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Efficient one-pot synthesis of glycosyl disulphidesFalconer, Robert A., Ribeiro Morais, Goreti January 2007 (has links)
No / Methodology for the efficient and facile synthesis of glycosyl disulfides is reported. A one-pot procedure employing mild conditions using diethyl azodicarboxylate is described to synthesise a series of glycosyl disulfides in excellent yields.
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Synthese und Glycosidasehemmung von Thio-analogen Kohlenhydraten / Synthesis and glycosidase inhibition of thio-analogues carbohydratesPeikow, Dirk January 2006 (has links)
Chitin ist ein Polysaccharid, welches aus N-Acetylglucosamin (GlcNAc) aufgebaut ist. Das Biopolymer kommt in der Natur in Invertebraten, Algen, Pilzen und Einzellern vor. Chitinasen hydrolysieren Chitin. Diese Enzyme sind essentiell für die Regulierung und Entwicklung von Arthropoden und Mikroorganismen. Sie fungieren in Pflanzen als Phytoalexine. <br>
Das verstärkt das Interesse am Design neuer natürlicher und synthetischer Chitinase-inhibitoren, die als potentielle Insektizide, Fungizide, Antimalaria bzw. Antiasthmatika eingesetzt werden können. <br><br>
Ziel dieser Arbeit war die Synthese von neuen Thioglycosidanaloga von N-Acetyl-chitooligosacchariden und deren Untersuchung als Enzyminhibitoren. <br><br>
Die geschützten 4-O-Tf-galactopyranosylthioglycoside wurden aus den korrespondierenden p-Methoxyphenylglycosiden von GlcNAc nach einer neuen Methode in einer Stufe hergestellt. Die Reaktion der galacto-Triflate mit 2-Acetamido-3,4,6-tri-O-acetyl-2-desoxy-1-thio-ß-D-glucopyranose in Gegenwart von Natriumhydrid und 15-Krone-5 in THF lieferte die Pseudo-Trisaccharide.<br><br>
Die Herstellung der Glycosyl-Thiazoline aus den entsprechenden p-Methoxyphenyl-glycosiden mit Lawesson's Reagenz ist nach einem neuen Reaktionsweg beschrieben wie auch die Synthese der Thioacetamide von GlcNAc-Oligomeren.<br><br>
Die Pseudo-Oligosaccharide wurden als Inhibitoren der Chitinasen von Serratia marcescens, Chironomus tentans, Acanthocheilonema viteae und Hevaea brasiliensis sowie der N-Acetyl-glucosaminidase von Chironomus tentans getestet. In einigen Fällen ergab sich eine Hemmung (IC50) im µM-Bereich. / Chitin is a polysaccharide composed of N-acetylglucosamine (GlcNAc). The biopolymer is distributed in Invertebrates, algae, fungi and Protozoa. Chitinases hydrolyse chitin. These enzymes are essential for the regulation and development of Arthropoda and micro organisms. In bacteria chitinase degrade chitin as source of carbon and act in plants as phytoalexins.
Currently, there is a great interest in the design of novel natural and synthetic chitinase inhibitors, which may act as potential insecticides, fungicides, antimalaria or antiasthmatics.<br><br>
Thio-oligosaccharides and related thio-glycosides are rarely described in the literature. Thio-analogues of oligosaccharides derived from N-acetylglucosamine are of interest as potential enzyme inhibitors. The synthesis and enzymatic investigations of thio-glycoside analogues of N-acetyl-chitooligosaccharides are described in this thesis.<br><br>
The protected 4-O-Tf-galactopyranosyl thioglycosides were prepared by a new method in one step from the corresponding p-methoxyphenyl glycosides of N-acetylglucosamine. Coupling of galacto-triflates with 2-acetamido-3,4,6-tri-O-acetyl-2-deoxy-1-thio-ß-D-glucopyranose in the presence of sodium hydride and 15-crown-5 in THF, followed by deprotection, afforded the pseudo-trisaccharides. <br><br>
The preparation of glycosyl thiazolines by a new manner from the analogues p-methoxyphenyl glycosides with Lawesson's reagent is also described however the synthesis of thioacetamides of N-acetylglucosamine.<br><br>
The pseudo-oligosaccharides were tested for inhibition of chitinases from Serratia marcescens, Chironomus tentans, Acanthocheilonema viteae, and Hevaea brasiliensis, and also with N-acetyl-glucosaminidase from Chironomus tentans. Inhibition with IC50 values in the µM range was found in a few cases.
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Thio-arylglyocosides with Various Aglycon Para-Substituents, a Useful Tool for Mechanistic Investigation of Chemical GlycosylationsLi, Xiaoning 12 September 2007 (has links)
No description available.
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Étude de la synthèse totale de tétrahydroisoquinoléines naturelles : quinocarcine, Tétrazomine et Lémonomycine. : rapide accés aux α-amidosulfures et leur utilisation en tant que précurseurs de N-acylimines dans la réaction de Friedel-Crafts / Study toward the total synthesis of natural tetrahydroisoquinolines : quinocarcin, tetrazomin and lemonomycin. : rapid acces to α-amidosulfide and its use as N-acylimines precursor in the Friedel-Crafts reactionGeorge, Nicolas 24 November 2011 (has links)
La quinocarcine, la tétrazomine et la lémonomycine constituent une sous-famille appartenant à la famille des tétrahydroisquinoléines trisubstituées naturelles. Ce sont des puissants agents cytotoxiques et possèdent de nombreuses activités biologiques telles qu’antitumorales et antibiotiques. Leur complexité structurale, leurs intérêts biologiques ainsi que leur faible rendement d’extraction du milieu naturel font de ces molécules des cibles attrayantes pour les chimistes de synthèse.Ces trois molécules sont constituées d’une tétrahydroisoquinoléine différemment substitué fusionnée avec un diazabicycle[3.2.1]octane commun. Le but de ce projet était de mettre au point une stratégie commune à cette sous-famille et divergente grâce à la synthèse du diazabicyclooctane en premier. Une première stratégie faisant intervenir une aziridine n’a pas permis de construire le bicycle. Cet objectif a été réalisé grâce à une seconde stratégie. Elle repose sur une première cyclisation d’un hémiaminal puis d’une cyclisation par addition nucléophile d’un éther d’énol silylé sur un N-acylimmonium formé in situ au départ d’un N,S-acétal.Parallèlement à cette étude synthétique, nous avons mis au point une réaction multicomposant séquentielle qui permet l’accès rapide et général aux a-amidosulfures, comblant un manque dans la littérature. Ensuite nous avons étudié la réactivité de ces composés en tant que précurseurs simples de N-acylimines en conditions acides douces. Trois conditions réactionnelles, nous ont permis d’accéder à cette objectif : l’utilisation stœchiométrique d’acétate d’argent, catalytique d’acide phosphorique ainsi que le NIS en quantité stœchiométrique et catalytique. Cette dernière réaction est très attrayante. En effet, ce réactif doux et neutre permet l’élimination efficace du thiol formant la N-acylimine puis son activation pour se faire piéger in situ par un nucléophile. Les rendements atteints sont très hauts en moins de 5 minutes. / Quinocarcin, tetrazomin and lemonomycin constitute a subfamily belonging to the family of natural trisubstituted tetrahydroisquinolines. These are powerful cytotoxic agents and have many biological activities such antitumor and antibiotics. Their structural complexity, biological interests and their low efficiency of extraction of the natural environment make these molecules attractive targets for synthetic chemists.These three molecules are constituted of differently substituted tetrahydroisoquinoline diazabicycle merged with a [3.2.1] octane common. The purpose of this project was to develop a common strategy in this subfamily and divergent with the synthesis of diazabicyclooctane first.A first strategy involving an aziridine failed to build the bicycle. This objective was achieved through a second strategy. It is based on a first cyclization of hemiaminal followed by cyclization of nucleophilic addition of a silyl enol ether of an N-acylimmonium formed in situ from a N, S-ketal.Along with this synthetic study, we developed a multicomponent reaction sequence that allows quick general access to -amidosulfides, filling a gap in the literature. Then we studied the reactivity of these compounds as simple precursors of N-acylimines in mild acidic conditions. Three reaction conditions allowed us to reach this goal: the use of stoichiometric silver acetate, phosphoric acid as catalyst and NIS in catalytic and stoichiometric amount. This last reaction is very attractive. Indeed, this sof and neutral reagent allows the efficient removal of the thiol forming the N-acylimine and its activation to be trapped in situ by a nucleophile. The yields are very high in less than 5 minutes.
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Studies On 2,3-Unsaturated Sugars : Reactivity Switching, Rearrangements And Conjugate AdditionsMukherjee, Arunima 09 1900 (has links) (PDF)
Unsaturated sugars constitute as an important category of carbohydrate precursors in synthesis. Specifically, 1,2- and 2,3-unsaturated glycosides are excellent intermediates to derivatize monosaccharides and as building blocks in organic synthesis. For example, a major utility of 1,2-unsaturated sugars, namely glycals, is the addition reactions to afford 2-deoxy glycosides under acidic conditions and rearrangement reactions to produce 2,3-unsaturated glycosides. Lewis acids favour the formation of 2,3-unsaturated glycosides, whereas, Brønsted acids lead to normal addition products. A mixture of both the product is obtained often, depending on the nucleophiles and the stereochemistry of glycal. Chapter 1 of the thesis describes (i) reactivities of glycals under acidic condition and (ii) a general survey of reactions involving on C2-C3 carbons of monosaccharides.
Glycals are useful precursors to derive a number of functionalized monosaccharide derivatives. A well-known acid catalyzed reaction of glycals is their conversion to 2,3¬unsaturated glycosides, known as the Ferrier products. In a research programme, reactivity switching and selective activation of C-1 or C-3 of 2,3-unsaturated thioglycosides under acid catalyzed condition was undertaken. Thioglycosides are excellent glycosyl donors and can be activated easily. In identifying the reactivities of 2,3-unsaturated thioglycosides, obtained through Ce(IV)-mediated reaction of a glycal, it was intended to study the glycosylation reaction and also the reactivity control of C1-C3 carbons during a glycosylation reaction. Experiments showed that a reactivity switching was possible through activation of either C-1 or C-3. Thus, C-1 glycosylation with alcohol acceptors occurred in the presence of NIS/TfOH, without the acceptors reacting at C-3. On the other hand, reaction of 2,3-unsaturated thioglycosides with alcohols mediated by triflic acid alone led to a transposition of C-1 ethylthio-moiety to C-3 intramolecularly, to form 3-ethylthio-glycals. Resulting glycals underwent glycosylation with alcohols to afford 3-ethylthio-2-deoxy glycosides. However, when thiol was used as an acceptor, only a stereoselective addition at C-3 resulted, so as to form C-1, C-3 dithio-substituted 2-deoxypyranosides. Oxocarbenium ion is the reactive intermediate during activation of a glycosyl donor, and in the case of a 2,3-unsaturated thioglycosides, the oxocarbenium ion may stabilize further by the presence of a C2-C3 unsaturation. Reaction of a nucleophile with allylic oxocarbenium ion may lead to two regio-isomers. Initially, NIS/TfOH was attempted on 2,3–unsaturated sugar with various alcohols and it was found that C-1 was the preferred reactive centre (Scheme 1)
Scheme 1
In order to optimize the reaction for selective nucleophilic attack at C-3, further study was continued by using stoichiometric TfOH, in presence of acceptors alcohols with the intension to activate the double bond. The reaction led to the formation of 2-deoxy O-glycosides with the concomitant transposition of C-1 ethylthio-moiety to C-3 (Scheme 2).
Scheme 2
An important observation was that the transposition of thioethyl group from C-1 to C-3 was highly regioselective. For example, with thiocresol as the nucleophile, there was an addition across the C-2-C-3 double bond to afford C-1, C-3-dithio derivative (Scheme 2). Thus, hard-soft nature of the nucleophiles, as well as, carbon centres helped to rationalize the reactivites.
It was also observed that the intramolecular transposition of thioethyl group is highly stereo-controlled by equatorial C-4 acetoxy group. Thus, thioethyl nucleophile approached selectively at C-3 and afforded trans-diequatorial products. This rationalization was further confirmed through (i) reaction of benzyl protected 2,3-unsaturated thioglycoside, wherein a C-3 epimeric mixture was observed in 1:1 ratio; (ii) galactosyl derivative under similar reaction condition afforded anomeric mixture of 3-(4-methylphenylthio)-O-glycosides, with trans-diaxial orientation of substituent at C-3 (Scheme 3).
Scheme 3
These reactions confirmed the role of C-4 substituent on the carbocation at C-3, through the presence or absence of a neighbouring group participation. In summary, in Chapter 2 the selective activation of either anomeric carbon or C-3 with proper choice of activation and reactivity control at each carbon will be described.
Thioglycosides are excellent glyosyl donor and their glycosylation reactions were well explored. Upon indentifying the intramolecular transposition of thioalkyl/aryl functionality from C-1 to C-3, further investigations was undertaken to utilize the newly formed carbon sulfur bonds at C-3. Realizing a potential for such 3-alkyl/aryl thio 2-deoxy sugar, the Pummerer rearrangement was investigated. For this purpose, the thioalkyl/aryl moiety at C-3 was oxidized first to a sulfoxide. The resulting sulfoxide was allowed to undergo Pummerer rearrangement to afford vinyl sulfide (Scheme 4), resulting from the elimination of HOAc in the thioacetal formed in situ. Having implemented Pummerer rearrangement on a sugar substrate, synthetic utility of the rearrangement product, namely vinyl sulfide was undertaken.
An effort to implement conjugate addition reaction was undertaken, which required the conversion of vinyl sulfide to vinyl sulfoxide in the first step. The conjugate addition reactions were first conducted with alkoxide nucleophiles. The reaction showed that addition of nucleophiles occurred from axial face to furnish manno-configured derivatives as a single diastereomer at sulfinyl sulfur in a moderate yield along with O-deacetylated product. It was also found that O-benzyl protected sugar vinyl sulfoxide was totally resistant to the conjugate addition reaction (Scheme 4).
Scheme 4
In order to find the influence of the substituents in sulfoxide moiety in the addition of nucleophiles, additional study was conducted in which a less hindered thioethyl moiety was installed in place of p-tolylthio moiety. To install ethylthio moiety, a similar sequence of reaction was undertaken as described previously in Scheme 4. Conjugate addition reaction with alkoxide nucleophiles was conducted and analysis of the reaction showed that the addition of alkoxides remained similar, leading to the formation of manno-configuration of substituents (Scheme 5).
Scheme 5
The configuration of the Michael adducts were ascertained from 1H NMR, as well as 2D NMR spectroscopies. H-1 of all adducts appeared as an apparent singlet, consistent with very small J1,2 values. Aryl vinyl sulfoxide afforded conjugate addition product at much higher ratio than corresponding alkyl vinyl sulfoxide. Thus, among aryl and alkyl vinyl sulfoxides, conjugate addition occurred better with the aryl vinyl sulfoxide, indicating a strong electronic effect of aryl group in stabilizing the conjugate anion which would form in situ during nucleophilic addition with vinyl sulfoxide. Therefore, p-tolylthio substituted vinyl sulfoxide served as a more efficient Michael acceptor when compared to the thioethyl substituted vinyl sulfoxide.
Asymmetric environment of vinyl sulfoxides play a vital role during the reaction. Vinyl sulfoxides can exist in two stereochemically distinct conformation which makes the vinyl group electronically dissimilar. In one of the conformer S-O and C-C bonds are coplanar, whereas in the other conformation, these two bonds are opposite to each other. It is agreed generally that vinyl sulfoxides generally try to adopt the most reactive conformer during the reaction in which the C-C and S-O bonds are syn to each other. Thus, the preference for an axial attack would originate from a face anti to the lone pair of electrons on the sulfur of sulfoxide functionality, leading to the formation of the product with manno-configuration. As O-deacetylated vinyl sulfoxide was obtained along with the Michael adducts, it was assumed that one of the epimers of vinyl sulfoxide appeared to be more reactive when compared to the other. Chapter 3 describes implementation of a Pummerer rearrangement in order to synthesize a sugar vinyl sulfoxide and its conjugate addition reactions with alkoxide nucleophiles.
The nucleophilic addition reactions of vinyl sulfoxide with other nucleophiles were studied further. The effect of the substituents of chiral sulfoxides in conjugate addition reactions was also incorporated in the course of reactions. Reactions of amines, carbon and sulfur nucleophiles were undertaken with p-tolylthio-substituted vinyl sulfoxides. The reactions showed formation of the addition-elimination products (Scheme 6). All primary amines, carbon and sulfur nucleophiles afforded C-2 axial epimer, namely, threo-epimer exclusively, wherein secondary amines furnished the equatorial vs axial epimer in 3:1 ratio.
Scheme 6
In order to assess the course of the reaction, vinyl sulfoxide presenting a p-cumenethio¬moiety was installed in place of p-tolylthio moiety. Conjugate addition reactions were performed with both primary as well as secondary amines that showed formation of the C-2 epimeric mixtures. With both the primary and secondary amines C-2 equatorial epimer was found to be as the major product (Scheme 7).
Scheme 7
In conjugate addition of vinyl sulfoxides, nucleophiles approach the olefinic face preferentially, which is anti to the electron rich sulfur lone pair of electrons and syn to the bulky aryl group. Therefore, C-2 axial epimer was observed as most favourable product. However, secondary amines remarkably influenced the pattern as well as selectivity of the reaction. Steric considerations were likely to dictate the overall reactivity with secondary amines which was even more pronounced when using p-cumenethio-substituted vinyl sulfoxide. Chapter 4 describes the conjugate additions as well as remote effect of aryl substituent on the selectivity of addition of amines on sugar sulfoxide
In summary, the Thesis establishes:
A new reactivity of switching and a selective activation of 2,3-unsaturated thioglycoside; A Pummerer rearrangement route in order to synthesize sugar vinyl sulfide for the first time, which on selective oxidation furnish a sugar vinyl sulfoxide, a useful precursor for conjugate addition reactions; An assessment of the stereoelectronic, as well as, steric effect of the chiral vinyl sulfoxide with various nucleophiles in conjugate addition reactions; Influence of the protecting groups were also studied in conjugate addition reactions.
Overall the study presented in the Thesis provides a new insight to unsaturated sugars. The salient features of the present findings also showed that the intermediates such as C-3 substituted thioalkyl/aryl glycosides, vinyl sulfides, a variety of new C-2 substituted vinyl sulfoxides are also the potential sites for many types of modifications in monosaccharides.
(For structural formula pl see the pdf file)
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Dynamic Sulfur Chemistry : Screening, Evaluation and CatalysisCaraballo, Rémi January 2010 (has links)
This thesis deals with the design, formation and evaluation of dynamic systems constructed by means of sulfur-containing reversible reactions, in organic and aqueous media and under mild conditions. In a first part, the synthesis of thioglycoside derivatives, constituting the biologically relevant starting components of the dynamic systems, is described. In addition, the pD-profile of the mutarotation process in aqueous media for a series of 1-thioaldoses is reported and revealed an astonishing beta-anomeric preference for all the carbohydrate analogs under acidic or neutral conditions. In a second part, the phosphine-catalyzed or -mediated disulfide metathesis for dynamic system generation in organic or aqueous media is presented, respectively. The direct in situ 1H STD-NMR resolution of a dynamic carbohydrate system in the presence of a target protein (Concanavalin A) proved the suitability and compatibility of such disulfide metathesis protocols for the discovery of biologically relevant ligands. In a third part, hemithioacetal formation is demonstrated as a new and efficient reversible reaction for the spontaneous generation of a dynamic system, despite a virtual character of the component associations in basic aqueous media. The direct in situ 1H STD-NMR identification of the best dynamic beta-galactosidase inhibitors from the dynamic HTA system was performed and the results were confirmed by inhibition studies. Thus, the HTA product formed from the reaction between 1-thiogalactopyranose and a pyridine carboxaldehyde derivative provided the best dynamic inhibitor. In a fourth and final part, a dynamic drug design strategy, where the best inhibitors from the aforementioned dynamic HTA system were used as model for the design of non-dynamic (or “static”) beta-galactosidase inhibitors, is depicted. Inhibition studies disclosed potent leads among the set of ligands. / QC 20100621
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Étude de la synthèse totale de tétrahydroisoquinoléines naturelles : quinocarcine, Tétrazomine et Lémonomycine. : rapide accés aux α-amidosulfures et leur utilisation en tant que précurseurs de N-acylimines dans la réaction de Friedel-CraftsGeorge, Nicolas 24 November 2011 (has links) (PDF)
La quinocarcine, la tétrazomine et la lémonomycine constituent une sous-famille appartenant à la famille des tétrahydroisquinoléines trisubstituées naturelles. Ce sont des puissants agents cytotoxiques et possèdent de nombreuses activités biologiques telles qu'antitumorales et antibiotiques. Leur complexité structurale, leurs intérêts biologiques ainsi que leur faible rendement d'extraction du milieu naturel font de ces molécules des cibles attrayantes pour les chimistes de synthèse.Ces trois molécules sont constituées d'une tétrahydroisoquinoléine différemment substitué fusionnée avec un diazabicycle[3.2.1]octane commun. Le but de ce projet était de mettre au point une stratégie commune à cette sous-famille et divergente grâce à la synthèse du diazabicyclooctane en premier. Une première stratégie faisant intervenir une aziridine n'a pas permis de construire le bicycle. Cet objectif a été réalisé grâce à une seconde stratégie. Elle repose sur une première cyclisation d'un hémiaminal puis d'une cyclisation par addition nucléophile d'un éther d'énol silylé sur un N-acylimmonium formé in situ au départ d'un N,S-acétal.Parallèlement à cette étude synthétique, nous avons mis au point une réaction multicomposant séquentielle qui permet l'accès rapide et général aux a-amidosulfures, comblant un manque dans la littérature. Ensuite nous avons étudié la réactivité de ces composés en tant que précurseurs simples de N-acylimines en conditions acides douces. Trois conditions réactionnelles, nous ont permis d'accéder à cette objectif : l'utilisation stœchiométrique d'acétate d'argent, catalytique d'acide phosphorique ainsi que le NIS en quantité stœchiométrique et catalytique. Cette dernière réaction est très attrayante. En effet, ce réactif doux et neutre permet l'élimination efficace du thiol formant la N-acylimine puis son activation pour se faire piéger in situ par un nucléophile. Les rendements atteints sont très hauts en moins de 5 minutes.
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