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Your search keyword '"Morel, Marie-Hélène"' showing total 221 results
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221 results on '"Morel, Marie-Hélène"'

1. Delicate Analysis of Interacting Proteins and Their Assemblies by Flow Field-Flow Fractionation Techniques

Author

Urbes, Aurélien, Morel, Marie-Hélène, Ramos, Laurence, Violleau, Frédéric, and Banc, Amélie

Subjects
Condensed Matter - Soft Condensed Matter, Physics - Chemical Physics
Abstract

We study the efficiency of several Asymmetrical Flow Field-Flow Fractionation (AF4) techniques to investigate the self-associating wheat gluten proteins. We compare the use of a denaturing buffer including sodium dodecyl sulfate (SDS) and a mild chaotropic solvent, water/ethanol, as eluent, on a model gluten sample. Through a thorough analysis of the data obtained from coupled light scattering detectors, and with the identification of molecular composition of the eluted protein, we evidence co-elution events in several conditions. We show that the focus step used in conventional AF4 with the SDS buffer leads to the formation of aggregates that co-elute with monomeric proteins. By contrast, a frit-inlet device enables the fractionation of individual wheat proteins in the SDS buffer. Interestingly conventional AF4, using water/ethanol as eluent, is an effective method for fractionating gluten proteins and their complex dynamic assemblies which involve weak forces and are composed of both monomeric and polymeric proteins.

Published
2024
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2. Scaling Properties of Gelling Systems in Nonlinear Shear Experiments

Author

Louhichi, Ameur, Morel, Marie-Hélène, Ramos, Laurence, and Banc, Amélie

Subjects
Condensed Matter - Soft Condensed Matter, Physics - Chemical Physics
Abstract

We study model near-critical polymer gelling systems made of gluten proteins dispersions stabilized at different distances from the gel point. We impose different shear rates and follow the time evolution of the stress. For sufficiently large shear rates, an intermediate stress overshoot is measured before reaching the steady state. We evidence self-similarity of the stress overshoot as a function of the applied shear rate for samples with various distances from the gel point, which is related to the elastic energy stored by the samples, as for dense systems close to the jamming transition. In concordance with the findings for glassy and jammed systems, we also measure that the stress after flow cessation decreases as a power law with time with a characteristic relaxation time that depends on the shear rate previously imposed. These features revealed in non-linear rheology could be the signature of a mesoscopic dynamics, which would depend on the extent of gelation., Comment: 10.1021/acsmacrolett.4c00121

Published
2024

4. Flow of gluten with tunable protein composition: from stress undershoot to stress overshoot and strain hardening

Author

Louhichi, Ameur, Morel, Marie-Helene, Ramos, Laurence, and Banc, Amelie

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

Understanding the origin of the unique rheological properties of wheat gluten, the protein fraction of wheat grain, is crucial in bread-making processes and questions scientists since polymeric glutenins. To better understand the respective role of the different classes of proteins in the supramolecular structure of gluten and its link to the material properties, we investigate here concentrated dispersions of gluten proteins in water with a fixed total protein concentration but variable composition in gliadin and glutenin. Linear viscoelasticity measurements show a gradual increase of the viscosity of the samples as the glutenin mass content increases from 7 to 66%. While the gliadin-rich samples are microphase-separated viscous fluids, homogeneous and transparent pre-gel and gels are obtained with the replacement of gliadin by glutenin. To unravel the flow properties of the gluten samples, we perform shear start-up experiments at different shear-rates. In accordance with the linear viscoelastic signature, three classes of behaviour are evidenced depending on the protein composition. As samples get depleted in gliadin and enriched in glutenin, distinctive features are measured: (i) viscosity undershoot suggesting droplet elongation for microphase-separated dispersions, (ii) stress overshoot and partial structural relaxation for near-critical pre-gels, and (iii) strain hardening and flow instabilities of gels. We discuss the experimental results by analogy with the behaviour of model systems, including viscoelastic emulsions, branched polymer melts and critical gels, and provide a consistent physical picture of the supramolecular features of the three classes of protein dispersions.

Published
2022
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6. Impact of the protein composition on the structure and viscoelasticity of polymer-like gluten gels

Author

Ramos, Laurence, Banc, Amélie, Louhichi, Ameur, Pincemaille, Justine, Jestin, Jacques, Fu, Zhendong, Appavou, Marie-Sousai, Menut, Paul, and Morel, Marie-Hélène

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

We investigate the structure of gluten polymer-like gels in a binary mixture of water/ethanol, $50/50$ v/v, a good solvent for gluten proteins. Gluten comprises two main families of proteins, monomeric gliadins and polymer glutenins. In the semi-dilute regime, scattering experiments highlight two classes of behavior, akin to standard polymer solution and polymer gel, depending on the protein composition. We demonstrate that these two classes are encoded in the structural features of the proteins in very dilute solution, and are correlated with the presence of proteins assemblies of typical size tens of nanometers. The assemblies only exist when the protein mixture is sufficiently enriched in glutenins. They are found directly associated to the presence in the gel of domains enriched in non-exchangeable H-bonds and of size comparable to that of the protein assemblies. The domains are probed in neutron scattering experiments thanks to their unique contrast. We show that the sample visco-elasticity is also directly correlated to the quantity of domains enriched in H-bonds, showing the key role of H-bonds in ruling the visco-elasticity of polymer gluten gels., Comment: accepted for publication in Journal of Physics: Condensed Matter, Special issue on "Glasses and gels: a crossroad of molecular liquids, polymers and colloids"

Published
2021
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7. Tailoring the viscoelasticity of polymer gels of gluten proteins through solvent quality

Author

Costanzo, Salvatore, Banc, Amélie, Louhichi, Ameur, Chauveau, Edouard, Wu, Baohu, Morel, Marie-Hélène, and Ramos, Laurence

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

We investigate the linear viscoelasticity of polymer gels produced by the dispersion of gluten proteins in water:ethanol binary mixtures with various ethanol contents, from pure water to 60% v/v ethanol. We show that the complex viscoelasticity of the gels exhibits a time/solvent composition superposition principle, demonstrating the self-similarity of the gels produced in different binary solvents. All gels can be regarded as near critical gels with characteristic rheological parameters, elastic plateau and characteristic relaxation time, which are related one to another, as a consequence of self-similarity, and span several orders of magnitude when changing the solvent composition. Thanks to calorimetry and neutron scattering experiments, we evidencea co-solvency effect with a better solvation of the complex polymer-like chains of the gluten proteins as the amount of ethanol increases. Overall the gel viscoelasticity can be accounted for by a unique characteristic length characterizing the crosslink density of the supramolecular network, which is solvent composition-dependent. On a molecular level, these findings could be interpreted as a transition of the supramolecular interactions, mainly H-bonds, from intra- to interchains, which would be facilitated by the disruption of hydrophobic interactions by ethanol molecules. This work provides new insight for tailoring the gelation process of complex polymer gels., Comment: Macromolecules. In press 2020

Published
2020
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11. Spontaneous gelation of wheat gluten proteins in a food grade solvent

Author

Dahesh, Mohsen, Banc, Amélie, Duri, Agnès, Morel, Marie-Hélène, and Ramos, Laurence

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

Structuring wheat gluten proteins into gels with tunable mechanical properties would provide more versatility for the production of plant protein-rich food products. Gluten, a strongly elastic protein material insoluble in water, is hardly processable. We use a novel fractionation procedure allowing the isolation from gluten of a water/ethanol soluble protein blend, enriched in glutenin polymers at an unprecedented high ratio (50%). We investigate here the viscoelasticity of suspensions of the protein blend in a water/ethanol (50/50 v/v) solvent, and show that, over a wide range of concentrations, they undergo a spontaneous gelation driven by hydrogen bonding. We successfully rationalize our data using percolation models and relate the viscoelasticity of the gels to their fractal dimension measured by scattering techniques. The gluten gels display self-healing properties and their elastic plateaus cover several decades, from 0.01 to 10000 Pa. In particular very soft gels as compared to standard hydrated gluten can be produced., Comment: Food Hydrocolloids, in press

Published
2015
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15. Polymeric Assembly of Gluten Proteins in an Aqueous Ethanol Solvent

Author

Dahesh, Mohsen, Banc, Amélie, Duri, Agnès, Morel, Marie-Hélène, and Ramos, Laurence

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

The supramolecular organization of wheat gluten proteins is largely unknown due to the intrinsic complexity of this family of proteins and their insolubility in water. We fractionate gluten in a water/ethanol (50/50 v/v) and obtain a protein extract which is depleted in gliadin, the monomeric part of wheat gluten proteins, and enriched in glutenin, the polymeric part of wheat gluten proteins. We investigate the structure of the proteins in the solvent used for extraction over a wide range of concentration, by combining X-ray scattering and multi-angle static and dynamic light scattering. Our data show that, in the ethanol/water mixture, the proteins display features characteristic of flexible polymer chains in a good solvent. In the dilute regime, the protein form very loose structures of characteristic size 150 nm, with an internal dynamics which is quantitatively similar to that of branched polymer coils. In more concentrated regimes, data highlight a hierarchical structure with one characteristic length scale of the order of a few nm, which displays the scaling with concentration expected for a semi-dilute polymer in good solvent, and a fractal arrangement at much larger length scale. This structure is strikingly similar to that of polymeric gels, thus providing some factual knowledge to rationalize the viscoelastic properties of wheat gluten proteins and their assemblies., Comment: to appear in Journal of Physical Chemistry B

Published
2014
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19. Building a sorghum grain: a transcriptome roadmap targeting protein content and digestibility. P69

Author

Sene, Mamadou, Berger, Angélique, Catalayud, Caroline, Rios, Maelle, Bonicel, Joelle, Morel, Marie-Hélène, Mameri, Hamza, Pot, David, Terrier, Nancy, Sene, Mamadou, Berger, Angélique, Catalayud, Caroline, Rios, Maelle, Bonicel, Joelle, Morel, Marie-Hélène, Mameri, Hamza, Pot, David, and Terrier, Nancy

Abstract

Sorghum is the world's 5th most important grain crop. Its ability to cope with biotic and abiotic constraints could allow it to contribute to global food security in the context of climate change. However, the low digestibility of the grain reserve proteins (called kafirins) by gastrointestinal proteases is hampering its wider use for food and feed. The structure of the protein bodies in which are stored the kafirins is potentially responsible of this defect. The molecular mechanisms underlying the development and modification of kafirin-containing protein bodies are still largely unknown. In this context, our objective is to decipher the molecular mechanisms involved in the regulation of the content and digestibility of sorghum grain reserve proteins. The evolution of the transcriptome was monitored during the grain development of the Macia genotype, and supplemented by an analysis of gene co-expression networks (GCN). In parallel, the protein content of the grains and their in vitro digestibility were measured. Analyses of allowed the identification of transcription factors (TFs) potentially regulating the mechanisms of protein reserve establishment. We identified co-expression modules involving kafirin genes and genes orthologs to TFs already known in maize, rice and arabidopsis. In those modules, we also identified not yet identified TFs. In the future, we plan to evaluate the role of these TFs by a simplified cellular overexpression system in sorghum protoplasts.

Published
2023

20. Construction du grain de sorgho : une feuille de route transcriptomique ciblant la teneur et digestibilité des protéines

Author

Sene, Mamadou, Berger, Angélique, Catalayud, Caroline, Rios, Maelle, Bonicel, Joelle, Morel, Marie-Hélène, Pot, David, Terrier, Nancy, Sene, Mamadou, Berger, Angélique, Catalayud, Caroline, Rios, Maelle, Bonicel, Joelle, Morel, Marie-Hélène, Pot, David, and Terrier, Nancy

Abstract

Le sorgho est la 5ème céréale mondiale pour la production de grains. Sa capacité à faire face aux contraintes biotiques et abiotiques pourrait contribuer à la sécurité alimentaire du globe dans un contexte de changement climatique. Cependant, la faible digestibilité des protéines de réserves du grain (appelées kafirines) par les protéases gastro-intestinales représente un frein à sa plus large utilisation pour l'alimentation animale et humaine. Elle serait potentiellement due aux structures de stockage de ces protéines (corps protéiques). Les mécanismes moléculaires sous-jacents à la mise en place et aux modifications des corps protéiques contenant les kafirines sont encore peu connus. Dans ce contexte, notre objectif est de décrypter les mécanismes moléculaires impliqués dans la régulation de la teneur et de la digestibilité des protéines de réserve du grain de sorgho. Un suivi de l'évolution du transcriptome a été réalisé sur les grains de la variété Macia au cours de leur développement, et complété d'une analyse de réseaux de co-expession génique (RG). En parallèle, à travers des mesures de la teneur en protéine des grains et leur digestibilité in vitro, les vitesses d'accumulation des protéines (VAP) et de perte de digestibilité (VPD) ont été calculées au cours du développement du grain. Les résultats issus des RG ont permis d'identifier des modules de co-expression génique fortement corrélés à la VAP et à la VPD. L'exploration de ces modules a permis de mettre en évidence un module impliquant une grande majorité des gènes de synthèse des kafirines et des orthologues de facteurs de transcription (FT) déjà connus chez d'autres espèces et potentiellement régulateurs des mécanismes de mise en place de réserves protéiques. De nouveaux FT ont été également identifiés dans ces modules. Pour la suite, nous envisageons d'évaluer le rôle de ces FT par un système de surexpression dans des protoplastes.

Published
2023

21. Digging into the transcriptome of a developing sorghum grain to find the culprits of protein content and low digestibility

Author

Terrier, Nancy, Sene, Mamadou, Berger, Angélique, Calatayud, Caroline, De Bellis, Fabien, Rios, Maelle, Bonicel, Joelle, Morel, Marie-Hélène, Mameri, Hamza, Pot, David, Terrier, Nancy, Sene, Mamadou, Berger, Angélique, Calatayud, Caroline, De Bellis, Fabien, Rios, Maelle, Bonicel, Joelle, Morel, Marie-Hélène, Mameri, Hamza, and Pot, David

Abstract

The potential of sorghum to cope with biotic and abiotic constraints could enable it to contribute to global food security in the context of climate change. However, the low digestibility of the grain reserve proteins (called kafirins) by gastrointestinal proteases is hampering its wider use for food and feed. The structure of the protein bodies in which are stored the kafirins is potentially responsible of this defect. The molecular mechanisms underlying the development and modification of kafirin-containing protein bodies are still largely unknown. In this context, our objective is to decipher the molecular mechanisms involved in the regulation of the content and digestibility of sorghum grain reserve proteins. The evolution of the transcriptome was monitored during the grain development of the Macia genotype, and supplemented by an analysis of gene co-expression networks (GCN). In parallel, the protein content of the grains and their in vitro digestibility were measured. Analyses of GCN allowed the identification of transcription factors (TFs) potentially regulating the mechanisms of protein reserve establishment. We identified coexpression modules involving kafirin genes and genes orthologs to TFs already known in maize, rice and arabidopsis. In those modules, we also identified not yet identified TFs. In the future, we plan to evaluate the role of these TFs by a simplified cellular overexpression system in sorghum protoplasts. We will also investigate variability of protein content and digestibility in a panel representing sorghum worldwide genetic diversity and European commercial offer, in order to perform GWAS analyses and phenomic and genomic predictions.

Published
2023

31. Biochemical and physical-chemical characterisation of leaf proteins extracted from Cichorium endivia leaves

Author

Ducrocq, Maude, Morel, Marie-Hélène, Anton, Marc, Micard, Valérie, Guyot, Sylvain, Beaumal, Valérie, Solé-Jamault, Véronique, Boire, Adeline, Ingénierie des Agro-polymères et Technologies Émergentes (UMR IATE), Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Institut Agro Montpellier, Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Université de Montpellier (UM), Unité de recherche sur les Biopolymères, Interactions Assemblages (BIA), Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), INRAE, and European Project

Subjects
Plant Leaves, Leaf protein concentrate, Solubility, Protein solubility, Ribulose-Bisphosphate Carboxylase, [SDV.IDA]Life Sciences [q-bio]/Food engineering, RuBisCO, General Medicine, UV–visible spectroscopy, Food Science, Analytical Chemistry
Abstract

International audience; This study provides a detailed characterisation of a leaf protein concentrate (LPC) extracted from Cichorium endivia leaves using a pilot scale process. This concentrate contains 74.1% protein and is mainly composed of Ribulose-1,5-BISphosphate Carboxylase/Oxygenase (RuBisCO). We show that the experimentally determined extinction coefficient (around 5.0 cm−1 g−1 L depending on the pH) and refractive index increment (between 0.27 and 0.39 mL g−1) are higher than the predicted ones (about 1.6 cm−1 g−1 L and 0.19 mL g−1, respectively). In addition, the UV–visible absorption spectra show a maximum at 258 nm. These data suggest the presence of non-protein UV-absorbing species. Chromatographic separation of the concentrate components in denaturing conditions suggests that RuBisCO SC may be covalently bounded to few phenolic compounds. Besides, the solubility of LPC proteins is higher than 90% above pH 6. Such high solubility could make LPC a good candidate as a functional food ingredient.

Published
2021
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32. Effect of extrusion and turmeric addition on phenolic compounds and kafirin properties in tannin and tannin-free sorghum

Author

D'Almeida, Carolina Thomaz dos Santos, primary, Mameri, Hamza, additional, Menezes, Neuri dos Santos, additional, de Carvalho, Carlos Wanderlei Piler, additional, Queiroz, Valeria Aparecida Vieira, additional, Cameron, L.C., additional, Morel, Marie-Hélène, additional, Takeiti, Cristina Yoshie, additional, and Ferreira, Mariana Simões Larraz, additional

Published
2021
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36. Nitrosorg : A research program dedicated to develop tools for improving grain quality (protein content and digestibility) and adapted to poultry feeding

Author

Terrier, Nancy, De Bellis, Fabien, Berger, Angélique, Calatayud, Caroline, Rami, Jean-François, Pot, David, Mameri, H., Morel, Marie-Hélène, Recoules, E., Trotereau, Angélina, Gourichon, D., Deveau, Q., Jeanson, P., Alcouffe, Joël, Dufour, Philippe, Melkior, S., Pampouille, E., Bonnal, Laurent, and Bastianelli, Denis

Subjects
food and beverages
Abstract

The NitroSorg project is funded by CASDAR, Ministère de l'Agriculture et de l'Alimentation, France. It involves INRAE and CIRAD through the participation of the AGAP, IATE, BOA research units and the PEAT Experimental Unit, the Eurosorgho and RAGT2n seed companies, and the technical institute ITAVI. Although the SELMET research unit does not benefit directly of financial support of the project, it provides its expertise on feed quality phenotyping tools to the consortium. Nitrosorg will begin in 2022 and will last 42 months. It brings together a multidisciplinary consortium of biologists, geneticists, breeders, biochemists and poultry feed specialists to better understand the establishment of sorghum grain quality for poultry feeding and contribute to the development of breeding tools to optimize breeding efficiency for this target. Indeed, the low digestibility of sorghum grain proteins by gastrointestinal proteases, which has the particularity of decreasing even further after cooking, represents an important obstacle to a wider use of sorghum for feed but also for human nutrition. This low digestibility can be attributed to the interaction of proteins with other grain compounds such as starch or tannins, but is mainly related to the structure and properties of the storage proteins of sorghum grain (kafirins). One of the objectives of this project is to develop high-throughput characterization tools for the protein content and digestibility, but also starch and tannin content and endosperm texture that can affect this digestibility. The consortium will mobilize these tools to characterize the current European varietal offer, a panel representing the worldwide diversity, and the parental lines of the partner's breeding programs. Finally, we will carry, on a smaller panel of genotypes, an analysis of kafirin composition, and an exhaustive analysis of in vitro and in vivo protein digestibility (as part of poultry feeding). These analyses should allow us to assess the relevance of the high-throughput screening tools developed and will lead to the definition of the target ideotypes for poultry feeding. In the long term, these results will contribute to the development of grain sorghum varieties with a better protein content and digestibility, and therefore an improved nutritional value.

Published
2021

43. Changes in metabolomic profile and antioxidant activity during sorghum grain growth

Author

D'Almeida, Carolina, Barros Santos, Millena Cristina, Ribeiro da Silva Lima, Luciana, Cameron, Luiz Claudio, Mameri, Hamza, Morel, Marie-Hélène, Simões Larraz Ferreira, Mariana, Universidade Federal do Estado do Rio de Janeiro (UNIRIO), Ingénierie des Agro-polymères et Technologies Émergentes (UMR IATE), Institut national d’études supérieures agronomiques de Montpellier (Montpellier SupAgro), and Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-Centre international d'études supérieures en sciences agronomiques (Montpellier SupAgro)-Université Montpellier 2 - Sciences et Techniques (UM2)-Université de Montpellier (UM)-Institut National de la Recherche Agronomique (INRA)

Subjects
properties changes, [SDV.IDA]Life Sciences [q-bio]/Food engineering, Sorghum bicolor, LC-MSE
Abstract

International audience; The comprehensive phenolic profile, antioxidant activity and color of sorghum (Sorghum bicolor L., caudatum) grains were investigated in five different stages of growth (from cellular division to maturity). Grains were harvested (2018, Montpellier-France), freeze-dried and cryogenically ground. Colorimetric parameters (L*, a*, b*) were determined and free (FPC) and bound (BPC) phenolic compounds were extracted from wholegrain flours. Antioxidant capacity was determined by DPPH and Folin-Ciocalteu methods in microplates. Phenolic profile was analyzed by UPLC-ESI-QTOF-MSE in negative mode. Data were processed with Progenesis QI using a customized database (PubChem and Phenol explorer) applying: mass error (80%) and reproducibility (3/3). Sorghum grain flours became significantly darker and redness throughout maturation. FPC and BPC ranged from 207.19 to 1052.77 and 268.71 to 624.75 mg GAE/100g (db), respectively; and antioxidant activity between 10.84 to 108.68 and 29.92 to 67.50 mg TE/100g (db). The most immature stage (S1) had the highest FPC content and antioxidant activity in free extracts, while the highest values of BPC were found in mature grains (S4, mature). S2 represents the grain filling stage and showed the same values in both extracts. Globally, 69 FPC and 120 BPC were tentatively identified with 18 compounds present in both extracts. The first stages (S1-S3) showed the highest number and abundance of phenolic compounds. Bound phenolics were the most abundant (72%), mainly in S2, while free soluble phenolics were higher in immature stages, decreasing along grain maturation. PCA allowed a distinguished phenolic profile in each stage, where S1, S2 and mature presented more than 10 unique PC. This work seems to be the first to reveal the phenolic profiling based on metabolomics during sorghum grain growth. These data can be hereafter correlated with proteomic analysis, in order to better understand the digestion problematic involving tannins and kafirins in this cereal matrix.

Published
2019

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