Your search keyword '"Hugueney P"' showing total 22 results

1. Fine monitoring of the effects of grapevine resistance loci on the development of Plasmopara viticola

Author

Wiedemann-Merdinoglu S., Lacombe M.C., Dorne M.A., Dumas V., Onimus C., Prado E., Schneider C., Louise Dit Adèle S., Misbach J., Negrel L., Baltenweck R., Hugueney P., and Merdinoglu D.

Subjects

Microbiology, QR1-502, Physiology, QP1-981, Zoology, QL1-991

Published

2022

2. A test-tube vinification method for high-throughput characterisation of the oenological and aromatic potential of white wines

Author

Patricia CLAUDEL, Vincent Dumas, Cécile Thibon, Grégory Lemarquis, Nathalie Jaegli, Ana Sivsivadzé, Raymonde Baltenweck, Philippe Hugueney, and Éric Duchêne

Subjects

Small-scale winemaking, wine, volatile compound, aromatic potential, genetic variability, GC-MS, Agriculture, Botany, QK1-989

Abstract

The quality of wine largely depends on aroma perception, but the genetic basis explaining the variations of aroma compound concentrations in wines is still fragmentary. To unravel links between genetic variations and aroma compound variations in hundreds of genotypes, we developed a small-scale, high-throughput test-tube vinification (TTV) method capable of producing white wines that reveal the genetic potential at the scale of a single vine stock. We evaluated this method on commercial grapevine varieties (Riesling, Gewurztraminer, Chardonnay, Chasselas, Floreal, Muscat à petits grains blancs) and genotypes resulting from a bi-parental cross, covering a wide aromatic palette. The wines produced were described by usual oenological parameters and GC-MS profiling of volatile compounds. We compared the wines obtained with the TTV method to commercial wines and to wines obtained from larger fermentation volumes (5–10 L). Our results show that the TTV method is suitable to produce white wines on a very small scale, i.e., less than 100 mL and that these small-scale wines faithfully reflect the aromatic potential of the different varieties, as would larger volume methods. The proposed method is a high-throughput approach to assess the oenological potential of hundreds of grapevine genotypes from grape material harvested on a single vine. This wine-focused direct phenotyping method will pave the way for a better understanding of the genetic determinism of wine aromas, especially for molecules that are not directly present in grapes, such as volatile thiols and 1,1,6-trimethyl-1,2-dihydronaphthalene (TDN).

Published

2024

3. Increasing vineyard sustainability: innovating a targeted chitosan-derived biocontrol solution to induce grapevine resistance against downy and powdery mildews

Author

Daphnée Brulé, Marie-Claire Héloir, Thibault Roudaire, Jérémy Villette, Silvère Bonnet, Yoann Pascal, Benoît Darblade, Philippe Crozier, Philippe Hugueney, Véronique Coma, and Benoit Poinssot

Subjects

Vitis vinifera, induced resistance, biocontrol product, chito-oligosaccharides, chitosan, degree of polymerization, Plant culture, SB1-1110

Abstract

The European Green Deal aims to reduce the pesticide use, notably by developing biocontrol products to protect crops from diseases. Indeed, the use of significant amounts of chemicals negatively impact the environment such as soil microbial biodiversity or groundwater quality, and human health. Grapevine (Vitis vinifera) was selected as one of the first targeted crop due to its economic importance and its dependence on fungicides to control the main damaging diseases worldwide: grey mold, downy and powdery mildews. Chitosan, a biopolymer extracted from crustacean exoskeletons, has been used as a biocontrol agent in many plant species, including grapevine, against a variety of cryptogamic diseases such as downy mildew (Plasmopara viticola), powdery mildew (Erysiphe necator) and grey mold (Botrytis cinerea). However, the precise molecular mechanisms underlying its mode of action remain unclear: is it a direct biopesticide effect or an indirect elicitation activity, or both? In this study, we investigated six chitosans with diverse degrees of polymerization (DP) ranging from low to high DP (12, 25, 33, 44, 100, and 470). We scrutinized their biological activities by evaluating both their antifungal properties and their abilities to induce grapevine immune responses. To investigate their elicitor activity, we analyzed their ability to induce MAPKs phosphorylation, the activation of defense genes and metabolite changes in grapevine. Our results indicate that the chitosans with a low DP are more effective in inducing grapevine defenses and possess the strongest biopesticide effect against B. cinerea and P. viticola. We identified chitosan with DP12 as the most efficient resistance inducer. Then, chitosan DP12 has been tested against downy and powdery mildews in the vineyard trials performed during the last three years. Results obtained indicated that a chitosan-based biocontrol product could be sufficiently efficient when the amount of pathogen inoculum is quite low and could be combined with only two fungicide treatments during whole season programs to obtain a good protection efficiency. On the whole, a chitosan-based biocontrol product could become an interesting alternative to meet the chemicals reduction targeted in sustainable viticulture.

Published

2024

4. Genetic mechanisms underlying the methylation level of anthocyanins in grape (Vitis vinifera L.)

Author

Fournier-Level Alexandre, Hugueney Philippe, Verriès Clotilde, This Patrice, and Ageorges Agnès

Subjects

Botany, QK1-989

Abstract

Abstract Background Plant color variation is due not only to the global pigment concentration but also to the proportion of different types of pigment. Variation in the color spectrum may arise from secondary modifications, such as hydroxylation and methylation, affecting the chromatic properties of pigments. In grapes (Vitis vinifera L.), the level of methylation modifies the stability and reactivity of anthocyanin, which directly influence the color of the berry. Anthocyanin methylation, as a complex trait, is controlled by multiple molecular factors likely to involve multiple regulatory steps. Results In a Syrah × Grenache progeny, two QTLs were detected for variation in level of anthocyanin methylation. The first one, explaining up to 27% of variance, colocalized with a cluster of Myb-type transcription factor genes. The second one, explaining up to 20% of variance, colocalized with a cluster of O-methyltransferase coding genes (AOMT). In a collection of 32 unrelated cultivars, MybA and AOMT expression profiles correlated with the level of methylated anthocyanin. In addition, the newly characterized AOMT2 gene presented two SNPs associated with methylation level. These mutations, probably leading to a structural change of the AOMT2 protein significantly affected the enzyme specific catalytic efficiency for the 3'-O-methylation of delphinidin 3-glucoside. Conclusion We demonstrated that variation in methylated anthocyanin accumulation is susceptible to involve both transcriptional regulation and structural variation. We report here the identification of novel AOMT variants likely to cause methylated anthocyanin variation. The integration of QTL mapping and molecular approaches enabled a better understanding of how variation in gene expression and catalytic efficiency of the resulting enzyme may influence the grape anthocyanin profile.

Published

2011

5. Metabolic consequences of various fruit-based diets in a generalist insect species

Author

Laure Olazcuaga, Raymonde Baltenweck, Nicolas Leménager, Alessandra Maia-Grondard, Patricia Claudel, Philippe Hugueney, and Julien Foucaud

Subjects

niche breadth, ecological specialization, metabolomics, generalism, diet, Drosophila suzukii, Medicine, Science, Biology (General), QH301-705.5

Abstract

Most phytophagous insect species exhibit a limited diet breadth and specialize on a few or a single host plant. In contrast, some species display a remarkably large diet breadth, with host plants spanning several families and many species. It is unclear, however, whether this phylogenetic generalism is supported by a generic metabolic use of common host chemical compounds (‘metabolic generalism’) or alternatively by distinct uses of diet-specific compounds (‘multi-host metabolic specialism’)? Here, we simultaneously investigated the metabolomes of fruit diets and of individuals of a generalist phytophagous species, Drosophila suzukii, that developed on them. The direct comparison of metabolomes of diets and consumers enabled us to disentangle the metabolic fate of common and rarer dietary compounds. We showed that the consumption of biochemically dissimilar diets resulted in a canalized, generic response from generalist individuals, consistent with the metabolic generalism hypothesis. We also showed that many diet-specific metabolites, such as those related to the particular color, odor, or taste of diets, were not metabolized, and rather accumulated in consumer individuals, even when probably detrimental to fitness. As a result, while individuals were mostly similar across diets, the detection of their particular diet was straightforward. Our study thus supports the view that dietary generalism may emerge from a passive, opportunistic use of various resources, contrary to more widespread views of an active role of adaptation in this process. Such a passive stance towards dietary chemicals, probably costly in the short term, might favor the later evolution of new diet specializations.

Published

2023

6. An improved reference of the grapevine genome reasserts the origin of the PN40024 highly homozygous genotype

Author

Amandine Velt, Bianca Frommer, Sophie Blanc, Daniela Holtgräwe, Éric Duchêne, Vincent Dumas, Jérôme Grimplet, Philippe Hugueney, Catherine Kim, Marie Lahaye, José Tomás Matus, David Navarro-Payá, Luis Orduña, Marcela K Tello-Ruiz, Nicola Vitulo, Doreen Ware, and Camille Rustenholz

Subjects

Genetics, QH426-470

Abstract

AbstractThe genome sequence of the diploid and highly homozygous Vitis viniferaVitis.

Published

2023

7. Metabolic and Molecular Rearrangements of Sauvignon Blanc (Vitis vinifera L.) Berries in Response to Foliar Applications of Specific Dry Yeast

Author

Marta Rodrigues, Cristian Forestan, Laura Ravazzolo, Philippe Hugueney, Raymonde Baltenweck, Angela Rasori, Valerio Cardillo, Pietro Carraro, Mario Malagoli, Stefano Brizzolara, Silvia Quaggiotti, Duilio Porro, Franco Meggio, Claudio Bonghi, Fabrizio Battista, and Benedetto Ruperti

Subjects

aroma, dry yeast extracts, grapevine, secondary metabolism, stress responses, Botany, QK1-989

Abstract

Dry yeast extracts (DYE) are applied to vineyards to improve aromatic and secondary metabolic compound content and wine quality; however, systematic information on the underpinning molecular mechanisms is lacking. This work aimed to unravel, through a systematic approach, the metabolic and molecular responses of Sauvignon Blanc berries to DYE treatments. To accomplish this, DYE spraying was performed in a commercial vineyard for two consecutive years. Berries were sampled at several time points after the treatment, and grapes were analyzed for sugars, acidity, free and bound aroma precursors, amino acids, and targeted and untargeted RNA-Seq transcriptional profiles. The results obtained indicated that the DYE treatment did not interfere with the technological ripening parameters of sugars and acidity. Some aroma precursors, including cys-3MH and GSH-3MH, responsible for the typical aromatic nuances of Sauvignon Blanc, were stimulated by the treatment during both vintages. The levels of amino acids and the global RNA-seq transcriptional profiles indicated that DYE spraying upregulated ROS homeostatic and thermotolerance genes, as well as ethylene and jasmonic acid biosynthetic genes, and activated abiotic and biotic stress responses. Overall, the data suggested that the DYE reduced berry oxidative stress through the regulation of specific subsets of metabolic and hormonal pathways.

Published

2023

8. Deciphering immune responses primed by a bacterial lipopeptide in wheat towards Zymoseptoria tritici

Author

Rémi Platel, Anca Lucau-Danila, Raymonde Baltenweck, Alessandra Maia-Grondard, Pauline Trapet, Maryline Magnin-Robert, Béatrice Randoux, Morgane Duret, Patrice Halama, Jean-Louis Hilbert, François Coutte, Philippe Jacques, Philippe Hugueney, Philippe Reignault, and Ali Siah

Subjects

wheat, Zymoseptoria tritici, induced resistance, priming, lipopeptide, omics, Plant culture, SB1-1110

Abstract

Plant immunity induction with natural biocontrol compounds is a valuable and promising ecofriendly tool that fits with sustainable agriculture and healthy food. Despite the agroeconomic significance of wheat, the mechanisms underlying its induced defense responses remain obscure. We reveal here, using combined transcriptomic, metabolomic and cytologic approach, that the lipopeptide mycosubtilin from the beneficial bacterium Bacillus subtilis, protects wheat against Zymoseptoria tritici through a dual mode of action (direct and indirect) and that the indirect one relies mainly on the priming rather than on the elicitation of plant defense-related mechanisms. Indeed, the molecule primes the expression of 80 genes associated with sixteen functional groups during the early stages of infection, as well as the accumulation of several flavonoids during the period preceding the fungal switch to the necrotrophic phase. Moreover, genes involved in abscisic acid (ABA) biosynthesis and ABA-associated signaling pathways are regulated, suggesting a role of this phytohormone in the indirect activity of mycosubtilin. The priming-based bioactivity of mycosubtilin against a biotic stress could result from an interaction of the molecule with leaf cell plasma membranes that may mimic an abiotic stress stimulus in wheat leaves. This study provides new insights into induced immunity in wheat and opens new perspectives for the use of mycosubtilin as a biocontrol compound against Z. tritici.

Published

2023

9. Wood degradation by Fomitiporia mediterranea M. Fischer: Physiologic, metabolomic and proteomic approaches

Author

Marion Schilling, Alessandra Maia-Grondard, Raymonde Baltenweck, Emilie Robert, Philippe Hugueney, Christophe Bertsch, Sibylle Farine, and Eric Gelhaye

Subjects

Esca, white rot, Fomitiporia mediterranea, grapevine wood, adaptation, Plant culture, SB1-1110

Abstract

Fomitiporia mediterranea (Fmed) is one of the main fungal species found in grapevine wood rot, also called “amadou,” one of the most typical symptoms of grapevine trunk disease Esca. This fungus is functionally classified as a white-rot, able to degrade all wood structure polymers, i.e., hemicelluloses, cellulose, and the most recalcitrant component, lignin. Specific enzymes are secreted by the fungus to degrade those components, namely carbohydrate active enzymes for hemicelluloses and cellulose, which can be highly specific for given polysaccharide, and peroxidases, which enable white-rot to degrade lignin, with specificities relating to lignin composition as well. Furthermore, besides polymers, a highly diverse set of metabolites often associated with antifungal activities is found in wood, this set differing among the various wood species. Wood decayers possess the ability to detoxify these specific extractives and this ability could reflect the adaptation of these fungi to their specific environment. The aim of this study is to better understand the molecular mechanisms used by Fmed to degrade wood structure, and in particular its potential adaptation to grapevine wood. To do so, Fmed was cultivated on sawdust from different origins: grapevine, beech, and spruce. Carbon mineralization rate, mass loss, wood structure polymers contents, targeted metabolites (extractives) and secreted proteins were measured. We used the well-known white-rot model Trametes versicolor for comparison. Whereas no significant degradation was observed with spruce, a higher mass loss was measured on Fmed grapevine culture compared to beech culture. Moreover, on both substrates, a simultaneous degradation pattern was demonstrated, and proteomic analysis identified a relative overproduction of oxidoreductases involved in lignin and extractive degradation on grapevine cultures, and only few differences in carbohydrate active enzymes. These results could explain at least partially the adaptation of Fmed to grapevine wood structural composition compared to other wood species, and suggest that other biotic and abiotic factors should be considered to fully understand the potential adaptation of Fmed to its ecological niche. Proteomics data are available via ProteomeXchange with identifier PXD036889.

Published

2022

10. Bioinspired Rhamnolipid Protects Wheat Against Zymoseptoria tritici Through Mainly Direct Antifungal Activity and Without Major Impact on Leaf Physiology

Author

Rémi Platel, Anca Lucau-Danila, Raymonde Baltenweck, Alessandra Maia-Grondard, Ludovic Chaveriat, Maryline Magnin-Robert, Béatrice Randoux, Pauline Trapet, Patrice Halama, Patrick Martin, Jean-Louis Hilbert, Monica Höfte, Philippe Hugueney, Philippe Reignault, and Ali Siah

Subjects

wheat, Zymoseptoria tritici, rhamnolipids, plant defenses, transcriptomic, metabolomic, Plant culture, SB1-1110

Abstract

Rhamnolipids (RLs), glycolipids biosynthesized by the Pseudomonas and Burkholderia genera, are known to display various activities against a wide range of pathogens. Most previous studies on RLs focused on their direct antimicrobial activity, while only a few reports described the mechanisms by which RLs induce resistance against phytopathogens and the related fitness cost on plant physiology. Here, we combined transcriptomic and metabolomic approaches to unravel the mechanisms underlying RL-induced resistance in wheat against the hemibiotrophic fungus Zymoseptoria tritici, a major pathogen of this crop. Investigations were carried out by treating wheat plants with a bioinspired synthetic mono-RL with a 12-carbon fatty acid tail, dodecanoyl α/β-L-rhamnopyranoside (Rh-Est-C12), under both infectious and non-infectious conditions to examine its potential wheat defense-eliciting and priming bioactivities. Whereas, Rh-Est-C12 conferred to wheat a significant protection against Z. tritici (41% disease severity reduction), only a slight effect of this RL on wheat leaf gene expression and metabolite accumulation was observed. A subset of 24 differentially expressed genes (DEGs) and 11 differentially accumulated metabolites (DAMs) was scored in elicitation modalities 2, 5, and 15 days post-treatment (dpt), and 25 DEGs and 17 DAMs were recorded in priming modalities 5 and 15 dpt. Most changes were down-regulations, and only a few DEGs and DAMs associated with resistance to pathogens were identified. Nevertheless, a transient early regulation in gene expression was highlighted at 2 dpt (e.g., genes involved in signaling, transcription, translation, cell-wall structure, and function), suggesting a perception of the RL by the plant upon treatment. Further in vitro and in planta bioassays showed that Rh-Est-C12 displays a significant direct antimicrobial activity toward Z. tritici. Taken together, our results suggest that Rh-Est-C12 confers protection to wheat against Z. tritici through direct antifungal activity and, to a lesser extent, by induction of plant defenses without causing major alterations in plant metabolism. This study provides new insights into the modes of action of RLs on the wheat-Z. tritici pathosystem and highlights the potential interest in Rh-Est-C12, a low-fitness cost molecule, to control this pathogen.

Published

2022

11. Co-Localization of Resistance and Metabolic Quantitative Trait Loci on Carrot Genome Reveals Fungitoxic Terpenes and Related Candidate Genes Associated with the Resistance to Alternaria dauci

Author

Claude Emmanuel Koutouan, Valérie Le Clerc, Anita Suel, Latifa Hamama, Patricia Claudel, David Halter, Raymonde Baltenweck, Philippe Hugueney, Jean-François Chich, Sitti Anlati Moussa, Clémentine Champlain, Sébastien Huet, Linda Voisine, Sandra Pelletier, Sandrine Balzergue, Wilfried Chevalier, Emmanuel Geoffriau, and Mathilde Briard

Subjects

metabolomic, transcriptomic, antifungal activities, Daucus carota, leaf blight, Microbiology, QR1-502

Abstract

Alternaria leaf blight, caused by the fungus Alternaria dauci, is the most damaging foliar disease of carrot. Some carrot genotypes exhibit partial resistance to this pathogen and resistance Quantitative Trait Loci (rQTL) have been identified. Co-localization of metabolic QTL and rQTL identified camphene, α-pinene, α-bisabolene, β-cubebene, caryophyllene, germacrene D and α-humulene as terpenes potentially involved in carrot resistance against ALB. By combining genomic and transcriptomic analyses, we identified, under the co-localization regions, terpene-related genes which are differentially expressed between a resistant and a susceptible carrot genotype. These genes include five terpene synthases and twenty transcription factors. In addition, significant mycelial growth inhibition was observed in the presence of α-humulene and caryophyllene.

Published

2023

12. The Algal Polysaccharide Ulvan Induces Resistance in Wheat Against Zymoseptoria tritici Without Major Alteration of Leaf Metabolome

Author

Marlon C. de Borba, Aline C. Velho, Alessandra Maia-Grondard, Raymonde Baltenweck, Maryline Magnin-Robert, Béatrice Randoux, Maxime Holvoet, Jean-Louis Hilbert, Christophe Flahaut, Philippe Reignault, Philippe Hugueney, Marciel J. Stadnik, and Ali Siah

Subjects

septoria tritici blotch, green seaweed, induced resistance, MALDI-TOF-MS, gene expression, UHPLC-MS, Plant culture, SB1-1110

Abstract

This study aimed to examine the ability of ulvan, a water-soluble polysaccharide from the green seaweed Ulva fasciata, to provide protection and induce resistance in wheat against the hemibiotrophic fungus Zymoseptoria tritici. Matrix-assisted laser desorption/ionization-time-of-flight-mass spectrometry (MALDI-TOF-MS) analysis indicated that ulvan is mainly composed of unsaturated monosaccharides (rhamnose, rhamnose-3-sulfate, and xylose) and numerous uronic acid residues. In the greenhouse, foliar application of ulvan at 10 mg.ml–1 2 days before fungal inoculation reduced disease severity and pycnidium density by 45 and 50%, respectively. Ulvan did not exhibit any direct antifungal activity toward Z. tritici, neither in vitro nor in planta. However, ulvan treatment significantly reduced substomatal colonization and pycnidium formation within the mesophyll of treated leaves. Molecular assays revealed that ulvan spraying elicits, but does not prime, the expression of genes involved in several wheat defense pathways, including pathogenesis-related proteins (β-1,3-endoglucanase and chitinase), reactive oxygen species metabolism (oxalate oxidase), and the octadecanoid pathway (lipoxygenase and allene oxide synthase), while no upregulation was recorded for gene markers of the phenylpropanoid pathway (phenylalanine ammonia-lyase and chalcone synthase). Interestingly, the quantification of 83 metabolites from major chemical families using ultra-high-performance liquid chromatography-mass spectrometry (UHPLC-MS) in both non-infectious and infectious conditions showed no substantial changes in wheat metabolome upon ulvan treatment, suggesting a low metabolic cost associated with ulvan-induced resistance. Our findings provide evidence that ulvan confers protection and triggers defense mechanisms in wheat against Z. tritici without major modification of the plant physiology.

Published

2021

13. Comparative Metabolomic Analysis of Four Fabaceae and Relationship to In Vitro Nematicidal Activity against Xiphinema index

Author

Lise Negrel, Raymonde Baltenweck, Gerard Demangeat, Françoise Le Bohec-Dorner, Camille Rustenholz, Amandine Velt, Claude Gertz, Eva Bieler, Markus Dürrenberger, Pascale Gombault, Philippe Hugueney, and Olivier Lemaire

Subjects

Fabaceae, Onobrychis, Lotus, Melilotus, Trifolium, Xiphinema index, Organic chemistry, QD241-441

Abstract

The grapevine fanleaf virus (GFLV), responsible for fanleaf degeneration, is spread in vineyards by the soil nematode Xiphinema index. Nematicide molecules were used to limit the spread of the disease until they were banned due to negative environmental impacts. Therefore, there is a growing interest in alternative methods, including plant-derived products with antagonistic effects to X. index. In this work, we evaluated the nematicidal potential of the aerial parts and roots of four Fabaceae: sainfoin (Onobrychis viciifolia), birdsfoot trefoil (Lotus corniculatus), sweet clover (Melilotus albus), and red clover (Trifolium pratense), as well as that of sainfoin-based commercial pellets. For all tested plants, either aerial or root parts, or both of them, exhibited a nematicidal effect on X. index in vitro, pellets being as effective as freshly harvested plants. Comparative metabolomic analyses did not reveal molecules or molecule families specifically associated with antagonistic properties toward X. index, suggesting that the nematicidal effect is the result of a combination of different molecules rather than associated with a single compound. Finally, scanning electron microscope observations did not reveal the visible impact of O. viciifolia extract on X. index cuticle, suggesting that alteration of the cuticle may not be the primary cause of their nematicidal effect.

Published

2022

14. Les petits Mammifères du Burdigalien (MN3; Miocène) d’Estrepouy (Gers, France): liste faunique actualisée

Author

M. Hugueney and C. Bulot

Subjects

rongeurs, insectivores (mammalia), miocène inférieur, bassin d’aquitaine (sw france), biochronologie, paléoécologie, Geology, QE1-996.5

Abstract

[fr] La liste faunique des petits mammifères d’Estrepouy (Bassin Aquitain, France) est revue: du matériel nouveau est ajouté et les déterminations sont mises à jour. Les petits mammifères sont représentés par une trentaine d’espèces (dont sept insectivores), alors que le gisement un peu plus récent de Wintershof- West (Allemagne) - représentatif du niveau mammalien MN3 - atteint plus de quarante espèces (dont vingt insectivores). Les différences dans la représentation des espèces semblent indiquer à Estrepouy un paléoenvironnement plus sec; toutefois, en Espagne, le paléoenvironnement du niveau MN3 semble encore plus sec.

Published

2011

15. The wild grape genome sequence provides insights into the transition from dioecy to hermaphroditism during grape domestication

Author

Hélène Badouin, Amandine Velt, François Gindraud, Timothée Flutre, Vincent Dumas, Sonia Vautrin, William Marande, Jonathan Corbi, Erika Sallet, Jérémy Ganofsky, Sylvain Santoni, Dominique Guyot, Eugenia Ricciardelli, Kristen Jepsen, Jos Käfer, Hélène Berges, Eric Duchêne, Franck Picard, Philippe Hugueney, Raquel Tavares, Roberto Bacilieri, Camille Rustenholz, and Gabriel A. B. Marais

Subjects

Grapevine, Dioecy, Sex chromosomes, Sex-determining genes, Biology (General), QH301-705.5, Genetics, QH426-470

Abstract

Abstract Background A key step in domestication of the grapevine was the transition from separate sexes (dioecy) in wild Vitis vinifera ssp. sylvestris (V. sylvestris) to hermaphroditism in cultivated Vitis vinifera ssp. sativa (V. vinifera). It is known that V. sylvestris has an XY system and V. vinifera a modified Y haplotype (Yh) and that the sex locus is small, but it has not previously been precisely characterized. Results We generate a high-quality de novo reference genome for V. sylvestris, onto which we map whole-genome re-sequencing data of a cross to locate the sex locus. Assembly of the full X, Y, and Yh haplotypes of V. sylvestris and V. vinifera sex locus and examining their gene content and expression profiles during flower development in wild and cultivated accessions show that truncation and deletion of tapetum and pollen development genes on the X haplotype likely causes male sterility, while the upregulation of a Y allele of a cytokinin regulator (APRT3) may cause female sterility. The downregulation of this cytokinin regulator in the Yh haplotype may be sufficient to trigger reversal to hermaphroditism. Molecular dating of X and Y haplotypes is consistent with the sex locus being as old as the Vitis genus, but the mechanism by which recombination was suppressed remains undetermined. Conclusions We describe the genomic and evolutionary characterization of the sex locus of cultivated and wild grapevine, providing a coherent model of sex determination in the latter and for transition from dioecy to hermaphroditism during domestication.

Published

2020

16. Recent Advances in Plant Metabolomics: From Metabolic Pathways to Health Impact

Author

Andreia Figueiredo, Philippe Hugueney, and Alessandra Durazzo

Subjects

n/a, Biology (General), QH301-705.5

Abstract

In the past decade, technological development allowed a rapid advance on several OMIC approaches, metabolomics was no exception [...]

Published

2022

17. A IMPORTÂNCIA DA PRESERVAÇÃO E CONSERVAÇÃO DAS ÁREAS ÚMIDAS COMO MECANISMO DE EFETIVAÇÃO DO DIREITO CONSTITUCIONAL AO MEIO AMBIENTE ECOLOGICAMENTE EQUILIBRADO PARA AS FUTURAS GERAÇÕES

Author

Fernanda Ribeiro Darold and Carlos Teodoro José Hugueney Irigaray

Subjects

Law in general. Comparative and uniform law. Jurisprudence, K1-7720, Social sciences (General), H1-99

Abstract

O presente trabalho tem por objetivo analisar mediante referencial bibliográfico a caracterização das áreas úmidas, enfatizando a sua importância na manutenção da biodiversidade, bem como a necessidade da sua preservação como mecanismo de efetivação do direito constitucional ao meio ambiente ecologicamente equilibrado para as futuras gerações, realizando o estudo comparado dos preceitos trazidos pela Convenção das Zonas Úmidas de Importância Internacional (Convenção de Ramsar), a qual se tornou importante instrumento de proteção ambiental, com vistas a promover o uso racional e sustentável destes ecossistemas específicos.

Published

2018

18. Severe Stunting Symptoms upon Nepovirus Infection Are Reminiscent of a Chronic Hypersensitive-like Response in a Perennial Woody Fruit Crop

Author

Isabelle R. Martin, Emmanuelle Vigne, Amandine Velt, Jean-Michel Hily, Shahinez Garcia, Raymonde Baltenweck, Véronique Komar, Camille Rustenholz, Philippe Hugueney, Olivier Lemaire, and Corinne Schmitt-Keichinger

Subjects

contrasting phenotypes, grapevine, hypersensitive response, metabolome, pathogenicity, plant virus, Microbiology, QR1-502

Abstract

Virus infection of plants can result in various degrees of detrimental impacts and disparate symptom types and severities. Although great strides have been made in our understanding of the virus–host interactions in herbaceous model plants, the mechanisms underlying symptom development are poorly understood in perennial fruit crops. Grapevine fanleaf virus (GFLV) causes variable symptoms in most vineyards worldwide. To better understand GFLV-grapevine interactions in relation to symptom development, field and greenhouse trials were conducted with a grapevine genotype that exhibits distinct symptoms in response to a severe and a mild strain of GFLV. After validation of the infection status of the experimental vines by high-throughput sequencing, the transcriptomic and metabolomic profiles in plants infected with the two viral strains were tested and compared by RNA-Seq and LC-MS, respectively, in the differentiating grapevine genotype. In vines infected with the severe GFLV strain, 1023 genes, among which some are implicated in the regulation of the hypersensitive-type response, were specifically deregulated, and a higher accumulation of resveratrol and phytohormones was observed. Interestingly, some experimental vines restricted the virus to the rootstock and remained symptomless. Our results suggest that GFLV induces a strain- and cultivar-specific defense reaction similar to a hypersensitive reaction. This type of defense leads to a severe stunting phenotype in some grapevines, whereas others are resistant. This work is the first evidence of a hypersensitive-like reaction in grapevine during virus infection.

Published

2021

19. Identification of Lipid Markers of Plasmopara viticola Infection in Grapevine Using a Non-targeted Metabolomic Approach

Author

Lise Negrel, David Halter, Sabine Wiedemann-Merdinoglu, Camille Rustenholz, Didier Merdinoglu, Philippe Hugueney, and Raymonde Baltenweck

Subjects

grapevine, downy mildew, metabolomics, lipids, biomarkers, Plant culture, SB1-1110

Abstract

The Oomycete Plasmopara viticola is responsible for downy mildew, which is one of the most damaging grapevine diseases. Due to the strictly biotrophic way of life of P. viticola, its metabolome is relatively poorly characterized. In this work, we have used a mass spectrometry-based non-targeted metabolomic approach to identify potential Plasmopara-specific metabolites. This has led to the characterization and structural elucidation of compounds belonging to three families of atypical lipids, which are not detected in healthy grapevine tissues. These lipids include ceramides and derivatives of arachidonic and eicosapentaenoic acid, most of which had not been previously described in Oomycetes. Furthermore, we show that these lipids can be detected in Plasmopara-infected tissues at very early stages of the infection process, long before the appearance the first visible symptoms of the disease. Therefore, the potential use of these specific lipids as markers to monitor the development of P. viticola is discussed.

Published

2018

20. Annotation, classification, genomic organization and expression of the Vitis vinifera CYPome.

Author

Tina Ilc, Gautier Arista, Raquel Tavares, Nicolas Navrot, Eric Duchêne, Amandine Velt, Frédéric Choulet, Etienne Paux, Marc Fischer, David R Nelson, Philippe Hugueney, Danièle Werck-Reichhart, and Camille Rustenholz

Subjects

Medicine, Science

Abstract

Cytochromes P450 are enzymes that participate in a wide range of functions in plants, from hormonal signaling and biosynthesis of structural polymers, to defense or communication with other organisms. They represent one of the largest gene/protein families in the plant kingdom. The manual annotation of cytochrome P450 genes in the genome of Vitis vinifera PN40024 revealed 579 P450 sequences, including 279 complete genes. Most of the P450 sequences in grapevine genome are organized in physical clusters, resulting from tandem or segmental duplications. Although most of these clusters are small (2 to 35, median = 3), some P450 families, such as CYP76 and CYP82, underwent multiple duplications and form large clusters of homologous sequences. Analysis of gene expression revealed highly specific expression patterns, which are often the same within the genes in large physical clusters. Some of these genes are induced upon biotic stress, which points to their role in plant defense, whereas others are specifically activated during grape berry ripening and might be responsible for the production of berry-specific metabolites, such as aroma compounds. Our work provides an exhaustive and robust annotation including clear identification, structural organization, evolutionary dynamics and expression patterns for the grapevine cytochrome P450 families, paving the way to efficient functional characterization of genes involved in grapevine defense pathways and aroma biosynthesis.

Published

2018

21. Áreas Úmidas Especialmente 'Des' Protegidas no Direito Brasileiro: O Caso do Pantanal Mato-grossense e os Desafios e Perspectivas para sua Conservação

Author

Carlos Teodoro José Hugueney Irigaray

Subjects

Áreas úmidas, Direito Ambiental, Áreas protegidas, Regional economics. Space in economics, HT388

Abstract

Esta abordagem tem como objetivo apontar a relevância das áreas úmidas no Brasil em confronto com o quadro de ameaças e desproteção legal que colocam em risco frágeis ecossistemas e afetam comunidades tradicionais que deles dependem. Como exemplo emblemático desse vazio jurídico e institucional e dos desafios existentes para a proteção das áreas úmidas no Brasil esta pesquisa bibliográfica relata os impactos socioambientais que incidem sobre o pantanal matogrossense, indicando a necessidade da construção de um marco regulatório que proteja não apenas o pantanal, mas todas as áreas úmidas do país, de modo a permitir sua utilização sustentável em benefício das gerações presentes e futuras.

Published

2015

22. The Aphid-Transmitted Turnip yellows virus Differentially Affects Volatiles Emission and Subsequent Vector Behavior in Two Brassicaceae Plants

Author

Patricia Claudel, Quentin Chesnais, Quentin Fouché, Célia Krieger, David Halter, Florent Bogaert, Sophie Meyer, Sylvaine Boissinot, Philippe Hugueney, Véronique Ziegler-Graff, Arnaud Ameline, and Véronique Brault

Subjects

Luteoviridae, polerovirus, volatiles, aphids, Brassicaceae, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Aphids are important pests which cause direct damage by feeding or indirect prejudice by transmitting plant viruses. Viruses are known to induce modifications of plant cues in ways that can alter vector behavior and virus transmission. In this work, we addressed whether the modifications induced by the aphid-transmitted Turnip yellows virus (TuYV) in the model plant Arabidopsis thaliana also apply to the cultivated plant Camelina sativa, both belonging to the Brassicaceae family. In most experiments, we observed a significant increase in the relative emission of volatiles from TuYV-infected plants. Moreover, due to plant size, the global amounts of volatiles emitted by C. sativa were higher than those released by A. thaliana. In addition, the volatiles released by TuYV-infected C. sativa attracted the TuYV vector Myzus persicae more efficiently than those emitted by non-infected plants. In contrast, no such preference was observed for A. thaliana. We propose that high amounts of volatiles rather than specific metabolites are responsible for aphid attraction to infected C. sativa. This study points out that the data obtained from the model pathosystem A. thaliana/TuYV cannot be straightforwardly extrapolated to a related plant species infected with the same virus.

Published

2018