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The synthesis of enantiomerically pure amino acidsFraser, Joanne Louise January 1995 (has links)
No description available.
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An Ireland-Claisen approach to beta-hydroxy alpha-amino acidsTellam, James Peter January 2010 (has links)
No description available.
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Chiral aldimines in diastereoselective carbon nucleophile additionsDema, Haythem Karim 27 July 2012 (has links)
No description available.
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Conformational Analysis Of Designed Alpha-Omega Hybrid PeptidesRoy, Rituparna Sinha 03 1900 (has links) (PDF)
The insertion of ω- amino acid residues as guests into host α-peptide sequences permits expansion of the range of polypeptide secondary structures. The term ω- amino acid is used to refer to the entire family of residues generated by homologation of the backbone of α - amino acid residues. This explores the consequences of insertion of substituted β-residues (β3) , unsubstituted β-residues , unsubstituted γ-residues (gamma aminobutyric acid) and unsubstituted δ-residues (delta aminovaleric acid) into host α -peptide sequences. Chapter 1 provides an introduction to the conformational properties of β-peptides and reviews current literature on the structural features of peptides containing ω-amino acid residues. The available crystallographic information is summarized. The conformational properties of β- residues may be described by three degrees of torsional freedom : φ (N – Cβ) , θ (Cβ -Cα) and ψ (Cα-CO). Similarly, the conformational properties of γ -residues is based on four torsional parameters ( φ , θ1 , θ2, ψ) and the conformational properties of δ - residues is based on five degrees of freedom ( φ , θ1 , θ2, θ3,ψ). The rational use of β -residues in peptide design requires an understanding of the nature of local conformations, which are readily accessible. The conformational space for β -residues can be represented in a three dimensional plot. The observed distribution of φ , θ and ψ values for β -residues in peptide crystal structures presented in this section permits a correlation
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between the torsion angle θ and the secondary structure context. The gauche (g+ and g ) conformations induce helical folding and the trans conformation is generally observed in the strands of a hairpin. The most striking feature of hybrid sequences is the observation of novel hydrogen bonded rings in peptide structures.
Chapter 2 describes the effects of insertion of β-residues into specific positions in the strand segments of designed peptide hairpins. Insertion of β -residues into the strands of a hairpin changes the orientation of peptide bonds, resulting in a “polar sheet” arrangement. The conformational analysis of three designed peptide hairpins composed of α/β - hybrid segments are described: Boc-Leu-βPhe-Val-DPro-Gly- Leu-βPhe-Val-OMe (BBH8) , Boc-βLeu- Phe-βVal-DPro-Gly-βLeu-Phe-βVal-OMe (BAB8) and CF3COO-H3N+-Leu-Val-Val-βPhe-DPro-Gly-βPhe-Leu-Val-Val-OMe (BHFF10). All the peptides have been characterized by 500 MHz 1H-NMR spectroscopy and several crucial long range NOEs confirm a predominant population of β-hairpin conformations in CD3OH. X-ray diffraction studies on single crystals of peptide BBH8 reveal a β-hairpin conformation, stabilized by three cross-strand hydrogen bonds and a Type II′β-turn at the DPro-Gly turn segment. Designed β-hairpin peptide scaffolds may be used to probe cross-strand sidechain interactions in β-sheet structures. A previously reported peptide β-hairpin, Boc-Leu-Phe-Val-DPro-Gly-Leu-Phe-Val-OMe exhibited an anomalous far UV CD spectrum, which was interpreted in terms of interactions between facing aromatic chromophores, Phe 2 and Phe 7 (Zhao, C.; Polavarapu, P.L.; Das,C. and Balaram, P. J. Am. Chem. Soc., 2000, 122, 8228-8231). In BBH8 and BHFF10 the two cross-strand βPhe residues are at non-hydrogen bonding positions, with the benzyl sidechains pointing on opposite faces of the β- sheet. BBH8 yields a “hairpin –like” CD spectrum, with a minimum at 224 nm. The CD spectrum of BAB8 reveals a negative band at 234 nm and a positive band at 221 nm suggestive of an exciton split doublet. BHFF10 yields a “hairpine-like” CD spectrum, with a negative band at 220 nm.
Chapter 3 describes the synthesis and conformational characterization of three hybrid decapeptides : Boc-Leu-Val-βGly-Val-DPro-Gly- Leu-βGly -Val-Val-OMe (BHB10), Boc-Leu-Val-γAbu-Val-DPro-Gly- Leu-γAbu -Val-Val-OMe (BHC10) and Boc- Leu-Val-δAva-Val-DPro-Gly- Leu-δAva -Val-Val-OMe (BHD10). These peptides were designed to systematically investigate the effect of insertion of additional methylene groups into the strands of a hairpin. The incorporation of additional carbon atoms changes the local polarity of the strands. 500 MHz NMR studies establish that BHB10 and BHD10 adopt predominantly β- hairpin conformations in methanol, with interstrand registry established by observation of long range NOEs. The observation of both DPro 4 (CαH) ↔ Gly 5 (NH) and Gly 5 (NH) ↔ Leu 6 (NH) NOEs provides evidence for a Type II ′β - turn for all the hairpins. In BHC10, no long range NOEs were observed. However, X-ray diffraction studies in single crystals reveal a β- hairpin conformation, nucleated by a DPro-Gly Type II′β-turn.
Chapter 4 describes an attempt to incorporate one or two ω amino acid residues in the turn region of a potential hairpin, in order to assess the effect of expansion of the nucleating turn. The DPro-LPro segment has been shown to stabilize β-hairpin conformations in both cyclic (Shankaramma,S.C.; Moehle, K. ; James, S.; Vrijbloed, J.W.; Obrecht,D and Robinson, J.A. Chem Commun. 2003,1842-1843) and acyclic sequences ( Raj Kishore Rai ; S.Raghothama and P. Balaram , unpublished results) . In the present study the following turn segments have been considered: βDPro -αLPro , βLPro -αLPro and βLPro -αDPro. The synthesis and conformational analysis of three octapeptide sequences -Boc-Leu-Phe-Val-βDPro-αLPro-Leu-Phe-Val-OMe (βDPαLP8), Boc-Leu-Phe-Val-βLPro-αLPro-Leu-Phe-Val-OMe (βLPαLP8)and Boc-Leu-Phe-Val-βLPro-αDPro-Leu-Phe-Val-OMe (βLPαDP8) are described. In the βDPro-αLPro peptide, NMR evidence clearly supports a β-hairpin conformation, with a nucleating hybrid βα turn stabilized by a C11 (4 →1) hydrogen bond. In the other two octapeptides, no evidence for folded structures was obtained. These results suggest that nucleating turn formation is facilitated only in the heterochiral βD-αL case. Further expansion of the turn segment in potential hairpins has been investigated by inserting two contiguous β-residues into the center of a host α-peptide sequence. The conformational studies on two synthetic hexapeptides, Boc-Leu-Phe-βDPhe-βLPro-Phe-Leu-OMe (βDFβLP6) and Boc-Leu-Phe-βLPhe-βLPro-Phe-Leu-OMe (βLFβLP6) suggest that the βDPhe-βLPro segment is capable of forming a C12 turn in methanol. Two octapeptide sequences, Boc-Leu-Val-Leu-βDPhe-βLPro-Leu-Phe-Val-OMe (βDFβLP8N) and Boc-Leu-Val-Val-βDPhe-βLPro-Leu-Val-Val-OMe (βDFβLP8V) have also been investigated to probe the possible formation of hairpin structures. In these cases, spectroscopic analysis is hampered by the presence of multiple conformations, because of the tendency of the βDPhe-βLPro bond to exist in both cis and trans conformations.
NMR studies on the conformational properties of a hexapeptide Boc-Leu-Val-βDPro-βLPro-Leu-Phe-OMe (βDPβLP6) in CDCl3 reveal that in the major conformer the Val 2(NH) ↔ Leu 5 (NH) NOE is observed, suggesting the presence of a 12-membered hydrogen bonded turn.
A ββ - segment can give rise to two types of hydrogen bonded rings , 10 – membered (C10) and 12- membered (C12). In an attempt to generate C10 turns, an N-methylamino acid has been inserted next to a ββ - segment, preventing the formation of the 12 – membered turn. In such a situation formation of a 10-membered turn, with reverse hydrogen bond directionality, may be facilitated. The conformational properties of Boc-Leu-Val-βDPhe-βLPro-(N-Me) Leu- Phe-OMe (βDFβLPNMeL6) has been studied by 500 MHz NMR spectroscopy. The data suggests the formation of a C11 turn at the βLPro- (N-Me) Leu segment in CDCl3-DMSO mixtures, instead of formation of a C10 turn at the βDPhe -βLPro segment. Studies on the peptide Boc-Leu-Phe-Val-βLPro-(N-Me) Leu-Leu-Phe-Val-OMe (βLPNMeL8) also suggest the absence of turn formation and folded structures.
In hybrid sequences, an important question to be addressed is whether ω amino acids can be accommodated into helical structures. Two contiguous β- residues have been inserted into a helical sequence. The conformational properties of a 11- residue peptide, Boc-Val-Ala-Phe-Aib-βVal-βPhe-Aib-Val-Ala-Phe-Aib-OMe (ABA11) are described in Chapter 5. This sequence was based on the parent α- peptide Boc-Val-Ala-Phe-Aib-Val-Ala-Phe-Aib-Val-Ala-Phe-Aib-OMe, which adopted a complete helical conformation in crystals (Aravinda, S.; Shamala, N.; Das, C .; Sriranjini, A.; Karle, I.L. and Balaram, P. J. Am. Chem. Soc. 2003, 125, 5308-5315). 500 MHz 1H-NMR studies establish a continuous helix over the entire length of the peptide in CDCl3 solution , as evidenced by diagnostic nuclear Overhauser effects. The molecular conformation in crystals reveals a continuous helical fold, stabilized by seven intramolecular hydrogen bonds. The characterization of two synthetic octapeptides Boc-Val-Ala-βPhe-Aib-Val-Ala-βPhe-Aib-OMe (VAβFU8) (βPhe residues have been incorporated at (i /i+4 positions) and Boc-Val-Ala-βPhe-Aib-βPhe-Ala-Val-Aib-OMe (βFUβF8) (βPhe residues have been incorporated at (i /i+2 positions) is also presented. NMR data suggests the retention of helical conformation in both the peptides. In order to delineate the conformations of hybrid peptides with three contiguous β-residues, two peptides have been synthesized Boc-Phe-Aib-βGly-βLeu-βPhe-Aib-Val-Ala-Phe-Aib-OMe (ABA10) and Boc-Val-Ala-Phe-Aib-βGly-βLeu-βPhe-Aib-Val-Ala-Phe-Aib-OMe (ABA12). NMR studies in chloroform support continuous helical conformation in the decapeptide.
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Stereochemical And Synthetic InvestigationsVenu, Lingampally 11 1900 (has links) (PDF)
PART I
RESOLUTION AND DESYMMETRISATION
Chapter I. ‘A Novel Racemate Resolution’. This describes a novel resolution strategy as applied to racemic α-amino acids in the solid state. The strategy is based on the possibility that second order asymmetric transformations (SOAT) would be more likely in the case of achiral molecules that form chiral crystals (i.e. a non- centrosymmetric space group).1 In such cases, a fundamental requirement of SOAT – that the molecules racemise in solution prior to crystallization – is obviated. Furthermore, the resulting enantiomerically-enriched crystals may be employed to effect a solid-state kinetic resolution of a different racemate (composed of chiral molecules). This strategy was explored with crystalline succinic anhydride (1, Scheme 1), which not only exists in a non-centrosymmetric space group (P212121) but also possesses reactive functionality to effect the resolution step.2
Thus, a finely-ground mixture of 1 (0.5 eqiv.) and a racemic α-amino acid (2, 1.0 eqiv.) was heated at ~ 70 oC over ~ 5 h without solvent. The resulting N-succinoyl derivative (3) was separated from the unreacted 2, which was found to possess significant levels of optical purity (typically ~ 70%). The strategy was applied to several common α-amino acids, the results being summarized in Table 1. These results, apart from establishing ‘proof-of-concept’ and the viability of the resolution strategy, indicate that crystalline succinic anhydride (1) is enantiomerically enriched as originally hypothesized.
Chapter II. ‘Enantiospecific Alkylation and Desymmetrisations’. This deals with two enolate-mediated strategies of asymmetric synthesis: one describes approaches towards the alkylation of the stereogenic centre in benzoin without loss of stereogenicity (Section A), and the other the desymmetrisation of a meso tartarate derivative with a chiral base catalyst (Section B).
Section A. This describes exploratory studies aimed at achieving the enantiospecific α-alkylation of optically-active benzoin (4, Scheme 2) via its enolate anion 5. The strategy depends on the possibility that 5 would exist in atropisomeric forms, because of steric interactions between the vicinal phenyl groups. (This is indicated in the crystal structure of the analogous enediol carbonate derived from racemic 4.)3 In such a case, remarkably, 5 would be chiral, despite its planar enediolate core! Thus, possibly, the configurational chirality in 4 (by virtue of the C2 stereogenic centre) would be transformed to the helical chirality in 5 (by virtue of the atropisomerism). Furthermore, enantioface-selective alkylation of 5 with achiral alkylating agents would, in principle, be possible.
Preliminary studies were then directed towards establishing that controlled deprotonation of optically-active 4, followed by the protonation of the resulting enediolate 5, leads back to the original 4. (+)-Benzoin (4) was prepared via resolution,4 and deprotonated with KH in THF.5 The resulting enediolate (5) was neutralized with acetic acid at -70 oC/THF to recover 4, but with insignificant levels of optical activity (e.e. ~ 12%). The results possibly indicate that ortho-substituted benzoin analogs may show greater retention of chirality upon deprotonation, as the racemisation of the enediolate atropisomers would be suppressed by steric hindrance between the aryl moities.
Section B. This describes studies directed towards the catalytic desymmetrisation of meso dimethyl tartarate (6, Scheme 3). The strategy involves the formation of the acetonide derivative 7 and its regioselective α-deprotonation with a chiral base catalyst. The enantioface-selective protonation of the resulting enolate (8) would lead to the chiral analog 9. The overall sequence offers a possible alternative to catalytic deracemisation, which is normally unviable for thermodynamic reasons.6
The above strategy hinges on the meso derivative 7 being thermodynamically less stable than the enantiomeric 9, which would thus be favoured at equilibrium. In fact, this is likely as the eclipsing interactions between the syn ester moieties in 7 would be relieved in 9, in which the ester moieties are anti.
However, deprotonation of 7 at the other α position would compete to varying extents, depending on the selectivity induced by the chiral base. At total equilibrium, the sequence would occur via deprotonation at both α sites at equal rates, and no net optical induction would be observed. (This is a thermodynamic requirement via the principle of microscopic reversibility.) Thus, the success of the above strategy depends on stalling the deprotonation-protonation sequence at a quasi-equilibrium stage involving only one of the enantiomers (9).6
The other operational requirement was the compatibility of the pKa’s of 7 and the chiral base employed: too low a pKa of the base would result in inefficient deprotonation and slow overall rate, but a high pKa would generate a large quantity of the enolate 8 at equilibrium. After due consideration, the lithiated chiral fluorene derivative 11 (pKa ~ 22) was chosen as the chiral base catalyst [11 was prepared from fluorene (10) as indicated].
Treating 7 with 0.2 equivalent of 10 in THF at -65 oC over 2 h, led to the formation of a mixture of 7 and 9 in a 45:55 ratio (isolated in 85% total yield). Chromatographic separation of the mixture led to the isolation of pure (+)-9, which was identified spectrally; it was found to possess [α]D24 = +21.84 (c 1.0, CHCl3), corresponding to e.e. = 64%. (This implies the indicated (4S, 5S) configuration for 1, 3-dioxolane 9, as previously reported.)7 These results, despite the moderate e.e. levels obtained, indicate the viability of the above catalytic desymmetrisation strategy, bearing in mind the mechanistic ambiguities mentioned above.
PART II
SYNTHESES OF ALDEHYDES AND AMINO ACIDS
Chapter III. ‘An Asymmetric Synthesis of Aldehydes’. This describes an oxazoline approach to the synthesis of chiral aldehydes. The oxazoline methodology for the synthesis of homochiral α-alkylated carboxylic acids is well known,8 and it was of interest to adapt this to the synthesis of the corresponding aldehydes. Essentially, it was envisaged that the reaction sequence could be diverted towards aldehydes via reduction of the alkylated oxazoline intermediate (Scheme 4).
Thus, 2-ethyl-4(S)-methoxymethyl-5(R)-phenyl-1,3-oxazoline (12) was deprotonated with lithium diisopropylamide in THF, and the resulting anion treated with various alkyl halides, in the reported manner.8 The resulting alkylated product (13) was N-methylated with MeI in refluxing MeNO2 over 6 h, to obtain the quaternary salt 14. This was reduced with NaBH4 in MeOH to obtain the expected N- methyl oxazolidine 15, which was hydrolyzed in refluxing aqueous oxalic acid to the free aldehydes 16. These were isolated in moderate yields and e.e. values as shown.
Chapter IV. ‘A Darzens Route to α-Amino Acids’. This describes a novel route to α-amino acids, based on the classical Darzens glycidic ester synthesis.9 In this approach (Scheme 5), the glycidic ester (19) was prepared from benzaldehyde (17) and t-butyl bromoformate (18), with KOH in THF as base, and tetrabutylammonium bromide (TBAB) as phase transfer catalyst.9b The oxirane ring in 19 was cleaved via nucleophilic attack with an amine (20), to furnish the two regio-isomeric hydroxy- amino acids (21) and (22). Generally, the β-hydroxy-α-amino acid product (21) predominated over the α-hydroxy-β-amino acid product (22), the two being separated chromatographically. The hydroxyl group in 21 was reductively cleaved via its xanthate derivative (23), by refluxing it in toluene with AIBN (10 mol %) over 4 h. The resulting α-amino acid derivatives (24) were obtained in moderate yields (< 60
%) upon chromatographic purification. (The β-amino analog 22, would lead to the corresponding β-amino acid, but this was not pursued further.)
This strategy lends itself to creating structural diversity at the β-centre in the α- amino acid, drawing upon the wide scope of the well-established Darzens condensation reaction. Also, the introduction of the amino moiety is facilitated by the enhanced reactivity at the α-centre of the oxirane ring in the glycidic ester (19), presumably for both electronic and steric reasons.
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Novel Cinchona Alkoloid Derived Ammonium Salts as Phase-Transfer Catalysts for the Asymmetric Synthesis of Beta-Hydroxy Alpha-Amino Acids Via Aldol Reactions and Total Synthesis of Celogentin C.Ma, Bing 16 June 2009 (has links) (PDF)
Project I. Cinchona alkaloid-derived quaternary ammonium salts have been successfully used as phase-transfer catalysts, particularly in asymmetric alkylations. Our group applied this type of catalyst in the synthesis of β-hydroxy α-amino acids via aldol reactions and discovered that the Park-Jew catalyst afforded good yields and good enantiomeric excess of the syn diasteromers, but negligible diastereoselectivity. This project was therefore focused on the synthesis of novel cinchonidine-derived catalysts with the Park-Jew catalyst as the lead structure. The C3 position of cinchonidine nucleus was modified to achieve dimers and catalysts possessing electron-deficient alkyne and alkene moieties. Synthesized catalysts were tested in the asymmetric aldol reactions, with some of them yielding improvements relative to the Park-Jew catalyst.
Project II. Celogentin C is a natural product that was isolated from the seeds of Celosia argentea by Kobayashi in 2001. It is the most potent inhibitor of the polymerization of tubulin from among the celogentin family. The novel bicyclic octapeptide structure contains unusual linkages between leucine β-carbon and indole C-6 of tryptophan and between tryptophan indole C-2 and imidazole N-1 of histidine. The project culminated in the first total synthesis of celogentin C. Reaction conditions were developed by synthesizing the left-hand ring and the right-hand ring separately, and the total synthesis was accomplished via a left to right strategy. Key transformations in the construction included intermolecular Knoevenagel condensation, radical conjugate addition, macrolactamization, and oxidative coupling.
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Synthèse et application des 1-nitrocyclopropanecarboxylates de méthylePoirier, Maude January 2008 (has links)
Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal.
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Synthese biomimetique de composes azotes biologiquement actifs / Biomimetic synthesis of biologically active nitrogen-containing compoundsCapra, Julien 17 March 2011 (has links)
Ce travail de thèse est consacré à la synthèse de composés azotés biologiquement actifs s’inspirant notamment d’une réaction biosynthétique. Dans un premier temps, nos travaux avaient pour but de développer une nouvelle voie d’accès aux acides alpha-aminés par une réaction d’isomérisation énantiosélective d’imines. Après différentes études préliminaires, les meilleurs précurseurs d’acides alphaaminés par cette méthode que nous ayons identifiés sont les alpha céto amides. L’isomérisation 1,3 d’une imine formée à partir d’un alpha céto amide et de la diphénylméthanamine à l’aide de différents alcoolates chiraux a été réalisée. L’utilisation de l’alcoolate dérivé de la (+)-N-méthylpseudoéphédrine, employé en quantité sub-stœchiométrique, a permis d’obtenir l’alpha amino amide correspondant avec un excès énantiomérique de 67%. Il reste encore à mettre au point des conditions opératoires satisfaisantes pour la conversion de cet adduit en acide alpha aminé. L’étude de l’isomérisation 1,3 d’imines nous a permis de mettre en évidence une réaction de déshydrogénation 1,4 permettant d’accéder de façon originale à des 2-azadiènes et nécessitant la présence d’oxygène. Ainsi, plusieurs 2-azadiènes non activés ont été préparés par traitement basique d’imines issues de la condensation d’acétophénones et de diphénylméthanamine sous atmosphère d’air. Dans une dernière partie, l’étude de l’addition conjuguée d’une oxazolidinone chirale sur des alkylidènemalonates de dialkyle a été réalisée dans le but de développer une méthode d’accès à des acides alpha aminés. Les conditions opératoires mises au point ont permis d’obtenir une excellente diastéréosélectivité à partir de la plupart des alkylidènemalonates de dialkyle. / This thesis work is devoted to the synthesis of biologically active nitrogen-containing compounds, particularly inspired by a biosynthetic reaction. Initially, our work aimed to develop a new pathway to a-amino acids using anenantioselective imine isomerization reaction. After various preliminary studies, the best precursors of a-amino acids that we have identified are a-keto amides. The 1,3isomerization of an imine formed from an a-keto amide and diphenylmethanamine using various chiral alkoxides was then conducted. The alkoxide derived from (+)-N-méthylpseudoéphédrine, employed in sub-stoichiometric quantities, allowed obtaining the corresponding a-amino amide with 67% enantiomeric excess. It still remains to develop satisfactory operating conditions for the conversion of this adduct to an a-amino acid.The study of the 1,3 isomerization of imines allowed us to bring to light a 1,4 dehydrogenation reaction, which allows an original access to 2-azadienes and which requires the presence of oxygen. Thus, several non-activated 2-azadienes have been prepared by basic treatment of imines derived from acetophenones anddiphenylmethanamine, under air atmosphere.In the last part, the study of the conjugate addition of a chiral oxazolidinone on dialkyl alkylidenemalonates was carried out, with the aim to develop a method of access to enantiopure b-amino acids. Reactions conditions developed allowed to obtain an excellent diastereoselectivity from most dialkyl alkylidenemalonates.
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Synthèse et application des 1-nitrocyclopropanecarboxylates de méthylePoirier, Maude January 2008 (has links)
Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal
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Synthesis, structural investigations and evaluation of pyrazine sensitizers for lanthanides emitting in near-infrared and novel phosphine derivatives / Synthèse, étude structurale et évaluation de sensibilisateurs pyraziniques de lanthanides émettant dans le proche infrarouge et de nouvelles phosphinesCieślikiewicz-Bouet, Monika 18 October 2012 (has links)
En raison de l’omniprésence des hétérocycles azotés et de leurs propriétés biologiques, une attention particulière est accordée au développement de méthodologie pour leur synthèse et leur fonctionnalisation. L’étude de la fonctionnalisation d’énamides constitue une thématique importante car ces motifs s’avèrent être des outils synthétiques polyvalents permettant d’accéder à des dérivés hétérocycliques complexes. Les réactions de couplage Pd-catalysées constituent une méthode de choix rapide et efficace pour la synthèse d'énamides, notamment à partir de phosphates d'énols issus de lactames, d’imides ou d’amides. Le premier chapitre de ce travail porte sur le couplage organopalladié C-P de phosphines boranes secondaires chirales ou achirales avec des phosphates d’énols. Ce couplage C-P original, réalisé dans des conditions douces, conduit aux énamido-phosphines boranes correspondantes et offre de nombreuses possibilités pour la constitution d’une librairie de phosphines originales. Parallèlement à ce travail, l’addition nucléophile d’anions phosphures sur divers ène-carbamates acycliques conduit à des acides alpha-aminés béta-phosphorés originaux, porteurs d’un carbone quaternaire en alpha de l’azote. Le deuxième chapitre de la thèse porte sur la préparation et la caractérisation de chromophores organiques originaux basés sur un noyau pyrazinique et qui sont susceptibles de présenter des propriétés de fluorescence. Ces composés sont conçus pour former des nouveaux systèmes sensibilisateurs de cations de lanthanides, et être utilisés comme sensibilisateurs organiques pour l'imagerie moléculaire dans le proche infrarouge. / On account of the ubiquity of nitrogen heterocycles and their biological properties, the great attention is paid to developing methodologies of their synthesis and functionalization. For this purpose, the study of functionalization of enamides constitutes an important topic due to the utility of these motifs in the construction of complex heterocyclic derivatives. Palladium-catalyzed reactions of cross- coupling are rapid and efficient methods of choice for synthesis of enamides particularly starting from enol phosphates derived from lactams, imides or amides. The first chapter of the thesis evokes the original C-P coupling reaction of chiral and achiral secondary phosphine boranes with different enol phosphates in mild reaction conditions, leading to corresponding enamido-phosphine boranes. This methodology permits the construction of libraries of novels phosphines. Also, the reaction of nucleophilic addition of phosphide anions onto various enecarbamates acyclic was elaborated, giving an access to original beta-phosphino alpha-amino acids, bearing the quaternary carbon on alpha position to nitrogen. The second chapter is devoted to the preparation and characterization of organic chromophores based on the pyrazinic core, which are likely to exhibit the fluorescence properties. These compounds were designed to form new sensitizing systems for lanthanide cations and could be used as organic sensitizers for molecular imaging in near infrared.
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