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Diazocetonas α,β-insaturadas como reagentes multifuncionais: aplicação na síntese de alcaloides piperidínicos e pirrolidínicos / αβ-unsatured diazoketones as multifunctional reagents: Application to total synthesis of piperidine and pyrrolidine alkaloidsRosset, Isac George 13 March 2015 (has links)
p>O primeira parte do trabalho descreve a preparação de um novo reagente de olefinação de HWE para o preparo de diazocetonas α, β-insaturadas com geometria Z e aplicação na síntese de núcleos piperidínicos funcionalizados. Através da otimização da reação de HWE empregando o benzaldeído como aldeído padrão foi possível maximizar a obtenção do isômero Z desejado (92%, Z:E 9:1). As reações-chave para a formação dos núcleos piperidínicos foram a de olefinação de HWE utilizando amino-aldeídos, obtendo-se bons rendimentos e boa seletividade, seguida de uma reação de inserção N-H catalisada por metais. A versatilidade da metodologia foi demostrada com a aplicação na síntese total de um produto natural: (±)-3,4,5-triidroxipiperidina e em estudos visando a síntese de outro produto natural, a (-)-1-deoxi-altronojirimicina. A química das diazocetonas α,β-insaturadas como intermediários avançados foi também empregada na síntese de um outro produto natural, a (±)-preussina. A rota empregada apresentou alta estereosseletividade na reação-chave (Rearranjo de Stevens) e posteriormente na redução da cetona formada com um redutor volumoso (L-selectride), obtendo um rendimento global de 40% em três etapas. Tentou-se também estender a metodologia para o preparo de diazocetonas α,β-insaturadas trissubstituídas, aplicando os reagentes de olefinação em reações com cetonas. No entanto, diversas tentativas foram feitas e não foi obtido as olefinas de interesse. / The first part of this work describes the preparation of a new HWE olefination reagent to prepare diazoketones α, β-unsaturated with Z geometry and its application in the synthesis of functionalized piperidine cores. After the optimization of the HWE reaction using benzaldehyde as a standard it was possible to prepare the desired Z isomer in 92% (Z:E 9:1). The key reaction for formation of the piperidine cores, N-H metal-catalyzed insertion performed to give a yield of up to 70%. The versatility of the methodology was demonstrated by an application to the synthesis of the natural product (±)-3,4,5-triidroxypiperidine and studies in the synthesis of (-)-1-deoxy-altronojirimicine. The chemistry of α, β-unsaturated diazoketones was also employed in the synthesis of another natural product, the alkaloid (±)-preussine. The employed route showed high stereoselectivity in the key-reaction (Stevens Rearrangement) as well as in the subsequent reduction of the formed ketone with a reducing agent (L-Selectride) giving an overall yield of 40%. We also tried to extend the methodology to prepare trisubstituted α, β-unsaturated diazoketones from the reaction with the olefination reagent and ketones. However, after several attempts no fruitful results were abtained.
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Diazocetonas α,β-insaturadas como reagentes multifuncionais: aplicação na síntese de alcaloides piperidínicos e pirrolidínicos / αβ-unsatured diazoketones as multifunctional reagents: Application to total synthesis of piperidine and pyrrolidine alkaloidsIsac George Rosset 13 March 2015 (has links)
p>O primeira parte do trabalho descreve a preparação de um novo reagente de olefinação de HWE para o preparo de diazocetonas α, β-insaturadas com geometria Z e aplicação na síntese de núcleos piperidínicos funcionalizados. Através da otimização da reação de HWE empregando o benzaldeído como aldeído padrão foi possível maximizar a obtenção do isômero Z desejado (92%, Z:E 9:1). As reações-chave para a formação dos núcleos piperidínicos foram a de olefinação de HWE utilizando amino-aldeídos, obtendo-se bons rendimentos e boa seletividade, seguida de uma reação de inserção N-H catalisada por metais. A versatilidade da metodologia foi demostrada com a aplicação na síntese total de um produto natural: (±)-3,4,5-triidroxipiperidina e em estudos visando a síntese de outro produto natural, a (-)-1-deoxi-altronojirimicina. A química das diazocetonas α,β-insaturadas como intermediários avançados foi também empregada na síntese de um outro produto natural, a (±)-preussina. A rota empregada apresentou alta estereosseletividade na reação-chave (Rearranjo de Stevens) e posteriormente na redução da cetona formada com um redutor volumoso (L-selectride), obtendo um rendimento global de 40% em três etapas. Tentou-se também estender a metodologia para o preparo de diazocetonas α,β-insaturadas trissubstituídas, aplicando os reagentes de olefinação em reações com cetonas. No entanto, diversas tentativas foram feitas e não foi obtido as olefinas de interesse. / The first part of this work describes the preparation of a new HWE olefination reagent to prepare diazoketones α, β-unsaturated with Z geometry and its application in the synthesis of functionalized piperidine cores. After the optimization of the HWE reaction using benzaldehyde as a standard it was possible to prepare the desired Z isomer in 92% (Z:E 9:1). The key reaction for formation of the piperidine cores, N-H metal-catalyzed insertion performed to give a yield of up to 70%. The versatility of the methodology was demonstrated by an application to the synthesis of the natural product (±)-3,4,5-triidroxypiperidine and studies in the synthesis of (-)-1-deoxy-altronojirimicine. The chemistry of α, β-unsaturated diazoketones was also employed in the synthesis of another natural product, the alkaloid (±)-preussine. The employed route showed high stereoselectivity in the key-reaction (Stevens Rearrangement) as well as in the subsequent reduction of the formed ketone with a reducing agent (L-Selectride) giving an overall yield of 40%. We also tried to extend the methodology to prepare trisubstituted α, β-unsaturated diazoketones from the reaction with the olefination reagent and ketones. However, after several attempts no fruitful results were abtained.
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NEW METHODOLOGIES FOR THE ASYMMETRIC SYNTHESES OF AMINES AND NITROGEN HETEROCYCLES FROM ENANTIOPURE SULFINIMINES (N-SULFINYL IMINES)Qiu, HUI January 2009 (has links)
The objective of this research was to development new methodologies for the asymmetric syntheses of amine and natural products from enantiopure sulfinimines (N-sulfinyl imines). In this context, new methods was devised for the asymmetric synthesis of 2,5-cis and trans-disubstituted pyrrolidines from 3-oxo pyrrolidine 2-phosphonates, prepared by an intramolecular metal carbenoid N-H insertion from a sulfinimine derived delta-amino-alpha-diazo- beta-ketophosphonate. Horner-Wadsworth-Emmos reaction of the 3-oxo pyrrolidine 2-phosphonates and aldehydes provided pyrrolidine enones. Hydrogenation (Pd/H2) of the pyrrolidine enones gave cis-2,5-disubstituted pyrrolidines. Luche reduction the pyrrolidine enones followed by a TFA-NaBH3CN mediated hydroxy directed reduction provided the 2,5-trans products. (+)-Preussin, a potent antiviral and antitumor agent was prepared in 9 steps in 28% overall yield from the sulfinimine. An acid catalyzed intramolecular Mannich cyclization of a sulfinimine-derived N-sulfinyl syn-alpha-methyl-beta-amino ketones was employed for the asymmetric synthesis of 2,3,5,6-tetrasubstituted piperidinones. The beta-amino ketones were prepare by treatment of prochiral lithium Weinreb amide enolates with enantiopure (E)-N-(4-(benzyloxy)butylidene)-2,4,6-triisopropylbenzenesulfinamide. This new methodology was highlighted in the first asymmetric synthesis of the poison frog alkaloid (-)-indolizidine 221T. By manipulation of water concentration in tetrahydrofuran, syn- and anti-2,3-diamino esters were prepared by treatment of the lithium enolate of N-(diphenylmethylene) glycine ethyl ester with sulfinimines. Anhydrous THF afforded enantiopure syn-2,3-diamino esters with a syn/anti selectivity of better than 25:1. In a THF-H2O the anti-2,3-diamino esters were formed. The mechanism involves the generation of H2O-LDA species in the formation of enolate which inhibited the retro-Mannich fragmentation in the diamino ester species. (SR,2S,3R)-(-)-Ethyl-2-(N,N-dibenzylamino)-3-N-(p-toluenesulfinyl)amino-pent-4-enoate was employed in an improved total synthesis of the anti-tumor antibiotic (-)-agelastatin A. A series of N-sulfinyl aza-Morita-Baylis-Hillman products were prepared by addition of vinylaluminum and N-methylmorpholine-N-oxide reagents to enantiopure N-(p-toluenesufinyl)- and N-(2-methypropanesulfinyl)-derived sulfinimines from the least hindered direction via a non-chelation control mechanism. Hydrogenation of the these acrylates with a rhodium(I) catalyst afforded anti-alpha-substituted-beta-amino esters with a anti/syn selectivity of better than 17:1. This new methodology is useful for the asymmetric synthesis of anti-alpha-alkyl-beta-amino esters, which are valuable chiral building blocks for the preparation of biologically active nitrogen-containing natural products. / Chemistry
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