Oligomérisation enzymatique d'alcools p-hydroxycinnamiques : production de synthons et additifs pour la chimie des polymères / Enzymatic oligomerisation of p-hydroxy cinnamic alcohols for the production of monomers and additives for polymer chemistry

Jaufurally, Abdus Samad

12 December 2016

Le but des travaux de cette thèse a été de mettre en place des protocoles de synthèse et de polymérisation de composés phénoliques. Le premier objectif a été de développer et optimiser des modes opératoires robustes et reproductibles permettant de polymériser de manière contrôlée ces derniers en présence d’oxydases, et particulièrement de laccase. Les études mécanistiques menées dans le cadre de ces nouveaux procédés ont mené à une meilleure compréhension de la réactivité des phénols (oxydation, dismutation) et à de nouveaux modes de valorisation de ces composés. Ainsi, ces procédés nous ont permis d’accéder sélectivement à des composés phénoliques de complexité structurale et fonctionnalité variées (dimères, trimères ou oligomères peu polydisperses) pouvant être utilisés en tant qu’antioxydants ou encore monomères/synthons pour la chimie des polymères. Pour illustrer le potentiel de ces composés phénoliques dans le domaine des polymères, ils ont été mis en jeu dans des réactions de polymérisation par métathèse (ADMET) et polymérisation radicalaire (thiol-ène). / The purpose of this thesis was to develop experimental protocols for the polymerization of phenoliccompounds.The first objective was to develop and optimize robust and reproducible procedures to control thepolymerization of phenolic compounds in the presence of oxidases, such as laccase. Mechanisticstudies were conducted during these new processes in order to have a better understanding of thereactivity of phenols (oxidation, dismutation) and find new ways of valorization of such compounds.Thus, these methods have enabled us to selectively access phenolic compounds of structuralcomplexity and variable functionalities (dimers, trimers or oligomers) that can be used asantioxidants or monomers for the polymer chemistry. To illustrate the potential of these phenoliccompounds in the field of polymers, they have been involved in polymerization reactions such asADMET and radical polymerizations (thiol-ene).

Oligomérisation enzymatique

Polymères

Antioxydants

Bisphénol

Liquides ioniques

Enzymatic oligomerization

Polymers

Antioxidants

Bisphenol

Ionic liquids

547.632

Studium oligomerizace proteinu NKp30 a jeho interakce s B7-H6 / Study of NKp30 oligomerization and its interaction with B7-H6

Pažický, Samuel

January 2016

NK cells are important part of immune system, recognizing and eliminating tumor cells and cells infected by viruses. For the target cell recognition, binding of ligands by activating receptors plays a crucial role. Activating receptor NKp30, protein of family of natural cytotoxicity receptors, is able to bind multiple ligands either present on tumor cell surface or being part of some viruses. B7-H6 is one of the ligands of NKp30 and its specific constitutive expression on some tumor cells and cell lines makes it an interesting biological target. Although the NKp30/B7-H6 complex structure has been solved, structural basis of some important features of their binding is not explained yet. Soluble form of NKp30 receptor binding domain creates oligomers, presence of which is dependent on C-terminus length of its domain and its N-glycosylation; however, structural insight into formation of the oligomers and their significance is not known. Furthermore, binding affinity of NKp30 to its ligands is dependent on presence of its glycosylation and glycosylation type. We have already found out that NKp30 oligomerization is dependent on its glycosylation. In my work, I attempted to gain detailed functional and structural information about oligomerization of NKp30 and its binding to B7-H6 by multimethodical...

Role of a novel C-terminal motif in Pannexin 1 trafficking and oligomerization

Epp, Anna

24 April 2019

Pannexin 1 (Panx1) is a metabolite channel enriched in the brain and known to localize to the cell surface, where it is involved in a variety of neuronal processes including cell proliferation and differentiation. The mechanisms through which Panx1 is trafficked or stabilized at the surface, however, are not fully understood. The proximal Panx1 C-terminus (Panx1CT), upstream of a caspase-cleavage site has been demonstrated to be required for Panx1 cell-surface expression. We discovered a previously unreported putative leucine-rich repeat (LRR) motif within the proximal Panx1CT. I investigated the involvement of this putative LRR motif on Panx1 localization and oligomerization. Deletion of the putative LRR motif or uniquely the highly conserved segment of the putative LRR motif resulted in a significant loss of Panx1 cell surface expression. Finally, ectopic expression of Panx1-EGFP in HEK293T cells increased cell proliferation, which was not recapitulated by a Panx1 deletion mutant lacking the putative LRR motif. Overall the findings presented in this thesis provide new insights into the molecular determinants of Panx1 trafficking and oligomerization. / Graduate / 2020-02-14

pannexin

ion channel

trafficking

cell surface biotinylation

leucine rich repeat

oligomerization

Investigação de transições estruturais e da reatividade sobre peróxidos de Tsa1p (Thiol Specific Antioxidant Protein 1) de Saccharomyces cerevisiae. / Investigation of structural transitions and reactivity over hydroperoxides of Tsa1p (Thiol Specific Antioxidant Protein 1) from Saccharomyces cerevisiae.

Tairum Junior, Carlos Abrunhosa

03 July 2015

2-Cys Prx compõem um grupo de enzimas antioxidantes homodiméricas que atuam na decomposição de hidroperóxidos utilizando uma cisteína reativa (cisteína peroxidásica - CysP). A alta reatividade da CysP é alcançada com o envolvimento de dois aminoácidos vicinais à CysP: uma treonina e uma arginina, que constituem a tríade catalítica. Após a decomposição do hidroperóxido, a CysP forma um dissulfeto intermolecular com um segundo resíduo de cisteína (cisteína de resolução - CysR), o qual é reduzido pela tiorredoxina (Trx). Durante o ciclo redox, estas enzimas sofrem alterações estruturais, mas os mecanismos envolvidos neste processo eram pouco compreendidos. Neste trabalho foi obtida a estrutura cristalográfica de Tsa1 de Saccharomyces cerevisiae, uma 2-Cys Prx. Através de abordagens envolvendo bioquímica e biologia molecular, foi verificada a importância de aminoácidos envolvidos na reatividade e em transições da estrutura terciária e quaternária. Por fim, foram realizados esforços para a determinação da estrutura cristalográfica de mutantes obtidos neste trabalho. / 2-Cys Prx constitute a group of homodimeric antioxidant enzymes that act in the decomposition of hydroperoxides using a reactive cysteine (peroxidase cysteine - CysP). The high reactivity of the CysP is achieved by the participation of two vicinal amino acids: a threonine and an arginine, which constitute the catalytic triad. After the decomposition of hydroperoxide, the CysP forms an intermolecular disulfide with a second cysteine residue (resolving cysteine - CysR), which is reduced by the thioredoxin (Trx). During the redox cycle, these enzymes undergo to changes in the structure, but the molecular mechanisms involved in this process were poorly understood. In this study we have obtained the crystallographic structure of the 2-Cys Prx enzyme Tsa1 from Saccharomyces cerevisiae. By means of biochemical and molecular biology approaches, the importance of amino acids involved in reactivity and structural transitions were determined. Finally, efforts have been performed to the determination of the crystallographic structures of mutant proteins obtained in this study.

Catalytic triad

Crystallographic structure

Estrutura cristalográfica

Oligomerização

Oligomerization

Peroxiredoxins

Peroxirredoxinas

Tríade catalítica

Génération et caractérisation de polypropylène branché par catalyse des zirconocènes / Generation and characterisation of Long Chain Branched Polypropylene via zirconocene catalysis

Bader, Manuëla

25 January 2013

Le polypropylène isotactique est un thermoplastique semi-cristallin de grande consommation présentant de nombreux avantages tels que sa résistance chimique, sa haute température de fusion ou sa rigidité. Néanmoins, sa faible résistance à l'état fondu le rend inadapté à certains procédés de mis en forme. La présence branchements longs au sein de la structure polymérique permet toutefois de renforcer significativement les propriétés d'un polymère dans son état fondu. De ce fait, de nombreuses approches ont été développées afin de générer du polypropylène branché (irradiation, addition de peroxides, greffages etc.). La catalyse de polymérisation par les métallocènes est d'une grande flexibilité dès qu'il s'agit de concevoir des polymères de spécialité. De plus, la rhéologie moléculaire est un outil indispensable à la compréhension des liens entre les propriétés viscoélastiques et la structure macroscopique des polymères (distribution des masses, topologie des branchements, etc.). Grâce à l'alliance de ces deux expertises, les travaux de cette thèse se sont focalisés sur la caractérisation structurelle, thermique et rhéologique de matériaux de type LCB-iPP obtenus par catalyse des zirconocènes {Cp'CR2Flu}ZrCl2. L'objectif premier était de jouer sur la génération des branchements longs en modifiant les conditions opératoires de polymérisation du propylène. En parallèle, un gros travail analytique a été fourni afin de développer des protocoles rhéologiques fiables et adaptés. Suite à ces résultats, nous avons démontré qu'un mécanisme via génération/incorporation de macro-α-oléfines était à l'origine de la génération de LCB-iPP, ce qui a permis la synthèse de polypropylènes hautement branchés et de vérifier l'effet positif des branchements longs sur le comportement viscoélastique des matériaux finaux. / Because of its high melting point, high tensile strength, stiffness and chemical resistance, isotactic polypropylene has one of the leading and fast growing thermoplastic polymers in the world. However, commercial PPs usually have relatively low melt strength, which limits their use in applications such as blow molding. Since long-chain branching (LCB) is known to enhance the melt properties of a polymer, several approaches have been developed to make branched polypropylenes (electron beam irradiation, peroxide curing, grafting etc.). Development of metallocene technology provides unprecedented flexibility in polymer design. Many structural features, including LCB, can now be introduced into polymers. In this work, long chain branched isotactic polypropylene (LCB-iPP) was synthesized using {Cp'CR2Flu}ZrCl2 metallocene catalyst and fully characterized (rheological, spectroscopic and thermal analysis). The branching (macro-α-olefins having predominantly vinyl-terminated chain end) was in situ generated and further incorporated by the same catalyst system to obtain LCB-PP/Linear PP blends. The LCB content was increased using a novel tandem catalysts system for converting propylene alone to isotactic polypropylene with long branches which exhibit enhanced melt properties.

Polypropylène

Polyoléfine

Oligomérisation

Polymérisation

Catalyse

Zirconocène

Rhéologie

Polypropylene

Branched

Zirconocene

Catalysis

Polymerization

Rheology

Oligomerization

Elimination des perturbateurs endocriniens nonylphénol, bisphénol A et triclosan par l'action oxydative de la laccase de coriolopsis polyzona

Cabana, Hubert

04 April 2008

Les substances perturbatrices du système endocrinien sont des substances qui, de par leur capacité à induire des changements hormonaux chez les organismes vivants, génèrent des préoccupations dans le domaine de la qualité des eaux et, par extension, dans le domaine du traitement des effluents aqueux. Particulièrement, ce projet de recherche s’est attardé sur l’élimination des perturbateurs endocriniens phénoliques nonylphénol (NP), bisphénol A (BPA) et triclosan (TCS) en solution aqueuse à l’aide de la laccase (E.C. 1.10.3.2) sécrétée par la souche fongique Coriolopsis polyzona. Cette oxydase est une métalloprotéine pouvant catalyser l’oxydation d’une vaste gamme de substances phénoliques. En premier lieu, l’impact du pH et de la température sur l’élimination de ces composés à l’aide de la laccase libre en utilisant un design factoriel. L’oxydation de ces composés produit des oligomères (dimère à pentamère) via le couplage des radicaux phénoxy produits par l’action de la laccase. Il s’avère que les substances produites suite à l’oxydation du NP et du BPA par la laccase ont perdu leurs similitudes structurales avec l’estrogène. Ainsi, l’élimination de l’activité estrogénique de ces substances est directement liée à la transformation des composés. Finalement, l’utilisation d’ABTS comme médiateur a permis d’augmenter le taux d’oxydation enzymatique de ces composés chimiques. Puis, de façon à augmenter la possibilité d’utilisation de la laccase dans des biotechnologies environnementales, cette enzyme a été immobilisée sur un support siliceux et via la réticulation d’agrégats. L’impact des conditions d’immobilisation sur l’activité enzymatique, la stabilité du catalyseur et les propriété biocatalytiques apparentes a été déterminé pour différentes stratégies d’immobilisation. Globalement, l’immobilisation génère un biocatalyseur stable vis-à-vis les dénaturations chimique, physique et biologique. Particulièrement, l’immobilisation sur un support solide produit un biocatalyseur facile à utiliser ayant une faible activité massique et des propriétés cinétiques moindres que celle de l’enzyme libre. La formation de CLEAs de laccase a permis d’obtenir une activité massique élevée et des propriétés cinétiques supérieures à celle de l’enzyme soluble. Ces biocatalyseurs solides ont étés utilisés pour éliminer en continu le NP, BPA et TCS dans différents types de bioréacteur. Le biocatalyseur sur silice a été utilisé pour éliminer ces substances dans un réacteur garni, tandis que les CLEAs ont été utilisés dans un réacteur à lit fluidisé et un réacteur à perfusion développé au cours de ce projet. Ces différentes configurations de bioréacteur ont permis d’éliminer efficacement ces différents perturbateurs endocriniens. Globalement, les différents résultats obtenus, à l’échelle de laboratoire, au cours de ce projet de recherche démontrent que la laccase et particulièrement les biocatalyseurs formés via les différentes stratégies d’immobilisation testées représentent des approches extrêmement prometteuses pour le développement de biotechnologies environnementales vouées à l’élimination des perturbateurs endocriniens phénoliques.

Endocrine disrupting chemical

Oligomerization

Immobilization

White rot fungi

Laccase

Triclosan

Nonylphenol

Bisphenol A

Thermochemical and Catalytic Upgrading in a Fuel Context : Peat, Biomass and Alkenes

Hörnell, Christina

January 2001

No description available.

peat

biomass

liquefaction

tetralin

gasification

pyrolysis

tar-cracking

dolomite

silica

heterogeneous oligomerization

alkenes

The Challenge of Selectivity in Ethylene Oligomerization: Ligand Design and Metal Valence States

Thapa, Indira

23 August 2012

Catalytic ethylene oligomerization is a well understood industrially viable process. The large majority of scientific literature and patents concerning this process has been developed with the use of chromium catalysts. Commercial systems producing selective tri/tetramerization, non-selective oligomerization and polymerization are all based on this metal with the exception of a few systems based on other transition metals (Zr, Ti, Ni etc.). This versatility raises interesting questions about chromium’s unique behaviour. Essentially, selective or non-selective oligomerization and polymerization processes could be regarded as belonging to the same category of C-C bond forming reactions, though different mechanisms are involved. The first part of this thesis explores a variety of chromium complexes for ethylene oligomerization purposes. In order to gather further information about the unique behaviour of chromium, we have explored a variety of nitrogen and phosphorus containing ligands. We started with a simple bi-dentate anionic amidophosphine (NP) ligand and assessed the role of the ligand’s negative charge and number of donor atoms in determining the type of catalytic behaviour in relation to the metal oxidation state. This ligand proved capable of generating a series of chromium dimeric, tetrameric or polymeric and even heterobimetallic chromium-aluminate complexes in different valence states. This allowed us to isolate a “single component” self activating Cr(II) complex as well as a rare example of mixed valence Cr(I)/Cr(II) species. Additionally, each of these species acted as switchable catalyst depending on the type of co-catalyst

selective

trimerization

tetramerization

ethylene oligomerization

polymerization

dimerization

chromium catalysts

Nickel catalysts

Genetic Variation in Innate Immunity, Diet and Biomarkers of the Metabolic Syndrome

Cuda, Cristina Caterina

22 July 2010

Chronic low-grade inflammation is associated the Metabolic Syndrome (MetS) and may contribute to its development. A diet high in saturated fat (SFA) has been associated with increased inflammation and development of the MetS. SFAs have been shown to elicit pro-inflammatory signaling through proteins of innate immunity, TLR4 and Nods 1 and 2. We determined whether common polymorphisms in the genes of these proteins could modify the association between fat intake and biomarkers of the MetS. Fat intake was measured using a food frequency questionnaire and genotyping was completed using real-time PCR. The TLR4 Asp299Gly (rs4986790) polymorphism was associated with decreased insulin sensitivity while an intronic polymorphism (rs5030728) modified the association between dietary SFA and HDL-cholesterol. The Nod1 Glu266Lys polymorphism modified the association between dietary SFA and HOMA-IR. These results suggest a role for innate immunity in mediating some of the effects of dietary SFAs on factors associated with the MetS.

Genetics

Toll-like receptor 4

dietary fat

metabolic syndrome

0570

Genetic Variation in Innate Immunity, Diet and Biomarkers of the Metabolic Syndrome

Cuda, Cristina Caterina

22 July 2010

Chronic low-grade inflammation is associated the Metabolic Syndrome (MetS) and may contribute to its development. A diet high in saturated fat (SFA) has been associated with increased inflammation and development of the MetS. SFAs have been shown to elicit pro-inflammatory signaling through proteins of innate immunity, TLR4 and Nods 1 and 2. We determined whether common polymorphisms in the genes of these proteins could modify the association between fat intake and biomarkers of the MetS. Fat intake was measured using a food frequency questionnaire and genotyping was completed using real-time PCR. The TLR4 Asp299Gly (rs4986790) polymorphism was associated with decreased insulin sensitivity while an intronic polymorphism (rs5030728) modified the association between dietary SFA and HDL-cholesterol. The Nod1 Glu266Lys polymorphism modified the association between dietary SFA and HOMA-IR. These results suggest a role for innate immunity in mediating some of the effects of dietary SFAs on factors associated with the MetS.

Genetics

Toll-like receptor 4

dietary fat

metabolic syndrome

0570