Your search keyword '"Foulon L"' showing total 8 results

1. Organosolv lignin as natural grafting additive to improve the water resistance of films using cellulose nanocrystals

Author

Hambardzumyan, A., Foulon, L., Bercu, N.B., Pernes, M., Maigret, J.E., Molinari, M., Chabbert, B., and Aguié-Béghin, V.

Published

2015

2. Long-Term Outcomes Among Participants in the WEGENT Trial of Remission-Maintenance Therapy for Granulomatosis With Polyangiitis (Wegenerʼs) or Microscopic Polyangiitis

Author

Puéchal, Xavier, Pagnoux, Christian, Perrodeau, Élodie, Hamidou, Mohamed, Boffa, Jean-Jacques, Kyndt, Xavier, Lifermann, François, Papo, Thomas, Merrien, Dominique, Smail, Amar, Delaval, Philippe, Hanrotel-Saliou, Catherine, Imbert, Bernard, Khouatra, Chahéra, Lambert, Marc, Leské, Charles, Ly, Kim H., Pertuiset, Edouard, Roblot, Pascal, Ruivard, Marc, Subra, Jean-François, Viallard, Jean-François, Terrier, Benjamin, Cohen, Pascal, Mouthon, Luc, Le Jeunne, Claire, Ravaud, Philippe, Guillevin, Loïc, Rispal, P., Baidi, N., Chrétien, O., Cevallos, R., Ducroix, J.-P., Darmaillacq, J.-G., Dubas, F., Maghakian, M.-N., Moreau, C., Dubos-Arvis, C., Frognier, R., Gobert, P., Pollini, J., Pingat, D., Janin-Manificat, L., Lafon, B., Kettaneh, A., Moiton, M., Ragnaud, J. M., Boudray, C., Raphanel, B., Renand, J.-P., Roux, M., Bonnaire, G., Guiso, A., André, J. M., Perrichot, R., Louvet, J., Artigues, N., Bienvenu, B., de Ligny, Hurault B., Le Hello, C., Letellier, P., Lobbedez, T., Ollivier, Y., Pujo, M., Ryckelynck, J.-P., Montseny, J.-J., Collet, P., Ayach, B., Dion, J.-J., Mouawad, H., Damade, R., Dupouët, L., Asgaraly, K., Depernet, B., Colin, T., Ioos, V., Rieu, V., Belmatoug, N., Foulon, L., Jebrak, G., du Coedic, L., Bachmeyer, C., Dumoulin, A., Godeau, B., Khellaf, M., Michel, M., Pastural, M., Schaeffer, A., Geffroy, M., Bielefeld, P., Fichet, D., Saraux, J.-L., Vinzio, S., Ehrlacher, P., Azria, A., Mariette, X., Tiab, M., Delansorne, D., Boullanger, N., Closs-Prophette, F., Goldstein, A., Bouscaud, L., Meunier, V., Hachulla, E., Hatron, P.-Y., Launay, D., Hottelart, C., Liozon, E., Longuet, O., Loustaud-Ratti, V., Soria, P., Vidal, E., Geffray, L., Henri, P., Landru, I., Guillemot, J.-M., Le Noach, J., Cordier, J.-F., Cottin, V., Gentil, B., Demolombe-Rague, S., Girard-Madoux, M.-H., Ninet, J., Pinède, L., Meynieux, J.-P., Serratrice, J., Xeridat, B., Bagnères, D., Roudier, J., Denis, B., Boillet, N., Geraads, A., Teyssandier, R., Degraeve, F., Le Quellec, A., Rivière, S., Rogé, C., Fauchay, J.-P., Wahl, D., Agard, C., Généreau, T., Meker, D., Bensakel, S., Vecina, F., Aubier, M., Foulon, G., Lelièvre, P., Lidove, O., Mignon, F., Meyer, O., Piperaud, M., Queffeulou, G., Vrtovsnik, F., Aouba, A., Arène, J.-P., Bérezné, A., Le Guern, V., Amoura, Z., Benveniste, O., Dimitri, D., Huong, Lê Thi D., Bergeron, A., Bourgarit, A., Farge, D., Mahr, A., Martinez, F., Séréni, D., Aslangul, E., Arnal, C., Cadranel, J., Daugas, E., Pelle, G., Rossert, J., Wislez, M., Gayraud, M., Bruet, A., Hillion, Y., Paccalin, M., Léone, J., Pennaforte, J.-L., Barbier, S., Legallicier, B., Dominique, S., Charasse, C., Coëtmeur, D., Duhamel, E., Goulias, J.-P., Bournerias, F., Gautherie, P., Schlienger, J.-L., Vidal, A., Diot, E., Diot, P., Vanhille, P., Bindi, P., and Cervantes, G.

Published

2016

3. Relations between the air/wine adsorption layer and the bubble collar stability in experimental and commercial champagnes

Author

Abou-Saleh, K., Aguié-Béghin, V., Foulon, L., Valade, M., and Douillard, R.

Published

2009

4. Characterization of SR 121463A, a highly potent and selective, orally active vasopressin V2 receptor antagonist.

Author

Serradeil-Le Gal, C, primary, Lacour, C, additional, Valette, G, additional, Garcia, G, additional, Foulon, L, additional, Galindo, G, additional, Bankir, L, additional, Pouzet, B, additional, Guillon, G, additional, Barberis, C, additional, Chicot, D, additional, Jard, S, additional, Vilain, P, additional, Garcia, C, additional, Marty, E, additional, Raufaste, D, additional, Brossard, G, additional, Nisato, D, additional, Maffrand, J P, additional, and Le Fur, G, additional

Published

1996

5. Modification of a Marine Pine Kraft Lignin Sample by Enzymatic Treatment with a Pycnoporus cinnabarinus Laccase.

Author

Malric-Garajova S, Fortuna F, Pion F, Martin E, Thottathil AR, Guillemain A, Doan A, Lomascolo A, Faulds CB, Baumberger S, Foulon L, Chabbert B, de Baynast H, Dubessay P, Audonnet F, Bertrand E, Sciara G, Tapin-Lingua S, Ducrot PH, Michaud P, Aguié-Béghin V, and Record E

Subjects

Lignin chemistry, Laccase chemistry, Polyporaceae

Abstract

Here, we report work on developing an enzymatic process to improve the functionalities of industrial lignin. A kraft lignin sample prepared from marine pine was treated with the high-redox-potential laccase from the basidiomycete fungus Pycnoporus cinnabarinus at three different concentrations and pH conditions, and with and without the chemical mediator 1-hydroxybenzotriazole (HBT). Laccase activity was tested in the presence and absence of kraft lignin. The optimum pH of Pci Lac was initially 4.0 in the presence and absence of lignin, but at incubation times over 6 h, higher activities were found at pH 4.5 in the presence of lignin. Structural changes in lignin were investigated by Fourier-transform infrared spectroscopy (FTIR) with differential scanning calorimetry (DSC), and solvent-extractable fractions were analyzed using high-performance size-exclusion chromatography (HPSEC) and gas chromatography-mass spectrometry (GC-MS). The FTIR spectral data were analyzed with two successive multivariate series using principal component analysis (PCA) and ANOVA statistical analysis to identify the best conditions for the largest range of chemical modifications. DSC combined with modulated DSC (MDSC) revealed that the greatest effect on glass transition temperature (Tg) was obtained at 130 U g cm -1 and pH 4.5, with the laccase alone or combined with HBT. HPSEC data suggested that the laccase treatments led to concomitant phenomena of oligomerization and depolymerization, and GC-MS revealed that the reactivity of the extractable phenolic monomers depended on the conditions tested. This study demonstrates that P. cinnabarinus laccase can be used to modify marine pine kraft lignin, and that the set of analytical methods implemented here provides a valuable tool for screening enzymatic treatment conditions., Competing Interests: The authors declare that they have no conflict of interest.

Published

2023

6. Action of lytic polysaccharide monooxygenase on plant tissue is governed by cellular type.

Author

Chabbert B, Habrant A, Herbaut M, Foulon L, Aguié-Béghin V, Garajova S, Grisel S, Bennati-Granier C, Gimbert-Herpoël I, Jamme F, Réfrégiers M, Sandt C, Berrin JG, and Paës G

Subjects

Biomass, Cell Wall metabolism, Cellulases metabolism, Cellulose metabolism, Hydrolysis, Lignin metabolism, Oxidation-Reduction, Podospora metabolism, Mixed Function Oxygenases metabolism, Polysaccharides metabolism

Abstract

Lignocellulosic biomass bioconversion is hampered by the structural and chemical complexity of the network created by cellulose, hemicellulose and lignin. Biological conversion of lignocellulose involves synergistic action of a large array of enzymes including the recently discovered lytic polysaccharide monooxygenases (LPMOs) that perform oxidative cleavage of cellulose. Using in situ imaging by synchrotron UV fluorescence, we have shown that the addition of AA9 LPMO (from Podospora anserina) to cellulases cocktail improves the progression of enzymes in delignified Miscanthus x giganteus as observed at tissular levels. In situ chemical monitoring of cell wall modifications performed by synchrotron infrared spectroscopy during enzymatic hydrolysis demonstrated that the boosting effect of the AA9 LPMO was dependent on the cellular type indicating contrasted recalcitrance levels in plant tissues. Our study provides a useful strategy for investigating enzyme dynamics and activity in plant cell wall to improve enzymatic cocktails aimed at expanding lignocelluloses biorefinery.

Published

2017

7. Structure and optical properties of plant cell wall bio-inspired materials: cellulose-lignin multilayer nanocomposites.

Author

Hambardzumyan A, Molinari M, Dumelie N, Foulon L, Habrant A, Chabbert B, and Aguié-Béghin V

Subjects

Adsorption, Algorithms, Boehmeria chemistry, Microscopy, Atomic Force, Nanocomposites, Nanoparticles, Spectrophotometry, Infrared, Spectrophotometry, Ultraviolet, Spectroscopy, Fourier Transform Infrared, Spectroscopy, Near-Infrared, Thermodynamics, Cell Wall chemistry, Compomers chemistry, Lignin chemistry, Plants chemistry

Abstract

Interfacial affinity between lignin model compound (dehydrogenation polymer [DHP]) and cellulose nanocristals (CN) was studied before building a nanocomposite cellulose/lignin in multilayer form by spin-coating method. The adsorption isotherm of DHP was measured by ellipsometry at the liquid/CN film interface and showed that the surface concentration of adsorbed DHP increases with the bulk concentration in solution. The DHP appeared as globular structures on cellulosic film, as observed by AFM. Spreading a dense lignin layer on CN film gave rise to the disappearance of the InfraRed resonance bands related to the DHP aromatics. The film obtained from alternate layers of cellulose/DHP was transparent in visible light and had weak absorption in UV wavelengths. Optical properties measured in the visible wavelength range by ellipsometry and spectrophotometry indicated that beyond six bilayers (cellulose/DHP), the composite exhibits antireflexion properties., (Copyright © 2011 Académie des sciences. Published by Elsevier SAS. All rights reserved.)

Published

2011

8. Langmuir-Blodgett films of cellulose nanocrystals: preparation and characterization.

Author

Habibi Y, Foulon L, Aguié-Béghin V, Molinari M, and Douillard R

Subjects

Particle Size, Silicon chemistry, Surface Properties, Cellulose chemical synthesis, Cellulose chemistry, Membranes, Artificial, Nanostructures chemistry

Abstract

The goal of this work is the preparation of monolayers of cellulose I nanocrystals providing flat crystalline cellulose surfaces. Suspensions of cellulose nanocrystals were prepared by hydrolyzing ramie and tunicin fibers with sulfuric acid. Due to surface grafted sulfate groups, the negatively charged, rod-like cellulose nanocrystals were found to form stable layers at the air-water interface in the presence of a cationic amphiphilic molecule such as dioctadecyldimethylammonium (DODA) used in this work. These layers were formed at different cellulose-DODA weight ratios, compressed and analyzed by tensiometry, ellipsometry and Brewster angle microscopy. At low cellulose concentrations the layers are discontinuous, becoming dense and homogeneous upon reaching a critical weight ratio, which depends on the aspect ratio of the cellulose nanocrystals. After transfer onto silicon wafers, the surface composition and morphology as well as the thickness of the films were examined by X-ray photoelectron spectroscopy, ellipsometry and atomic force microscopy. The results indicate that they are monolayer films, well structured, relatively smooth and pure. These films offer a crystalline and easily reproducible model cellulose surface.

Published

2007