0000000000399843

AUTHOR

Nadia Rossin

Dissection of pea responses to water stress during seed filling identifies candidate genes for drought tolerance

International audience; Given their ability to fix atmospheric nitrogen, legumes are pivotal to the development of sustainable agriculture in Europe as a source of protein for food and feed. Pea (Pisum sativum) is currently the leading grain legume crop in France and major efforts are being made to reintroduce legumes as protein crops in Europe. However, instability of seed yield and quality due to environmental fluctuations still represent a real barrier for the development of these cultures, and breeding for stable yields is needed. In pea, drought stress occurring during the reproductive phase can greatly affect seed yield and quality. We investigated the response of pea plants (var. Cam…

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Time-series RNA-seq analysis of pea seeds during development under control and drought conditions

National audience; Pea (Pisum sativum) produces seeds rich in proteins. However, protein content and seed quality can be impacted by environmental factors including drought. Accumulation of seed storage proteins (SSP) during seed filling is a highly regulated process. While proteomics of SSP deposition in pea seeds is well documented, knowledge of the underlying regulatory gene networks, either in control or stress conditions, is lacking. In this study, a RNA-seq based transcriptome analysis of seed development in control and water stress condition was carried out. Developing seeds were collected at six time points, from late embryogenesis to early maturation. RNA-seq was performed on an Il…

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Role of vacuolar sulfate in nutritional quality of pea seeds

Grain legumes have a key role to play in both agroecological and food transitions. Indeed, these plants are able to accumulate large amounts of proteins in their seeds even in the absence of nitrogen fertilization thanks to symbiotic N2 fixation in the root nodules. However, legumes are exposed to abiotic stresses, including nutrient deficiencies, making it important to optimize nutrient use efficiency for maintaining seed protein content and quality. Seed protein quality refers to the ability of the seed proteins to meet the body’s requirements for essential amino acids. It strongly depends on the amino acid balance, which determines protein digestibility. In pea (Pisum sativum) seeds, met…

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β-Amyrin Synthase1 Controls the Accumulation of the Major Saponins Present in Pea (Pisum sativum)

Abstract The use of pulses as ingredients for the production of food products rich in plant proteins is increasing. However, protein fractions prepared from pea or other pulses contain significant amounts of saponins, glycosylated triterpenes that can impart an undesirable bitter taste when used as an ingredient in foodstuffs. In this article, we describe the identification and characterization of a gene involved in saponin biosynthesis during pea seed development, by screening mutants obtained from two Pisum sativum TILLING (Targeting Induced Local Lesions IN Genomes) populations in two different genetic backgrounds. The mutations studied are located in a gene designated PsBAS1 (β-amyrin s…

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Importance du sulfate vacuolaire pour l’établissement du rendement et de la qualité des graines de pois

Les graines de pois constituent un aliment sain et nourrissant, notamment de par leur forte teneur en protéines (environ 25%). La qualité nutritionnelle de ces protéines est néanmoins limitée par leur faible proportion en acides aminés soufrés (AAS) : cystéine et méthionine. L’objectif était d’étudier la contribution du stock de sulfate contenu dans les vacuoles à l’élaboration du rendement et de la qualité des graines, notamment la synthèse des AAS. Nous avons ciblé l’unique gène SULTR4 de pois qui code un transporteur permettant l’efflux de sulfate de la vacuole vers le cytosol. Après avoir confirmé sa localisation à la membrane vacuolaire, nous avons recherché des mutants de pois pour ce…

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Studying the interplay between sulfur nutrition and water stress tolerance in pea by proteomics : a focus on seed development and composition

International audience; Water stress and sulfur-deficiency are two constraints increasingly faced by crops due to climatechange and low-input practices. To investigate their interplay in the grain legume pea (Pisum sativumL.), sulfate was depleted at mid-vegetative stage and a moderate 9-day water stress period was imposedduring the early reproductive phase. The combined stress accelerated seed production, lowering yield,one-seed weight and seed number per plant, but rebalanced seed protein composition. In fact, themoderate water stress mitigated the negative effect of sulfur-deficiency on the accumulation of sulfurrichproteins in seeds, probably due to a lower seed sink strength for nitrog…

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The pea sulfate transporter, PsSULTR4, contributes to seed yield and quality

To investigate the role of vacuolar sulfate in seed yield and quality, we have targeted the single pea SULTR4 gene (PsSULTR4), which encodes a transporter homologous to Arabidopsis SULTR4;1 and 4;2 that allow sulfate efflux from the vacuole to the cytosol. By simulating the 3D structure of PsSULTR4, we observed that it is similar to that of SULTR4;1 in Arabidopsis. Furthermore, a phylogenetic analysis revealed a high level of conservation of SULTR4 protein motifs across land species. A fluorescent protein fusion experiment confirmed that PsSULTR4 localizes to the vacuolar membrane.Five sultr4 mutants were identified by TILLING (Targeting Induced Local Lesions IN Genomes), two of which showe…

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Role of vacuolar sulfate in the nutritional quality of pea seeds

Legumes have a key role to play in both agroecological and food transitions due to their ability to accumulate large amountsof seed proteins without nitrogen fertilization thanks to symbiotic N2 fixation in the root nodules. However, in agroecologicalsystems, legumes are more exposed to nutrient deficiencies, including sulfur deficiency, than in conventional systems, makingit important to optimize nutrient use efficiency for maintain seed protein quality, in particular the level of (semi) essentialamino acids like methionine and cysteine. These sulfur-containing amino acids are synthetized through the sulfur metabolicpathway starting from sulfate reduction. Sulfate is taken up from the soil…

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Interplay between sulfur nutrition and water stress tolerance in pea : a focus on seed development and composition

International audience; Water stress and sulfur-deficiency are two constraints increasingly faced by crops due to climate change and low-input practices. To investigate their interplay in the grain legume pea (Pisum sativum L.), sulfate was depleted at mid-vegetative stage and a moderate 9-day water stress period was imposed during the early reproductive phase. The combined stress accelerated seed production, lowering yield, one-seed weight and seed number per plant, but rebalanced seed globulin composition. In fact, the moderate water stress mitigated the negative effect of sulfur-deficiency on the accumulation of sulfur-rich globulins in seeds, probably due to a lower seed sink strength f…

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Le système racinaire nodulé du pois : un rôle pivot pour sa stabilité sous contraintes hydriques fluctuantes

National audience; Dans le contexte du changement climatique, des épisodes de stress hydrique plus fréquents sont attendus, entraînant des modifications de nutrition, de croissance des plantes, et donc des pertes de rendements. Chez les plantes légumineuses, telles que le pois protéagineux, un stress hydrique du sol diminue drastiquement l’acquisition de l’azote (N) par la fixation symbiotique du N2 atmosphérique, conduisant à une carence azotée de la plante et pouvant diminuer le rendement de 30 à 60% suivant les variétés. Il apparait donc nécessaire de sélectionner des génotypes de pois mieux adaptés à la sécheresse. Dans cette étude, les réponses architecturales, physiologiques et transc…

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