The synthesis and study of polymers with repeating quaternary centres

Allen, Paul Richard

January 1995

No description available.

547

Selective incorporation of the C-F bond as a conformational tool in quadruplex DNA ligand design

Smith, Daniel L.

January 2012

Chapter 1 provides a general introduction to organofluorine chemistry and focuses on recent developments in fluorination techniques. It also details how the C–F bond influences conformational and physiochemical properties of organic molecules. Chapter 2 highlights the biological role of the telomere, telomerase and quadruplex DNA in cells. It discusses the inhibition of telomerase with small molecules that stabilise quadruplex DNA as a treatment for cancer. An overview of the development of structurally related telomerase inhibitors and recent X-ray crystallographic structural data with BSU6039 and BRACO-19 telomeric DNA is presented. Chapter 3 discusses the synthesis of fluorinated BSU6039 analogues for the investigation of the conformational effects of fluorine in 5-membered rings and its influence on binding with quadruplex DNA. These compounds have been successfully co-crystallised with telomeric DNA and their relative stabilisation of telomeric DNA has been assessed. The latter half of this chapter focuses on the co-crystal structures between (S,S)- and (R,R)-144 with Oxytricha nova telomeric DNA, discussing the key differences between the two stereoisomers. Chapter 4 details the synthesis of fluorinated BRACO-19 analogues. The syntheses of such fluorinated analogues were achieved through a base mediated coupling between 3,6-diaminoacridone and an α-fluorinated-β-amino ester. The α-fluorinated-β-amino ester was synthesised through a deoxyfluorination-mediated approach, using the stereochemistry of natural amino acids. Chapter 5 describes the stereo- and regio- selectivity of deoxyfluorination reactions with dipeptides bearing the β-amino alcohol functionality. Understanding this selectivity enabled the development of a method towards α-fluorination of tertiary amides. The application of this fluorination method with an orthogonally protected tertiary amide is described.

547

Stereochemistry of small molecules: Configurational and conformational control

Zhang, Yiqun

09 April 2007

Stereochemistry is important aspect of chemistry that customarily includes the study of the relative spatial arrangement of atoms within molecules (static stereochemistry), and the study of the stereochemical requirements and outcomes of chemical reactions (dynamic stereochemistry). These two branches complement each other in modern stereochemistry. Chiral organometallics feature prominently in organic synthesis as reactive intermediates. The possibility of exploring their stereochemistry in synthesis is associated with the configurational stability of the metal-bearing stereogenic center. We were interested in the configurational stability of lithiated and magnesiated nitriles. We developed a new series of lithio-cyclopropylnitriles bearing chelating groups for intramolecular coordination, as a possible strategy to impart configurational stability. Although this strategy has not yet been successful, using density functional theory (DFT) method, we addressed the effect of chelating groups on racemization via the "conducted tour" mechanism. We then explored metal-bromine exchange on enantiopure bromonitrile as alternative route to metalated nitriles. In this way, we demonstrated that magnesiated 2,2-diphenyl cyclopropylnitrile is configurationally stable on the macroscopic timescale. No other metallated nitrile has ever demonstrated configurational stability on this timescale. In contrast, bromine-lithium exchange of 1-bromo-2,2-diphenyl-cyclopropylnitrile demonstrated fast racemization under the same conditions. Another major project focused on conformational control of acyclic molecules. Using X-ray crystallography and NMR spectroscopy, we found that the 2,6-disubstituted aryl group eclipses its geminal hydrogen, and induces an antiperiplanar relationship of the geminal and vicinal hydrogens. Interestingly, anti-nitrile aldols or syn-ketone aldols bearing 2,6-disubstituted aryl groups demonstrate unanticipated remote effects on acyclic conformation: the 2,6-disubstituted aryl group prefers to be in a gauche position to the largest vicinal group. The minimization of allylic 1,3-strain and syn-pentane-like interaction works together in establishing this conformational preference. / Ph. D.

conformational control

chiral Grignard reagents

halogen-metal exchange

cyclopropylnitrile

configurational stability

3-strain

allylic 1

syn-pentane interaction

nitrile aldol

Développement de nouveaux outils de contrôle conformationnel utilisant des interactions non-covalentes pour effectuer des macrocyclisations

Bolduc, Philippe

11 1900

Les macrocycles ont longtemps attiré l'attention des chimistes. Malgré cet intérêt, peu de méthodes générales et efficaces pour la construction de macrocycles ont été développés. Récemment, notre groupe a développé un programme de recherche visant à développer de nouvelles voies vers la synthèse de paracyclophanes et ce mémoire présente l pluspart des efforts les plus récents dans ce domaine. Traditionnellement, la synthèse de paracyclophanes rigides est facilitée par l'installation d'un groupe fonctionnel capable de contrôler la structure de la molécule en solution (ex un élément de contrôle de conformation (ECC)). Cependant, cette approche utilisant des auxiliaires exige que le ECC soit facilement installé avant macrocyclisation et facilement enlevé après la cyclisation. Le présent mémoire décrit une méthode alternative pour guider la macrocyclisations difficile à travers l'utilisation d'additifs comme ECC. Les additifs sont des hétérocycles aromatiques N-alkylé qui sont bon marché, faciles à préparer et peuvent être facilement ajoutés à un mélange de réaction et enlevés suite à la macrocyclisation par simple précipitation et de filtration. En outre, les ECCs sont recyclables. L'utilisation du nouveau ECC est démontré dans la synthèse des para-et métacyclophanes en utilisant soit la métathèse de fermeture de cycle (RCM) ou couplage de Glaser-Hay. / Macrocycles have long attracted the attention of chemists. Despite that interest, few general and efficient methods for the construction of macrocycles have been developed. Recently our group has developed a research program aimed at developing novel routes towards the synthesis of paracyclophanes and the present thesis details the most recent efforts in this area. Traditionally, the synthesis of rigid paracyclophanes is aided by the installation of functional groups capable of controlling the solution state structure of the molecules (ie. a conformational control element (CCE)). However, this auxiliary-like approach requires that the CCE be readily installed prior to macrocyclization and easily removed following the cyclization. In the present thesis describes an alternative method to guiding difficult macrocyclizations through the use of additives as CCEs is described. The additives are N-alkylated aromatic heterocycles that are cheap, easily prepared and can be easily added to a reaction mixture and removed following the macrocyclization through simple precipitation and filtration. In addition, the CCEs are recyclable. The use of the new CCEs is demonstrated in the synthesis of para- and metacyclophanes using either ring closing metathesis (RCM) or Glaser-Hay couplings.

Paracyclophanes

Metacyclophane

Glaser-Hay

Éléments directeurs chiraux

ring closing olefin metathesis

conformational control element

macrocycles

Développement de nouveaux outils de contrôle conformationnel utilisant des interactions non-covalentes pour effectuer des macrocyclisations

Bolduc, Philippe

11 1900

No description available.

Paracyclophanes

Metacyclophane

Glaser-Hay

Éléments directeurs chiraux

Ring closing olefin metathesis

Conformational control element

Macrocycles