Paës, Gabriel 1978-...
Gabriel Paës researcher ORCID ID = 0000-0003-0239-9716
VIAF ID: 203990497 (Personal)
Permalink: http://viaf.org/viaf/203990497
Preferred Forms
4xx's: Alternate Name Forms (1)
Works
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Accessibilité de substrats glycosidiques à différentes glycosyl-hydrolases et glycosyl-transférases par modélisation moléculaire |
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Action of lytic polysaccharide monooxygenase on plant tissue is governed by cellular type |
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Apports de la Microscopie à Force Atomique à l'étude de phénomènes dynamiques en biologie et développement instrumental associé |
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Une approche multi-échelle pour comprendre et prévoir les effets de la cuisson acide sur la biomasse lignocellulosique. |
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Atomic Force Microscopy and related instrumental development as a tool to study dynamic processes in Biology. |
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Biochemical and histological traits involved in variations in cell wall digestibility : from the study of their variability to that of their genetic determinism. : Identification of the major targets for improving digestibility in a context of high yiel. |
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Caractères biochimiques et histologiques impliqués dans les variations de digestibilité de paroi : de l'étude de leur variabilité à celle de leur déterminisme génétique. : Mise à jour des cibles majeures d'amélioration de la digestibilité dans un contexte de fort rendement chez les hybrides modernes de maïs fourrage |
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Diversité fonctionnelle des systèmes de détoxication chez les champignons lignolytiques |
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Etude structure / fonction d'hémicellulases thermostables : la xylanase GH-11 et l'arabinofuranosidase GH-51 de Thermobacillus xylanilyticus |
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Exploration of Aspergillus spp. secretomes for the complementation of Trichoderma reesei cellulolyticcocktail. |
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Exploring accessibility of pretreated poplar cell walls by measuring dynamics of fluorescent probes |
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Fluorescence techniques can reveal cell wall organization and predict saccharification in pretreated wood biomass |
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Fluorescent Nano-Probes to Image Plant Cell Walls by Super-Resolution STED Microscopy. |
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Fluorescent probes for exploring plant cell wall deconstruction: a review |
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FRET-SLiM on native autofluorescence: a fast and reliable method to study interactions between fluorescent probes and lignin in plant cell wall |
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Functionnal diversity of the detoxification system in wood-decaying fungi. |
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Impact and efficiency of GH10 and GH11 thermostable endoxylanases on wheat bran and alkali-extractable arabinoxylans |
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Impact of microbial communities and organic residue pretreatments on dark fermentation performances. |
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Investigation of the binding properties of a multi-modular GH45 cellulase using bioinspired model assemblies |
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Liens entre la composition de la biomasse et l'efficacité des prétraitements appliqués en vue d'une valorisation en bioraffinerie |
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Links between biomass composition and pretreatment efficiency applied for recovery in biorefineries. |
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Modeling progression of fluorescent probes in bioinspired lignocellulosic assemblies. |
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Multi-scale approach for dynamic monitoring of lignocellulosic biomass deconstruction. |
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A multiscale approach to understand and predict the effects of hydrothermal treatment on lignocellulosic biomass |
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New insights into the role of the thumb-like loop in GH-11 xylanases |
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Physico-chemial descriptors of lignocellulosic biomass in enzymatic hydrolysis : towards an in situ characterisation. |
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Posidonia waste valorisation for the production of high added-value bio-based materials. |
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Probing the cell wall heterogeneity of micro-dissected wheat caryopsis using both active and inactive forms of a GH11 xylanase |
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Real Time and Quantitative Imaging of Lignocellulosic Films Hydrolysis by Atomic Force Microscopy Reveals Lignin Recalcitrance at Nanoscale |
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Seeing biomass recalcitrance through fluorescence. |
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Structure |
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TECMI-4D - Techniques avancées de microscopie pour l'imagerie 4D de la déconstruction de la biomasse lignocellulosique. |
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Testing scientific models using Qualitative Reasoning: Application to cellulose hydrolysis. |
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Tracking of enzymatic biomass deconstruction by fungal secretomes highlights markers of lignocellulose recalcitrance |
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Tyrosine 105 and threonine 212 at outermost substrate binding subsites -6 and +4 control substrate specificity, oligosaccharide cleavage patterns, and multiple binding modes of barley alpha-amylase 1. |
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Understanding the structural and chemical changes of plant biomass following steam explosion pretreatment |
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Valorisation des déchets de posidonie pour l'obtention de matériaux biosourcés à forte valeur ajoutée |
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