Cyanation anodique et réaction de Fry modifiée : application à la synthèse stéréosélective d’alcaloïdes de la pipéridine / Anodic cyanation and modified fry reaction : application to the synthesis of piperindine alkaloids

Vu, Van Ha

11 September 2014

Les alcaloïdes de la pipéridine sont des composés présents à la fois dans le règne animal et végétal. L'approche générale que nous avons développée au cours de ce travail de thèse est basée sur l'utilisation de différents -aminonitriles qui ont été préparés soit par réduction de sels de pyridinium chiraux soit par cyanation anodique d'amines tertiaires dérivées de l'-phényl-éthylamine. Dans le premier cas, la modification de la réaction de Fry nous a permis de préparer les deux énantiomères de la coniine qui constitue l'agent toxique de la grande cigüe (Conium maculatum). En combinant cette méthode avec la métallation de Beak, nous avons pu accéder à la (+)-solénopsine A qui est l'un des constituants du venin des fourmis tropicales Solenopsis invicta. La seconde méthode qui utilise la voie électrochimique, a permis de synthétiser la (+)-myrtine qui est une indolizidine isolée de Vaccinium myrtillis et l'alcaloïde (+)-241D qui est extrait de sécrétions cutanée des grenouilles tropicales Dendrobates speciosus. Enfin, une nouvelle synthèse de la (–)-perhydrohistrionicotoxine (isolée de Dendrobates histrionicus) a été mise au point et cette dernière est basée sur l'alkylation diastéréosélective d'un α-aminonitrile chiral non racémique préparé par voie électrochimique. / Piperidine alkaloids are found in both animal and vegetal kingdoms. In this work, we have developed the synthesis and the utilization of several -aminonitrile systems which have been prepared either from the reduction of chiral non racemic pyridinium salts or from the anodic cyanation of piperidine ring system. In the first case, the modification of the Fry cyanation allowed the synthesis of both enantiomers of coniine which is the toxic component of hemlock (conium maculatum). By virtue of the Beak's lithiation–alkylation procedure, we have been able to synthesize the trans 2,6-piperidine (+)-solenopsin A which is one of the constituents of the venom of fire ant solenopsis invicta. As an alternative process, the anodic cyanation of piperidone derivatives allowed us to prepare the quinolizidine alkaloid (+)-myrtine (vaccinum myrtillis) and the all cis-2,4,6-piperidine alkaloid (+)-241D which is extracted from the skin of brightly colored neotropical frog dendrobates speciosus. Our final synthetic approach has been devoted to the stereoselective construction of spiropiperidine (–)-perhydrohistrionicotoxin whose tertiary chiral center was elaborated through the diastereoselective alkylation of an α-aminonitrile system which has been prepared by electrochemical means.

Alcaloïdes

-Aminonitrile

Synthèse asymétrique

Pipéridines

Cyanation anodique

Alkaloid

-Aminonitrile

Asymmetric synthesis

Piperidine

Anodic cyanation

Cyclisation de Nazarov torquosélective assistée par un sulfoxyde chiral : élaboration stéréocontrôlée d'oxycyclopentanes polysubstitués / Torquoselective Nazarov cyclization assisted by a chiral sulfoxide : stereocontroled synthesis of polysubstituted cyclopentenes

Grenet, Erwann

18 November 2016

Ce travail a été consacré à l’utilisation d’un sulfoxyde chiral pour effectuer une réaction de cyclisation polarisée de Nazarov asymétrique. Une méthodologie mettant en jeu une condensation de Knoevenagel a été mise au point pour la synthèse de divinylcétones portant un sulfoxyde chiral en position α. Cet auxiliaire a mené à une sélectivité du sens de rotation, appelée torquosélectivité, des orbitales π impliquées dans l’électrocyclisation. Une diastéréodivergence de la pentannelation a pu être développée à partir de substrats dihydropyraniques qui ont mis en évidence une inversion de torquosélectivité selon l’acide de Lewis employé. La cyclisation de différents substrats (hétéro)-aromatiques a aussi montré des torquosélectivités importantes, ceci ayant permis de réaliser la première synthèse non-racémique d’une indanone dérivée de l’acide gallique, composé anticancéreux. Par la suite, une réduction stéréodivergente du carbonyle de la cyclopenténone formé a pu conduire aux carbinols épimères correspondants. Parallèlement, l’oxydation de l’inducteur chiral en sulfone a donné lieu à une allylation avec une totale diastéréosélectivité. Enfin, le clivage de la liaison C-S sous forme de sulfure ou de sulfone a permis d’élaborer, avec un excellent stéréocontrôle, des bicycles dihydropyrane-cyclopentane fusionnés à substituants fonctionnalisés. / This work was devoted to the use of a chiral sulfoxide to perform an asymmetric polarized Nazarov cyclization. A methodology involving a Knoevenagel condensation has been developed for the synthesis of divinylketones bearing a chiral sulfoxide in α-position.This auxiliary led to a rotation direction selectivity, called torquoselectivity, for the orbitals involving during the electrocyclization. A pentannelation diastereodivergence could be developed from dihydropyran-containing substrats that showed a torquoselectivity switch depending to the used Lewis acid.(Hétéro)-aromatic substrates cyclization also showed significant torquoselectivities, this allowed the first non-racemic synthesis of a gallic acid-based indanone, an anticancer agent.Thereafter, stereodivergente reduction of the cyclopentenone carbonyl gave the two corresponding carbinolic epimers. In parallel, the chiral inductor oxidation into sulfone allowed a total diastereoselective allylation. Finally, C-S bond cleavage, as sulfide or sulfone, afforded dihydropyran-fused-cyclopentane rings bearing functionalized substituents with excellent stereocontrol.

Sulfoxyde chiral

Réaction de Nazarov

Torquosélectivité

Synthèse asymétrique

Chiral sulfoxide

Nazarov reaction

Torquoselectivity

Asymmetric synthesis

Bile Acid-Based Chiral Auxiliaries In Asymmetric Synthesis

Bandyopadhyaya, Achintya K

12 1900

No description available.

Bile Acids

Chirality

Organic Compounds - Synthesis

Asymmetric Synthesis

Chiral Auxiliary

Chiral Auxiliaries

Organic Chemistory

Asymmetric synthesis of tertiary thiols by lithiation of thiocarbamates

Maclellan, Paul William

January 2011

Tertiary thiols are a synthetically challenging class of compounds to prepare asymmetrically. The few reported methods for preparing these species require restrictive functionality to be incorporated into the products or are limited to employing simple carbon electrophiles. This thesis details investigations into the lithiation of N-aryl thiocarbamates. A stereoselective intramolecular arylation within lithiated thiocarbamates has been developed allowing the construction of quaternary stereocentres next to sulfur. Simple deprotection allows the isolation of enantiomerically pure tertiary thiols. A procedure for aryl migration within benzylic thiocarbamates has been developed and optimised. Rearrangement occurs in good yield and excellent stereoselectivity in a wide range of thiocarbamate substrates. Various substitution patterns are tolerated on the migrating aryl ring, the benzylic aryl ring and on the benzylic carbon centre. Extension of this methodology has incorporated an asymmetric alkylation of achiral benzylic thiocarbamates as a method of preparing aryl migration substrates. This allows the asymmetric synthesis of tertiary thiols in 2 steps from simple achiral precursors. Aryl migration has also been found to occur in lithiated allylic thiocarbamates with high stereospecificity, allowing preparation of a wider range of tertiary thiols.

547.6

Sintese e atividade biologica de analogos furanicos da goniotalamina / Synthesis and biological activity of furan analogues of goniothalamin

Marquissolo, Cilene

07 July 2009

Orientador: Ronaldo Aloise Pilli / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Quimica / Made available in DSpace on 2018-08-14T13:10:56Z (GMT). No. of bitstreams: 1 Marquissolo_Cilene_M.pdf: 4919703 bytes, checksum: f834b50c778a98043d8f699e6b2947b9 (MD5) Previous issue date: 2009 / Resumo: Este trabalho tem como objetivo preparar análogos furânicos da goniotalamina 31, 32 e 33 em suas duas formas enantioméricas, utilizando-se a alilação catalítica e assimétrica nas condições de Keck e a reação de metátese de olefinas para fechamento de anel. Estes análogos foram obtidos em bons rendimentos e excelentes razões enantioméricas. Estes novos compostos foram submetidos a testes de atividade antiproliferativa frente a nove linhagens de células tumorais e a bioensaios in vitro contra a forma tripomastigota do Trypanosoma cruzi e contra a forma promastigota de Leishmania major e Leishmania brasiliensis. No que diz respeito à atividade antiproliferativa, exceto para as linhagens de melanoma e cólon, os compostos testados apresentaram maior potência do que o controle positivo, doxorrubicina. Adicionalmente, os compostos 31, 32 e 33 mostraram-se mais ativos que a goniotalamina (1), exceto para as linhagens de mama e ovário. Os bioensaios de citotoxicidade com células não infectadas (LLC-MK2) mostraram que os compostos apresentaram baixa citotoxicidade. Com relação à atividade tripanocida, embora o composto (S)-31 tenha se apresentado como o composto mais ativo, mostrou alta citotoxicidade em células não-infectadas. (S)-32 é o composto que apresenta atividade mais interessante contra T. cruzi, além do menor valor de citotoxicidade e alto índice de segurança. Para a atividade leishmanicida, o análogo (S)-31 apresentou-se como o composto mais ativo para ambas as espécies de Leishmania, mostrando-se cerca de 6,5 vezes mais ativo que o controle positivo para Leishmania brasiliensis e cerca de 14,6 vezes para Leishmania major. Os ensaios de citotoxicidade revelaram valores de concentração superiores aos valores de IC50, indicando baixa toxicidade. Para Leishmania brasiliensis e Leishmania major, (R)-31 e (S)-31 mostraram-se como os compostos mais ativos e apresentaram bons índices de segurança. O análogo 33 não apresentou atividade expressiva em nenhum dos testes realizados indicando que a presença do grupo nitro ligado ao anel furânico é de grande importância para as atividades biológicas avaliadas / Abstract: This work describes the preparation of furan analogues of goniothalamin (compounds 31, 32 and 33) in both enantiomeric forms through the utilization of Keck asymmetric allylation and ring-closing methatesis reaction. These analogues were prepared in good overall yield and excellent enantiomeric ratio. These novel compounds were evaluated as antiproliferative agents against a panel of nine cancer cell lines and in vitro bioassays against the tripomastigote form of Trypanosoma cruzi and promastigote form of Leishmania major and Leishmania brasiliensis. Compounds 31-33 were more potent than the positive control (doxorubicin) in the antiproliferative experiments, except for melanoma and colon cancer cells. Additionally compounds 31-33 were more active than goniothalamin (1), except for breast and ovary cancer cells. Regarding their tripanocidal activity, compound (S)-31 was shown to be very toxic to non-infected cells despite its being highly active. Compound (S)-32 was the most promising one against T. cruzi due to its low toxicity and high insurance level. As to the leishmanicidal activity, the analogue (S)-31 was shown to be the most active for both Leishmania species investigated being 6,5 times more active than the positive control for Leishmania brasiliensis and about 14,6 times for Leishmania major, The citotoxicity assays revealed low toxicity against non-infected cells. For Leishmania brasiliensis and Leishmania major (R)-31 and (S)-31 were shown to be more active one and also displayed the best insurance level. Analogue 33 did not display any significant biological activity in our assays indicating that the nitrofuran moiety is very important for the biological activities investigated / Mestrado / Quimica Organica / Mestre em Química

Goniotalamina

Analogos furanicos

Sintese catalitica assimetrica

Atividade biológica

Goniothalamin

Furan analogues

Catalytic asymmetric synthesis

Biological activity

Development of Amine-Catalyzed Asymmetric Reactions of Aldehydes with Alkynyl Z-Ketimines / アルキニル基を有するZ-ケチミンを用いたアミン触媒によるアルデヒドとの不斉反応の開発

Homma, Chihiro

23 March 2021

京都大学 / 新制・課程博士 / 博士(理学) / 甲第23036号 / 理博第4713号 / 新制||理||1675(附属図書館) / 京都大学大学院理学研究科化学専攻 / (主査)准教授 加納 太一, 教授 時任 宣博, 教授 依光 英樹 / 学位規則第4条第1項該当 / Doctor of Science / Kyoto University / DGAM

organocatalyst

amine catalyst

Mannich reaction

conjugate addition

ketimine

asymmetric synthesis

400

Syntéza a aplikace nových bipyridinových ligandů / Synthesis and application of new bipyridine ligands

Bednářová, Eva

January 2018

2,2'-Bipyridines and their appropriate N,N'-dioxides form a significant class of heteroaromatic compounds, which has found application in various fields of chemistry and predominantly in asymmetric catalysis. One of the most powerful methods for their synthesis is cocyclotrimerization of alkynes with nitriles. A new variant of cyclotrimerization reaction - cocyclotrimerization of halodiynes with nitriles, which results in the formation of 2- and 3-halopyridines, has been developed. The reaction was studied on a wide range of substrates providing the pyridine products in good isolated yields. Formation of an unexpected product of halogen exchange reaction was observed during the course of the study and its origin was elucidated by experimental studies. The prepared 2-halopyridines were used as starting materials for syntheses of new chiral 2,2'-bipyridine ligands. The crucial step of their synthesis turned out to be the reductive dimerization of 2-halopyridines to the corresponding 2,2'-bipyridines. Application of the formed bipyridine ligands was then tested in various metal-catalyzed asymmetric reactions, namely Mukaiyama aldol reaction, hydroxymethylation, conjugate addition, C-H activation of indole and desymmetrization of meso-epoxides, in which one of the bipyridine ligands showed...

Syntéza enantiomerně čistých helikálních aromátů jako jsou NHC ligandy a jejich využití v asymetrické katalýze / Synthesis of Enantiomerically Pure Helical Aromatics Such As NHC Ligands and Their Use in Asymmetric Catalysis

Karras, Manfred

January 2018

Various ways of preparing enantiomerically pure 2-amino[6]helicene derivatives were explored. Ni(0) mediated cyclotrimerization of enantiopure triynes provided (M)- and (P)-7,8-bis(p-tolyl)hexahelicene-2-amine in >99% ee as well as its benzoderivative in >99% ee. The stereocontrol was found to be inefficient for a 2- aminobenzo[6]helicene congener with an embedded five-membered ring. Helically chiral imidazolium salts bearing one or two helicene moieties have been synthesized and applied in enantioselective [2+2+2] cyclotrimerization catalyzed by an in situ formed Ni(0)-NHC complex. The synthesis of the first helically chiral Pd- and Ru- NHC complexes and their application in enantioselective catalysis was demonstrated. The latter shows promising results in enantioselective olefin metathesis reactions. A mechanistic proposal for asymmetric ring closing metathesis is provided.

New methodologies for the catalytic enantioselective addition of organometallic reagents to carbonyl compounds

Fernández Mateos, Emilio

22 June 2015

No description available.

Asymmetric synthesis

Catalysis

Chiral alcohols

Titanium tetraisopropoxide

Chiral ligands

Organometallic compounds

Química Orgánica

Copper-Catalyzed Asymmetric Allylic Substitution with Organo- and Silylboronates / 銅触媒による有機およびシリルボロン酸エステルを用いた不斉アリル位置換反応

Takeda, Momotaro

24 March 2014

京都大学 / 0048 / 新制・課程博士 / 博士(理学) / 甲第18093号 / 理博第3971号 / 新制||理||1572(附属図書館) / 30951 / 京都大学大学院理学研究科化学専攻 / (主査)教授 大須賀 篤弘, 教授 丸岡 啓二, 教授 時任 宣博 / 学位規則第4条第1項該当 / Doctor of Science / Kyoto University / DGAM

Asymmetric Synthesis

Copper Catalyst

N-Heterocyclic Carbenes

Allylic Substitution

Boron Reagents

400