Vitis gene pool provides vast resources for the development of genetic resistance in rootstock and scion cultivars. Traditional breeding approaches have made great strides in the development of adaptive traits, and recent access to ‘omic technologies has further facilitated the identification of useful loci along with rapid trait introgression from wild species. Moreover, marker technologies are now used to stack multiple genes for the same trait into a single genotype, a heretofore barely accessible technology. Genomic technologies are also impacting germplasm characterization, and thereby facilitating “Breeding by Design” approaches. Genetic transformation and gene-editing technologies are also applicable for both cultivar improvement as well as functional studies of genes. The landscape for acceptance of new resistant cultivars is complex and with wine grapes, subject to high degrees of regulation especially in the European Union. With rootstocks, as well as table/raisin grapes, gaining acceptance in the marketplace for new cultivars developed through either traditional or marker-assisted approaches is routine. Yet even in the highly regulated EU environment, the adoption of new wine cultivars of interspecific origins is beginning to take place in both traditional wine growing regions as well as non-traditional regions nearby.

Published
2022

17. Molecular basis of differential adventitious rooting competence in poplar genotypes

Author

Ranjan, Alok, Perrone, Irene, Alallaq, Sanaria, Singh, Rajesh, Rigal, Adeline, Brunoni, Federica, Chitarra, Walter, Guinet, Frederic, Kohler, Annegret, Martin, Francis, Street, Nathaniel R., Bhalerao, Rishikesh, Legué, Valérie, Bellini, Catherine, Ranjan, Alok, Perrone, Irene, Alallaq, Sanaria, Singh, Rajesh, Rigal, Adeline, Brunoni, Federica, Chitarra, Walter, Guinet, Frederic, Kohler, Annegret, Martin, Francis, Street, Nathaniel R., Bhalerao, Rishikesh, Legué, Valérie, and Bellini, Catherine

Abstract

Recalcitrant adventitious root (AR) development is a major hurdle in propagating commercially important woody plants. Although significant progress has been made to identify genes involved in subsequent steps of AR development, the molecular basis of differences in apparent recalcitrance to form AR between easy-to-root and difficult-to-root genotypes remains unknown. To address this, we generated cambium tissue-specific transcriptomic data from stem cuttings of hybrid aspen, T89 (difficult-to-root) and hybrid poplar OP42 (easy-to-root), and used transgenic approaches to verify the role of several transcription factors in the control of adventitious rooting. Increased peroxidase activity was positively correlated with better rooting. We found differentially expressed genes encoding reactive oxygen species scavenging proteins to be enriched in OP42 compared with T89. A greater number of differentially expressed transcription factors in cambium cells of OP42 compared with T89 was revealed by a more intense transcriptional reprograming in the former. PtMYC2, a potential negative regulator, was less expressed in OP42 compared with T89. Using transgenic approaches, we demonstrated that PttARF17.1 and PttMYC2.1 negatively regulate adventitious rooting. Our results provide insights into the molecular basis of genotypic differences in AR and implicate differential expression of the master regulator MYC2 as a critical player in this process.

Published
2022
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20. Molecular basis of differential adventitious rooting competence in poplar genotypes

Author

Ranjan, Alok, primary, Perrone, Irene, additional, Alallaq, Sanaria, additional, Singh, Rajesh, additional, Rigal, Adeline, additional, Brunoni, Federica, additional, Chitarra, Walter, additional, Guinet, Frederic, additional, Kohler, Annegret, additional, Martin, Francis, additional, Street, Nathaniel R, additional, Bhalerao, Rishikesh, additional, Legué, Valérie, additional, and Bellini, Catherine, additional

Published
2022
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22. Additional file 1 of ���Nebbiolo��� genome assembly allows surveying the occurrence and functional implications of genomic structural variations in grapevines (Vitis vinifera L.)

Author

Maestri, Simone, Gambino, Giorgio, Lopatriello, Giulia, Minio, Andrea, Perrone, Irene, Cosentino, Emanuela, Giovannone, Barbara, Marcolungo, Luca, Alfano, Massimiliano, Rombauts, Stephane, Cantu, Dario, Rossato, Marzia, Delledonne, Massimo, and Calder��n, Luciano

Subjects
Data_FILES
Abstract

Additional file 1.

Published
2022
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26. Molecular basis of differential adventitious rooting competence in poplar genotypes

Author

Ranjan, Alok, primary, Perrone, Irene, additional, Alallaq, Sanaria, additional, Singh, Rajesh, additional, Rigal, Adeline, additional, Brunoni, Federica, additional, Chitarra, Walter, additional, Guinet, Frederic, additional, Kohler, Annegret, additional, Martin, Francis, additional, Street, Nathaniel Robert, additional, Bhalerao, Rishikesh, additional, Legué, Valérie, additional, and Bellini, Catherine, additional

Published
2021
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29. Functional Genomics in Fruit Trees: From 'Omics to Sustainable Biotechnologies

Author

Licciardello, Concetta, Perrone, Irene, Gambino, Giorgio, Talón, Manuel, and Velasco, Riccardo

Subjects
Fruit quality, Genetic diversity as resource, F62 Plant physiology - Growth and development, Woody plants, Q01 Food science and technology, F60 Plant physiology and biochemistry, New breeding techniques, Plant pathogen, J10 Handling, transport, storage and protection of agricultural products, Metabolomics, H20 Plant diseases, Transcriptomics, Resequencing, F30 Plant genetics and breeding
Abstract

This Research Topic of Frontiers in Plant Science collects 8 manuscripts, focused on fruit crops of high commercial interest, such as bayberry, blueberry, pear, grapevine, citrus, and walnut. The breadth of solutions and approaches that omics offer us today, and the applications and perspectives that are looming over a short time horizon, are illustrated with a particular focus on fruit qualitative traits, related to firmness and post-harvest (Cappai et al.), ripening (Honaas et al.), and lignin accumulation (Cao et al.), on improving knowledge on secondary metabolites, such as phenolic compounds (Saxe et al.), as well as on investigating earliest responses to pathogens (Wei et al.). Moreover, the Research Topic illustrates a technological application path from whole-genome sequencing (Wu et al.) to the resequencing (Tanaka et al.), to achieve the ultimate objective of modulating genes using the New Breeding Techniques (Salonia et al.).

Published
2021

34. New plant breeding technologies towards a more sustainable viticulture

Author

Moffa, Loredana, Giudice, Gaetano, Gambino, Giorgio, Perrone, Irene, Pagliarani, Chiara, Velasco, Riccardo, Chitarra, Walter, and Nerva, Luca

Subjects
Cre-loxP system, embryogenic calli, genome editing, genome editing, CRISPR/Cas9, Cre-loxP system, embryogenic calli, grapevine, CRISPR/Cas9, grapevine
Published
2020

35. Due piattaforme integrate per la misura della distribuzione del carbonio in organi di vite e rizosfera

Author

Patono, Davide L., SAID PULLICINO, Daniel, ELOI ALCATRAO, Leandro, Ivaldi, Giorgio, Andrea, Firbus, Livio, Craveri, Simone, Codato, Lerda, Cristina, Perrone, Irene, Chitarra, Walter, RICAUDA AIMONINO, Davide, Celi, Luisella Roberta, Gambino, Giorgio, and Lovisolo, Claudio

Subjects
sorgente/sink, cambiamento climatico, carbonio, sorgente/sink, CO2, cambiamento climatico, CO2, carbonio
Published
2020

36. Genomic structural variation in ‘Nebbiolo’ grapevines at the individual, clonal and cultivar levels

Author

Maestri, Simone, primary, Gambino, Giorgio, additional, Minio, Andrea, additional, Perrone, Irene, additional, Cosentino, Emanuela, additional, Giovannone, Barbara, additional, Lopatriello, Giulia, additional, Marcolungo, Luca, additional, Cantu, Dario, additional, Rossato, Marzia, additional, Delledonne, Massimo, additional, and Calderón, Luciano, additional

Published
2020
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38. Distinct Metabolic Signals Underlie Clone by Environment Interplay in “Nebbiolo” Grapes Over Ripening

Author

Pagliarani, Chiara, primary, Boccacci, Paolo, additional, Chitarra, Walter, additional, Cosentino, Emanuela, additional, Sandri, Marco, additional, Perrone, Irene, additional, Mori, Alessia, additional, Cuozzo, Danila, additional, Nerva, Luca, additional, Rossato, Marzia, additional, Zuccolotto, Paola, additional, Pezzotti, Mario, additional, Delledonne, Massimo, additional, Mannini, Franco, additional, Gribaudo, Ivana, additional, and Gambino, Giorgio, additional

Published
2019
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40. Molecular framework for TIR1/AFB-Aux/IAA-dependent auxin sensing controlling adventitious rooting in Arabidopsis

Author

Cavel, Emilie, Le Hir, Rozenn, Ranjan, Alok, Raneshan, Zahra, Novak, Ondrej, Pacurar, Daniel I., Perrone, Irene, Jobert, François, Gutierrez, Laurent, Bako, Laszlo, Bellini, Catherine, Lakehal, Abdellah, and Chaabouni, Salma

Subjects
TIR1/AFB, AuxIAA, jasmonate, adventitious roots, Arabidopsis, fungi, food and beverages, heterocyclic compounds
Abstract

In Arabidopsis thaliana, canonical auxin-dependent gene regulation is mediated by 23 transcription factors from the AUXIN RESPONSE FACTOR (ARF) family interacting with 29 auxin/indole acetic acid repressors (Aux/IAA), themselves forming coreceptor complexes with one of six TRANSPORT INHIBITOR1/AUXIN-SIGNALLING F-BOX (TIR1/AFB) PROTEINS. Different combinations of co-receptors drive specific sensing outputs, allowing auxin to control a myriad of processes. Considerable efforts have been made to discern the specificity of auxin action. However, owing to a lack of obvious phenotype in single loss-of-function mutants in Aux/IAA genes, most genetic studies have relied on gain-of-function mutants, which are highly pleiotropic. Using loss-of-function mutants, we show that three Aux/IAA proteins interact with ARF6 and/or ARF8, which we have previously shown to be positive regulators of AR formation upstream of jasmonate, and likely repress their activity. We also demonstrate that TIR1 and AFB2 are positive regulators of adventitious root formation and suggest a dual role for TIR1 in the control of JA biosynthesis and conjugation, as revealed by upregulation of several JA biosynthesis genes in the tir1-1 mutant. We propose that in the presence of auxin, TIR1 and AFB2 form specific sensing complexes with IAA6, IAA9 and/or IAA17 that modulate JA homeostasis to control AR initiation.

Published
2019

41. A Molecular Framework for the Control of Adventitious Rooting by TIR1/AFB2-Aux/IAA-Dependent Auxin Signaling in Arabidopsis

Author

Lakehal, Abdellah, Chaabouni, Salma, Cavel, Emilie, Le Hir, Rozenn, Ranjan, Alok, Rahneshan, Zahra, Novák, Ondřej, Pacurar, Daniel I, Perrone, Irene, Jobert, François, Gutierrez, Laurent, Bako, Laszlo, Bellini, Catherine, Lakehal, Abdellah, Chaabouni, Salma, Cavel, Emilie, Le Hir, Rozenn, Ranjan, Alok, Rahneshan, Zahra, Novák, Ondřej, Pacurar, Daniel I, Perrone, Irene, Jobert, François, Gutierrez, Laurent, Bako, Laszlo, and Bellini, Catherine

Abstract

In Arabidopsis thaliana, canonical auxin-dependent gene regulation is mediated by 23 transcription factors from the AUXIN RESPONSE FACTOR (ARF) family that interact with auxin/indole acetic acid repressors (Aux/IAAs), which themselves form co-receptor complexes with one of six TRANSPORT INHIBITOR1/AUXIN-SIGNALLING F-BOX (TIR1/AFB) proteins. Different combinations of co-receptors drive specific sensing outputs, allowing auxin to control a myriad of processes. ARF6 and ARF8 are positive regulators of adventitious root initiation upstream of jasmonate, but the exact auxin co-receptor complexes controlling the transcriptional activity of these proteins has remained unknown. Here, using loss-of-function mutants we show that three Aux/IAA genes, IAA6, IAA9, and IAA17, act additively in the control of adventitious root (AR) initiation. These three IAA proteins interact with ARF6 and/or ARF8 and likely repress their activity in AR development. We show that TIR1 and AFB2 are positive regulators of AR formation and TIR1 plays a dual role in the control of jasmonic acid (JA) biosynthesis and conjugation, as several JA biosynthesis genes are up-regulated in the tir1-1 mutant. These results lead us to propose that in the presence of auxin, TIR1 and AFB2 form specific sensing complexes with IAA6, IAA9, and/or IAA17 to modulate JA homeostasis and control AR initiation.

Published
2019
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42. A Molecular Framework for the Control of Adventitious Rooting by TIR1/AFB2-Aux/IAA-Dependent Auxin Signaling in Arabidopsis

Author

Lakehal, Abdellah, primary, Chaabouni, Salma, additional, Cavel, Emilie, additional, Le Hir, Rozenn, additional, Ranjan, Alok, additional, Raneshan, Zahra, additional, Novák, Ondřej, additional, Păcurar, Daniel I., additional, Perrone, Irene, additional, Jobert, François, additional, Gutierrez, Laurent, additional, Bakò, Laszlo, additional, and Bellini, Catherine, additional

Published
2019
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44. Molecular framework for TIR1/AFB-Aux/IAA-dependent auxin sensing controlling adventitious rooting in Arabidopsis

Author

Lakehal, Abdellah, primary, Chaabouni, Salma, additional, Cavel, Emilie, additional, Le Hir, Rozenn, additional, Ranjan, Alok, additional, Raneshan, Zahra, additional, Novák, Ondřej, additional, Păcurar, Daniel I., additional, Perrone, Irene, additional, Jobert, François, additional, Gutierrez, Laurent, additional, Bakò, Laszlo, additional, and Bellini, Catherine, additional

Published
2019
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47. Ozone Improves the Aromatic Fingerprint of White Grapes

Author

Río Segade, Susana, Vilanova, Mar, Giacosa, Simone, Perrone, Irene, Chitarra, Walter, Pollon, Matteo, Torchio, Fabrizio, Boccacci, Paolo, Gambino, Giorgio, Gerbi, Vincenzo, Rolle, Luca, Fabrizio Torchio (ORCID:0000-0002-7557-4346), Río Segade, Susana, Vilanova, Mar, Giacosa, Simone, Perrone, Irene, Chitarra, Walter, Pollon, Matteo, Torchio, Fabrizio, Boccacci, Paolo, Gambino, Giorgio, Gerbi, Vincenzo, Rolle, Luca, and Fabrizio Torchio (ORCID:0000-0002-7557-4346)

Abstract

Ozone, a powerful oxidative stressor, has been recently used in wine industry as sanitizing agent to reduce spoilage microflora on grapes. In this study, we evaluated ozone-induced metabolic and molecular responses during postharvest grape dehydration. Ozone increased the contents of total volatile organic compounds (VOCs), which have a great impact on the organoleptic properties of grapes and wines. Among terpenes, responsible for floral and fruity aroma, linalool, geraniol and nerol were the major aromatic markers of Moscato bianco grapes. They were significantly affected by the longterm ozone treatment, increasing their concentration in the last phases of dehydration (>20% weight loss). At molecular level, our results demonstrated that both postharvest dehydration and ozone exposure induce the biosynthesis of monoterpenes via methylerythritol phosphate (MEP) pathway and of aldehydes from lipoxygenase-hydroperoxide lyase (LOX-HPL) pathway. Therefore, transcriptional changes occurred and promoted the over-production of many important volatile compounds for the quality of white grapes

Published
2017

48. Ozone improves the aromatic fingerprint of white grapes

Author

Ministero dell'Istruzione, dell'Università e della Ricerca, 0000-0002-1417-9537, Río Segade, Susana, Vilanova de la Torre, María del Mar, Giacosa, Simone, Perrone, Irene, Chitarra, Walter, Pollon, Matteo, Torchio, Fabrizio, Boccacci, Paolo, Gambino, Giorgio, Gerbi, Vincenzo, Rolle, Luca, Ministero dell'Istruzione, dell'Università e della Ricerca, 0000-0002-1417-9537, Río Segade, Susana, Vilanova de la Torre, María del Mar, Giacosa, Simone, Perrone, Irene, Chitarra, Walter, Pollon, Matteo, Torchio, Fabrizio, Boccacci, Paolo, Gambino, Giorgio, Gerbi, Vincenzo, and Rolle, Luca

Abstract

Ozone, a powerful oxidative stressor, has been recently used in wine industry as sanitizing agent to reduce spoilage microflora on grapes. In this study, we evaluated ozone-induced metabolic and molecular responses during postharvest grape dehydration. Ozone increased the contents of total volatile organic compounds (VOCs), which have a great impact on the organoleptic properties of grapes and wines. Among terpenes, responsible for floral and fruity aroma, linalool, geraniol and nerol were the major aromatic markers of Moscato bianco grapes. They were significantly affected by the long-term ozone treatment, increasing their concentration in the last phases of dehydration (>20% weight loss). At molecular level, our results demonstrated that both postharvest dehydration and ozone exposure induce the biosynthesis of monoterpenes via methylerythritol phosphate (MEP) pathway and of aldehydes from lipoxygenase-hydroperoxide lyase (LOX-HPL) pathway. Therefore, transcriptional changes occurred and promoted the over-production of many important volatile compounds for the quality of white grapes.

Published
2017

49. The grapevine VvPIP2;4N aquaporin controls leaf hydraulic capacitance

Author

Vitali, Marco, Cochard, H., Gambino, Giorgio, Ponomarenko, A., Perrone, Irene, and Lovisolo, Claudio

Subjects
anisohydric, isohydric, Vitis vinifera (L.), pressure-volume curve, transgenic plant, leaf water potential, Vitis vinifera (L.), transgenic plant, leaf water potential, pressure-volume curve, isohydric, anisohydric
Published
2016

50. Ozone Improves the Aromatic Fingerprint of White Grapes

Author

Río Segade, Susana, primary, Vilanova, Mar, additional, Giacosa, Simone, additional, Perrone, Irene, additional, Chitarra, Walter, additional, Pollon, Matteo, additional, Torchio, Fabrizio, additional, Boccacci, Paolo, additional, Gambino, Giorgio, additional, Gerbi, Vincenzo, additional, and Rolle, Luca, additional

Published
2017
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