Synthesis of Frondosin B Analogs via Rhodium Catalyzed Carbonyl Ylide Cycloaddition

Bougher, John H., III

24 August 2015

No description available.

Organic Chemistry

Frondosin B

Cycloaddition

Carbonyl Ylide

Rhodium Catalyzed

Azomethine Ylide

Zoanthamine

Himalayamine

Ribasine

SONOGASHIRA COUPLING ROUTES TO ortho-ALKYNYL- AND FUSED-RING SYDNONES

Weisner, Andrew John

11 June 2003

No description available.

Chemistry, Organic

sydnone

alkyne

palladium-catalyzed coupling

Sonogashira

organic chemistry

mesoionic

Heterocycle Synthesis via Rhodium (II)-Catalyzed Azido Carbenoid Cyclization

Adero, Philip O.

25 September 2012

No description available.

Chemistry

Inorganic Chemistry

Organic Chemistry

Pharmaceuticals

Azido carbenoid

cyclization

heterocycle

rhodium(II)-catalyzed

Cobalt-Catalyzed Hydrofunctionalization of 1,3-Dienes

Dewese, Kendra R.

January 2016

No description available.

Organic Chemistry

Cobalt-Catalyzed Hydrofunctionalization

1,3-Dienes

organic chemistry

synthetic transformations

Ligand-Assisted Catalysis Using Metal SNS Complexes

Khanzadeh, Atousa

08 January 2024

In molecular transition metal catalyst architectures, ligand design plays a crucial role in enhancing the efficiency of catalytic reactions. Selected ligands can play a bifunctional role in ligand-assisted catalysis, providing first coordination sphere basic sites and facilitating formation of multinuclear species through monomer bridging, as well as through their electronic and steric effects. This research addresses the underutilization of SNS complexes in various catalytic cycles. Our aim is to expand their activity in different cycles, unlocking untapped reactivity. Specifically, we focus on SNS ligands with soft thiolate and hard amido donors, comparing their catalytic performance in diverse coupling reactions. This comparative study provides insights into the suitability of these ligands with different transition metals, contributing to the understanding of ligand-assisted catalysis. Chapter 1 introduces these concepts and outlines the relevant catalytic reactions studied herein. To gain a deeper understanding of the chemistry involved, a comparative analysis of the reactivity differences between transition metal complexes with similar coordination structures is conducted. This investigation is crucial as it provides valuable insights into the design of suitable ligands for transition metal catalysts. Specifically, Chapters 2 and 3 of this thesis delve into a comparison of the reactivity of coordination complexes with identical metal centers and similar ligands, or even the same molecular formula, in catalysis. In the second chapter, we introduce a new cobalt (II) complex bearing an (SNS) amido ligand for the bifunctional hydroboration of carbonyls. Following an unsuccessful attempt to mono-protonate the amido donor in the bis(amido) complex Co(SᴹᵉNSᴹᵉ)₂ (2.1) treatment with 1 equivalent of 1,3-bis(1-adamantyl)imidazolium chloride (IAd•HCl) resulted in the liberation of one protonated ligand, affording CoᴵᴵCl(SᴹᵉNSᴹᵉ)(a-IAd) (2.2) with an "abnormally" coordinated IAd ligand, i.e., specifically bound through C4 instead of C2 of the imidazole ring. Compound 2.2 exhibited excellent catalytic activity in the hydroboration of aldehydes, displaying high substrate tolerance under mild reaction conditions and short reaction times. Stoichiometric reactions of 2.2 with pinacolborane (HBpin) revealed a bifunctional catalyst activation step, generating free SNS-amine, ClBpin and the active cobalt dihydride catalyst. Generation of an analogous catalyst with a normally coordinated IAd ligand showed poor reactivity in the hydroboration of aldehydes and was unable to effect ketone hydroboration. In Chapter 3, two tetranuclear copper(I) complexes bearing thiolate [Cu(SNSᴹᵉ)]₄ (3.1) and amido [Cu(SNSᴹᵉ)]₄ (3.2) SNS ligands are synthesized and their catalytic activity in a base-free azide-alkyne cycloaddition is compared. Complex 3.1 (1 mol%) demonstrated excellent reactivity for performing this 'click' reaction in water, exhibiting a broad substrate scope and enabling the production of various triazole compounds, including bioactive compound 3.16, which holds potential as an anti-cancer drug. DFT calculations suggested a proton shuttle role for the thiolate donor in conversion of the Cu-coordinated terminal alkyne to the key Cu-alkynyl intermediate. On the other hand, complex 3.2 exhibited reactivity similar to copper chloride. This observation was attributed to the basic nature of the amido ligand, which undergoes protonation by the coordinated alkyne C-H bond, with subsequent dissociation of the SNS-amine from the copper. Without a ligand to stabilize the copper in the less stable +1 oxidation state, a disproportionation reaction occurs, leading to catalyst deactivation. Chapter 4 introduces two palladium(II) thiolate complexes: PdI(κ³-SNSᴹᵉ) (4.1) exhibits catalytic activity in promoting the Heck cross-coupling reaction, while Pd(κ²-SNSᴹᵉ)₂ (4.2) affords no coupling product. In concert with triethylamine base, catalyst 4.1 efficiently produces olefin products with excellent yields, even at low catalyst loadings, and exhibits broad substrate tolerance over a 5 h reaction period. In contrast, the limited catalytic activity of 4.2 can be rationalized by proposing the formation of a Pd(N₂S₂) complex through ligand imine coupling at elevated temperatures, a reaction reported previously for Ni and Co analogs. The tetra-coordinated ligand formed through this isomerization occupies critical coordination sites around the metal, thereby preventing oxidative addition of the organohalide substrate, a key step in the Heck reaction mechanism. This work sheds light on the divergent catalytic behaviors of these two intriguing complexes. Finally, in Chapter 5 we assess what has been learned and identify relevant implications for further work.

Bifunctional ligand

Hydroboration catalysis

Heck reaction

Organic synthesis

ligand-assisted catalysis

DEVELOPMENT AND APPLICATION OF SYNTHETIC PROTOCOLS FOR THE GENERATION OF HETEROCYCLIC COMPOUND LIBRARIES

Todorovic, Nikola

10 1900

<p>The development of parallel syntheses that allow for rapid access to compound libraries is widely sought after in drug development and in the study of biological systems. These compound collections can be screened for biological activity and thereby provide useful structure-activity relationships (SAR) to help better understand the biological systems under investigation. This present thesis uses a small molecule library/SAR approach to probe a variety of biological problems such as: inhibiting the proliferation of breast cancer stem cells; inhibiting glutamine fructose-6-phosphate amidotransferase (GFAT, a key enzyme involved in Type II diabetes); and inhibiting aminoglycoside phosphotransferases (APHs, enzymes prevalent in antibiotic resistance). Specifically, synthetic protocols for the parallel preparation of libraries of 3-aryl-pyrimido[5,4-e][1,2,4]triazine-5,7-(1H,6H)-diones, 1-alkyl-3-aryl-<em>1</em>H-pyrazolo[3,4-d]pyrimidin-4-amines, 6-amino-1-alkyl-3-aryl-1<em>H</em>-pyrazolo[3,4-<em>d</em>]pyrimidin-4(5<em>H</em>)-ones, substituted 3-(4-chlorophenyl)-1-(-1<em>H</em>-1,2,3-triazol-4-yl)-1<em>H</em>-pyrazolo[3,4-<em>d</em>]pyrimidin-4-amines and substituted isoquinolines are described. In all cases, a robust synthetic approach was developed allowing for the generation of a library of heterocycles based on hit compounds from high throughput screening. The SARs gained from the assaying of the libraries generated are shown to help in the furthering of the biological understanding of each system.</p> / Doctor of Philosophy (PhD)

Compound libraries

Isoquinolines

Pyrazolopyrimidines

Toxoflavin

Palladium-catalyzed cross-coupling

Microwave-assisted heating

Organic Chemistry

Organic Chemistry

New Synthetic Approaches to Heterocyclic Compounds Based on Iridium-Catalyzed Transformations of C(sp³)-H Bonds / イリジウム触媒によるC(sp³)－H結合変換に基づくへテロ環化合物の新規合成手法開発

Yagi, Kaito

23 March 2023

京都大学 / 新制・課程博士 / 博士(工学) / 甲第24639号 / 工博第5145号 / 新制||工||1983(附属図書館) / 京都大学大学院工学研究科合成・生物化学専攻 / (主査)教授 杉野目 道紀, 教授 中尾 佳亮, 教授 藤原 哲晶 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DGAM

Iridium-Catalyzed Reactions

C(sp3)–H Bond Activation

Heterocycles

Cyclization

Dehydrogenation

500

Biological and Synthetic Studies of Mitochondrial Respiratory Chain Inhibitors / ミトコンドリア呼吸鎖阻害剤に関する生物および合成化学的研究

Tsuji, Atsuhito

23 March 2023

京都大学 / 新制・課程博士 / 博士(薬科学) / 甲第24555号 / 薬科博第172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 小野 正博, 教授 掛谷 秀昭 / 学位規則第4条第1項該当 / Doctor of Pharmaceutical Sciences / Kyoto University / DFAM

Mitochondrial respiratory chain

Complex I inhibitor

Enzyme inhibition mechanism

SAR study

Gold(I)-catalyzed reaction

499.3

Estudo dos mecanismos de quimi-excitação na decomposição induzida de peróxidos: uma comparação entre sistemas inter e intramoleculares / Studies on the chemiexcitation mechanisms in induced peroxide decomposition: a comparison of inter and intramolecular systems

Oliveira, Marcelo Almeida de

18 May 2007

Foram sintetizados, purificados e caracterizados os peróxidos cíclicos: peróxido de difenoíla (1), dimetil-1,2-dioxetanona (2), e spiro-adamantil &#945;-peróxi lactona (3), e determinados seus parâmetros de quimiluminescência. Foram redeterminados os rendimentos quânticos singlete na decomposição catalisada de 1 e 2 em condições análogas as utilizadas anteriormente na literatura, obtendo-se valores várias ordens de grandeza menores que os inicialmente relatados para estes sistemas padrão para a formulação do mecanismo Luminescência Iniciada Quimicamente por Troca de Elétron (Chemically Initiated Electron Exchange Luminescence - CIEEL). O efeito de gaiola de solvente, utilizando-se o sistema binário tolueno/difenilmetano, sobre o rendimento quântico na decomposição de 1 catalisada por rubreno, mostrou-se consideravelmente menor para este sistema intermolecular do que o observado no sistema intramolecular da decomposição induzida de 1,2-dioxetanos fenóxi-substituidos. Foram determinados pela primeira vez os parâmetros de quimiluminescência na decomposição unimolecular e catalisada da spiro-adamantil &#945;-peróxi lactona (3), mostrando que esta é a &#945;-peróxi lactona mais estável sintetizada e estudada até o momento. Este peróxido é sujeito à decomposição catalisada por ativadores adequados, envolvendo transferência de elétron, porém, com eficiência baixa devido a um impedimento estérico exercido pelo substituinte spiro-adamantila sobre a interação do peróxido com o ativador. O rendimento quântico singlete máximo obtido na decomposição catalisada de 3 é de 1%, valor consideravelmente menor que os determinados para sistemas intramoleculares. A decomposição dos peróxidos cíclicos 1 a 3 é catalisada por fenolatos como ativadores, porém, os rendimentos singlete obtidos nesta reação são baixos, entre 10-3 e 10-7 E mol-1. Os resultados obtidos com este sistema modelo intermolecular para a decomposição induzida por transferência intramolecular de elétron de 1,2-dioxetanos fenóxi-substituidos, demonstram claramente que esta última transformação quimiluminescente de alta eficiência deve ocorrer por uma retro-transferência de elétron intramolecular e não intermolecular como proposto na literatura, e como é necessariamente o caso no sistema modelo estudado no presente trabalho. / The cyclic peroxides diphenoyl peroxide (1), dimethyl-1,2-dioxetanone (2) and spiro-adamantyl &#945;-peroxy lactone (3) were synthesized, purified and characterized, as well as its chemiluminescence parameters determined. The singlet quantum yields in the catalyzed decomposition of 1 and 2 were re-determined in experimental conditions equivalent to those formerly utilized in the literature, obtaining values various orders of magnitude lower than the ones initially reported for these model systems for the formulation of the Chemically Initiated Electron Exchange Luminescence\" (CIEEL) mechanism. The solvent-cage effect on the singlet quantum yields in the rubrene catalyzed decomposition of 1, using the binary system toluene / diphenylmethane, showed to be considerably lower for this intermolecular system than the one observed in the intramolecular system of the induced phenoxy-substituted 1,2-dioxetane decomposition. The chemiluminescence parameters in the unimolecular and catalyzed spiro-adamantyl &#945;-peroxylactone (3) decomposition were determined for the first time, showing that 3 is the most stable &#945;-peroxylactone synthesized and studied up to now. This peroxide is subject to catalyzed decomposition by appropriate activators involving electron transfer, however, with low efficiency due to the steric effect of the spiro-adamantyl substituents on the interaction of the peroxide with the activator. The maximum singlet quantum yield obtained in the catalyzed decomposition of 3 is 1 %, a value considerably lower than those determined for intramolecular systems. The decomposition of the cyclic peroxides 1 to 3 is catalyzed by fenolato ions as activators, thus the singlet quantum yields measured for this reaction are low, between 10-3 e 10-7 E mol-1. The results obtained for this intermolecular model system for the induced phenoxy-substituted 1,2-dioxetane decomposition demonstrate clearly that the latter highly efficient chemiluminescent transformation should occur by an intramolecular back-electron transfer and not by an intermolecular one as proposed in the literature, and as is necessarily the case in the model system studied in this work.

1-2-dioxetanonas

1-2-dioxetanones

2-dioxetanones

catalyzed decomposition

Catalyzed decomposition

chemiluminescence

Chemiluminescence

Decomposição catalisada

electron transfer

Electron transfer

Luminescence

Luminescência

quantum yield

Quantum yield

Quimiluminescência

Rendimento quântico

Transferência de elétron

Copper-Catalyzed Domino C-N Bond Formation for Synthesis of N-Containing Compounds (Benzimidazoles, Imidazoles, and Guanidines) - Approach toward Total Synthesis of Natural Product Raputindoles / Formation de Liaisons C-N Cupro-Catalysées Domino pour la Synthèse de Composés Azotés (Benzimidazoles, Imidazoles et Guanidines) - Approche vers la Synthèse Totale de Produits Naturels de la Famille des Raputindoles

Li, Jihui

24 July 2013

Cette thèse est constituée de trois parties : 1) Le contexte bibliographique, 2) le développement de réactions domino cupro-catalysées et 3) une approche vers la synthèse totale des raputindoles.La première partie introduit d’abord le concept de réactions domino ainsi que leurs applications, puis les réactions catalysées par du cuivre permettant de former des liaisons C-N sont passées en revue en incluant les couplages de Ullmann, Goldberg et de Chan-Lam, les séquences d’activation oxydante de liaisons C-H/formation de liaison C-N, l’insertion de nitrènes et l’hydroamination de liaisons C-C multiples. En se basant sur ces réactions élémentaires permettant de former une liaison C-N unique, les développements récents de réactions domino sont ensuite détaillés.La deuxième partie peut être subdivisée en 3 sections : 1) la synthèse de benzimidazoles, 2) la synthèse d’imidazoles and 3) la synthèse de guanidines. Un rappel des méthodes existantes pour la synthèse de ces motifs est proposé dans chaque section. Notre travail, basé sur la formation de liaisons C-N multiples selon une séquence cupro-catalysée domino, est ensuite détaillé. Celui-ci nous a permis d’aboutir au développement de voies d’accès aux benzimidazoles, en utilisant une réaction séquentielle catalysée par du cuivre en présence d’oxygène à partir d’acides boroniques et d’amidines, à la synthèse d’imidazoles par une réaction de di-amination d’alcynes vrai par des amidines et à l’obtention de guanidines et de 2-aminobenzimidines par une réaction à 3 composant. Ces réactions domino montrent une bonne efficacité et permettent d’assembler des hétérocycles à partir de précurseurs aisément accessibles.La dernière partie est consacrée à la synthèse des raputindoles. La structure, les activités et les réactions clé pour la construction de ces alcaloïdes sont discuté d’abord, nous amenant à proposer une rétrosynthèse pour accéder à ces molécules. Les réactions qui ont retenues notre attention pour construire ces molécules sont une annelation [3+2] irido-catalysée d’acides o-formylarylboronique et de 1,3-diènes, la synthèse de Leimgruber-Batcho pour obtenir des indoles et une séquence d’alkylboration-protodéboration. A partir de cela 3 stratégies ont été évaluées, montrant que l’accès à ce type de composé naturel est envisageable en combinant ces étapes. / This thesis consists in three parts: bibliographic background, copper-catalyzed reactions for synthesis of N-containing compounds, approach to the synthesis of raputindoles.The first part introduces the domino reactions and their applications, then, copper-mediated reactions for construction of C-N bond formation are reviewed including Ullmann, Goldberg and Chan-Lam coupling, oxidative C-H activation/C-N formation, insertion of nitrenes and carbenoids, and hydroamination of multi-C-C bonds. This can be used as guides to design domino reaction. Following these copper-mediated single C-N bond formation reactions, recent developments of copper-catalyzed domino reactions for synthesis of heterocycles are described.The second part can be divided into three sections: 1) synthesis of benzimidazoles, 2) synthesis of imidazoles and 3) synthesis of guanidines. Each section summarizes the existing methods used for their synthesis. Following it, our synthetic work involving copper-catalyzed C-N bond formation domino reactions is discussed in detail. Our objectives include the synthesis of benzimidazoles through copper-catalyzed sequential reaction of benzamidines and boronic acids, synthesis of imidazoles via copper-catalyzed domino reaction of benzamidines and acetylenes, and synthesis of guanidines and 2-aminobenzimidazoles by Cu-catalyzed three-component reaction of cyanamides, boronic acids and amines. These copper-catalyzed domino reactions show high efficiencies from readily available and simple starting materials.The last part is about the total synthesis of raputindoles. The structure and bioactivities of raputindoles and key reactions for the total synthesis of raputindoles are introduced first, the synthetic strategies are then proposed on basis of relative synthetic methods. The key reactions we use for the synthesis of raputindoles are iridium catalyzed [3+2] annulation of o-formylarylboronic acids and 1,3-dienes, Leimgruber-Batcho indole synthesis, transition-metal catalyzed SN2 substitution and alkylborylation-protondeborylation. According to the three strategies we proposed, lots of relative reactions were investigated. The results show that it is possible to synthesize the raputindole molecules based on the iridium catalyzed [3+2] annulation of 2-formylarylboronic acids and 1,3-dienes.

Réactions domino

Catalyse au cuivre

Liaisons carbone-azote

Benzimidazoles

Imidazoles

Guanidines

Synthèses totales

Annélation [3+2] irido-catalysée

Raputindoles

Indoles

Domino reactions

Copper-catalyzed

C-N bond

Benzimidazoles

Imidazoles

Guanidines

Total synthesis

Iridium catalyzed [3+2] annulation

Raputindoles

Indoles