Global ETD Search

51	Síntese e aplicações de polímeros helicoidais multifuncionalizados / Synthesis and applications of functionalized helical polymers Sakae, George Hideki 29 November 2016 (has links) Nesta tese foram feitos estudos cujo objetivo principal foi centrado na síntese, caracterização e estudos da morfologia e das aplicações de polímeros helicoidais fenilacetilênicos contendo grupos laterais opticamente ativos. O trabalho foi dividido em 3 capítulos. O primeiro consistiu do estudo de inserção da fração acetilênica em núcleos aril- e piridil-oxazolínicos. Algumas limitações experimentais foram observadas em função da funcionalização das porções monoméricas sob as condições de polimerização. O segundo estudo consistiu do controle de crescimento das cadeias poliméricas, por ação de nanopartículas tipo core-shell (Au@Te-NP\'s). Foi observado que sob tais condições obtém-se cadeias poliméricas substancialmente menores do que na ausência dessas partículas. O terceiro capítulo consistiu no uso de polímeros helicoidais derivados de prolina para catálise assimétrica de reações do tipo aldol. Os resultados se mostraram promissores. Esses estudos não foram concluídos mas foi possível obter produtos com altos excessos enantio- e diastereoisomericos. / This thesis aimed the synthesis, characterization, morphology studies and applications of phenylacetilenic helical polymers containing optically active pendant groups. The results are presented in three chapters. The first was centered on the functionalization of aril- and pyridil-oxazolines with the acetylenic portion. Some experimental limitations were faced because of the functionalization of the monomers under polymerization conditions. The second chapter was dedicated to the utilization of core-shell nanoparticles (Au@Te-NP\'s) on the control of polymer chain growth. The presence of these NPs ensures the production of substantially smaller polymeric chains. The third chapter was dedicated to the employment of the optically active helical polymers as catalysts for aldol type reactions. These studies couldn\'t be concluded but where very promissory leading to products with high enantio- and diastereomeric excess. Aldol reactions Aril- e piridil-oxazolinas Aryl- and pyridil-oxazolines Helical polymers Nanoparticles Nanopartículas Polifenilacetilenos Polímeros helicoidais Polyphenylacetilenes Reações do tipo aldol
52	Síntese e aplicações de polímeros helicoidais multifuncionalizados / Synthesis and applications of functionalized helical polymers George Hideki Sakae 29 November 2016 (has links) Nesta tese foram feitos estudos cujo objetivo principal foi centrado na síntese, caracterização e estudos da morfologia e das aplicações de polímeros helicoidais fenilacetilênicos contendo grupos laterais opticamente ativos. O trabalho foi dividido em 3 capítulos. O primeiro consistiu do estudo de inserção da fração acetilênica em núcleos aril- e piridil-oxazolínicos. Algumas limitações experimentais foram observadas em função da funcionalização das porções monoméricas sob as condições de polimerização. O segundo estudo consistiu do controle de crescimento das cadeias poliméricas, por ação de nanopartículas tipo core-shell (Au@Te-NP\'s). Foi observado que sob tais condições obtém-se cadeias poliméricas substancialmente menores do que na ausência dessas partículas. O terceiro capítulo consistiu no uso de polímeros helicoidais derivados de prolina para catálise assimétrica de reações do tipo aldol. Os resultados se mostraram promissores. Esses estudos não foram concluídos mas foi possível obter produtos com altos excessos enantio- e diastereoisomericos. / This thesis aimed the synthesis, characterization, morphology studies and applications of phenylacetilenic helical polymers containing optically active pendant groups. The results are presented in three chapters. The first was centered on the functionalization of aril- and pyridil-oxazolines with the acetylenic portion. Some experimental limitations were faced because of the functionalization of the monomers under polymerization conditions. The second chapter was dedicated to the utilization of core-shell nanoparticles (Au@Te-NP\'s) on the control of polymer chain growth. The presence of these NPs ensures the production of substantially smaller polymeric chains. The third chapter was dedicated to the employment of the optically active helical polymers as catalysts for aldol type reactions. These studies couldn\'t be concluded but where very promissory leading to products with high enantio- and diastereomeric excess. Aril- e piridil-oxazolinas Nanopartículas Polifenilacetilenos Polímeros helicoidais Reações do tipo aldol Aldol reactions Aryl- and pyridil-oxazolines Helical polymers Nanoparticles Polyphenylacetilenes
53	Progrès vers la synthèse totale de la Pactamycine Dorich, Stéphane January 2008 (has links) Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal Pactamycine Cyclopentanoïde Antibiotique Aldol Réarragement de Payne Pactamycin Cyclopentanoid Antibiotic Total synthesis Diastereoselective synthesis Aldol Réarrangement de Payne
54	Development of new transition metal catalyzed C-C bond forming reactions and their application toward natural product synthesis Hassan, Abbas 27 January 2012 (has links) In Michael J. Krische research group we are developing new transition metal catalyzed Carbon-Carbon (C-C) forming reactions focusing on atom economy and byproduct free, environmental friendly approaches. We have developed a broad family of C-C bond forming hydrogenations with relative and absolute stereocontrol which provide an alternative to stoichiometric organometallic reagents in certain carbonyl and imine additions. Inspiring from the group work my goal was to develop new reactions, extend the scope of our group chemistry and their application towards synthesis of biologically active natural products. I have been part of enantioselective Rh catalyzed Aldol reaction of vinyl ketones to different aldehydes. Also, we have found that iridium catalyzed transfer hydrogenation of allylic acetates in the presence of aldehydes or alcohols results in highly enantioselective carbonyl allylation under the conditions of transfer hydrogenative. Based on this reactivity a concise enantio- and diastereoselective synthesis of 1,3-polyols was achieved via iterative chain elongation and bidirectional iterative asymmetric allylation was performed, which enables the rapid assembly of 1,3-polyol substructures with exceptional levels of stereocontrol. The utility of this approach stems from the ability to avoid the use of chirally modified allylmetal reagents, which require multistep preparation, and the ability to perform chain elongation directly from the alcohol oxidation level. This approach was utilized for the total synthesis of (+)-Roxaticin from 1,3-propanediol in 20 longest linear steps and a total number of 29 manipulations. Further, advancements were made in iridium catalyzed C-C bond formation under transfer hydrogenation. While methallyl acetate does not serve as an efficient allyl donor, the use of more reactive leaving group in methallyl chloride compensate for the shorter lifetime of the more highly substituted olefin π-complex. Based on this insight into the requirements of the catalytic process, highly enantioselective Grignard-Nozaki-Hiyama methallylation is achieved from the alcohol or aldehyde oxidation levels. Also, a catalytic method for enantioselective vinylogous Reformatsky- type aldol addition was developed in which asymmetric carbonyl addition occurs with equal facility from the alcohol or aldehyde oxidation level. Good to excellent levels of regioselectivity and uniformly high levels of enantioselectivity were observed across a range of alcohols and aldehydes. / text Hydrogenation C-C bond formation Total synthesis Roxaticin Aldol reaction
55	New Diazo Reagents and Applications of β-Lactones for Synthesis and Biological Evaluation of Natural Products Chamni, Supakarn 2011 December 1900 (has links) Natural products are essential tools for basic cellular studies leading to the identification of medically relevant protein targets and the discovery of potential therapeutic agents. We have developed a set of second generation diazo reagents with small steric footprints, namely an alpha-trifluoroethyl (HTFB) diazo reagent, for simultaneous arming and SAR studies of bioactive natural products. The Rh(II)-catalyzed O-H insertions of several alcohol-containing natural products, including the potent translation inhibitor lactimidomycin, are investigated and useful reactivity and both chemo- and site- (chemosite) selectivities are observed. The alpha-trifluoroethyl diazo reagents (HTFB) shows clear differences in the IL-2 reporter assay with FK506 derivatives and provides greater retention of biological activity in a hMetAP2 proliferation assay of fumagillol derivatives compared to the first generation pbromophenyl diazo reagent (HBPA). The synthetic utilities of the new alpha-trifluoroethyl diazo reagent (HTFB) provide a great new tool for basic cellular studies facilitating the discovery of new drug candidates for human disease. Furthermore, we are interested in methodologies for beta-lactone synthesis and transformations. In this study, we demonstrated synthetic versatilities of beta-lactones for the synthesis of beta-lactam congeners of orlistat as fatty acid synthase inhibitors via SnCl4- promoted tandem Mukaiyama aldol-lactonization (TMAL) reaction and a one-pot, mild conversion of beta-lactones to beta-lactams. The inhibitory activities of the derived beta-lactam derivatives are determined in a biochemical fluorogenic assay using recombinant FASTE, and the micro-molar range FAS-TE inhibitory activities were observed. Additionally, we pursued synthetic studies toward the total synthesis of spongiolactone, which is a unique beta-lactone-containing marine diterpenoid, isolated from the marine sponge Spongionella gracilis. This natural product bears a unique tricyclic beta-lactone core possessing four contiguous stereogenic centers and an additional stereogenic quaternary carbon on a cyclohexyl appendage. We completed the total synthesis of 6,15-bis-epi-spongiolactone by employing an intramolecular nucleophilecatalyzed aldol-lactonization (NCAL) process as the key step to construct the fused tricyclic beta-lactone core. Importantly, we developed a double diastereoselective and, for the first time, a kinetic resolution via the NCAL process that enables an enantioselective strategy to the tricyclic beta-lactone core of (+)-spongiolactone. β-lactone β-lactam diazo reagent O-H insertion
56	Novel methods for allylic amination by an intramolecular nitroso ene reaction Atkinson, Duncan January 2013 (has links) C-H functionalisation reactions aim for the selective cleavage of C-H bonds, and formation of a new carbon or heteroatom bond, often with the use of a transition metal catalyst. These reactions offer potential for functionalisation of hydrocarbons in fewer steps than conventional methods, and with high atom efficiency. They are therefore a subject of intense research in organic synthesis. Carbon-heteroatom bond forming reactions are particularly sought after, and useful in the efficient synthesis of many biologically significant groups such as oxazolidinone rings, 1,2 or 1,3 amino alcohols and amino acid analogues. An efficient, cheap and robust method for C-H amination would also be adaptable to varied syntheses of important large molecules. The necessity for complex and efficient transformations with a minimal number of steps means that heteroatom ring closures are also attractive and widely used reactions in such large molecule syntheses. The nitroso group is a highly reactive species which is normally generated in situ by oxidation of a hydroxylamine, for carbon-nitrogen bond forming reactions including the nitroso Heteroatomic Diels Alder reaction, nitroso ene reaction, and nitroso aldol reaction. Nitroso group reactions often show high stereo- and regioselectivity, and have formed key components of the syntheses of important biological molecules. Enantioselectivive protocols for the nitroso-ene reaction and, to a lesser extent, the nitroso HDA reaction, are poorly developed, however, and the range of available intramolecular nitroso reactions is limited. We aimed to establish efficient single-step intermolecular C-H amination reactions, to give 1,2 and 1,3 heteroatom functionalised molecules, and to develop the capacity for enantioselective induction in this reaction, if possible. Having synthesised a model set of unsaturated hydroxycarbamates, we identified a suitable system for nitroso generation, using a catalytic metal and stoichiometric oxidant. This resulted in in situ generation of cyclised product, with the olefin functionality intact. This cyclisation was then optimised and used to obtain a range of new heterocycles. The possibility of enantioselective induction via chiral catalysts was explored, as well as catalytic systems to increase the stereoselectivity of the reaction. In summary, a cheap, novel and reliable method was developed for formation of oxazolidinone rings from unsaturated hydroxycarbamates using an original intramolecular nitroso ene reaction, and a range of unsaturated heterocycles were synthesised in fairly good yields. Distereoselectivity of the nitroso ene cyclisations was optimised. However, to-date, we were unable to develop an enantioselective varient of the reaction. Several related aminations, as well as transformations of N-hydroxyoxazolidinone products, were also attempted during the project. 547
57	Nickel-catalysed reductive aldol cyclisation : scope and mechanistic insight Fordyce, Euan Alexander Fraser January 2009 (has links) A highly diastereoselective nickel-catalysed reductive aldol cyclisation is described. Using Ni(acac)2 as a precatalyst and diethylzinc as a stoichiometric reductant, various α,β-unsaturated carbonyl compounds tethered through an amide or ester linkage to a ketone electrophile underwent efficient cyclisation to afford β-hydroxylactams and β-hydroxylactones respectively. The scope of this process is broad with variation in the α,β-unsaturated carbonyl component, ketone and, where applicable, the nitrogen protecting group all tolerated. A series of experiments, including deuterium-labelling studies, were carried out in an attempt to gain insight into the possible reaction mechanisms that might be operative. II. Development of Novel Methodologies for the Silylation and Stannylation of Base-Sensitive Cyclopropenes Two distinct approaches to the synthesis of silyl- and stannylcyclopropenes are described. Using substoichiometric quantities of Cu(acac)2 and 1,2-bis(diphenylphosphino)ethane in combination with (trifluoromethyl)trimethylsilane, a diverse range of 1,3,3-trisubstituted cyclopropenes underwent direct silylation to afford the corresponding 1-silylcyclopropenes in good to excellent yield. Attempts to adapt these conditions to synthesise the corresponding stannylcyclopropenes proved unsuccessful. However, by employing (pentafluoroethyl)tributylstannane and stoichiometric potassium fluoride, it was possible to access 1-stannylcyclopropenes in comparable yields. It was also demonstrated that both the stannyl- and silylcyclopropene derivatives synthesised using these methodologies were able to serve as precursors for a variety of novel molecules that might otherwise be difficult to access using alternative methods. 547.5
58	THE TOTAL SYNTHESIS OF MUAMVATIN 2012 October 1900 (has links) Muamvatin (30) is a polypropionate natural product isolated from Siphonaria normalis by Ireland et al. in 1986. Muamvatin (30) is made from eight propionate units and contains an extraordinary trioxaadamantane ring system. This ring system exists in only one other naturally occurring polypropionate known as caloundrin B. Regarding the rare muamvatin trioxaadamantane ring system, it was hypothesized this ring system may not be formed via an enzymatic process and the actual natural product could be the linear precursor ent-71 which cyclizes to muamvatin (30) during isolation. The first total synthesis of muamvatin (30) by Paterson et al. confirmed its absolute and relative configuration, but the ambiguity regarding the origin of the trioxaadamantane ring system in this molecule remains unresolved. This work describes two approaches to make the linear precursor ent-71 from triol ketone 153. The carbon skeleton of muamvatin was synthesized through two iterative diastereoselective aldol reactions. In the first approach, “the thiopyran route”, the diene moiety of aldehyde 73 required protection to avoid reduction during desulfurization. Although use of the tircarbonyliron complex was successful, the trihydroxy ketone revealed upon desulfurization was unstable and spontaneously cyclized to bicyclic acetal 156. Molecular mechanics revealed that the relative configurations embedded in C3, C7, and C8 dramatically effected the stability of the corresponding bicyclic acetal. With that lesson learned, the fully assembled linear precursor 197 was made in our second approach “the acyclic route”. The oxidation state of the backbone oxygens were manipulated via an unusual chemoselective double Swern oxidation. Finally, revealing the sensitive 5-hydroxy-3,7,9-trione functionality formed the precursor 202. Efficient cyclization of precursor 202 and removal of the protecting group at C11-OH produced the desired natural product 30. The cyclization conditions tested on the linear precursor 202, suggested that although the cyclization to the trioxaadamantane is strongly favored thermodynamically, the process is very slow and unlikely to occur during the isolation process. Thus, formation of the trioxaadamantane ring system could be an enzyme-mediated process as was concluded for caloundrin B. total synthesis natural product polypropionate Muamvatin stereoselective aldol coupling kinetic resolution
59	Estudo da adição aldólica do éster terc-butílico da n-(difenilmetileno)glicina a alguns aldeídos aromáticos / Study aldol addition of the tert-butyl ester of n- (diphenylmethylene)glycine to some aromatic aldehydes Campiotti, Valmir 07 March 2016 (has links) As reações de adição aldólica entre a cetimina 1 e aldeídos aromáticos foram inicialmente efetuadas à temperatura ambiente, em sistema bifásico constituído por uma fase aquosa básica (KOH 10% ou NaOH 5% m/v) e por uma fase orgânica (aldeído), na ausência de solventes e de catalisadores, observando-se baixa conversão em produto. Porém, quando se utilizou o catalisador aliquat®-336, foi possível reduzir a concentração da base (NaOH 1%), com conversão total da imina em produto que, na maioria dos casos, era uma mistura de duas oxazolidinas isoméricas de estereoquímica cis e trans. Esses compostos puderam ser isolados e purificados por recristalização de etanol ou metanol. Em todas as reações efetuadas com benzaldeído, m-clorobenzaldeído e p-nitrobenzaldeído, não se observou excesso diastereomérico significativo. No entanto, as reações com p-clorobenzaldeído mostraram-se diastereosseletivas, conduzindo, à temperatura ambiente, quase que exclusivamente à oxazolidina de estereoquímica cis. A comparação entre o resultado de reações efetuadas a curto e longo tempo de reação, ou em diferentes temperaturas, permitiu concluir que o aldol de estereoquímica anti é o produto cinético, o qual se transforma lentamente na oxazolidina cis. O produto termodinâmico (aldol syn) cicliza rapidamente, não sendo observado nos espectros de RMN de H dos produtos brutos de reação, mas sim seu produto ciclizado, a oxazolidina trans. Tentativas de obter os produtos de reação com excesso enantiomérico, pelo emprego de catalisadores de transferência de fase assimétricos, não foram bem sucedidas. / The aldol addition reactions of ketimine 1 with four aromatic aldehydes could be performed at room temperature, in the presence of an alkaline aqueous solution (KOH 10% or NaOH 5% m/v), and in the absence of organic solvents or catalysts. Under this conditions, conversion to product was often incomplete. However, when the reaction was performed in the presence of aliquat®-336, the base concentration could be reduced (1% m/v), and the ketimine was completely converted into a mixture of diastereomeric oxazolidines, that could be isolated and purified by crystallization from ethanol or methanol. Although no significative diastereomeric excess was observed for the reactions of 1 with benzaldehyde, m-chlorobenzaldehyde or p-nitrobenzaldehyde, for reactions with p-chlorobenzaldehyde the cis oxazolidine was almost exclusively formed. The comparison of diastereomeric ratio at shorter or longer reaction times seems to indicate that the aldol anti adduct is the kinetic product and that cyclization to the corresponding cis oxazolidine is slower than the retro-aldol reaction. On the other hand, in lieu of the thermodynamic product (aldol syn), only the corresponding cyclized product (oxazolidine trans) could be visualized in the H NMR spectra of the crude product, as a result of a fast cyclization step. Attempts to produce enantiomeric enriched oxazolidines by performing the aldol reactions in the presence of chiral catalysts were unsuccessful. Adição aldólica Aldehydes Aldeídos Aldol addition reaction Éster da glicina Glycine ter-butyl ester Oxazolidina Oxazolidine
60	Studies in Rhodium Catalyzed Intramolecular C-H Insertion of Amino Acid Derived α-Diazo-α-(substituted)acetamides and its Application to the Total Synthesis of <em>clasto</em>-Lactacystin β-Lactone Flanigan, David L, Jr. 24 May 2004 (has links) Lactacystin is a microbial metabolite isolated by Omura that exhibits neurotrophic activity in neuroblastoma cell lines. Lactacystin and especially its β-lactone analog are the first examples of non-polypeptide small molecules capable of specifically inhibiting the 20S proteasome. Various asymmetric total syntheses of lactacystin and its analogs have been reported. The total synthesis of clasto -lactacystin β-lactone is achieved using L-serine methyl ester as the starting material and the sole source of stereochemical induction. The success of this synthesis hinges on two featured transformations. The first key step involves formation of the γ -lactam core via rhodium (II) catalyzed intramolecular C-H insertion of the α-diazo-α-(phenylsulfonyl)acetamide intermediate. The methodology for this transformation has been developed and applied to the synthesis of highly functionalized stereogenic γ-lactams from natural α-amino acids. Three control elements that govern γ-lactam formation are described. This step is highlighted by the xvi simultaneous creation of two stereogenic centers of the γ-lactam core. The second key step involves the late stage aldol coupling for quaternary carbon formation and installation of the hydroxyisobutyl group. In all previously reported syntheses, this is the very first aspect which is addressed. The stereochemical outcome of this step is directed by the chiral environment of the enolate itself. Various attempts to achieve selectivity are explored and reported. Completion of the synthesis of clasto-lactacystin β-lactone requires 17 steps with an overall yield of 10%. Some general attempts for optimizing the synthetic scheme are discussed as well as the future direction of this research. γ-lactam natural product C-H activation aldol proteasome inhibitor American Studies Arts and Humanities

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