Développement de nouveaux matériaux d'emballage à partir de micro- et nano-fibrilles de cellulose

Développement de nouveaux matériaux d'emballage à base de micro- et nano-fibrilles de cellulose. Les micro- et nano-fibrilles de cellulose (MFC/NFC) sont des nanomatériaux issus de ressources renouvelables présentant un fort intérêt notamment pour le domaine de l'emballage. En plus des avantages naturels de la cellulose, ces matériaux offrent des propriétés barrières prometteuses (Oxygen, graisse), de bonnes propriétés de résistance mécanique ainsi que la possibilité de produire des films transparents. L'objectif de cette thèse était de développer par des procédés d'endution un carton barrière au gaz et aux graisses en utilisant les MFC/NFC. Différentes suspensions de MFC/NFC ont été premièrement characterisées puis utilisées pour la production de films afin de déterminer leurs propriétés intrinsèques. Des films modèles ont ensuite été développés avec la production de composites matrice/MFC. Une dernière partie était focalisée sur l'introduction de MFC/NFC dans des sauces de couchage afin de développer une couche barrière à la surface d'un carton. Un démonstrateur a ainsi été validé à l'échelle pilote. Le potentiel des MFC/NFC a été démontré comme agent de séchage et comme composant principale d'une couche barrière. Mots clès: Micro- et nano-fibrilles de cellulose, couche barrières, procédés d'enductionDevelopment of new packaging materials based on micro- and nano-fibrillated cellulose. The micro- and nanofibrillated cellulose (MFC/NFC) are nanomaterials from revewable resource with a high interest and partly for the packaging development. MFC combined both interesting properties (high tensile strength, good barrier to oxygen and grease, good transparency) and the advantages of natural cellulose source. The objective of this thesis was to develop a barrier packaging board based on MFC/NFC by coating processes. Firstly, the study focussed on the characterisation of the MFC suspensions, on the manufacturing of MFC self-standing films and on the determination of their properties. Secondly, the development of MFC based composites was studied as model films. The last part was devoted to the introduction of MFC in coating colours in order to develop a barrier layer at the board surface. Trials at pilot scale demonstrated the industrial feasibility of this product. The potential of the use of MFC/NFC was demonstrated to be used as a drying additive and a main composant of barrier layer. Keywords: Micro- and nanofibrillated cellulose, barrier layer, coating processesSAVOIE-SCD - Bib.électronique (730659901) / SudocGRENOBLE1/INP-Bib.électronique (384210012) / SudocGRENOBLE2/3-Bib.électronique (384219901) / SudocSudocFranceF

Probable enhanced lysosomal, CA2+ and ATP-ubiquitin-dependent proteolysis in the extensor digitorum longus muscle of hindlimb suspended rats

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Coordinate activation of lysosomal, Ca2+-and ATP-ubiquitin-dependent proteolytic pathways in the soleus muscle in hind-limb suspended rats

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Coordinate activation of lysosomal, Ca2+-and ATP-ubiquitin-dependent proteolytic pathways in the soleus muscle in hind-limb suspended rats

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Enhanced lysosomal, CQA2+- and ATP-ubiquitin-dependent proteolysis in the soleus muscle of hindlimb suspended rats

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A novel mcl PHA-producing bacterium, Pseudomonas guezennei sp. nov., isolated from a 'kopara' mat located in Rangiroa, an atoll of French Polynesia

The definitive version is available at ww3.interscience.wiley.comInternational audienceAims: The aim of the present study was to describe an aerobic, mesophilic and heterotrophic bacterium, designated RA26, able to produce a medium-chain-length polyhydroxyalkanoate (PHA). It was isolated from a French Polynesian bacterial mat located in the atoll of Rangiroa. Methods and Results: This micro-organism, on the basis of the phenotypical features and genotypic investigations can be clearly assigned to the Pseudomonas genus and the name of Pseudomonas guezennei is proposed. Optimal growth occurs between 33 and 37°C, at a pH between 6·4 and 7·1 and at ionic strength of 15 g l−1 of sea salts. The G+C content of DNA is 63·2%. Under laboratory conditions, this bacterium produced a novel, medium-chain-length PHA, mainly composed of 3-hydroxydecanaote (64 mol.%) and 3-hydroxyoctanoate (24 mol.%) (GC-MS, NMR) from a single nonrelated carbon substrate, i.e. glucose. Conclusions: The bacterium P. guezennei produces a novel PHA mcl with elastomeric properties. Significance and Impact of the Study: PHAs share physical and material properties that recommend them for application in various areas, and are considered as an alternative to nonbiodegradable plastics produced from fossil oils. In this study, we describe a new bacteria with the capability to synthesize a novel PHA with promising biotechnological applications

Increased expression of ubiquitin, 14 kDa ubiquitin carrier protein and proteasome subunits in the soleus muscle during simulated weightlessness

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Activation probable de la proteolyse lysosomale, Ca2+-dépendante et ATP-ubiquitine-dépendante dans le muscle extensor digitorum longus du rat soumis à l'apesanteur simulée

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Activation probable de la proteolyse lysosomale, Ca2+-dépendante et ATP-ubiquitine-dépendante dans le muscle extensor digitorum longus du rat soumis à l'apesanteur simulée

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