Global ETD Search

31	Die Zirconiumalkoxid-katalysierte Aldol-Tishchenko-Reaktion von Keton-Aldolen / The zirconium alkoxide-catalyzed aldol-Tishchenko reaction of ketone aldols Hansch, Markus 27 January 2005 (has links) No description available. 540 Chemie Mathematics and Computer Science Alkohole Aldolreaktion Diastereoselektivität Enantioselektivität Tishchenko-Reduktion Zirconium alcohols aldol reaction diastereoselectivity enantioselectivity Tishchenko reduction zirconium 35.52
32	Preparação e utilização de amino catalisadores - derivados do glicerol, D-manitol e L-aminoácidos - em reações de adição aldólica Martins, Rafaela de Souza 03 August 2017 (has links) Submitted by Renata Lopes (renatasil82@gmail.com) on 2017-10-10T11:51:05Z No. of bitstreams: 1 rafaeladesouzamartins.pdf: 11994443 bytes, checksum: c42e2d285fd87e325b038e9bfe95bdf5 (MD5) / Approved for entry into archive by Adriana Oliveira (adriana.oliveira@ufjf.edu.br) on 2017-10-10T12:22:21Z (GMT) No. of bitstreams: 1 rafaeladesouzamartins.pdf: 11994443 bytes, checksum: c42e2d285fd87e325b038e9bfe95bdf5 (MD5) / Made available in DSpace on 2017-10-10T12:22:21Z (GMT). No. of bitstreams: 1 rafaeladesouzamartins.pdf: 11994443 bytes, checksum: c42e2d285fd87e325b038e9bfe95bdf5 (MD5) Previous issue date: 2017-08-03 / CAPES - Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Neste trabalho descrevemos a preparação de oito amino catalisadores, obtidos na forma de sal do trifluoroacetato. Quatro destes catalisadores foram preparados na forma da mistura de dois estereoisômeros, a partir do glicerol e os aminoácidos L-leucina, L-valina, L-fenilalanina e a L-prolina. Os outros quatro amino catalisadores foram preparados, em sua forma estereoisomericamente pura, a partir do D-manitol e os aminoácidos L-leucina, L-valina, Lfenilalanina e a L-prolina. Os oito amino catalisadores foram capazes de catalisar a reação de adição aldólica entre a cicloexanona e o 4-nitrobenzaldeído. Os produtos de adição foram obtidos em rendimentos que variaram de 58-95 %, sendo a maior r.d. de 1 : 9,12 (sin:anti), determinada por RMN de 1H, e maior e.e. de 94 %, determinado por cromatografia líquida de alta eficiência. O melhor resultado, considerando o rendimento, a diastereo e a enantiosseletividade dos produtos formados, foi obtido quando o catalisador enantiomericamente puro derivado da L-prolina foi utilizado. / In this work we describe a preparation of eight amino-catalysts, obtained as a trifluoroacetate salt. Four of these catalysts were prepared, in the form of the mixture of two stereoisomers, from glycerol and the amino acids L-leucine, L-valine, L-phenylalanine and L-proline. The other four amino-catalysts were prepared in stereoisomerically pure form from D-mannitol and the amino acids L-leucine, L-valine, L-phenylalanine and L-proline. The eight aminocatalysts were able to catalyze the aldol addition reaction between cyclohexanone and 4nitrobenzaldehyde. The addition products were obtained in yields ranging from 58-95 %, the highest d.r. from 1:9.1 (sin: anti), determined by 1H NMR, and higher e.e. of 94 %, determined by high performance liquid chromatography. The best result, considering the yield, diastereomer and enantioselectivity of the formed products, was obtained when the enantiomerically pure L-proline derived catalyst was used. Amino catalisador Glicerol D-manitol L-aminoácidos Reação de adição aldólica Amino catalyst Glycerol D-mannitol L-amino acids Aldol reaction
33	Nouvelles applications de paires d’ions coopératifs chirales en organocatalyse : réactions énantiosélectives de protonation, de déprotonation et d’aldolisation directes vinylogues / Use of chiral cooperative ion pairing as organocatalyst in new asymetric reactions : protonation, deprotonation and aldol reactions Claraz, Aurélie 26 December 2012 (has links) Le développement de nouvelles méthodologies énantiosélectives organocatalysées est au centre des projets de cette thèse. Nous avons plus particulièrement considéré le potentiel de "paires d'ions coopératifs" chirales possédant une partie ammonium dérivée des alcaloïdes de quinquina et une partie anionique à caractère nucléophile permettant d'activer un réactif. Dans un premier temps, nous avons employé un amidure d'ammonium chiral (généré in situ par réaction entre un amide N-silylé et un phénolate de quininium) comme base de Brønsted délivrée en quantité catalytiques en deux réactions distinctes. Initialement, cette stratégie nous a permis de mettre au point un procédé de désymétrisation de cétones prochirales par déprotonation éniantosélective. Bien que les excès énantiométriques obtenus restent modestes, notre approche constitue la première version organocatalysée. Puis, nous avons pu développer avec succès une nouvelle réaction d'aldolisation directe vinylogue énantiosélective de (5H)-furan-2-ones avec de bons rendements et diastérosélectivités anti et des excès énantiométriques allant jusqu'à 94 %. Dans un second temps, nous avons décrit deux nouveaux cycles catalytiques de protonation énantiosélective d'énolates masqués. Tout d'abord, l'utilisation d'hydrogénocarbonate de potassium et d'une amine chirale a conduit à l'obtention de cétones énantioenrichies α-substituées avec des excès énantiométriques allant jusqu'à 93 % à partir des trifluoacétates d'énols correspondants. Puis, les propriétés de base de Lewis de nos phénolates d'ammoniums quaternaires chiraux ont été valorisés lors de la protonation énantiosélectives d'éthers d'énols silylés en présence de phénols. / This work deals with the development of new asymetric organocatalyzed methodologies. More particularly we were focused on using "cooperative chiral ion pairs" having an ammonium moiety derived from cinchona alkaloids and an anionic moiety with nucleophilic properties able to activate a reagent.Firstly, we used an in situ generated chiral ammonium amide (from the combination of an aminosilane and a quininium aryloxide) as a Brønsted base in two distinct reactions. Initially, this strategy was applied to an organocatalyzed desymmetrization of prochiral ketones by enantioselective deprotonation. Despite modest enantiometric excesses, this report constitutes the first example of an enantioselective orgonacatalyc approach. Then, an anti-selective direct vinylogous asymmetric aldol reaction of (5H)-furan-2-ones was achieved in good yields and enantioselectivities up to 94%.Secondly, we described two new catalytic cycles for the enantioselective protonation of latent enolates. By means of cinchona alkaloids and hydrogenocarbonates, enantioenriched α-substituted ketones were obtained with good enantiometric excesses up to 93% starting from the corresponding enol trifluoacetates. Finally, the nucleophilic properties of our ammonium phenoxide catalysts prompted us to develop an enantioselective protonation reaction of silyl enol ethers in the presence of phenol as achiral proton source. Organocatalyse asymétrique Paires d'ions chirales Quinquina Protonation Désymetrisation Deprotonation Aldolisation Asymetric organocatalyze Chiral ion pairs Cinchona Protonation Desymmetrization Deprotonation Aldol reaction
34	Conception et synthèse d’auto-assemblages d’amphiphiles diacétyléniques pour les applications en nanomédecine et en catalyse / Design and synthesis of self-assemblies obtained from diacetylene amphiphiles for applications on nanomedicine and catalysis Hoang, Minh Duc 07 November 2019 (has links) Les travaux décrits dans ce manuscrit portent sur l’étude de nanostructures obtenues par auto-assemblages d’amphiphiles diacétyléniques polymérisables. Essentiellement deux familles de composés ont été étudiées (micelles sphériques et rubans en bicouches) et valorisées, d'une part, pour des applications biomédicales et, d’autre part, pour la catalyse. Dans un premier temps, des micelles cationiques polymérisées assemblées à partir d’amphiphiles diacétyléniques sont synthétisées. Ces micelles ont été valorisées pour la prise en charge et la transfection d’ARN interférents in vitro. Ensuite, un catalyseur micellaire « biocompatible » incorporant du cuivre a été développé pour promouvoir des transformations chimiques in vitro. Nos études ont ainsi porté sur la réaction de cycloaddition 1,3-dipolaire de Huisgen que nous avons mise en œuvre dans le compartiment intracellulaire. Enfin, nous nous intéressons à la synthèse et à la formulation d’amphiphiles diacétyléniques en architectures supramoléculaires qui ont été utilisées pour la catalyse asymétrique et semi-hétérogène de la réaction d'aldolisation. / The work described in this manuscript focuses on the study of nanostructures obtained by self-assembly of polymerizable diacetylenic amphiphiles. Two families of compounds have been studied (spherical micelles and bilayer ribbons) and used for biomedical applications on the one hand and for catalysis on the other. At first, polymerized cationic micelles assembled from diacetylenic amphiphiles are synthesized. These micelles were valorized for the transfection of small interfering RNAs in vitro. Then a "biocompatible" micellar catalyst incorporating copper was developed to promote in vitro chemical transformations. Our studies focused on the Huisgen 1,3-dipolar cycloaddition that we implemented in the intracellular compartment. Finally, we are interested in the synthesis and formulation of supramolecular architectures from diacetylenic amphiphiles. These systems have been used for the asymmetric and semi-heterogeneous catalysis of the aldol reaction. Nanomédecine Micelles SiARN Click dans les systèmes vivants Nanoruban Aldolisation asymétrique dans l'eau Nanomedicine Micelles SiRNA Click in living system Nanoribbon Asymmetric aldol reaction in water
35	Novel Cinchona Alkoloid Derived Ammonium Salts as Phase-Transfer Catalysts for the Asymmetric Synthesis of Beta-Hydroxy Alpha-Amino Acids Via Aldol Reactions and Total Synthesis of Celogentin C. Ma, Bing 16 June 2009 (has links) (PDF) Project I. Cinchona alkaloid-derived quaternary ammonium salts have been successfully used as phase-transfer catalysts, particularly in asymmetric alkylations. Our group applied this type of catalyst in the synthesis of β-hydroxy α-amino acids via aldol reactions and discovered that the Park-Jew catalyst afforded good yields and good enantiomeric excess of the syn diasteromers, but negligible diastereoselectivity. This project was therefore focused on the synthesis of novel cinchonidine-derived catalysts with the Park-Jew catalyst as the lead structure. The C3 position of cinchonidine nucleus was modified to achieve dimers and catalysts possessing electron-deficient alkyne and alkene moieties. Synthesized catalysts were tested in the asymmetric aldol reactions, with some of them yielding improvements relative to the Park-Jew catalyst. Project II. Celogentin C is a natural product that was isolated from the seeds of Celosia argentea by Kobayashi in 2001. It is the most potent inhibitor of the polymerization of tubulin from among the celogentin family. The novel bicyclic octapeptide structure contains unusual linkages between leucine β-carbon and indole C-6 of tryptophan and between tryptophan indole C-2 and imidazole N-1 of histidine. The project culminated in the first total synthesis of celogentin C. Reaction conditions were developed by synthesizing the left-hand ring and the right-hand ring separately, and the total synthesis was accomplished via a left to right strategy. Key transformations in the construction included intermolecular Knoevenagel condensation, radical conjugate addition, macrolactamization, and oxidative coupling. Cinchona alkaloids beta-Hydroxy alpha-amino acids Sonogashira coupling Heck reaction Asymmetric aldol reaction natural products Celogentin C oxidative coupling peptides radical reaction total synthesis Biochemistry Chemistry
36	Studies towards the total synthesis and structure elucidation of leiodolide A Mould, Katy M. January 2013 (has links) Leiodolide A is a unique natural product isolated from Pacific marine sponges which has provided an interesting target for total synthesis due to its complex structure and undefined stereochemistry. Although synthetic work towards the synthesis of sister compound leiodolide B has been published, the total synthesis of leiodolide A is yet to be achieved but remains an important target due to high potency against leukaemia, non-small lung and ovarian cancers. The convergent strategy towards the synthesis of leiodolide A involved the synthesis of three subunits; a synthetic route to the C21-C25 vinyl stannane is described, and efforts towards the synthesis of the bidirectional C11-C20 subunit are detailed. Asymmetric vinylogous aldol methodology was developed for the installation of the 1,2-syn propionate motif found in the C1-C10 subunit and in other polypropionate natural products, and was shown to be applicable to a range of substrates in moderate diastereoselectivity and excellent enantioselectivity. 547
37	Accès à de nouvelles plateformes chirales pour la synthèse d'analogues structuraux de la salvinorine A et de terpènes bioactifs / Access to new chiral building blocks towards the synthesis of salvinorin A analogues and bioactive terpenes Schiavo, Lucie 16 October 2017 (has links) La salvinorine A est un néoclérodane naturel possédant une forte affinité pour les récepteurs opioïdes kappa. Tout comme elle, de nombreux terpénoïdes bioactifs naturels, tels que l’acide hardwickiique, possèdent une chaîne latérale 2-(furan-3-yl)-éthyle en position 9. L’introduction de cette chaîne sur le squelette décaline est actuellement reportée dans la littérature en 3 à 8 étapes formelles et nécessitent souvent une dérivatisation préalable des autres fonctionnalités, diminuant ainsi la possibilité d’accéder à plusieurs analogues à partir d’un seul intermédiaire. L’objectif de ce travail a été de développer une méthode d’introduction efficace et diastéréosélective de ce motif à partir de la dicétone de Wieland-Miescher C(9)-méthylée (DWM). Ceci a été envisagé afin d’accéder à un intermédiaire commun peu fonctionnalisé pouvant ensuite être dérivatisé en de nombreux analogues naturels ou synthétiques. Pour cela, plusieurs stratégies ont été envisagées et testées mais l’introduction du motif désiré n’a pas été possible. L’une d’elle a tout de même permis de synthétiser de manière fortuite un nouveau composé, l’α-iodocétone de la DWM. Des essais de dérivatisation ont été effectués et sont toujours en cours de développement. Une stratégie d’aldolisation de Mukaiyama en présence de l’éther d’énol silylé de la DWM et de divers acétals a également été mise au point et permet d’accéder de manière diastéréosélective en 2 étapes à 36 nouveaux aldols simples, silylés, méthylés ou bien encore benzylés comportant différentes chaînes latérales en position C(9) avec des rendements compris entre 9 et 97%. Des fonctionnalisations ultérieures ont ensuite été entrepris sur certains intermédiaires dans l’optique de synthétiser deux sesquiterpénoïdes naturels, le (+)-auréol et la (+)-strongyline A. / The natural neoclerodane salvinorin A exhibits a great affinity for kappa opioid receptors. Several other bioactive natural terpenoids, such as hardwickiic acid, are also bearing a 2-(furan-3-yl)-ethyl chain at position 9. The introduction of this chain is usually performed with 3 to 8 formal synthetic steps. Derivatization of other functionalities is often mandatory in order to meet the chemoselectivity requirements, and is preventing the possibility to access multiple analogues. The aim of this work was to develop an efficient and diastereoselective method to introduce this lateral chain at C(9) position of the C(9)-methylated Wieland-Miescher diketone (DWM) in order to access many natural or synthetic analogues from a common intermediate. Several strategies were designed, but the introduction of the ethyl-3-furyl chain remained unsuccessful. Nevertheless, the new α-iodoketone of the DWM was obtained by serendipity during this work. Experiments in order to derive this compound are still under investigation. A Mukaiyama aldol reaction strategy was set up and permit a diastereoselective access to 36 new aldols (simple, silylated, methylated or benzylated), bearing different lateral chains at C(9) position, with 9 to 97% yield. Further functionalization of two aldols were undertaken in order to synthesize two natural sesquiterpenoids, the (+)-aureol and the (+)-strongylin A. Synthèse asymétrique Clérodane Dicétone de Wieland-Miescher Aldolisation de Mukaiyama Réduction de Birch Couplage organométallique Couplage radicalaire Asymmetric synthesis Clerodane Wieland-Miescher diketone Mukaiyama aldol reaction Birch reduction Organometallic coupling Radical coupling 547.7
38	Recherche et évaluation d'antalgiques originaux : les activateurs des canaux potassiques TREK-1 Rodrigues, Nuno 02 December 2011 (has links) Les antalgiques utilisés aujourd’hui sont des produits anciens et plusieurs d’entre eux datent du 19ème siècle. La morphine demeure l’antalgique de référence pour les douleurs dites par excès de nociception, mais elle est à l’origine d’effets indésirables gênants et graves. Il a été démontré que l’effet antalgique de la morphine passait par l’activation des canaux potassiques TREK-1. Les travaux de recherche ont donc comme objectif la recherche d’antalgiques originaux activateurs de TREK-1. Nous avons synthétisé des activateurs de TREK-1 décrits dans la littérature puis nous avons évalué leur activité antalgique in vivo (writhing test) ce qui nous a permis d’identifier le CDC comme molécule « lead ». Nous avons ensuite synthétisé 43 analogues du CDC que nous avons évalué pour leur effet antalgique ainsi que leur capacité à activer les canaux TREK-1 (électrophysiologie). Ces molécules ont été préparées en 3 à 12 étapes avec des rendements de 3 à 72 % en utilisant des réactions telles que : aldolisation, oléfination de Watsworth et Horner, Peterson, estérification …Des résultats très prometteurs ont émergé de cette étude de relation structure-activité avec 8 molécules qui se démarquent avec un très bon effet antalgique (>50% inhibition de la douleur) ainsi qu’une bonne activation des canaux TREK-1 (R>2). Enfin nous avons analysé les résultats de cette étude par modélisation moléculaire (QSAR) ce qui nous a permis d’identifier les caractéristiques structurales essentielles de ces molécules. / Analgesics used today are old products and several of them date from the 19th century. Morphine remains the analgesics of reference for pains called by excess of nociception, but it is at the origin of awkward and serious side effects. It was shown that the analgesic effect of morphine passed by the activation of potassium channels TREK-1. The objective of this work is thus to develop original analgesics, activators of TREK-1. We synthesized activators of TREK-1 described in the literature and we evaluated their analgesic activity in vivo (writhing test) which enabled us to identify CDC as a lead molecule. We then synthesized 43 analogues of CDC which we evaluated for their analgesic effect and their ability to activate TREK-1 channels (electrophysiology). These molecules were prepared in 3 to 12 steps with yields ranging from 3 to 72 % by using reactions such as : aldol reaction, Watsworth and Horner’s olefination, Peterson’s olefination, esterification … Very promising results emerged from this structure-activity relationship study with 8 molecules which display a very good analgesic effect (>50% inhibition of pain) as well as a good activation of TREK-1 channels (R> 2). Finally we analyzed the results of this study by molecular modeling (QSAR) which enabled us to identify the essential structural characteristics of these molecules. Douleur Antalgiques Canaux potassiques TREK-1 CDC Dérivé d’ester caféique Aldolisation Oléfination QSAR Writhing test Électrophysiologie Pain Analgesics Potassium channels TREK-1 CDC Analogues of caffeic ester Aldol reaction Olefination QSAR Writhing test Electrophysiology
39	Estudo da Aplicação de Brometo de Índio(I) em Reações para Formação de Ligações Carbono-Carbono / Studies on the Application of Indium(I) Bromide in Carbon-Carbon Chagas, Rafael Pavão das 01 March 2011 (has links) Conselho Nacional de Desenvolvimento Científico e Tecnológico / This PhD thesis describes our results on the application of indium(I) bromide in carbon-carbon bond forming reactions. Indium enolates, generated in situ from the reaction between indium(I) bromide and α,α-dichloroketones, react with carbonyl compounds and electron-deficient alkenes. Reactions of indium enolate with α,α-dichloroketones, in presence of extra InBr, leads to the formation of 1,4-diketones. The coupling with aldehydes leads alternatively, according as the stoichiometry, to the diastereoselective synthesis of (syn+anti)-2-chloro-3-hydroxy-propan-1-ones (which can be converted to the respective trans-epoxyketones), (E)-α,β-unsaturated ketones and cyclopropanes, upon a sequenced reaction mechanism. We also have developed a methodology for the preparation of cyclopropanes through the reaction of the indium enolate and other organoindium(III) compounds, derived from the reactions between InBr and α,α-dihalo carbonyl compounds and halo-acetonitriles, with electron-deficient alkenes. / Este trabalho descreve os resultados dos estudos realizados sobre aplicações de brometo de índio(I) em reações para formação de ligações carbono-carbono. A reação entre brometo de índio(I) e α,α-diclorocetonas produz, in situ, enolatos de índio que reagem com compostos carbonílicos e alcenos deficientes em elétrons. As reações do enolato de índio com outras moléculas de α,α-diclorocetonas, na presença de InBr em excesso, leva à formação de 1,4-dicetonas. O acoplamento com aldeídos leva alternativamente, conforme a estequiometria, à formação diastereosseletiva de (syn+anti)-α-cloro-β-hidróxi-cetonas (que podem ser convertidas às respectivas trans-epóxi-cetonas), cetonas (E)-α,β-insaturadas e ciclopropanos, segundo um mecanismo de reações sequenciais. Ainda foi desenvolvida uma metodologia para preparação de ciclopropanos através da reação do enolato de índio e de outros compostos organoíndio(III), derivados da reação entre InBr e vários compostos carbonílicos α,α-di-halogenados e halogeno-acetonitrilas, com alcenos deficientes em elétrons. Brometo de índio(I) Enolato de índio Organoíndio Reação aldólica Ciclopropanação Formação de ligações carbono-carbono Indium(I) bromide Indium enolate Organoindium Aldol reaction Cyclopropanation Carbon-carbon bond formation
40	Synthèse d’analogues de nucléosides cardioprotecteurs comportant un centre quaternaire carboné et étude de leur mécanisme d’action biologique par photo-affinité Leblanc, Louis 04 1900 (has links) No description available. Synthèse Analogues de nucléosides Cardioprotection Centre quaternaire carboné Transfert radicalaire Photo-affinité Aldolisation de Mukaiyama Diastéréosélectivité Synthesis Nucleoside analogues All-carbon quaternary center Radical transfer Photo-affinity Mukaiyama aldol reaction Diastereoselectivity

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