Lewis Acid Mediated Alkylation and Diels-Alder Reactions of 2H-Azirines

Risberg, Erik

January 2002

<p>This thesis describes the use of 2H-azirines as reactivesubstrates in Lewis acid catalysed nucleophilic additions andin the Diels-Alder reaction.A number of carbon nucleophiles have been added to aseries of 2H-azirines in the presence and absence ofBF3·Et2O. 3-(2-Naphthyl)-2H-azirine has been used as amodel substrate in the enantioselective addition oforganolithium reagents to an 2H-azirine.A selection of Lewis acids has been screened for theirpossible use in the normal electron demand Diels-Alder reactionbetween 3-alkyl-, 3-aryl-, and 3- carboxyl-2H-azirines and avariety of dienes. Lewis acid activation was found to shortenreaction times and facilitate lower reaction temperatures.These cycloadditions proceeded with endo selectivity providinga single diastereoisomeric product.DFT calculations of Lewis acid activated 2H-azirineshave been carried out.</p><p><b>Keywords:</b>2H-azirines, Lewis acid activation, chiralligands, organolithium reagents, Diels-Alder reactions,DFT-calculations</p>

2H-azirines

Lewis acid activation

DFT-calculations

Lewis Acid Mediated Alkylation and Diels-Alder Reactions of 2H-Azirines

Risberg, Erik

January 2002

This thesis describes the use of 2H-azirines as reactivesubstrates in Lewis acid catalysed nucleophilic additions andin the Diels-Alder reaction.A number of carbon nucleophiles have been added to aseries of 2H-azirines in the presence and absence ofBF3·Et2O. 3-(2-Naphthyl)-2H-azirine has been used as amodel substrate in the enantioselective addition oforganolithium reagents to an 2H-azirine.A selection of Lewis acids has been screened for theirpossible use in the normal electron demand Diels-Alder reactionbetween 3-alkyl-, 3-aryl-, and 3- carboxyl-2H-azirines and avariety of dienes. Lewis acid activation was found to shortenreaction times and facilitate lower reaction temperatures.These cycloadditions proceeded with endo selectivity providinga single diastereoisomeric product.DFT calculations of Lewis acid activated 2H-azirineshave been carried out. Keywords:2H-azirines, Lewis acid activation, chiralligands, organolithium reagents, Diels-Alder reactions,DFT-calculations / <p>NR 20140805</p>

2H-azirines

Lewis acid activation

DFT-calculations

Lewis acid Mediated Aza-Diels-Alder Reactions and Asymmetric Alkylations of 2H-azirines

Risberg, Erik

January 2004

This thesis describes the use of 2H-azirines, three-membered unsaturatednitrogen-containing heterocycles, as reactive intermediates ina number of Lewis acid promoted alkylations and Diels-Alderreactions providing synthetically useful aziridines. In order to carry out this investigation a new generalprocedure for the ring closure of vinyl azides, forming theresultant 3-substituted-2H-azirines, was developed applying low boiling solventsin closed reaction vessels at elevated temperatures. The addition of organolithium reagents in the presence ofcommercially available chiral ligands, to the 3-(2-naphthyl)-2H-azirine was studied, which gave the correspondingaziridines. Several Lewis acids were shown to catalyze the normalelectron-demand Diels-Alder reaction between 3-alkyl-,3-aromatic-, and 3-ester-substituted 2H-azirines and various dienes. These reactions gave theexpected cycloadducts in moderate yields. Using a chiral auxiliary high diastereoselectivity wasobtained in the addition of alkyl radicals to a8-phenylmenthyl-substituted 2H-azirine-3-carboxylate. The alkyl radicals weregenerated from the corresponding trialkyl borane and molecularoxygen. Hydroborations and transmetallations were used toprepare these trialkylboranes. Catalytic amounts of CuClincreased the diastereoselectivity in the radical additionreactions. Attempts were made to explain how the coordination of aLewis acid to the azirine nitrogen atom affects thereactivity/stability of the azirine. DFT calculations and NMRexperiments involving Lewis acid-azirine complexes wereperformed. Keywords:Enantioselective, diastereoselective, vinylazide, 2H-azirines, aziridines, Lewis acid, chiral ligand,chiral auxiliary, organolithiums, Diels-Alder reaction, alkylradicals, triethylborane.

Enantioselective

diastereoselective

vinyl azide

2H-azirines

aziridines

Lewis acid

chiral ligand

Lewis acid Mediated Aza-Diels-Alder Reactions and Asymmetric Alkylations of 2H-azirines

Risberg, Erik

January 2004

<p>This thesis describes the use of 2<i>H</i>-azirines, three-membered unsaturatednitrogen-containing heterocycles, as reactive intermediates ina number of Lewis acid promoted alkylations and Diels-Alderreactions providing synthetically useful aziridines.</p><p>In order to carry out this investigation a new generalprocedure for the ring closure of vinyl azides, forming theresultant 3-substituted-2<i>H</i>-azirines, was developed applying low boiling solventsin closed reaction vessels at elevated temperatures.</p><p>The addition of organolithium reagents in the presence ofcommercially available chiral ligands, to the 3-(2-naphthyl)-2<i>H</i>-azirine was studied, which gave the correspondingaziridines.</p><p>Several Lewis acids were shown to catalyze the normalelectron-demand Diels-Alder reaction between 3-alkyl-,3-aromatic-, and 3-ester-substituted 2<i>H</i>-azirines and various dienes. These reactions gave theexpected cycloadducts in moderate yields.</p><p>Using a chiral auxiliary high diastereoselectivity wasobtained in the addition of alkyl radicals to a8-phenylmenthyl-substituted 2<i>H</i>-azirine-3-carboxylate. The alkyl radicals weregenerated from the corresponding trialkyl borane and molecularoxygen. Hydroborations and transmetallations were used toprepare these trialkylboranes. Catalytic amounts of CuClincreased the diastereoselectivity in the radical additionreactions.</p><p>Attempts were made to explain how the coordination of aLewis acid to the azirine nitrogen atom affects thereactivity/stability of the azirine. DFT calculations and NMRexperiments involving Lewis acid-azirine complexes wereperformed.</p><p><b>Keywords:</b>Enantioselective, diastereoselective, vinylazide, 2<i>H</i>-azirines, aziridines, Lewis acid, chiral ligand,chiral auxiliary, organolithiums, Diels-Alder reaction, alkylradicals, triethylborane.</p>

Enantioselective

diastereoselective

vinyl azide

2H-azirines

aziridines

Lewis acid

chiral ligand

Nouveaux anti-viraux pour le traitement des affections associées aux virus émergents / New antiviral for the treatment of the infections associated with the emergent viruses

Kasthuri, Mahesh

09 December 2011

Dans un premier chapitre, nous avons présenté un historique succinct de la chimiothérapie antivirale et l'utilisation d'analogues nucléos(t)idiques. Nous nous sommes focalisés en particulier sur les nucléosides phosphonates acycliques (ANP) en tant qu'antiviraux potentiels. Dans un second chapitre, nous avons décrit la synthèse de β-céto, β-hydroxylamino et β-O-(benzyl)hydroxylamino ANP dérivés de l'adénine et de la cytosine. Les isomèrs (R) et (S)-β-hydroxy-ANP ont été préparés par dédoublement du racémique correspondant avec le (S)-MPA et l'attribution des configurations absolues a été effectuée par RMN et calculs de modélisation moléculaire. Nous avons aussi développé une méthodologie de synthèse de β-azido-ANP, ces derniers étant utilisés pour la préparation de β-amino-ANP par hydrogénation catalytique. Dans un troisième chapitre, nous avons présenté la synthèse des 2H-azirine et cis-aziridne-ANP et examiné lʹ ouverture de cycle comme voie d'accès à des ANP α,β-fonctionnalisés. Les propriétés biologiques de ces nouveaux ANP ont été évaluées en culture cellulaire sur un certain nombre de virus à ADN et ARN. / In the first chapter, we presented a brief history of antiviral chemotherapy and use of nucleos(t)ide analogues, especially acyclic nucleoside phosphonates as potential antiviral agents. In the chapter-II we have successfully synthesized ¦Â-keto, ¦Â-hydroxylamino and ¦Â-O-(benzyl)hydroxylamino ANPs of adenine and cytosine derivatives. Then (R) and (S)-¦Â-hydroxy-ANPs were prepared via chiral resolution of racemic ¦Â-hydroxy-ANPs with (S)-MPA and assignment of absolute configuration was achieved using NMR and molecular modeling studies. We also developed a methodology for the synthesis of ¦Â-azido-ANPs and those were used for the preparation of ¦Â-amino-ANPs by catalytic hydrogenation. In third chapter, we synthesized 2H-azirine and cis-aziridine-ANPs and explored their ring opening to functionalized ¦Á,¦Â-ANPs. The novel ANPs obtained during this study were evaluated for their inhibitory effect on a number of DNA and RNA viruses in cell culture experiments.

Anti-viraux

Virus émergents

Nucléotides

Nucleosides phosphonate acyclique

Dedoublement

Antiviral

Emergent viruses

Nucleotides

Acyclic nucleoside phosphonates

Chiral resolution

Ring opening of azirine and aziridines