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Green chemistry in polymerisation : elaboration and development of novel organometallic complexes of the rare-earth metals for their application in (Co)-polymerisation catalysis / Chimie verte en polymérisation : élaboration et développement de nouveaux complexes organométalliques à base de terres rares pour leur application en catalyse de polymérisationFadlallah, Sami 29 September 2017 (has links)
De nouveaux complexes allyl-borohydrure de terres rares trivalents, RE(BH4)2(C3H5)(THF)x (RE = Sc, x = 2; Y, La, Nd, Sm, x = 3) ont été synthétisés. Les complexes ont été caractérisés, y compris par diffraction des rayons X, et leur réactivité vis-à-vis de l’insertion de petites molécules organiques est décrite, qui met en jeu de façon comparative les liaisons métal-borohydrure et métal-allyle. Dans ce travail de thèse, il a été montré que le complexe de néodyme est capable d’amorcer la polymérisation de l’isoprène, seul ou combiné avec un co-catalyseur de type magnésium, conduisant à du trans-1,4-polyisoprène avec une bonne activité. Cette famille de complexes est également très active en polymérisation par ouverture de cycle des esters cycliques tels que l’ɛ-caprolactone et le L-lactide, avec amorçage de la réaction via le ligand borohydrure plutôt que l'allyle. La copolymérisation statistique L-lactide/ɛ-caprolactone a été réalisée, conduisant à la formation de copolymères avec une large gamme de microstructures, de statistique à alternée. Une autre approche organométallique a été abordée avec la synthèse de nouveaux complexes borohydrures de terres rares (Sc, Y, Nd) à base de ligands Phosphasalen. Certains de ces complexes ont été isolés et caractérisés. / A series of new trivalent rare earth allyl-borohydride complexes with the formula RE(BH4)2(C3H5)(THF)x (RE = Sc, x = 2; Y, La, Nd, Sm, x = 3) was synthesized. The complexes were fully characterized including by X-ray and their reactivity toward small organic molecules insertion is described, which involves comparatively metal-borohydride and metal-allyl bonds. In this dissertation, It was shown that the neodymium congener could initiate isoprene polymerisation, as single component or combined with a magnesium co-catalyst, to afford trans-1,4-polyisoprene with good activity. All the complexes were also found extremely active toward the Ring-Opening Polymerisation of ɛ-caprolactone and L-lactide with initiation through the borohydride rather than the allyl moiety. The statistical copolymerisation of L-lactide and ɛ-caprolactone was successfully performed with all complexes affording copolymers with a wide range of microstructure, from random to fairly alternating. Another organometallic approach has been studied with the synthesis of novel rare earth (Sc, Y, Nd) borohydride complexes based on Phosphasalen ligands. Some of these complexes have been isolated and characterized.
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Structural Insights into Phospholipase Cε FunctionNgango Yvon Rugema (6897683) 15 August 2019 (has links)
Phospholipase Cε (PLCε) is a member of the PLC family of enzymes, which hydrolyze phosphatidylinositol lipids following the activation of G protein coupled receptors (GPCRs) and receptor tyrosine kinases (RTKs). PLCε is unique among the PLC superfamily as it contains an N-terminal CDC25 domain, which has a guanine nucleotide exchange factor (GEF) activity for the small G protein Rap1A, and two C-terminal Ras association (RA) domains that bind scaffolding proteins and activated G proteins. PLCε activity plays an important role in cardiomyocyte contractility and survival. The best-characterized pathway of PLCε activation is mediated by β-adrenergic (β-AR) receptors. Stimulation of these receptors culminates in the activation of the small GTPase Rap1A, which binds to PLCε at the sarcoplasmic reticulum. There, PLCε hydrolyzes phosphatidylinol-4-phosphate (PI<sub>4</sub>P) to produce diacylglycerol (DAG). Prolonged activation of this pathway results in increased Ca<sup>2+</sup>-induced Ca<sup>2+</sup> release (CICR) and increased expression of hypertrophy-related genes. However, the structural basis of PLCε basal activity, and the mechanism of Rap1A activation are largely unknown. We have now obtained the first high-resolution structure of PLCε. These studies, together with biochemical validation of our structure-based hypotheses, provide the first molecular insights into this enzyme.
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The behaviour of sequence transformations as applied to slowly converging sequences and seriesFarrington, Paul January 2001 (has links)
No description available.
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Nouvelles stratégies d'hydrophobation de matériaux à base d'amidon plastifiéBélard, Laurent Averous, Luc. January 2007 (has links) (PDF)
Reproduction de : Thèse doctorat : Chimie des matériaux : Reims : 2007. / Titre provenant de l'écran titre. Bibliogr. p. 174-188.
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Novel N(Epsilon)-Acetyl-Lysine Analogs: Synthesis and ApplicationJamonnak, Nuttara 26 August 2008 (has links)
No description available.
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Studies on sorting networks and expandersXie, Hang January 1998 (has links)
No description available.
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Welcome AddressRice, Judy 11 April 2024 (has links)
Welcome address for the 2024 Epsilon Sigma Conference.
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Estudo de hidroxiapatitas revestidas com poli (ε-caprolactona) estrela: processamento e avaliação biológica / Study covered hydroxyapatites poly (ε-caprolactone) star: processing and biological evaluationKairalla, Eleni Cristina 12 July 2013 (has links)
Para a produção de compósitos multifuncionais crescente atenção tem sido dada a uma homogeneização eficaz de hidroxiapatitas em matrizes poliméricas, buscando uma sintonia fina da concentração entre polímeros biodegradáveis e biocerâmicas. Este trabalho dedicou-se a síntese, caracterização e estudo das propriedades biológicas do híbrido hidroxiapatita / poli(ε-aprolactona) estrela. A hidroxiapatita nanométrica (HAPN) foi revestida com o polímero biodegradável poli(ε -caprolactona) de topologia em estrela de três braços (PCLE). O uso de um polímero com topologia ramificada visa alterar algumas de suas propriedades mecânicas, a adesão interfacial à cerâmica, a sua viscosidade, o volume hidrodinâmico e sua cinética de degradação. O desempenho do híbrido HAPN/PCLE foi comparado com os materiais: HAP com partículas micrométricas (HAP-91 material comercial), o seu compósito revestido com PCLE (HAP-91/PCLE) e uma cerâmica nanométrica bifásica hidroxiapatita/β-TCP (HAP-8). Os materiais foram caracterizados por avaliações físico-químicas e biológicas realizadas por estudos de citotoxicidade, adsorção de proteínas, proliferação celular, atividade de fosfatase alcalina. A síntese de PCLE foi verificada por análise espectroscópica (espectroscopia no infravermelho-FTIR; ressonância magnética nuclear de prótons- 1H-RMN e carbono- 13C-RMN; a matriz assistida por desorção a laser / ionização; MALDI-TOF; e cromatografia de permeação em gel (GPC). O revestimento das biocerâmicas por PCLE foi confirmado por técnicas de microscopia eletrônica de transmissão (MET) e de varredura (MEV). Os compósitos mostraram uma melhor trababilidade em relação à cerâmica pura e são menos quebradiços, possivelmente devido à presença do PCLE na interface da biocerâmica. A análise de MEV e MET mostrou um aspecto de continuidade no contorno das partículas de cerâmica, em micro e nano-escala. Os compósitos apresentam comportamento não citototóxico e propiciaram um crescimento de células de mamíferos. A proliferação de células osteoblásticas (MG -63) foi significativamente mais elevada para o compósito HAPN/PCLE em comparação com outros biomateriais, sugerindo influência da área de superfície na adesão e proliferação de células. O estudo do ângulo de contato indicou que o revestimento com PCLE faz com que a superfície da biocerâmica seja mais hidrofóbica. O estudo com radioisótopos indicou que o revestimento da biocerâmica com PCLE altera significativamente a adsorção das proteínas do sangue fibrinogênio e albumina. O processo de regeneração do tecido ósseo foi estudado em condições in vivo com a implantação de pastilhas dos materiais estudados em tíbias de coelho. Os resultados mostraram que os compósitos podem ser utilizados como biomaterial, pois houve neoformação óssea ao redor dos implantes. / For the production of multifunctional composites in the combination of biodegradable polymers and bioceramics, increasing attention has been paid to an effective homogenization of hydroxyapatite within polymer matrices and a fine tuning of the concentration. This work was dedicated to the synthesis, characterization and study of the biological properties of the hybrid star poly(ε-caprolactone)/hydroxyapatite composites. A nanometer hydroxyapatite (HAPN) was coated with the biodegradable polymer poly (ε-caprolactone) with three arms star topology (PCLE). The use of polymer branched topology aims to change some of its mechanical properties, the interfacial adhesion to ceramic, its viscosity, the hydrodynamic volume and its degradation kinetics. The performance of the hybrid HAPN/PCLE was compared with the other three materials: HAP commercial micrometric particles (HAP-91), their composite coated with PCLE (HAP-91/PCLE) and a biphasic ceramic nanohydroxyapatite/β-TCP (HAP-8). All materials were characterized by different physico-chemical and biological evaluations performed by cytotoxicity studies, protein adsorption, cell proliferation, alkaline phosphatase activity and an in vivo studies. The synthesis of PCLE was verified by spectroscopic analysis (Fourier-Transform infrared-FTIR and nuclear magnetic resonance-1H-NMR/13C-NMR), matrix-assisted laser desorption/ionization (MALDI-TOF) and gel permeation chromatography (GPC). The coating of the bioceramics by PCLE was confirmed by microscopy techniques transmission electron microscopy (TEM) and scanning electron microscopy (SEM). The composites showed better easy handling in relation to pure ceramic and are less brittle, possibly due to the presence of PCLE at bioceramic interface. The SEM and TEM analysis showed an aspect of continuity in the contour of the ceramic particles, both in micro and nanoscale. The composites exhibit non cytotoxicity behavior and propitiated mammalian cell growth. The proliferation of osteoblastic cells (MG-63) was significantly higher for the composite HAPN/PCLE compared to other biomaterials, suggesting influences of the surface area on the cell adhesion and proliferation. The study of contact angle indicated that the PCLE coating makes the bioceramic surfaces more hydrophobic. The radioisotopic studies indicates that the coating of bioceramics with PCLE significantly alter the adsorption of blood proteins fibrinogen and albumin. The process of regeneration of bone tissue was studied in in vivo conditions after implantation of implants manufactured from composites in rabbit´s tibias. The results showed that composites can be used as biomaterial since the newly bone grew around the implants.
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Estudo de hidroxiapatitas revestidas com poli (ε-caprolactona) estrela: processamento e avaliação biológica / Study covered hydroxyapatites poly (ε-caprolactone) star: processing and biological evaluationEleni Cristina Kairalla 12 July 2013 (has links)
Para a produção de compósitos multifuncionais crescente atenção tem sido dada a uma homogeneização eficaz de hidroxiapatitas em matrizes poliméricas, buscando uma sintonia fina da concentração entre polímeros biodegradáveis e biocerâmicas. Este trabalho dedicou-se a síntese, caracterização e estudo das propriedades biológicas do híbrido hidroxiapatita / poli(ε-aprolactona) estrela. A hidroxiapatita nanométrica (HAPN) foi revestida com o polímero biodegradável poli(ε -caprolactona) de topologia em estrela de três braços (PCLE). O uso de um polímero com topologia ramificada visa alterar algumas de suas propriedades mecânicas, a adesão interfacial à cerâmica, a sua viscosidade, o volume hidrodinâmico e sua cinética de degradação. O desempenho do híbrido HAPN/PCLE foi comparado com os materiais: HAP com partículas micrométricas (HAP-91 material comercial), o seu compósito revestido com PCLE (HAP-91/PCLE) e uma cerâmica nanométrica bifásica hidroxiapatita/β-TCP (HAP-8). Os materiais foram caracterizados por avaliações físico-químicas e biológicas realizadas por estudos de citotoxicidade, adsorção de proteínas, proliferação celular, atividade de fosfatase alcalina. A síntese de PCLE foi verificada por análise espectroscópica (espectroscopia no infravermelho-FTIR; ressonância magnética nuclear de prótons- 1H-RMN e carbono- 13C-RMN; a matriz assistida por desorção a laser / ionização; MALDI-TOF; e cromatografia de permeação em gel (GPC). O revestimento das biocerâmicas por PCLE foi confirmado por técnicas de microscopia eletrônica de transmissão (MET) e de varredura (MEV). Os compósitos mostraram uma melhor trababilidade em relação à cerâmica pura e são menos quebradiços, possivelmente devido à presença do PCLE na interface da biocerâmica. A análise de MEV e MET mostrou um aspecto de continuidade no contorno das partículas de cerâmica, em micro e nano-escala. Os compósitos apresentam comportamento não citototóxico e propiciaram um crescimento de células de mamíferos. A proliferação de células osteoblásticas (MG -63) foi significativamente mais elevada para o compósito HAPN/PCLE em comparação com outros biomateriais, sugerindo influência da área de superfície na adesão e proliferação de células. O estudo do ângulo de contato indicou que o revestimento com PCLE faz com que a superfície da biocerâmica seja mais hidrofóbica. O estudo com radioisótopos indicou que o revestimento da biocerâmica com PCLE altera significativamente a adsorção das proteínas do sangue fibrinogênio e albumina. O processo de regeneração do tecido ósseo foi estudado em condições in vivo com a implantação de pastilhas dos materiais estudados em tíbias de coelho. Os resultados mostraram que os compósitos podem ser utilizados como biomaterial, pois houve neoformação óssea ao redor dos implantes. / For the production of multifunctional composites in the combination of biodegradable polymers and bioceramics, increasing attention has been paid to an effective homogenization of hydroxyapatite within polymer matrices and a fine tuning of the concentration. This work was dedicated to the synthesis, characterization and study of the biological properties of the hybrid star poly(ε-caprolactone)/hydroxyapatite composites. A nanometer hydroxyapatite (HAPN) was coated with the biodegradable polymer poly (ε-caprolactone) with three arms star topology (PCLE). The use of polymer branched topology aims to change some of its mechanical properties, the interfacial adhesion to ceramic, its viscosity, the hydrodynamic volume and its degradation kinetics. The performance of the hybrid HAPN/PCLE was compared with the other three materials: HAP commercial micrometric particles (HAP-91), their composite coated with PCLE (HAP-91/PCLE) and a biphasic ceramic nanohydroxyapatite/β-TCP (HAP-8). All materials were characterized by different physico-chemical and biological evaluations performed by cytotoxicity studies, protein adsorption, cell proliferation, alkaline phosphatase activity and an in vivo studies. The synthesis of PCLE was verified by spectroscopic analysis (Fourier-Transform infrared-FTIR and nuclear magnetic resonance-1H-NMR/13C-NMR), matrix-assisted laser desorption/ionization (MALDI-TOF) and gel permeation chromatography (GPC). The coating of the bioceramics by PCLE was confirmed by microscopy techniques transmission electron microscopy (TEM) and scanning electron microscopy (SEM). The composites showed better easy handling in relation to pure ceramic and are less brittle, possibly due to the presence of PCLE at bioceramic interface. The SEM and TEM analysis showed an aspect of continuity in the contour of the ceramic particles, both in micro and nanoscale. The composites exhibit non cytotoxicity behavior and propitiated mammalian cell growth. The proliferation of osteoblastic cells (MG-63) was significantly higher for the composite HAPN/PCLE compared to other biomaterials, suggesting influences of the surface area on the cell adhesion and proliferation. The study of contact angle indicated that the PCLE coating makes the bioceramic surfaces more hydrophobic. The radioisotopic studies indicates that the coating of bioceramics with PCLE significantly alter the adsorption of blood proteins fibrinogen and albumin. The process of regeneration of bone tissue was studied in in vivo conditions after implantation of implants manufactured from composites in rabbit´s tibias. The results showed that composites can be used as biomaterial since the newly bone grew around the implants.
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Etude des voies de silencing transciptionnel indépendantes de la méthylation ADN chez Arabidopsis thaliana / Study of transcriptional gene silencing pathways independent of DNA methylationBourguet, Pierre 07 December 2018 (has links)
Le silencing transcriptionnel limite la transcription des gènes et des éléments transposables dont l’expression pourrait être délétère à la cellule. Il dépend d’une diversité de modifications de la chromatine comme la méthylation ADN ou les marques répressives des histones. De façon à mieux comprendre les mécanismes moléculaires à l’origine du silencing transcriptionnel, nous avons mené une approche de génétique directe à l’aide d’un transgène soumis au silencing dans la plante modèle Arabidopsis thaliana. Cette stratégie nous a permis d'isoler à la fois des mutants déficients pour le maintien du silencing transcriptionnel et des mutations qui empêchent la réactivation transcriptionnelle des éléments transposables en réponse à un stress thermique. Nous avons caractérisé les défauts provoqués par ces mutations en combinant des approches de biologie moléculaire, de cytologie et de génomique.Nous montrons ainsi que MED14, la sous-unité centrale du complexe Mediator, et UVH6, composant du complexe TFIIH, sont requis pour la transcription de l'hétérochromatine en stress thermique. MED14 stimule aussi la transcription de l'hétérochromatine en l'absence de stress, mais ne semble fonctionner qu'en présence de la méthylation ADN. En plus de cette fonction originale, nous identifions un nouveau rôle de MED14 dans le maintien de la méthylation ADN, possiblement via la voie de méthylation ADN dirigée par les petits ARN.Par ailleurs, nos résultats nous ont permis d’identifier le rôle des protéines MAIN et MAIL1, qui définissent une voie de silencing transcriptionnelle indépendante des voies connues jusqu'alors. De façon intéressante, MAIN et MAIL1 possèdent un domaine protéique partagé avec les éléments transposables, qui aurait successivement été capturé par les éléments transposables et leur hôte au cours de l’histoire évolutive des plantes à fleurs.Enfin, en isolant une nouvelle mutation du gène POL2A, nous confirmons le rôle de l’ADN polymérase epsilon dans le silencing transcriptionnel et caractérisons les propriétés chromatiniennes qui dépendent de POL2A. Nous montrons que les défauts de silencing des mutants pol2a corrèlent avec une désorganisation importante de l’hétérochromatine sans diminution drastique des marques qui y sont associées. Au contraire, nous détectons une hyperméthylation ADN prononcée dans le mutant, et explorons différentes hypothèses pour expliquer ce phénotype particulier. Nos données suggèrent que plusieurs mécanismes moléculaires sont à l’origine des défauts des mutants pol2a. Elles confirment le rôle prépondérant de la chromométhylase CMT3 dans la régulation de la méthylation ADN, et suggèrent qu’un stress réplicatif pourrait causer une hyperméthylation de l’ADN.Dans l’ensemble, ces travaux de thèse proposent des pistes de travail dont l’exploration pourrait permettre d’expliquer les effets des déficiences réplicatives dans le maintien du silencing transcriptionnel et de l’homéostasie de la méthylation ADN. Ils suggèrent en outre que MED14 a une fonction dédiée à la transcription de l’hétérochromatine qui pourrait stimuler le maintien de la méthylation ADN. / Transcriptional gene silencing hinders deleterious transcription of some genes and transposable elements. Silencing is maintained by numerous chromatin modifications such as DNA methylation and repressive histone marks. To better understand the molecular mechanisms of silencing, we conducted a forward genetic screen using a transgene reporter system targeted by transcriptional gene silencing in the model plant Arabidopsis thaliana. We isolated a first type of mutants with diminished maintenance of silencing and a second category that displayed deficient release of transgene silencing upon heat stress. We then combined molecular, cytological and genomic methods to characterize the defects associated with these mutations.First, we show that the Mediator subunit MED14 and the TFIIH complex subunit UVH6 are required for heat-stress-induced release of silencing. We further show that MED14, but not UVH6, promotes transcriptional activation of transposable elements in mutant contexts where silencing is defective. Importantly, MED14 is only required when DNA methylation is not affected, suggesting that MED14 has a specialized function to promote transcription of heterochromatin. Furthermore, we show that MED14 promote DNA methylation at targets regulated by RNA-directed DNA methylation.Characterizing mutants from the first category, we unveil the contribution of the MAIN and MAIL1 proteins into transcriptional gene silencing, and show that they likely act through a pathway independent of known silencing factors. Interestingly, MAIN and MAIL1 bear a protein domain that is shared with transposable elements, and that has been captured by transposable elements and genes throughout the evolutionary history of flower plants.Additionally, we confirm the involvement of the DNA polymerase epsilon in transcriptional gene silencing by isolating a new mutation of the POL2A gene among mutants of the first category. We characterize the effects of the pol2a mutation on several heterochromatin properties, and show that the pol2a mutant retains high levels of heterochromatin marks despite having highly disorganized heterochromatin. We actually detect a strong elevation of DNA methylation in the pol2a mutant and explore different hypothesis to explain this unusual phenotype. We show that increased expression of the CMT3 chromomethylase is a likely cause, but that additional molecular mechanisms are probably involved. Further exploration suggests that constitutive replicative stress occurring in pol2a mutants could be an additional cause of DNA hypermethylation.To summarize, this work provide putative causes for DNA hypermethylation and silencing defects in a situation of replicative deficiency. Further investigation will be required to identify the molecular components involved in the mechanism. Our data further suggest that MED14 has a function dedicated to heterochromatin transcription that could promote DNA methylation maintenance.
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