Gold(I)-Catalyzed Reaction of Azido Alkynes for the Synthesis of Indole-Based Polycycles / アジドアルキンの金触媒反応によるインドール型多環式化合物の合成

Greiner, Luca Can

23 March 2023

京都大学 / 新制・課程博士 / 博士(薬科学) / 甲第24557号 / 薬科博第174号 / 新制||薬科||19(附属図書館) / 京都大学大学院薬学研究科医薬創成情報科学専攻 / (主査)教授 大野 浩章, 教授 高須 清誠, 教授 大宮 寛久 / 学位規則第4条第1項該当 / Doctor of Pharmaceutical Sciences / Kyoto University / DFAM

Gold catalysis

Gold carbene

Indole

Indoline

C-H functionalization

Medium-sized ring

499.3

Ruthenium(II)- and Copper(I)-Catalyzed C–H Functionalizations

Yang, Fanzhi

14 December 2015

No description available.

540

Ruthenium

C–H functionalization

internal oxidant

Weinreb amide

aldehyde

copper

photocatalysis

heteroarene

visible light

Chemie  (PPN62138352X)

Ruthenium(II)-Catalyzed C-N, C-O and C-C Formations by C-H Activation

Raghuvanshi, Keshav

06 February 2017

No description available.

540

Chemie  (PPN62138352X)

Sustainable Syntheses of Substituted Heterocycles through Ruthenium- and Palladium-Catalyzed Direct C−H Bond Functionalizations

Kornhaaß, Christoph Frank

20 June 2014

No description available.

540

Catalysis

Direct C-H Functionalization

Ruthenium-Catalyzed Annulations

Heterocycles

Palladium-Catalyzed Alkynylations

Sustainable Synthesis

Chemie  (PPN62138352X)

Fonctionnalisation de la liaison C-H anomérique des sucres par insertion de carbène : Un nouvel accès aux cétopyranosides / Functionalization of the anomeric C-H bond of carbohydrates by insertion of carbene : a new entry toward ketopyranosides

Boultadakis Arapinis, Mélissa

20 November 2012

Etant donné le rôle des sucres dans de nombreux processus physiopatholologiques importants, le développement de nouveaux outils chimiques pour la glycobiologie est primordial. Une nouvelle approche, consistant à fonctionnaliser sélectivement la liaison C-H anomérique des sucres par insertion d’un métallocarbène, a été développée, offrant ainsi un accès aux α- et β-cétopyranosides. Celle-ci est basée sur l’utilisation d’un bromoacétate ancré en position 2 du sucre, qui joue un rôle clé au sein d’une séquence réactionnelle glycosylation stéréosélective/diazotransfert/fonctionnalisation. En effet, ce bromoacétate permet de contrôler la stéréosélectivité de la réaction de glycosylation par assistance anchimérique ; puis, il permet l’installation du précurseur de carbène afin de favoriser la quaternarisation de la position anomérique. La validation de l’approche sur des méthyl-glycosides modèles a ensuite permis son application à des disaccharides. Ces études ont par ailleurs mis en évidence la tolérance de la transformation vis-à-vis de plusieurs groupements protecteurs communs en chimie des sucres. Enfin, une étude mécanistique, effectuée sur des substrats deutérés, puis complétée par des calculs DFT, a mis en évidence que l’étape de fonctionnalisation impliquait un mécanisme concerté ou dissociatif selon l’orientation équatoriale ou axiale de la liaison C-H anomérique respectivement. / Due to the major roles of carbohydrates in numerous physiopathological processes, it is essential to develop new chemical tools for glycobiology. A new approach, consisting in the selective functionalization of the anomeric C-H bond of carbohydrates by insertion of a metal-carbene, has been developed, thus offering a new access toward α- and β-ketopyranosides. This is based on the use of a key bromoacetate grafted at position 2 of the sugar, which is the corner stone of a stereoselective glycosylation/diazotransfer/functionalization sequence. Indeed, this group firstly controls the stereoselctivity of the glycosylation step by anchimeric assistance; then, it allows the convenient installation of the carbene precursor to promote quaternarization of the anomeric position. The validation of the concept on model methyl-glycosides has allowed its application on disaccharides. In addition, the sequence has shown good tolerance toward many protecting groups commonly used in carbohydrate chemistry. On the basis of mechanistic studies involving deuterium labeled substrates and DFT calculations, we have shown that this functionalization step follows a concerted or stepwise process depending on the equatorial or axial orientation of the anomeric C-H bond, respectively.

Sucres

Fonctionnalisation C-H

Quaternarisation

Carbène

Insertion 1,5

Carbohydrates

C-H functionalization

Quaternarization

Carbene

1,5 insertion

547.78

Développement de nouvelles réactions dominos catalysées par les métaux de transition impliquant une étape de fonctionnalisation C-H / Development of dominos reactions catalyzed by transition metals with C-H functionalization

Tran, Lâm Quang

03 December 2015

La fonctionnalisation directe de liaisons C-H connaît un développement exponentiel depuis maintenant une dizaine d’années. Catalysées par les métaux de transition, ces transformations offrent un avantage en termes de « chimie verte » et de diversité puisqu’elles permettent de s’affranchir de la pré-fonctionnalisation de la liaison à modifier et donc de travailler à partir de précurseurs simples. Associées à des processus domino, ces réactions offrent un accès souvent efficace à de nombreux hétérocycles. C’est dans ce contexte que s’inscrivent mes travaux de thèse consistant en l’élaboration de réactions domino catalysées par des métaux de transitions pour concevoir des hétèrocycles azotés. Nous avons développés une méthode qui permet, en choisissant, judicieusement les précurseurs, une cyclisation, toujours catalysées au cuivre, donnant accès à des composés de type benzimidazole ou quinazoline par fonctionnalisation C-H. Enfin, en intégrant la présence d’une fonction nitrile dans la réaction multi-composante catalysée au cuivre, nous développons une post-cyclisation alternative permettant d’aboutir à la formation de quinazolin-2,4-diamine, de dihydroquinazolin-2-amine ou des benzimidazoquinazoline. Dans cette approche la méthodologie permet de former jusqu’à 4 liaisons chimiques grâce à l’utilisation d’un unique catalyseur. Nous avons donc développé une réaction multicomposantes nous permettant d’accéder à des motifs différents à partir d’une méthodologie simple, économique en coût et temps, utilisant pour la plupart des produits commerciaux. / The direct functionalization of C-H bonds experiencing exponential growth for the past decade. Catalyzed by transition metals, these changes offer an advantage in terms of "green chemistry" and since they allow diversity to overcome the pre-functionalization of the bond to be modified and thus work from simple precursors. Associated with domino process, these reactions often provide efficient access to many heterocycles. It is in this context that fit my thesis work consisting of the development of domino reactions catalyzed by transition metals to design nitrogen heterocycles. We have developed a method which, by choosing wisely precursors, allow a cyclization, catalyzed copper still, giving access to benzimidazole compounds or quinazoline by functionalization C-H. Finally, by integrating the presence of a nitrile function in the multi-component copper catalyzed reaction, we develop an alternative post-cyclization to lead to the formation of quinazolin-2,4-diamine, dihydro-2-amine or benzimidazoquinazoline. In this approach the methodology allows the formation up to 4 chemical bonds through the use of a single catalyst. We have therefore developed a multi-component reaction to access differents structures from a simple methodology, economic cost.

Fonctionnalisation C-H

Métaux de transitions

Réactions dominos

Multi-composants

C-H functionalization

Transitions metals

Dominos reactions

Multi-composants

New Radical Reactivity at the Interface of Synthetic Methodology Development and Computational Modeling

Chen, Andrew

January 2020

No description available.

Chemistry

Organic Chemistry

C-H Functionalization by High-valent Formally Copper(III) Complexes

Bower, Jamey Kevin

07 September 2022

No description available.

Chemistry

Organic Chemistry

Inorganic Chemistry

fluorination

nitric oxide

electrocatalysis

C-H functionalization

copper(III)

hydrogen atom transfer

Estudos visando a síntese total assimétrica do populeno D e alquilação regiosseletiva de N-aril-2-aminopirimidinas catalisada por rutênio(II) / Studies towards asymmetric total synthesis of populene D. Ruthenium-catalyzed site-selective alkylations of N-aryl-2-aminopyrimidines

Ishikawa, Eloisa Eriko

19 December 2017

São apresentados nesta tese os resultados dos estudos visando a síntese total assimétrica do populeno D, um produto natural extraído do troco da árvore Thespesia populnea. A proposta sintética era obter a molécula alvo em 14 etapas, entretanto, não foi possível finalizar a síntese. Foi obtido o último intermediário da síntese em 13 etapas em um rendimento global de 8%, a partir do L-lactato de etila, comercialmente disponível. A rota sintética proposta tem como etapa chave uma reação de ciclização de Prins catalisada por iodo molecular. Tal metodologia foi utilizada para sintetizar quatro análogos do populeno D, compostos inéditos que foram caracterizados e enviados para ensaios de atividade biológica. Dois destes quatro compostos apresentaram bons resultados contra linhagens celulares do ovário com fenótipo de resistência a múltiplos fármacos. Apresenta-se também uma metodologia de meta-alquilação de N-aril-2- aminopirimidinas com haletos secundários catalisada por rutênio. No total, foram obtidos vinte compostos inéditos que foram completamente caracterizados. / Studies aiming the asymmetric total synthesis of populene D are presented in this thesis. Populene D is a natural product extracted from Thespesia populnea tree trunk. Synthetic proposal for the target molecule comprised 14 steps, however, total synthesis was not achieved. Last intermediate of the proposed route was obtained, in 13 steps and 8% global yield, starting from commercially available ethyl L-lactate. An iodine-catalyzed Prins cyclization reaction is the key step of proposed synthesis. This methodology was applied to synthesize four analogues of populene D, all unknown compounds which were fully characterized, and submitted to biological activity tests. Among these four compounds, two of them have shown good results against ovary cell lines with with multidrug resistance phenotype. A new protocol of ruthenium-catalyzed site-selective alkylation of N-aryl-2- aminopyrimidines is also presented in this thesis. 20 unknown compounds were obtained using this protocol and they were fully characterized as well.

Asymmetric total synthesis

C-H functionalization

Ciclização de Prins

Funcionalização C-H

Iodine

Iodo

Populene D

Populeno D

Prins cyclization

Rutênio

Ruthenium

Síntese total assimétrica

Estudos visando a síntese total assimétrica do populeno D e alquilação regiosseletiva de N-aril-2-aminopirimidinas catalisada por rutênio(II) / Studies towards asymmetric total synthesis of populene D. Ruthenium-catalyzed site-selective alkylations of N-aryl-2-aminopyrimidines

Eloisa Eriko Ishikawa

19 December 2017

São apresentados nesta tese os resultados dos estudos visando a síntese total assimétrica do populeno D, um produto natural extraído do troco da árvore Thespesia populnea. A proposta sintética era obter a molécula alvo em 14 etapas, entretanto, não foi possível finalizar a síntese. Foi obtido o último intermediário da síntese em 13 etapas em um rendimento global de 8%, a partir do L-lactato de etila, comercialmente disponível. A rota sintética proposta tem como etapa chave uma reação de ciclização de Prins catalisada por iodo molecular. Tal metodologia foi utilizada para sintetizar quatro análogos do populeno D, compostos inéditos que foram caracterizados e enviados para ensaios de atividade biológica. Dois destes quatro compostos apresentaram bons resultados contra linhagens celulares do ovário com fenótipo de resistência a múltiplos fármacos. Apresenta-se também uma metodologia de meta-alquilação de N-aril-2- aminopirimidinas com haletos secundários catalisada por rutênio. No total, foram obtidos vinte compostos inéditos que foram completamente caracterizados. / Studies aiming the asymmetric total synthesis of populene D are presented in this thesis. Populene D is a natural product extracted from Thespesia populnea tree trunk. Synthetic proposal for the target molecule comprised 14 steps, however, total synthesis was not achieved. Last intermediate of the proposed route was obtained, in 13 steps and 8% global yield, starting from commercially available ethyl L-lactate. An iodine-catalyzed Prins cyclization reaction is the key step of proposed synthesis. This methodology was applied to synthesize four analogues of populene D, all unknown compounds which were fully characterized, and submitted to biological activity tests. Among these four compounds, two of them have shown good results against ovary cell lines with with multidrug resistance phenotype. A new protocol of ruthenium-catalyzed site-selective alkylation of N-aryl-2- aminopyrimidines is also presented in this thesis. 20 unknown compounds were obtained using this protocol and they were fully characterized as well.

Ciclização de Prins

Funcionalização C-H

Iodo

Populeno D

Rutênio

Síntese total assimétrica

Asymmetric total synthesis

C-H functionalization

Iodine

Populene D

Prins cyclization

Ruthenium