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11	Estudos visando a sintese de alcaloides pirrolizidinicos e indolizidinicos : aproveitamento da (+)-retronecina e do acido D-isoascorbico / Studies toward the synthesis of pyrrolizidine and indolizidine alkaloids : use of (+)-retronecine and D-insoascorbic acid Conegero, Leila de Souza 15 December 2006 (has links) Orientador: Ronaldo Aloise Pilli / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Quimica / Made available in DSpace on 2018-08-08T05:17:50Z (GMT). No. of bitstreams: 1 Conegero_LeiladeSouza_D.pdf: 3438551 bytes, checksum: 26a173748a7748d7ec479a812badeeb7 (MD5) Previous issue date: 2006 / Resumo: O trabalho desenvolvido visou a obtenção de alcalóides pirrolizidínicos e indolizidínicos utilizando a (+)-retronecina (1) e o ácido D-isoascórbico (35D) como matérias primas, respectivamente. A retronecina (1) foi isolada da espécie vegetal Senecio brasiliensis. Para a preparação da base necínica (1R,6S,7S,8R)-7- (hidroximetil)-hexaidro-1H-pirrolizina-1,6-diol (37), a retronecina (1) foi submetida à reação de epoxidação com ácido meta-cloroperbenzóico. A a-epóxi-retronecina (44), após proteção das hidroxilas com cloreto de tercbutildimetilsilila, foi submetida à abertura com níquel de Raney, e a posterior desproteção forneceu o triol 37, que foi obtido em 5 etapas e 15 % de rendimento. Os compostos (1R,2R,7R,8S)-1-(hidroximetil)-hexaidro-1H-pirrolizina-1,2,7-triol (39) e a platinecina (72) foram preparados a partir de reações de diidroxilação e hidrogenação estereosseletiva da retronecina (1) em 70 e 86 % de rendimento, respectivamente. A abordagem síntética inicial para obtenção de alcalóides indolizidínicos foi baseada na adição do 2-terc-butildimetilsililoxifurano (94) ao íon N-acilimínio derivado da lactama 90. Em função do moderado rendimento e da modesta diastereosseletividade obtida foi proposta uma segunda abordagem sintética para obtenção de indolizidinas. Os alcalóides indolizidínicos, (1R,2S,8aR)- octaidroindolizina-1,2-diol (100) (ent-epi-lentiginosina) e (1R,2S,6R,7S,8aR)- octaidroindolizina-1,2,6,7-tetrol (101) foram preparados a partir da lactona 77. Os compostos 100 e 101 foram obtidos do intermediário-chave 82, que foi preparado a partir da adição de alilamina à lactona 77, derivada do ácido isoascórbico. Em seguida a hidroxiamida 82 foi oxidada à hidroxilactama correspondente, que foi submetida à reação de acetilação fornecendo o composto 91. Reação de alilação de 91, seguido de metátese de olefinas forneceu a indolizidinona 99. Reação de hidrogenação/hidroxilação de 99, redução da lactama e desproteção do acetal levou ao diol 100 e ao tetrol 101 em rendimentos de 27 e 31 %, respectivamente, a partir da lactona 77 / Abstract: The aim of the present work was the synthesis of pyrrolizidine and indolizidine alkaloids using (+)-retronecine (1) and D-isoascorbic acid (35D) as starting materials, respectively. Retronecine (1) was isolated from the vegetal species Senecio brasiliensis. The synthesis of the necine base (1R,6S,7S,7aR)-7-(hydroxymethyl)-hexahydro-1H-pirrolizine-1,6-diol (37) was accomplished by the m-chloroperbenzoic acid epoxidation of retronecine (1). After hydroxyl protection with tert-butyldimethylsilyl chloride, epoxide 44 was subjected to ring opening with nickel Raney and deprotection to yield triol 37, in 5 steps and 15 % yield. Compounds (1R,7S,8R)-7-(hydroxymethyl)-hexahydro-1H-pirrolizin-1-ol (39) and platynecine (72) were prepared after stereoselective dihydroxylation and hydrogenation reactions of retronecine (1) in 70 and 86 % yield, respectively. The first approach to the synthesis of indolizidine alkaloids was based on the 2-tert-butyldimethylsilyloxyfuran addition to lactam 90-derived N-acyliminium ion. Due to moderate yield and diastereoselectivity obtained, a second synthetic approach to the synthesis of indolizidines was suggested. Indolizidine alkaloids 100 and 101 were prepared from lactone 77. Compounds 100 and 101 were obtained from key intermediate 82, which was prepared from allylamine addition to isoascorbic acid-derived lactone 77. Following that, hydroxyamide 82 was oxidized to the corresponding hydroxylactam which was subjected to acetylation, yielding compound 91. Allylation of 91 and subsequent ring closing olefin metathesisyielded indolizidinone 99. Hydrogenation/hydroxylation reaction of 99 followed by lactam reduction and deprotection of acetonide provided diol 100 and tetrol 101, in 27 and 31 % yield, respectively, from lactone 77 / Doutorado / Quimica Organica / Doutor em Ciências Alcaloides pirrolizidinicos Alcaloides indolizidinicos Retronecina Acido D-isoascorbico Pyrrolizidine alkaloids Indolizidine alkaloids Retronecine D-isoascorbic acid
12	Construção do esqueleto 6-aril indolizidínico a partir de α-clorocetonas derivadas da (S)-prolina: síntese da (S)-desoxiipalbidina / Construction of 6-aryl indolizidine skeleton from α-chloroketones derived from (S)-proline: synthesis of (S)-desoxiipalbidina Ariane Fernandes Bertonha 21 February 2014 (has links) A estrutura básica dos alcaloides indolizidínicos é formada por anéis bicíclicos de cinco e seis membros contendo um átomo de nitrogênio compartilhado na posição 4. Esse sistema de anéis possui grande destaque dentre os alcaloides, pois está presente em um grande número de compostos e apresenta um interessante perfil biológico. A ipalbidina, por exemplo, é um alcaloide indolizidínico com propriedades analgésicas e antioxidantes. Este composto possui estrutura química relativamente simples, entretanto, poucas são as rotas que apresentam sínteses curtas e divergentes, sendo apenas quatro delas enantiosseletivas. Assim, este trabalho de dissertação visa o estudo de uma nova estratégia sintética que permite a preparação da (+)-ipalbidina, bem como de outros alcaloides que possuem o sistema 4-azabiciclo[4.3.0]-non-3-eno com um substituinte fenólico na posição 3. Uma rota promitente para a síntese desses alcaloides (objetivo deste trabalho) é a obtenção do esqueleto indolizidínico a partir da reação de ciclização de uma α-clorocetona funcionalizada derivada do (S)-prolinal protegido (Boc e Cbz). As etapas chaves dessa estratégia são: uma reação de olefinação (Wittig), a preparação de α-clorocetonas, adição do grupo aril a α-clorocetona e a conversão destas no esqueleto indolizidínico por uma reação de ciclização. A α-clorocetona pode ser preparada com rendimentos globais de 56% (Cbz) e 81% (Boc) a partir do (S)-prolinal protegido em apenas 3 etapas: reação de olefinação, seguida de uma reação de redução da olefina obtida e a preparação da α-cloroacetona a partir do éster. A adição do grupo aril a α-clorocetona foi obtida tanto para o grupo Boc (40%) quanto para o grupo Cbz (42%). O α-cloroálcool protegido com Boc foi convertido no esqueleto indolizidínico por meio de uma reação \"one-pot\" de desproteção seguida de ciclização (80%). O produto de ciclização, por sua vez, foi convertido ao análogo inédito da (+)-ipalbidina, a (S)-desoxiipalbidina (30%). Essa estratégia levou a síntese da (S)-desoxiipalbidina em 6 etapas e com rendimento global de 8%. Cabe ressaltar que este tipo de abordagem utilizando α-clorocetonas nunca foi empregado na síntese de alcaloides indolizidínicos, sendo que esta estratégia também poderá ser aplicada a síntese total da (+)-ipalbidina e de outros alcaloides indolizidínicos tais como as fenantroindolizidinas. / The basic structure of indolizidine alkaloids is formed by a five and sixmembered bicyclic ring containing one nitrogen atom shared at the 4 position. This ring system has great prominence among the alkaloids, it is present in a large number of compounds and possess interesting biological profiles. Ipalbidine, for example, is an indolizidine alkaloid with analgesic and anti-oxidant properties. Although this compound has a relatively simple chemical structure, only four enantioselective synthesis are described for this compound. Thus, this dissertation aims to study a new synthetic strategy that allows the preparation of (+)-ipalbidine, as well as other alkaloids having the system 4- azabicyclo[4.3.0]non-3-ene with a phenolic substituent in position 3. A possible interesting route for the synthesis of these alkaloids is to obtain the indolizidine skeleton from a cyclization reaction using a functionalized α-chloroketone (derivative of protected (S)-prolinal (Boc and Cbz)). The key steps of this strategy are: an olefination reaction (Wittig), the preparation of α-chloroketones, addition of aryl group to the α-chloroketones and converting them into the indolizidine skeleton by a cyclization reaction. The α-chloroketones were prepared with overall yields varying from 56 % (Cbz) to 81% (Boc) starting from protected (S)-prolinal in just three steps: olefination reaction , followed by a reduction reaction of the obtained olefin and preparation of the α-chloroketone from an ester . The addition step of the aryl group to α-chloroketone was obtained for both Boc (40%) and Cbz (42%) groups. The Boc-protected α-chloroalcohol was converted to indolizidine skeleton through an \"one-pot\" deprotection reaction, followed by a cyclization reaction (80 %). The cyclization product, in turn, was converted to the novel (+)-ipalbidine analog, (S)-desoxyipalbidine (30 %). This strategy led to the synthesis of (S)-desoxyipalbidine in 6 steps and overall yield of 8 %. It is noteworthy that this type of approach using α-chloroketones was never employed in the synthesis of indolizidine alkaloids, and that strategy can be applied also to the total synthesis of (+)-ipalbidine and other indolizidine alkaloids such as phenanthroindolizidine. α-clorocetonas (+)-ipalbidina alcaloides indolizidínicos α-chloroketones (+)-ipalbidine indolizidine alkaloids
13	Synthèse de composés polycycliques azotés par cyclisation de Vilsmeier-Haack et cyclisation de Mannich organocatalysée en séquence Outin, Johanne January 2017 (has links) Les recherches présentées dans cette thèse découlent de problématiques rencontrées lors de précédents travaux effectués dans notre groupe au sujet de cyclisations séquentielles de Vilsmeier-Haack et de Mannich par une activation chimiosélective d’amides. Deux limitations avaient été soulevées : une faible réactivité lors de la seconde cyclisation de Mannich et aucune possibilité d’obtention de produit de double cyclisation de façon énantiosélective. Au chapitre un, une étude de double cyclisation de Vilsmeier-Haack et de Mannich est présentée, tout d’abord sur des substrats allylsilane-aldéhyde puis vératrol-aldéhyde. Une étude mécanistique est détaillée dans le but d’améliorer le rendement de la réaction. Les bases de notre méthodologie avec l’aldéhyde sont établies dans ce premier chapitre. Au chapitre deux, une étude de double cyclisation de Vilsmeier-Haack et de Mannich en présence d’une cétone est exposée. Les conditions de première cyclisation sont rapidement déterminées tandis que pour la seconde étape, les divers paramètres pouvant influencer la réaction sont examinés. Aussi, une tentative de formation de centres quaternaires produisant des squelettes carbonés de type quinolizidine et spirocyclique est présentée, ainsi qu’une variation de tailles de cycles formés. Au chapitre trois, l’étendue de notre méthodologie est étudiée et celle-ci est appliquée sur divers substrats. Les nucléophiles de type indole, pyrrole, éther d’énol et allylsilane sont couverts et la variation de taille de cycle est également testée. Au chapitre quatre, une étude sur le développement catalytique et un effort vers une version non racémique de notre méthodologie sera présentée. Diverses amines secondaires chirales sont investiguées et les excès énantiomériques mesurés. Le chapitre cinq propose des suites au projet de thèse, incluant des pistes au sujet de l’induction asymétrique en s’appuyant sur des exemples concrets de la littérature. Alcaloïde Cyclisations séquentielles Vilsmeier-Haack Mannich asymétrique organocatalysée Énamine Quinolizidine Indolizidine
14	Indolizidine alkaloids and asymmetric synthesis of carbocycles Wingert, David Alexander Unknown Date No description available. indolizidine (+)-ipalbidine assymmetric synthesis Diels-Alder reactions Myers asymmetric alkylation asymmetric carbocycle synthesis conjugate additions
15	Adição de enolatos de titanio derivados de N-acil-(4S)-4-isopropil-1,3-tiazolidin-2-tiona a ions N-aciliminios ciclicos : sintese assimetrica dos alcaloides (+)-isoretronecanol e (+)-5-epi-tashiromina / Addition of the titanium enolates derived from N-acyl-(4S)-4-isopropyl-1,3-thiazolidine-2-thione to cyclic N-acyliminium ion : assymetric synthesis of alkaloids (+)-isoretronecanol and (+)-5-epi-tashiromine Pereira, Elaine 23 February 2005 (has links) Orientador: Ronaldo Aloise Pilli / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Quimica / Made available in DSpace on 2018-08-04T15:31:59Z (GMT). No. of bitstreams: 1 Pereira_Elaine_M.pdf: 9380147 bytes, checksum: a608a978d005928c3df671eb93be3ed9 (MD5) Previous issue date: 2005 / Mestrado / Quimica Organica / Mestre em Química 1,3-tiazolidin-2-tiona Íons N-aciliminio Pirrolizidinico Indolizidinico 1,3-thiazolidine-2-thione N-acyliminium ion Pyrrolizidine Indolizidine
16	Emprego de diazocetonas α,β-insaturadas com geometria Z na direta construção de esqueletos indolizidínicos e piperidínicos funcionalizados / The use of α,β-Unsaturated Diazoketones with Z Geometry in the Direct Construction of Functionalized Indolizidine and Piperidine Skeletons Kawamura, Meire Yasuko 22 July 2016 (has links) Pumiliotoxinas e seus congêneres são compostos isolados da pele de algumas espécies de sapos das famílias Dendrobatidae, Mantellidae, Bufonidae, e Myobatrachidae, apresentando interessantes propriedades farmacológicas. As pumiliotoxinas, embora tóxicas, apresentam consideráveis atividades cardiotônicas, assim, acredita-se que as homopumiliotoxinas, as desmetilpumiliotoxinas e as desidrodesmetilpumiliotoxinas também devam apresentar. Nesse sentido, a síntese destes compostos é de extrema valia para a comunidade científica. As diazocetonas α,β-insaturadas são intermediários promissores para a síntese rápida e eficiente de diversos tipos de esqueletos químicos, entre eles, a construção do esqueleto indolizidínico presentes nas pumiliotoxinas. Cabe ressaltar que para as diazocetonas α,β-insaturadas com geometria Z provenientes de amino aldeídos, elas já apresentam a estereoquímica correta para uma direta ciclização para a construção de esqueletos indolizidínicos. Dessa forma, as etapas chaves do trabalho consistiram na preparação de amino aldeídos N-protegidos, na avaliação da reação de Horner-Wadsworth-Emmons para fornecer as diazocetonas α,β-insaturadas com geometria Z, e na reação de inserção N-H intramolecular para a obtenção do ciclo indolizidínico. Outra parte do trabalho consistiu na síntese de imino açúcares de esqueleto piperidínico com cadeias laterais alifáticas (aplicação na química medicinal) e da (-)-1deoxi-altronojirimicina, utilizando-se a mesma metodologia (uso de diazocetonas α,β-insaturadas com geometria Z). / Pumiliotoxins and their congeners are a class of compounds isolated from the skin of some frogs from the Dendrobatidae, Mantellidae, Bufonidae, e Myobatrachidae families, possessing interesting pharmacological activities (cardiotonic activity in low concentrations). Because of the big number of compounds among these toxins (about 100), synthetic methodologies that provide the preparation of these compounds (as well as analogues) in great amounts and in a fast and efficient way using common intermediates, are very important for application in chemical-biology. The α,β-unsaturated diazoketones are promising intermediates for the rapid and efficient synthesis of a range of chemical skeletons, among them, the construction of indolizidine skeleton that pumiliotoxins present. It is important to note that α,β-unsaturated diazoketones with Z geometry (prepared from amino aldehydes) have already the correct stereochemistry for a direct cyclization to construct indolizidine skeletons. The key steps of the work consisted in the preparation of N-protected amino aldehydes, evaluation of Horner-Wadsworth-Emmons reaction in order to obtain α,β-unsaturated diazoketones with Z geometry, and the intramolecular N-H insertion reaction to provide the indolizidine cycle. Another part of the work consisted in the synthesis of iminosugars with piperidine core and aliphatic side chains (application in medicinal chemistry) and in the synthesis of (-)-1-deoxy-altronojirimycin, applying the same methodology (use of α,β-unsaturated diazoketones with Z geometry). diazocetona diazofosfonato diazoketones diazophosphonate Horner-Wadsworth-Emmons reaction indolizidina indolizidine inserção N-H N-H insertion piperidina piperidine reação de Horner-Wadsworth-Emmons
17	Emprego de diazocetonas α,β-insaturadas com geometria Z na direta construção de esqueletos indolizidínicos e piperidínicos funcionalizados / The use of α,β-Unsaturated Diazoketones with Z Geometry in the Direct Construction of Functionalized Indolizidine and Piperidine Skeletons Meire Yasuko Kawamura 22 July 2016 (has links) Pumiliotoxinas e seus congêneres são compostos isolados da pele de algumas espécies de sapos das famílias Dendrobatidae, Mantellidae, Bufonidae, e Myobatrachidae, apresentando interessantes propriedades farmacológicas. As pumiliotoxinas, embora tóxicas, apresentam consideráveis atividades cardiotônicas, assim, acredita-se que as homopumiliotoxinas, as desmetilpumiliotoxinas e as desidrodesmetilpumiliotoxinas também devam apresentar. Nesse sentido, a síntese destes compostos é de extrema valia para a comunidade científica. As diazocetonas α,β-insaturadas são intermediários promissores para a síntese rápida e eficiente de diversos tipos de esqueletos químicos, entre eles, a construção do esqueleto indolizidínico presentes nas pumiliotoxinas. Cabe ressaltar que para as diazocetonas α,β-insaturadas com geometria Z provenientes de amino aldeídos, elas já apresentam a estereoquímica correta para uma direta ciclização para a construção de esqueletos indolizidínicos. Dessa forma, as etapas chaves do trabalho consistiram na preparação de amino aldeídos N-protegidos, na avaliação da reação de Horner-Wadsworth-Emmons para fornecer as diazocetonas α,β-insaturadas com geometria Z, e na reação de inserção N-H intramolecular para a obtenção do ciclo indolizidínico. Outra parte do trabalho consistiu na síntese de imino açúcares de esqueleto piperidínico com cadeias laterais alifáticas (aplicação na química medicinal) e da (-)-1deoxi-altronojirimicina, utilizando-se a mesma metodologia (uso de diazocetonas α,β-insaturadas com geometria Z). / Pumiliotoxins and their congeners are a class of compounds isolated from the skin of some frogs from the Dendrobatidae, Mantellidae, Bufonidae, e Myobatrachidae families, possessing interesting pharmacological activities (cardiotonic activity in low concentrations). Because of the big number of compounds among these toxins (about 100), synthetic methodologies that provide the preparation of these compounds (as well as analogues) in great amounts and in a fast and efficient way using common intermediates, are very important for application in chemical-biology. The α,β-unsaturated diazoketones are promising intermediates for the rapid and efficient synthesis of a range of chemical skeletons, among them, the construction of indolizidine skeleton that pumiliotoxins present. It is important to note that α,β-unsaturated diazoketones with Z geometry (prepared from amino aldehydes) have already the correct stereochemistry for a direct cyclization to construct indolizidine skeletons. The key steps of the work consisted in the preparation of N-protected amino aldehydes, evaluation of Horner-Wadsworth-Emmons reaction in order to obtain α,β-unsaturated diazoketones with Z geometry, and the intramolecular N-H insertion reaction to provide the indolizidine cycle. Another part of the work consisted in the synthesis of iminosugars with piperidine core and aliphatic side chains (application in medicinal chemistry) and in the synthesis of (-)-1-deoxy-altronojirimycin, applying the same methodology (use of α,β-unsaturated diazoketones with Z geometry). diazocetona diazofosfonato indolizidina inserção N-H piperidina reação de Horner-Wadsworth-Emmons diazoketones diazophosphonate Horner-Wadsworth-Emmons reaction indolizidine N-H insertion piperidine
18	Stereoselective intramolecular Michael addition reactions of pyrrole and their application to natural product syntheses Beck, Daniel Antony Speedie, beckautomatic@gmail.com January 2006 (has links) Chapter one; (-)-Rhazinilam and (-)-Rhazinal: Alkaloids with Anti-mitotic Properties Derived from Kopsia teoi, provides the background information behind the motives that initiated this research project. The plant alkaloid (-)-rhazinilam [(-)-1] and its naturally-occurring derivative (-)-rhazinal [(-)-13] both exhibit potent anti-mitotic activities and, as such, are interesting targets for total synthesis. Chapter one is a review of the literature regarding these two compounds and discusses the occurrence, proposed biosynthetic origins, structural elucidation and biological activites of compound (-)-1 and that of its analogues including alkaloid (-)-13. Previous total syntheses of these two compounds are then examined, concluding with the only reported total synthesis of compound (-)-13. Developed within the Banwell research group, this total synthesis produced the racemic modification of alkaloid (-)-13 due to a lack of any stereocontrol in the key intramolecular Michael addition step. This unprecedented key step, involving cyclisation of the C2 of pyrrole onto an N-tethered and ?,?-disubstituted acrylate to produce a quaternary-carbon stereogenic centre, would be of greatly enhanced utility if it could be achieved in a catalytic-enantioselective fashion. The realisation of this goal is the central aim of the research conducted within this thesis. ¶ Chapter two; Investigating Asymmetric Induction in the Intramolecular Michael Addition of pyrrole to N-Tethered Acrylates and Related Species, introduces the model study used to direct research towards achieving the goal of asymmetric induction in the title process. The model is a somewhat simplified version of the original process used in the total synthesis of compound (-)-13 involving cyclisation of the C2 of pyrrole onto an N-tethered and ?-monosubstituted Michael acceptor, to produce a tertiary-carbon stereogenic centre. This simplification allows the rapid synthesis of a broad range of potential substrates for use in the title process, thus enabling the investigation of various different approaches to inducing asymmetry therein. High levels of asymmetric induction are observed with the use of chiral substrates or catalysts, facilitating the synthesis of both 6- and 7-membered rings annulated to pyrrole with construction of the relevant tertiary-carbon stereogenic centre in enantio-enriched form. For the reactions producing a 6-membered ring annulated to pyrrole, unambiguous proof of the absolute sense of asymmetric induction observed in the intramolecular Michael addition event is established using a chemical correlation study involving elaboration of a key indolizine-type cyclisation product, to the plant alkaloid of known absolute stereochemistry, (-)-tashiromine [(-)-75]. For the reaction producing a 7-membered ring annulated to pyrrole, the same information is obtained via X-ray crystallographic analyses of a dibrominated derivative of a key pyrroloazepine-type cyclisation product. ¶ Chapter three An Enantioselective Total Synthesis of the Alkaloid (-)-Rhazinal: An Anti-mitotic Agent Isolated from Kopsia teoi., focuses on the application of methodology developed in the previous chapter, to the original goal of inducing asymmetry in the intramolecular Michael addition reaction, involving cyclisation of the C2 of pyrrole onto an N-tethered and ?,?-disubstituted acrylate to produce a quaternary-carbon stereogenic centre. This is ultimately achieved in a catalytic-enantioselective fashion, resulting in the first such total synthesis of the anti-mitotic alkaloid (-)-rhazinal [(-)-13]. ¶ Chapter four Extending the Reaction Manifold to the Syntheses of Related Natural Products: A Formal Total Synthesis of (+)-Aspidospermidine and Syntheses of (-)-Rhazinilam and (-)-Leuconolam from (-)-Rhazinal, describes three extensions to the reaction manifold used in the enantioselective total synthesis of alkaloid (-)-13: The acquisition in an enantioselective manner, of an intermediate previously obtained in racemic form, en route to the racemic modification of the natural product (±)-aspidospermidine [(±)-134], constitutes a formal and enantioselective total synthesis of (+)-aspidospermidine [(+)-134]. The direct deformylation of (-)-rhazinal [(-)-13], is carried out, to produce the parent alkaloid (-)-rhazinilam [(-)-1]. The pyrrole ring present in (-)-rhazinilam [(-)-1] is oxidised, to produce the related natural product (-)-Leuconolam [(-)-12] which has not, hitherto, been prepared by total synthesis. ¶Chapter five contains the experimental procedures and characterisation data associated with compounds described in chapters two to four. conjugate addition Friedel Crafts alkylation enantioselective diastereoselective asymmetric induction chiral organocatalyst chiral Lewis acid chiral auxilliary metathesis antimitotic indolizine indolizidine pyrroloazepine stemona alkaloid
19	Transition Metal-Mediated Syntheses of Yohimbane and Indolizidine Alkaloids / Übergangsmetall-vermittelte Synthesen von Yohimban- und Indolizidinalkaloiden Agarwal, Sameer 27 May 2005 (has links) (PDF) Polycyclic nitrogen containing heterocycles form the basic skeleton of numerous alkaloids and physiologically active drugs. Alloyohimbane was obtained from 3,4-dihydro-â-carboline using an iron-mediated [2+2+1] cycloaddition as the key-step. The bis-TMS-diyne was conveniently obtained by the C-alkylation of 3,4-dihydro-â-carboline followed by N-alkylation. Demetalation of the iron-complex followed by hydrogenation, E-ring expansion, and reduction provided alloyohimbane, a structurally and biologically interesting substance, via a linear eight-step sequence in 7% overall yield based on 3,4-dihydro-â-carboline. Another sequence provided (±)-alloyohimbane and (±)-3-epi-alloyohimbane in nine steps. The pyrrole unit occurs in a variety of naturally occurring compounds, pharmaceutical products and polymers. A novel two-step procedure for the synthesis of pyrroles by addition of a propargyl Grignard reagent to a Schiff base and subsequent silver(I)-promoted oxidative cyclization of the resulting homopropargylamine has been developed. The generality of this reaction was proven by the synthesis of a broad variety of substituted pyrroles using silver(I)-promoted cyclization. A three-step synthesis of (±)-harmicine, a natural product isolated from the Malaysian plant Kopsia griffithii having strong anti-leishmania activity, from 3,4-dihydro-â-carboline is achieved by addition of 3-trimethylsilylpropargyl Grignard reagent, Ag(I)-promoted oxidative cyclization to a pyrrole, and chemoselective hydrogenation of pyrrole ring. Total synthesis of anti-tumor active crispine A and biologically active 1,2,3,5,6,10b-hexahydropyrrolo[2,1-a]isoquinoline have been achieved in three steps using silver(I)-promoted oxidative cyclization as key step. Alkaloide Pyrrole Yohimbane 3-epialloyohimbane Indolizidine alkaloids alloyohimbane crispine A harmicine iron-mediated pyrroles silver(I)-promoted yohimbane ddc:540 rvk:VK 8627 Alkaloide Pyrrolderivate Yohimbane
20	Transition Metal-Mediated Syntheses of Yohimbane and Indolizidine Alkaloids Agarwal, Sameer 02 June 2005 (has links) Polycyclic nitrogen containing heterocycles form the basic skeleton of numerous alkaloids and physiologically active drugs. Alloyohimbane was obtained from 3,4-dihydro-â-carboline using an iron-mediated [2+2+1] cycloaddition as the key-step. The bis-TMS-diyne was conveniently obtained by the C-alkylation of 3,4-dihydro-â-carboline followed by N-alkylation. Demetalation of the iron-complex followed by hydrogenation, E-ring expansion, and reduction provided alloyohimbane, a structurally and biologically interesting substance, via a linear eight-step sequence in 7% overall yield based on 3,4-dihydro-â-carboline. Another sequence provided (±)-alloyohimbane and (±)-3-epi-alloyohimbane in nine steps. The pyrrole unit occurs in a variety of naturally occurring compounds, pharmaceutical products and polymers. A novel two-step procedure for the synthesis of pyrroles by addition of a propargyl Grignard reagent to a Schiff base and subsequent silver(I)-promoted oxidative cyclization of the resulting homopropargylamine has been developed. The generality of this reaction was proven by the synthesis of a broad variety of substituted pyrroles using silver(I)-promoted cyclization. A three-step synthesis of (±)-harmicine, a natural product isolated from the Malaysian plant Kopsia griffithii having strong anti-leishmania activity, from 3,4-dihydro-â-carboline is achieved by addition of 3-trimethylsilylpropargyl Grignard reagent, Ag(I)-promoted oxidative cyclization to a pyrrole, and chemoselective hydrogenation of pyrrole ring. Total synthesis of anti-tumor active crispine A and biologically active 1,2,3,5,6,10b-hexahydropyrrolo[2,1-a]isoquinoline have been achieved in three steps using silver(I)-promoted oxidative cyclization as key step. info:eu-repo/classification/ddc/540 ddc:540 Alkaloide; Pyrrolderivate; Yohimbane Alkaloide, Pyrrole, Yohimbane

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