Highly Stereoselective Cyclopropanation of Alkenes with Unsymmetrical Diazomalonates via Co(II)-Based Metalloradical Catalysis:

Wang, Jingyi

January 2021

Thesis advisor: Xiaoxiang Peter Zhang / Thesis advisor: James P. Morken / Diazomalonates have been demonstrated, for the first time, as effective radical precursors for asymmetric radical cyclopropanation of alkenes via Co(II)-based metalloradical catalysis (MRC). With an optimized D2-symmetric chiral amidoporphyrin as the supporting ligand, the Co(II)-based metalloradical system can efficiently activate unsymmetrical methyl phenyl diazomalonate (MPDM) for the asymmetric cyclopropanation of alkenes, enabling stereoselective construction of 1,1-cyclopropanediesters bearing two contiguous chiral centers, including at least one all-carbon quaternary stereogenic center. The Co(II)-catalyzed asymmetric cyclopropanation, which operates at room temperature without slow addition of the diazo compound, is generally applicable to a broad range of olefin substrates and tolerates various functionalities, providing a streamlined synthesis of chiral 1,1-cyclopropanediesters in high yields with high level of control in both diastereoselectivity and enantioselectivity. Mechanistic studies on the cyclopropanation reactions, including the use of (E)- and (Z)-b-deuterostyrenes, support the underlying stepwise radical pathway for the Co(II)-catalyzed cyclopropanation. In addition to functioning as effective 1,3-dipoles for stereospecific formation of five-membered ring structures, the resulting enantioenriched methyl phenyl (E)-1,1-cyclopropanediesters serve as useful building blocks for the synthesis of different 1,1-cyclopropanediesters, 1,1-cyclopropaneestercarboxylic acids and 1,1-cyclopropaneesteramides while maintaining the original stereochemistry. Additionally, the enantioenriched (E)-1,1-cyclopropanediesters can be converted to (Z)-diastereomers without affecting the high enantiopurity. / Thesis (PhD) — Boston College, 2021. / Submitted to: Boston College. Graduate School of Arts and Sciences. / Discipline: Chemistry.

Asymmetric Cyclopropanation of Alkenes

Cobalt Catalyst

Metalloradical Catalysis (MRC)

Methyl Phenyl Diazomalonate (MPDM)

Stereoselectivity

Synthesis

Characterization of NonR, an esterase that confers nonactin resistance

Cox, James Eric

03 February 2004

No description available.

Chemistry, Biochemistry

NonR

esterase

self-resistance

NonD

NonL

protein expression

stereoselectivity

nonactin

Estudo visando à síntese enantiosseletiva da malevamida D e reações de Suzuki-Miyaura envolvendo espécies insaturadas de telúrio / Study towards to enantioselective synthesis of malevamide D and Suzuki-Miyaura reaction involving tellurium species

Cella, Rodrigo

15 January 2008

Esta tese descreve, em dois diferentes capítulos, a síntese assimétrica da Malevamida D e a aplicação de compostos organotelúrio em reações de Suzuki-Miyaura. O primeiro capítulo refere-se ao estudo da síntese assimétrica da Malevamida D, um depsipeptídeo natural pertencente à família das dolastatinas, compostos estes com grande atividade citotóxica. As unidades DAP e MMMAH foram alcançadas em ótimos redimentos e estereosseletividades, utilizando-se reações de adição de crotil ou aliltrifluoroborato de potássio à aldeídos derivados da L-prolina e L-isoleucina, respectivamente. A elongação da cadeia da malevamida D se fez a partir de reações de esterificação e amidação; infelizmente não foi possível completar a síntese devido a problemas na última reação de acoplamento peptídico. O segundo capítulo descreve as reações entre teluretos aromáticos ou vinílicos e sais de organotrifluoroborato de potássio, mediadas por um catalisador de paládio. A partir destas reações de acoplamento cruzado tipo Suzuki-Miyaura foi possível obter-se 1,3-eninos, sistemas biarílicos, (E)- ou (Z)-estilbenos e 1,3-dienos. Todas as reações mostraram serem tolerantes a uma grande variedade de grupos funcionais e altamente estereoconservativas, nos casos envolvendo substratos vinílicos. / This thesis describes, in two different chapters, the asymmetric synthesis of malevamide D and the application of organotellurium compounds in Suzuki-Miyaura reaction. The first chapter refers to the asymmetric synthesis of malevamide D, a natural depsipeptide which belongs to the dolastatins family, and these compounds have a great interest due to theirs citotoxic activities. The DAP and MMMAH units were reached in excellent yields and stereoselectivities from 1,2-addition reaction of potassium crotyl or allyltrifluoroborate to aldehydes derivate from L-proline and L-isoleucine, respectively. The malevamide D elongation was made from reaction of esterification and amidation, unfortunately it was not possible finish the synthesis due to some problems in the last step of the total synthesis. The second chapter describes the reaction between aryl or vinyl tellurides and potassium organotrifluoroborate salts, mediated by a palladium catalyst. From this cross-coupling reaction type Suzuki-Miyaura was possible obtain 1,3-dienes, biarylic systems, (E)- or (Z)-stylbenes and 1,3-dienes. Al reactions showed to be tolerant to a wide range of functional groups and highly stereoconservative, in the cases involving vinylic substrates.

Estereosseletividade

Malevamida D

Malevamide D

Organotellurium

Organotelúrio

Organotrifluoroborate

Organotrifluoroborato

Paládio

Stereoselectivity

Suzuki-Miyaura

Suzuki-Miyaura

Tellurium

Telúrio

Structure and Function in Plant Ä12 Fatty Acid Desaturases and Acetylenases

Gagne, Steve Joseph

22 December 2008

This study provides insight into the structure/function relationship between desaturases and acetylenases, and indicates amino acid residues within acetylenases which influence reaction outcome. <i>Oleate desaturases</i> belong to a family of enzymes capable of introducing cis double bonds between C12 - C13 in oleate esters. Acetylenases are a subset of oleate desaturase enzymes which introduce a triple bond in the C12 - C13 position of linoleate. To better understand which amino acids could be responsible for differentiating the activity of acetylenases from typical desaturases, a total of 50 protein sequences were used to compare the two classes of enzymes resulting in the identification of 11 amino acid residues which are conserved within either separate family but differ between the two groups of enzymes. These identified amino acid residues were then singularly altered by site-directed mutagenesis to test their role in fatty acid modification. Specifically, the wild type acetylenase, Crep1 from <i>Crepis alpina</i>, and a number of point mutants have been expressed in <i>Saccharomyces cerevisiae</i>, followed by fatty acid analysis of the resulting cultures. Results indicate the importance of 4 amino acid residues within Crep1 (Y150, F259, H266, and V304) with regards to desaturase and acetylenase chemoselectivity, stereoselectivity, and/or substrate recognition. The F259L mutation affected the acetylenase by converting it to an atypical FAD2 capable of producing both cis and trans isomers. The V304I mutation resulted in the conversion of Crep1 into a stereoselective FAD2, where only the cis isomers of 16:2 and 18:2 were produced. The Y150F mutation led to a loss of acetylenase activity without affecting the inherent desaturase activity of Crep1. The H266Q mutation appears to affect substrate selection causing an inability to bind substrate (16:1-9c and/or 18:1-9c) in a cisoid conformation, resulting in an increased accumulation of trans product. The changes in enzyme activity detected in cultures expressing Crep1 mutants demonstrate the profound effect that exchanging as little as one amino acid can have on an enzyme properties. Enzymes retain some conservation of amino acids necessary for activity, such as those involved in metal ion binding, whereas subtle changes can affect overall enzyme function and catalysis.

Substrate selectivity

Stereoselectivity

Chemoselectivity

Fatty Acid

Molecular Evolution

Crepis alpina

FAD2

Desaturase

Acetylenase

Acetylenation

Desaturation

Crep1

Enzyme Engineering

Structure and Function in Plant Ä12 Fatty Acid Desaturases and Acetylenases

Gagne, Steve Joseph

22 December 2008

This study provides insight into the structure/function relationship between desaturases and acetylenases, and indicates amino acid residues within acetylenases which influence reaction outcome. <i>Oleate desaturases</i> belong to a family of enzymes capable of introducing cis double bonds between C12 - C13 in oleate esters. Acetylenases are a subset of oleate desaturase enzymes which introduce a triple bond in the C12 - C13 position of linoleate. To better understand which amino acids could be responsible for differentiating the activity of acetylenases from typical desaturases, a total of 50 protein sequences were used to compare the two classes of enzymes resulting in the identification of 11 amino acid residues which are conserved within either separate family but differ between the two groups of enzymes. These identified amino acid residues were then singularly altered by site-directed mutagenesis to test their role in fatty acid modification. Specifically, the wild type acetylenase, Crep1 from <i>Crepis alpina</i>, and a number of point mutants have been expressed in <i>Saccharomyces cerevisiae</i>, followed by fatty acid analysis of the resulting cultures. Results indicate the importance of 4 amino acid residues within Crep1 (Y150, F259, H266, and V304) with regards to desaturase and acetylenase chemoselectivity, stereoselectivity, and/or substrate recognition. The F259L mutation affected the acetylenase by converting it to an atypical FAD2 capable of producing both cis and trans isomers. The V304I mutation resulted in the conversion of Crep1 into a stereoselective FAD2, where only the cis isomers of 16:2 and 18:2 were produced. The Y150F mutation led to a loss of acetylenase activity without affecting the inherent desaturase activity of Crep1. The H266Q mutation appears to affect substrate selection causing an inability to bind substrate (16:1-9c and/or 18:1-9c) in a cisoid conformation, resulting in an increased accumulation of trans product. The changes in enzyme activity detected in cultures expressing Crep1 mutants demonstrate the profound effect that exchanging as little as one amino acid can have on an enzyme properties. Enzymes retain some conservation of amino acids necessary for activity, such as those involved in metal ion binding, whereas subtle changes can affect overall enzyme function and catalysis.

Substrate selectivity

Stereoselectivity

Chemoselectivity

Fatty Acid

Molecular Evolution

Crepis alpina

FAD2

Desaturase

Acetylenase

Acetylenation

Desaturation

Crep1

Enzyme Engineering

Estudo visando à síntese enantiosseletiva da malevamida D e reações de Suzuki-Miyaura envolvendo espécies insaturadas de telúrio / Study towards to enantioselective synthesis of malevamide D and Suzuki-Miyaura reaction involving tellurium species

Rodrigo Cella

15 January 2008

Esta tese descreve, em dois diferentes capítulos, a síntese assimétrica da Malevamida D e a aplicação de compostos organotelúrio em reações de Suzuki-Miyaura. O primeiro capítulo refere-se ao estudo da síntese assimétrica da Malevamida D, um depsipeptídeo natural pertencente à família das dolastatinas, compostos estes com grande atividade citotóxica. As unidades DAP e MMMAH foram alcançadas em ótimos redimentos e estereosseletividades, utilizando-se reações de adição de crotil ou aliltrifluoroborato de potássio à aldeídos derivados da L-prolina e L-isoleucina, respectivamente. A elongação da cadeia da malevamida D se fez a partir de reações de esterificação e amidação; infelizmente não foi possível completar a síntese devido a problemas na última reação de acoplamento peptídico. O segundo capítulo descreve as reações entre teluretos aromáticos ou vinílicos e sais de organotrifluoroborato de potássio, mediadas por um catalisador de paládio. A partir destas reações de acoplamento cruzado tipo Suzuki-Miyaura foi possível obter-se 1,3-eninos, sistemas biarílicos, (E)- ou (Z)-estilbenos e 1,3-dienos. Todas as reações mostraram serem tolerantes a uma grande variedade de grupos funcionais e altamente estereoconservativas, nos casos envolvendo substratos vinílicos. / This thesis describes, in two different chapters, the asymmetric synthesis of malevamide D and the application of organotellurium compounds in Suzuki-Miyaura reaction. The first chapter refers to the asymmetric synthesis of malevamide D, a natural depsipeptide which belongs to the dolastatins family, and these compounds have a great interest due to theirs citotoxic activities. The DAP and MMMAH units were reached in excellent yields and stereoselectivities from 1,2-addition reaction of potassium crotyl or allyltrifluoroborate to aldehydes derivate from L-proline and L-isoleucine, respectively. The malevamide D elongation was made from reaction of esterification and amidation, unfortunately it was not possible finish the synthesis due to some problems in the last step of the total synthesis. The second chapter describes the reaction between aryl or vinyl tellurides and potassium organotrifluoroborate salts, mediated by a palladium catalyst. From this cross-coupling reaction type Suzuki-Miyaura was possible obtain 1,3-dienes, biarylic systems, (E)- or (Z)-stylbenes and 1,3-dienes. Al reactions showed to be tolerant to a wide range of functional groups and highly stereoconservative, in the cases involving vinylic substrates.

Estereosseletividade

Malevamida D

Organotelúrio

Organotrifluoroborato

Paládio

Suzuki-Miyaura

Telúrio

Malevamide D

Organotellurium

Organotrifluoroborate

Stereoselectivity

Suzuki-Miyaura

Tellurium

η⁶-Arenechromium Tricarbonyl Complexes: Conformational Analysis, Stereocontrol in Nucleophilic Addition and Applications in Organic Synthesis

Paramahamsan, Harinandini

21 January 2005

No description available.

arenechromium tricarbonyls

chiral auxiliary

conformational analysis

diastereoselectivity

isoborneols

juvabione

NOE analysis

nucleophilic addition

organic synthesis

stereoselectivity

substituted cyclohexenones

vicinal stereocontrol

A Computational and Experimental Investigation of the Diels-Alder Cycloadditions of Halogen Substituted 2(H)-pyran-2-one

Afarinkia, Kamyar, Bearpark, M.J., Ndibwami, A.

January 2003

No / 4-Chloro-2(H)-pyran-2-one undergoes thermal Diels−Alder cycloaddition with electron-deficient dienophiles to afford, without any significant selectivity, 6-endo- and 5-endo-substituted bicyclic lactone cycloadducts. In contrast to 3- and 5-bromo-2(H)-pyran-2-one, 4-chloro-2(H)-pyran-2-one does not undergo thermal cycloadditions with electron-rich dienophiles. The regio- and stereochemical preferences of the cycloadditions of 4-chloro-2(H)-pyran-2-one and other related 2(H)-pyran-2-ones are investigated computationally. Calculations were carried out on the transition states leading to the four possible regio- and stereoisomeric cycloadducts using density functional theory (B3LYP/6-31G*). These studies allow prediction of the regio- and stereoselectivity in these reactions which are in line with experimental observations.

Computational

Diels-Alder Cycloadditions

4-Chloro-2(H)-pyran-2-one

Electron-deficient dienophiles

Stereoselectivity

Density functional theory

Synthèse régio- et stéréosélective du 4,4,4-trifluorobut-2-énoate d'éthyle porteur d'un groupement tributylstannyl en position alpha ou bêta : réactivité cupro-catalysée des vinylétains en l'absence de complexes du palladium / Regio- and stereoselective synthesis of 4,4,4-trifluorobut-2-enoate carrying a tributylstannyl group in position alpha or beta : copper-catalyzed reactivity of vinyltins in the absence of palladium complexes

Zine, Khalid

16 December 2011

Vu l’importance des molécules fluorées dans différents domaines et vu la réactivité engendrée par le 4,4,4-trifluorobut-2-ynoate d’éthyle 1 lors des travaux antérieurs réalisés au laboratoire, nous avons décidé d’étudier le comportement de dérivé fluoré 1 vis-à-vis d’hydrure tributylétain sans l’emploi de catalyseurs ou d’additifs. Le but est d’accéder à de nouveaux synthons fluorés par voies originales.Après une étude préliminaire pour effectuer cette réaction d’hydrostannation dans les meilleures conditions, nous avons réalisé pour la première fois la synthèse totalement régio- et stéréosélective des vinylétains (Z)-2α et (Z)-2β par un simple choix de solvant et sans l’utilisation d’aucun additif. Ces résultats inédits et très encourageants, nous ont conduis à étendre cette stratégie à d’autres hydrures comme l’hydrure de diphénylphosphine et l’hydrure de triphénylgermane..Les vinylétains (Z)-2α et (Z)-2β- de configurations bien définies sont des réactifs de choix pour élaborer de nouvelles structures fonctionnelles trifluorométhylées. En effet, le couplage cupro-catalysé de ces vinylétains en présence d’une quantité catalytique de CuI (10 moles%) avec une variété de bromures d’allyles, de propargyles, d’aryles, de benzyles et d’alcynyles conduisent à une grande variété de composés fluorés jamais décrits dans la littérature.Les méthodes de synthèse développées dans ce travail sont originales et permettent la synthèse d’une grande famille de composés fluorés avec un moindre coût. / The development of a simple method to obtain perfluoroalkylated building blocks for their subsequent utilization in the synthesis of Rf-containing compounds is therefore essential to organofluorine chemistry. Perfluoroalkylated vinyl metals constitute an important class of these building blocks.In order to prepare a new perfluoroalkylated bulding blocks, we investigated transition metal-catalyzed-free hydrostannylation of ethyl 4,4,4-trifluorobut-2-ynoate 1. The hydrostannylation took place smoothly in the absence of additive, providing regioselectively high yields of the corresponding α or β stannylated alkenoates depending on the nature of the solvent used. Indeed, we have demonstrated that the hydrostannylation of 1 in hexane provided the β-stannylated product with high regioselectivity (>95%) and excellent yield (>97%). Using methanol as solvent, total α-regioselectivity of the hydrostannylation of 1 was observed, providing α -tributylstannylacrylate as the sole regioisomer in a nearly quantitative yield.Theses new vinyltins reagents readily undergo copper (I) catalyst coupling reactions with various electrophiles as allyl, propargyl, benzyl and alkynyl bromides to provide good yields of the new corresponding acrylates esters bearing a β-trifluoromethyl group.This method provided a new efficient entry to this important class of compounds

4,4,4-trifluorobut-2-énoate d'éthyle

Vinylétains

Ethil 4,4,4-trifluorobut-2-enoate

Hydrostannylation

Vinyltins

Regioselectivity

Stereoselectivity

Copper-catalyzed reactions

Allylation

Propargylation

Benzylation

Alkynylation

Acylation

Arylation

Préparation et oligomérisation d’une brique trisaccharidique issue de ressources renouvelables : vers la simplification d’un inhibiteur d’entrée du VIH ? / Preparation and oligomerization of a trisaccharide building bloc issued from agroresources : towards structural simplification of an HIV entry inhibitor ?

Hu, Zhaoyu

02 April 2013

Ce travail de thèse a pour objectif la simplification de la préparation d’un nouveau type d’inhibiteur d’entrée du VIH conçu, synthétisé et validé dans le cadre d’une collaboration entre l’équipe de Glycochimie Moléculaire et Macromoléculaire dont je dépends, l’Institut de Biologie Structurale de Grenoble et l’Institut Pasteur de Paris. Ce prototype est constitué d’un mime fonctionnel de CD4 lié de façon covalente à un fragment dodécasaccharidique d’Héparane Sulfate dont la synthèse est complexe. Nous avons donc proposé de préparer des oligomaltosides sulfatés afin de déterminer s’ils pouvaient se comporter comme des mimes d’Héparane Sulfate.Dans un premier temps, nous avons mis au point la synthèse, en huit étapes et 38 % de rendement global, d’un précurseur trisaccharidique oligomérisable à partir de maltotriose, un trisaccharide biosourcé commercial. Au cours de ce travail, nous avons résolu trois points particulièrement délicats : l’allylation de l’extrémité réductrice du maltotriose, l’installation d’un groupement paraméthoxybenzylidène en position O-4III et O-6III et la protection sélective des positions O-6I et O-6II par un groupement silylé. Les optimisations menées nous ont permis de limiter la formation de produits secondaires, d’augmenter le rendement de chaque étape et de pouvoir mener sans problème cette synthèse sur une échelle d’une dizaine de grammes. Dans un deuxième temps, le précurseur trisaccharidique a été transformé en différents accepteurs et donneurs de glycosyle dont les comportements dans différentes conditions de glycosylation ont été étudiés. Nous avons ainsi pu démontrer qu’une activation des donneurs sous forme de trichloroacetimidate conduisait à des rendements faibles de part la formation d’une quantité importante des produits de réarrangement en trichloroacétamides anomériques. Une activation sous forme de N-Phényltrifluroacétimidate a permis de résoudre ce problème, sans toutefois que les rendements en soient toujours augmentés. En effet, nous avons pu montrer que la nature du groupement protecteur en O-6I du donneur a une influence déterminante sur l’issue de la réaction de glycosylation, tant au niveau de sa stéréosélectivité que de son rendement. Un groupement encombré ou un ester en O-6I du donneur est ainsi indispensable pour avoir une bonne stéréosélectivité alpha. Le meilleur rendement obtenu est, pour le moment, de 56 %. Des optimisations en cours permettront d’augmenter le rendement et de préparer les oligomaltosides sulfatés visés dans un avenir proche afin de tester leur activité biologique. / This work aims at simplifying the preparation of a new type of HIV entry inhibitor, conceived, synthesized and validated within a collaboration between our group, the "Institut de Biologie Structurale" (Grenoble) and the Institut Pasteur (Paris). This prototype is composed of a CD4 functional mimetic linked to a dodecasaccharide fragment of Heparan Sulfate, whose synthesis is complex. In order to determine if Heparan Sulfate may be replaced by simpler sulfated oligosaccharides, we decided to prepare a set of sulfated oligomaltosides.To this goal, we first optimized the synthesis of an oligomerizable maltotrioside building block in eight steps and 38% global yield from maltotriose, a commercial and biosourced trisaccharide. In this work, we had to address three major points: the allylation of the reducing end of maltotriose, the introduction of a paramethoxybenzylidene group between positions O-4III and O-6III and the selective protection of the remaining primary positions O-6I and O-6II by a silylated protecting group. Each step has been optimized to minimize the amount of secondary products and thus to enhance its yield. The resulting synthesis was thus shown to be highly reproducible up to ten grams scale.Then, glycoside acceptors and donors were prepared from the oligomerizable maltotrioside building block and we studied their behaviors in glycosylation reactions. We found that trichloroacetimidate activation led to poor glycosylation yields, due to the competitive formation of trichloroacetamidyl glycoside rearrangement product. Gratifyingly, N-phenyltrifluroacetimidate activation solved the rearrangement problem, but yields sometimes remained low. Indeed, we were able to demonstrate that the nature of the protecting group in position O-6I of the donor strongly influenced both the stereoselectivities and yields of the glycosylations: a bulky or ester group is needed in this position to obtain a full alpha stereoselecticity. To date, the highest yield obtained is 56 %.Ongoing optimizations will allow us to enhance the yields and to prepare the targeted sulfated oligomaltosides in a near future in order to test their biological activity.

Inhibiteur d’entrée du VIH

Glycopeptide

Héparane Sulfate

Oligomaltosides

Glycosylation

Stéréosélectivité α

Synthèse totale.

HIV entry inhibitor

Glycopeptide

Heparan Sulfate

Oligomaltoside

Glycosylation

Α stereoselectivity

Total synthesis