Cholic acid based new chiral auxiliaries: development and applications

Mathivanan, P.

09 1900

The thesis entitled Cholic Acid Bused New Chiral Auxiliaries: Development And Applications has been divided into three chapters. Chapter-I describes the synthesis of chiral auxiliaries (1.3) from cholic acid and Diets-Alder reactions on the corresponding a,B- unsaturated ester derivatives. Chapter-I1 deals with the asymmetric dihydroxylation of a,B unsaturated esters of steroidal alcohols (1-3). Chapter-HI describes asymmetric hydride reduction, hydrogenation and allylation of a-keto esters of cholic acid derivatives (1-3).

Organic Chemistry

Cholic acid - Chirality

Diels-Alder Reaction

Asymmetric Hydrogenation

Asymmetric Allylation

Carbon-carbon bond formation via catalytic hydrogenation and transfer hydrogenation : application in the total synthesis of bryostatin 7

Lu, Yu, active 2012

13 November 2013

Under the conditions of transfer hydrogenation employing ortho-cyclometallated iridium C,O-benzoate catalysts, two protocols of iterative chain elongation of 1,3-diols to furnish 1,3-polyols were developed. First, one-directional chain elongation employing mono-protected 1,3-diols as starting materials was achieved. In all cases, high levels of catalyst-directed enantioselectivity and diastereoselectivity were observed. Then, double asymmetric allylation of 1,n-glycols to deliver C₂-symmetric adducts with exceptional level of enantioselectivity was devised. Iterative two-directional elongation of 1,3-diols to furnish 1,3-polyols with high level of catalyst-directed diastereoselectivity was then achieved. Implementation of this methodology and other hydrogenative C-C bond formations proved to be effective means for the preparation of a known bryostatin A-ring fragment and the total synthesis of bryostatin 7. / text

Catalytic

Carbon-carbon bond formation

Allylation

Hydrogenation

Transfer hydrogenation

1,3-polyols

Polyketides

Bryostatin

Total synthesis

Estudos sintéticos visando à elucidação da estereoquímica de compostos da família das Criptomoscatonas D / Synthetic studies towards the elucidation of the stereochemistry of compounds of Cryptomoscatones D family

Drekener, Roberta Lopes, 1982-

18 August 2018

Orientador: Ronaldo Aloise Pilli / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Química / Made available in DSpace on 2018-08-18T11:54:19Z (GMT). No. of bitstreams: 1 Drekener_RobertaLopes_D.pdf: 4694535 bytes, checksum: 998a5a4160bc1a4929a466c8dcfe2462 (MD5) Previous issue date: 2011 / Resumo: Neste trabalho descrevemos os avanços sintéticos para obtenção das Criptomoscatonas D1 (41) e D2 (42), isoladas da Cryptocarya mandioccana, para as quais não se encontram sínteses descritas na literatura e suas estruturas tridimensionais ainda não foram elucidadas. As estratégias de síntese propostas para os isômeros 41 e 42 foram baseadas em utilizar como etapa chave a reação aldólica com indução remota 1,5-anti. A primeira proposta envolveu a síntese da metil cetona (R)-153 em 8 etapas e baixo rendimento global (4,2%). Uma nova proposta sintética foi formulada e resultou na síntese da metil cetona (+/-)-157 em 3 etapas e 54% de rendimento. Esta abordagem possibilitou a construção do esqueleto carbônico de 41 e 42, de maneira diastereosseletiva. A etapa aldol utilizando a metil cetona (+/-)-157 foi realizada com sucesso, levando a formação de um aduto diastereoisomérico preferencial (+/-)-162. Já o centro estereogênico em C2' foi formado via redução 1,3-sin empregando-se metodologia de Narasaka para a obtenção de (+/-)-165a e 1,3-anti com a utilização da metodologia de Evans para obtenção de (+/-)-165b. Após manipulações de grupos protetores e de grupos funcionais, os ésteres a,b-insaturados (+/-)-169a e b foram obtidos com a ligação dupla com geometria Z através de metodologia de Horner-Wadsworth-Emmons, com modificação de Still-Gennari. A etapa de remoção do grupo acetonídeo levando aos ésteres a,b-insaturados (+/-)-170a e b foi realizada em meio ácido brando, sendo a ciclização do anel lactônico destes produtos realizada na presença de óxido de dibutilestanho, com excelentes rendimentos em ambas as etapas. Esta abordagem permitiu a formação do composto (+/-)-171a em 6,7% de rendimento e do composto (+/-)-171b em 7,6% de rendimento, a partir do trans-cinamaldeído. A etapa de remoção do grupo protetor p-metoxibenzila, não foi alcançada utilizando-se DDQ ou ZrCl4. Desta forma, embora as sínteses dos compostos 41 e 42 não tenham sido finalizadas e, portanto, a estereoquímica dos produtos naturais da família das Criptomoscatonas D não tenha sido esclarecida, este trabalho permitiu mapear a síntese racêmica destes dois compostos de uma maneira eficiente, contribuindo para que estudos futuros possam definir as estruturas desses produtos naturais / Abstract: Natural compounds of the 5,6-dihydropyranone family, isolated from the genus Cryptocarya (Laureacae), have attracted scientific interest due to their biological activities. Among these compounds, we highlight Cryptomoscatone D1 (41) and D2 (42), isolated from C. mandiocanna, for which a definitive proof of structure is still lacking. In this work, we describe our synthetic efforts toward these compounds. The synthetic strategies proposed for the syntheses of isomers 41 and 42 were based on a key aldol reaction with 1,5-anti remote induction. The first approach involved the synthesis of methyl ketone (R)-153 in 8 steps, however in low overall yield (4.2%). The second synthetic approach led to the synthesis of methyl ketone (+/-)-157, in three steps and 54% overall yield. The aldol step involving methyl ketone (+/-)-157 successfully led to the formation of the diastereoisomer (+/-)-162. The stereogenic center at C2'in (+/-)-165a was established via Narasaka's 1,3-syn reduction while Evans 1,3-anti reduction afforded (+/-)-165b. After manipulation of the protecting and functional groups, a,b-unsaturated esters (+/-)-169a and b were obtained with the desired Z double bond via the Still-Gennari modification of the Horner-Wadsworth-Emmons olefination reaction. Cleavage of the acetonide leading to the a, b-unsaturated d-hydroxyesters (+/-)-170a and b was achieved under mild acidic conditions, and cyclization was performed in the presence of dibutyltin oxide, in excellent yields for both steps. This approach allowed the formation of compound (+/-)-171a in 6.7% yield and compound (+/-)-171b in 7.6% yield, from trans-cinnamaldehyde. Removal of p-methoxybenzyl ether failed using DDQ or ZrCl4 methodologies. Although our studies did not elucidate the structures of Cryptomoscatone D1 (41) and D2 (42), they are a valuable contribution for future efforts aimed to unambiguously establish the structure of these natural products / Doutorado / Quimica Organica / Doutor em Ciências

Criptomoscatona

Alilação de keck

Aldol 1,5-anti

Lactone

Cryptomoscatone

Keck's allylation

1,5-anti aldol

Lactone

Goniotalamina, epoxigoniotalamina, argentilactona e derivados : sinteses totais e atividades antiproliferativas contra celulas tumorais humanas / Goniothalamin, goniothalamin oxide and argentilactone: total syntheses and antiproliferative activies against cells of human cancer

Fatima, Angelo de

28 April 2005

Orientador: Ronaldo Aloise Pilli / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Quimica / Made available in DSpace on 2018-08-04T13:47:35Z (GMT). No. of bitstreams: 1 Fatima_Angelode_D.pdf: 6353488 bytes, checksum: a8d593bc18e70b70bdac0ab5c7789f96 (MD5) Previous issue date: 2005 / Doutorado / Quimica Organica / Doutor em Quimica

Estiril lactonas

Piranonas

Alilação assimetrica

Câncer

Styryl lactones

Pyranones

Asymmetric allylation

Enantioselective rhodium-catalysed addition of allylboron reagents to cyclic imines and enantioselective nickel-catalysed Michael additions of 2-acetylazaarenes to nitroalkenes

Chotsaeng, Nawasit

January 2016

Rhodium-catalysed enantioselective allylation reaction of imines in the presence of chiral diene ligands has been investigated. Under the optimised conditions, cyclic imines provided homoallylic amines in high yield and excellent enantioselectivities. The reaction most likely proceeds via allylrhodium(I) intermediates, and represents the first rhodium-catalysed enantioselective nucleophilic allylation of π-electrophiles with allylboron compounds. Furthermore, the allylations display a strong preference for carbon–carbon bond formation at the more substituted terminus of the allyl fragment of the allyltrifluoroborate. To demonstrate the utility of the allylation products, representative manipulations were conducted. Enantioselective Nickel-Catalysed Michael Additions of 2-Acetylazaarenes to Nitroalkenes An enantioselective Michael addition of acylazaarenes with α-substituted β-nitroacrylates in the presence of a chiral Ni(II)–bis(oxazoline) complexes has been developed. A range of azaaryl nucleophiles were shown to react with a variety of nitroalkenes to construct highly functionalised Michael addition products which contain a stereogenic all-carbon quaternary stereocentre with moderate to high yields and enantioselectivities. A possible mechanism for this reaction has been proposed.

547

Aplikace enantioselektivní allylace pro syntézu látek izolovaných z Streptomyces gramineus / Application of enantioselective allylation for synthesis of compounds isolated from Streptomyces gramineus

Morávková, Terézia

January 2020

E-492, actinofuranone A, and JBIR-108 are natural compounds isolated from actinobacteria Streptomyces genus and can lead to the development of new pharmaceuticals as they have some biological interesting activities. Although the synthesis of these actinofuranones has been already published, this work brings new methods for the preparation of their fragments. The key step of the synthesis is enantioselective crotylboration of an aldehyde catalyzed by a chiral Brønsted acid and by which two centres of chirality are introduced in one step. The other crucial steps of the synthesis are composed of Ru-catalyzed alkene-alkene cross-metathesis and Pd- catalyzed Suzuki cross-coupling. Keywords: natural compound, enantioselective syntheses, crotylation, catalysis, actinofuranone fragment

Lignin/Carbon Fibre Composites / Lignin/Kolfiberkompositer

Al Husseinat, Ali, Persson, Emma, Carlhamn Rasmussen, Ran, Rynkiewicz, Filip

January 2021

The market is in great need of more environmentally friendly alternatives to fossil-based composite materials to obtain a more sustainable future. Lignin is the second most common biopolymer and is a byproduct in the pulping and paper industry. Fractionation of lignin has made it possible to receive lignin with narrow dispersity and low molecular weight, which is suitable for further applications. Modification of lignin structure yields new reactive sites that can be tailored for specific needs. Because of the aromatic structure of lignin, it is a promising renewable resource for production of thermosets. In this project Kraft lignin is sequentially solvent-fractionated and modified in an allylation process with allyl chloride. The allylated lignin is reacted with a cross-linking agent and used to impregnate carbon fibre mats. The resin-coated material is then cured at 125 oC to achieve a composite material. The project also encompasses characterization of the chemical structure of lignin in the different fractions. The morphology and adhesive properties of the lignin as well as the carbon fibres and the composite material was investigated. Although the production of composite material from lignin and carbon fibres were accomplished, bubble formation in the resin was a problem for all composite samples that were prepared, whether it was during solvent evaporation or during curing. By performing the addition of resin to carbon fibre mats in multiple steps, where pressure is added after the first applied layer, it is suggested that complete adhesion to the carbon fibre can be achieved, whilst maintaining adequate resin to carbon fibre ratio. / Marknaden är i stort behov av mer miljövänliga alternativ till fossilbaserade kompositmaterial för att kunna erhålla en mer hållbar framtid. Lignin är den näst vanligaste aromatiska biopolymeren och framställs som en biprodukt i pappersindustrin. Fraktionering av lignin har gjort det möjligt att erhålla lignin med låg dispersitet och molekylvikt vilket är lämpligt för vidare applikationer. Modifiering av lignins struktur ger upphov till nya reaktiva grupper som kan anpassas för ens behov. Den aromatiska strukturen som lignin besitter resulterar i en lovande förnybar resurs för produktion av härdplast. I detta projekt är Kraft lignin sekventiellt fraktionerat med lösningsmedel och modifierat med hjälp av en allyleringsprocess i närvaro av allylklorid. Det allylerade ligninet reagerar med en tvärbindare och används vidare för att impregnera kolfiber. De impregnerade kolfibermattorna härdades i ugn vid 125 oC för att erhålla kompositmaterial. Projektet omfattar även karaktärisering av den kemiska strukturen i lignin från de olika fraktionerna. Morfologin och vidhäftningsförmåga av lignin, kolfiber och likaså kompositmaterialet undersöktes. Ett kompositmaterial bestående av kolfiber och lignin erhölls med framgång under projektets gång, dock var bubbelbildning ett stort problem under förångningen av lösningsmedel och även under härdningsprocessen. Addition av harts till kolfibermattorna i flera steg, där tryck är adderat efter det första lagret har blivit applicerat, anses vara en lovande metod för att en hög vidhäftningsgrad ska kunna erhållas. Detta medan ett adekvat förhållande mellan harts och kolfiber upprätthålls.

Kraft lignin

Solvent fractionation

Selective allylation

Lignin based composite material

Thiol-ene thermoset

Materials Chemistry

Materialkemi

Construction of the Carbon Skeleton of Salvinorin A

Butler, Sean Colin

25 July 2011

No description available.

Chemistry

Organic Chemistry

Salvia divinorum

Salvia

Salvinorin

Organic synthesis

Diels&8211

Alder

Tsuji allylation

Création de centres stéréogéniques sur les molécules acycliques par contrôle du substrat : synthèse de centres quaternaires et d'analogues de nucléosides

Cardinal-David, Benoit

January 2008

Thèse numérisée par la Division de la gestion de documents et des archives de l'Université de Montréal.

Contrôle acyclique

Acyclic stereocontrol

Diastéréosélectivité

Diastereoselectivity

Centre stéréogénique quaternaire

Stereogenic quaternary center

Aldolisation de Mukaiyama

Mukaiyama aldolization

Allylation radicalaire

Radical-based allylation

Acide de Lewis

Lewis acid

Pont au silicium

Silicon tether

Nucléosides et 4'-thinucléosides

Nucleosides et 4'-thinucleosides

Thiominal

Approches synthétiques vers le mycothiazole-4,19-diol : utilisation du palladium en synthèse organique / Synthetic approaches towards the mycothiazole-4,19-diol : use of palladium in organic synthesis

Batt, Frédéric

17 December 2009

Le mycothiazole-4,19-diol, découvert en 2006, est une molécule naturelle isolée de l’éponge marine cacospongia mycofijiensis, dont il n’existe à ce jour aucune synthèse. La structure originale, combinée à la faible abondance naturelle et à une activité biologique potentielle du mycothiazole-4,19-diol font de cette molécule une cible synthétique attractive pour le chimiste organicien et constitue l’objectif de ces travaux de thèse. Le principal enjeu de cette synthèse est la construction du motif diol-1,2 allylique. Au total, quatre déconnections ont été étudiées. Pour chacune d’entre elles, plusieurs approches ont été effectuées afin de construire de manière efficace et élégante le mycothiazole-4,19-diol. Une étude sur l’utilisation du palladium en synthèse organique a également été effectuée au cours cette thèse. Parmi les nombreux systèmes catalytiques dans lesquels ce métal intervient, nous nous sommes intéressés à l’oxydation aérobique des alcools en leurs dérivés carbonylés. Nous avons élaboré un nouveau système permettant l’oxydation sélective des alcools allyliques. Les résultats obtenus sur la haute chimiosélectivité intramoléculaire font de cette méthode un outil puissant et efficace et a été mis à profit dans le cadre des approches du mycothiazole-4,19-diol. Une étude supplémentaire réalisée sur l’utilisation du palladium en réactions séquentielles a également été menée avec l’élaboration d’un processus oxydation aérobique-formation de liaison C-C par couplage de Heck. L’originalité de la méthodologie développée est que le catalyseur intervient dans deux réactions totalement différentes permettant ainsi la synthèse rapide de molécules relativement complexes à partir de substrats simples. / Mycothiazole-4,19-diol is a natural compound isolated in 2006 from a marine sponge cacospongia mycofijiensis which has never been synthesized. Its unique structure, its weak abundance and its potential biological activity make mycothiazole-4,19-diol an attractive target in organic chemistry. The challenge is the building of allylic diol-1,2 moiety. In order to make a concise and elegant synthesis of this molecule, four disconnections and many approaches have been studied. A study about the use of palladium in organic synthesis has also been done. Among all the catalytic systems in which this metal is involved, we were first interested in the aerobic oxidation of alcohols into their corresponding carbonyl compounds. We have elaborated a new catalytic system which enables the selective oxidation of allylic alcohols. This methodology has been applied in the different synthetic approaches towards the mycothiazole-4,19-diol. A second study has been done about the use of palladium in sequential processes. We have elaborated a new catalyzed process with two sequential different steps: allylic alcohol oxidation-Heck reaction. The originality of this system is that the catalyst is involved in both reactions which makes an easy access to functionalized α,β-unsaturated ketones from allylic alcohols.

Mycothiazole-4,19-diol

Métathèse croisée

Réaction de Julia-Kocienski

Allylation de Barbier

Diol allylique

Palladium

Oxydation aérobique d’alcools

Réaction de Heck

Réactions séquentielles

Mycothiazole-4,19-diol

Cross metathesis

Julia-Kocienski reaction

Barbier allylation

Allylic diol

Palladium

Aerobic oxidation of alcohols

Heck reaction

Sequential reactions