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1	Stereoselective Synthesis Of Optically Active Cyclitol Precursors Via Chemoenzymatic Method And Synthesis Of A Nucleoside Precursor Oguzkaya, Funda 01 June 2006 (has links) (PDF) ABSTRACT STEREOSELECTIVE SYNTHESIS OF OPTICALLY ACTIVE CYCLITOL PRECURSORS VIA CHEMOENZYMATIC METHOD AND SYNTHESIS OF A NUCLEOSIDE PRECURSOR Oguzkaya, Funda M.S., Department of Chemistry Supervisor: Prof. Dr. Cihangir Tanyeli June 2006, 99 pages &amp / #945 / &#039 / -acetoxylation of &amp / #945 / ,&szlig / -unsaturated cyclic ketones was adjusted via Mn(OAc)3 in regioselective manner. Then, PLE hydrolysis was carried out so as to afford enantiomerically enriched &amp / #945 / &#039 / -acetoxylated and &amp / #945 / &#039 / -hydroxylated cyclic compounds. From our knowledge about the literature and previous works dealing with &amp / #945 / &#039 / -hydroxylated products which are easily racemized, protection was directly adjusted via acetylation so as to prevent this possibility. Resulting enantiomerically enriched products were subjected to Upjohn Dihydroxylation to obtain cyclitol precursors and following Luche Reduction of ketone was adjusted so as to obtain corresponding cyclitols. In addition with such synthetic design, firstly dimethyl cyclopent-3-ene-1,1-dicarboxylate was obtained so as to reach in former manner 3-cyclopentene-1,1-dicarboxylic acid, and in latter manner cyclopent-3-enecarboxylic acid. Resulting compound was converted to 6-iodo-2-oxa-bicyclo[2.2.1]heptan-3-one and followingly to the target nucleoside precursor which is 2-oxa-bicyclo[2.2.1]hept-5-en-3-one. QD Chemistry 1-999
2	Oxidative Ring Opening Reactions Of A-hydroxy Ketones Aybey, Ayse 01 January 2008 (has links) (PDF) Chiral polyfunctionalized 1,5-dicarbonyl compounds are important synthetic intermediates and starting materials for many biologically active compounds so their synthesis has a great importance in the literature. In the first step, 1,3-cyclohexandione and other b-diketone derivatives are protected under acid catalyzation and their corresponding b-keto enol ether derivatives are obtained. These b-keto enol ethers are then converted to a-acetoxy enones in racemic form by Mn(OAc)3 mediated oxidation. Enzymatic kinetic resolution is applied to the racemic acetoxy enones by using different lipases and enantiomerically pure a-acetoxy and hydroxy enones are obtained. Then, dicarbonyl derivatives are obtained by hydrolizing racemic a-acetoxy enones. Oxidative cleavage of racemic a-acetoxy diketones in the presence of oxone gives corresponding racemic 1,5-dimethyl ester derivatives. By using this reaction as a reference, same reactions are applied to the chiral a-acetoxy and hydroxy diketones in order to synthesize chiral a-acetoxy and hydroxy 1,5-diester derivatives. QD Organic Chemistry 241-441
3	Chemoenzymatic Synthesis Of Biologically Active Natural Products Turkut, Engin 01 April 2004 (has links) (PDF) Racemic metyhl 3-cyclohexene-1-carboxylate was resolved via enzymatic hydrolysis to afford the enantiomerically enriched 3-cyclohexene-1-carboxylic acid with PLE (S-configuration), HLE (S-configuration), CCL (S-configuration) and PPL (R-configuration) . The nucleoside&amp / #65533 / s precursor, 5-(hydroxymethyl)-2-cyclohexen-1-ol (19), was synthesized by iodolactonization, followed by iodine elimination and the reduction of the lactone. In connection with this work, alpha,beta-unsaturated and saturated cyclic ketones were selectively oxidized on alpha&#039 / - and alpha-positions using Mn(OAc)3 and Pb(OAc)4, respectively. The resultant racemic alpha&#039 / - and alpha-acetoxylated substrates were resolved into corresponding enantiomerically enriched alpha&#039 / - and alpha-hydroxylated and acetoxylated compounds via PLE hydrolysis. QD Organic Chemistry 241-441
4	Syntesis And Enzymatic Resolution Of Various Cyclopentenoid And Cyclohexenoid Type Compounds Iyigun, Cigdem 01 June 2005 (has links) (PDF) ABSTRACT SYNTHESIS AND ENZYMATIC RESOLUTION OF VARIOUS CYCLOPENTENOID AND CYCLOHEXENOID TYPE COMPOUNDS iyig&uuml / n, &Ccedil / igdem Ph. D., Department of Chemistry Supervisor: Prof. Dr. Cihangir Tanyeli June 2005, 174 pages The aim of this thesis is to synthesize enantiomerically enriched cyclopentenoid and cyclohexenoid type of compounds with quaternary carbon stereocenters that are the simplest precursors of the complex natural products. The first part of the study involves the preparation of &amp / #945 / &#039 / -acetoxy &amp / #945 / &#039 / -substituted &amp / #945 / ,&amp / #946 / -unsaturated cyclic ketones. Methylation, ethylation, benzylation and allylation of cyclohexenone and cyclopentenone derivatives are performed. Then, these compounds are regioselectively oxidized at the &amp / #945 / &#039 / -position by Mn(OAc)3. This is the first successful example in the literature that &amp / #945 / &#039 / -tert-position is oxidized by Mn(OAc)3. The oxidations were also performed by Pb(OAc)4 and both methods were compared. Related to this study, in the second part, the enantiomeric resolution of the acetoxy derivatives were performed by various hydrolases. This study is the first example where the hydrolases are used to resolve tertiary positions. Among the enzymes used, Candida cylindracea lipase (CCL) showed the best enantioselectivity. QD Organic Chemistry 241-441
5	Stratégie radicalaire SRN1/Mn(OAc)3 sur des dérivés naphtoquinoniques à visée pharmacologique / Synthesis of new potentially bioactive naphthoquinonic derivatives by SRN1 or Mn(OAc)3 strategy Meye Biyogo, Alex 12 December 2016 (has links) Ce travail est consacré à la recherche et au développement de nouvelles molécules à viséepharmacologique en série naphtoquinonique en utilisant des réactions par transfert monoélectroniquede type SRN1 et des cyclisations radicalaires oxydatives induites par l'acétate de manganèse(III). Lapremière partie décrit l’étude de la réactivité SRN1 de la 2-(chlorométhyl)-3-méthoxynaphtoquinoneavec divers anions nitronates conduisant à la formation de produits de C-alkylation avec de bonsrendements. Ces derniers ont fait l’objet d’une réaction de réduction-cyclisation permettant la synthèsede nouveaux dérivés benzo[g]indol-5(3H)-ones. Dans la seconde partie, une nouvelle réactiond’oxydation initiée par l’acétate de manganèse(III) a été développée sur la 2-hydroxy-3-méthylnaphtoquinone dans des conditions opératoires douces. En effet, la réactivité originale de la 2-hydroxy-3-méthylnaphtoquinone avec divers alcènes aromatiques en présence de Mn(OAc)3 et dedioxygène, a permis pour la première fois en série naphtoquinonique, l’obtention de nouveaux dérivésoriginaux dihydronaphto[2,3-c][1,2]dioxine-5,10(3H,10aH)-diones sous forme d’un mélange dediastéréoisomères à potentialités antipaludiques. Un mécanisme réactionnel original a été proposé pourla formation de ces produits. / This work is focused on the research and development of new pharmacologicalmolecules in naphthoquinonic series, synthesized by single electron transfer reaction SRN1 ormanganese(III) acetate catalyzed oxidative radical cyclization. The first part describes the SRN1reactivity of 2-(chloromethyl)-3-methoxynaphthoquinone with various nitronate anions leading to theC-alkylation products. The reduction-cyclization reaction of the latter derivatives allowed us to obtainnew benzo[g]indol-5(3H)-one derivatives. In the second part, a new reaction initiated by Mn(OAc)3 on2-hydroxy-3-methylnaphthoquinone was developed under mild conditions. Indeed, the original reaction of2-hydroxy-3-methylnaphthoquinone with various aromatic alkenes in presence of dioxygen led to newdihydronaphtho[2,3-c][1,2]dioxine-5,10(3H,10aH)-dione derivatives as a mixture of diastereoisomerswith antimalarial potential. An original mechanism was proposed in order to explain the formation ofthese products. Quinone Naphtoquinone Srn1 Réductioncyclisation 1 2-Dioxane Mn(OAc)3 Diastéréoisomères Antipaludiques Quinone Naphthoquinone Single electron transfer Srn1 Reduction-Cyclization reaction 1 2-Dioxane derivatives Mn(OAc)3 Diastereoisomers Antimalarial agents.
6	Chemoenzymatic Synthesis Of 4-hydroxy Enones Kose, Elif 01 January 2004 (has links) (PDF) Chiral cyclic polyoxo-ketones are important structural units in many natural products, biologically active compouds, such as prostaglandins, didemnenones, sarkomycin, punaglandin, clavulone, etc. In this work, a chemoenzymatic synthesis of both enantiomers of the &amp / #945 / &rsquo / -acetoxy-&amp / #945 / -methyl and &amp / #947 / -hydroxy-&amp / #945 / -methyl cyclic enones starting from &amp / #945 / -methyl-&amp / #946 / -methoxy cyclic enone is described. Manganese (III) acetate-mediated acetoxylation followed by the enzyme-mediated hydrolysis of &amp / #945 / &rsquo / -acetoxy enone provides acetoxy enones. The reduction of the hydroxy enone, obtained from hydrolysis, furnished both enantiomers of 4-hydroxy enone or &amp / #947 / -hydroxy enone by using LiAlH4. This study is a model for the synthesis of these type compounds QD Organic Chemistry 241-441 Polyoxo-ketones, &amp #947
7	Cyclisations radicalaires oxydatives médiées par l'acétate de manganèse (III) et orientées vers la chimie médicinale / Manganese (III)-based oxidative free radical cyclizations for medicinal chemistry Bouhlel, Ahlem 25 September 2012 (has links) Ce travail s'inscrit dans la recherche et le développement de nouvelles molécules à visée thérapeutique via la mise au point de cyclisations radicalaires oxydatives médiées par l'acétate de manganèse(III). Deux problématiques ont dirigé nos recherches. Tout d'abord, nous avons développé une stratégie de synthèse de prodrogues analogues de la pafuramidine, molécule antileishmanienne. Ainsi, une 1ère série d'amidoximes a été obtenue à partir de β-cétosulfones par une synthèse multi-étapes faisant appel aux réactions i) de cyclisations radicalaires oxydatives médiées par Mn(OAc)3 et ii) de couplages pallado-catalysées de Buchwald-Hartwig et de Heck. Suite à l'évaluation biologique in vitro sur Leishmania donovani et sur des cellules humaines, une 2ème série d'amidoximes et en particulier des monoamidoximes a été réalisée, ce qui a révélé une molécule présentant un index de sélectivité 40 fois plus élevé que celui de la pentamidine, médicament utilisé comme référence. Nous avons également mis au point un double couplage "one-pot" de Buchwald-Hartwig dans le but d'obtenir des produits dicouplés dissymétriques, précurseurs éventuels de futures diamidoximes. Dans une deuxième partie, nous nous sommes focalisés sur la synthèse de composés spirocycliques pouvant constituer un pharmacophore original. De ce fait, une stratégie de synthèse conduisant à divers noyaux tels des tétralines spirocycliques, des spirolactones, des spirobenzophénanthrédin-6(5H)-ones a été mise au point. Ce travail nous a également menés vers la synthèse de dérivés thiobarbiturates, analogues de composés anesthésiques ou anticonvulsivants. / This work focuses on the research and development of new therapeutic molecules through optimized radical cyclizations mediated by manganese(III) acetate. Two problematics directed our research. First, we developed analogous prodrugs of pafuramidine, an antileishmanial molecule. Thus, a 1rst series of amidoximes was obtained from β-ketosulfones by a multi-step synthesis involving i) radical oxidative cyclizations mediated by Mn(OAc)3 and ii) pallado-catalyzed Buchwald-Hartwig and Heck coupling reactions. The 1rst series being biologically evaluated in vitro, both on Leishmania donovani and human cells, a 2nd series and particularly monoamidoximes was prepared and revealed a molecule presenting a selectivity index 40 times higher than the one of pentamidine, used as reference drug compound. We also developed a one-pot double Buchwald-Hartwig coupling reaction in the aim to obtain dissymmetric dicoupled products, potential precursors of future diamidoximes. In a second time, we focused on the synthesis of spirocyclic compounds which could constitute an original pharmacophore. Therefore, we performed a synthesis allowing access to a wide variety of scaffolds such as spirocyclic tetralins, spirolactones, spirobenzophenanthridin-6(5H)-ones. This work allowed the synthesis of thiobarbiturates, analogous of anesthetic or anticonvulsive compounds. Mn(OAc)3 Cyclisations radicalaires Dihydrofuranes Pharmacochimie Buchwald-Hartwig Leishmania Barbituriques Amidoximes &#946 -cétosulfones et &#946 -cétoamides Spirocycles. Mn(OAc)3 Radical cyclizations Dihydrofuranes Pharmacochemistry Buchwald-Hartwig Leishmania Barbiturics Amidoximes &#946 -ketosulfones and &#946 -ketoamides Spirocycles. Mn(OAc)3
8	Chemoenzymatic Functionalization Of Cyclic 1,3-diketones Findik, Hamide 01 January 2004 (has links) (PDF) Chiral &amp / #945 / -hydroxy and &amp / #945 / -acetoxy enones are important starting materials in the synthesis of many biologically active materials. In this work, enantiomerically pure &amp / #947 / -hydroxy enone and polyoxo cyclohexenones are synthesized starting from 1,3-cyclohexandione. In the first step, 1,3-cyclohexandione is protected under acid catalyzation and 3-methoxy-2-methyl-2-cyclohexen-1-one is obtained. &amp / #945 / &#039 / -Acetoxy enone is obtained by Mn(OAc)3 mediated oxidation which is an attractive alternative to other multi-step procedures in the literature. Enzymatic kinetic resolution is applied to the racemic form of this product and enantiomerically pure &amp / #945 / &#039 / -acetoxy enone and &amp / #945 / &#039 / -hydroxy enone is obtained. In this stage, for the screening of the reaction many enzymes were tried. Reduction of &amp / #945 / &#039 / -hydroxy enone furnished enantiopure &amp / #947 / -hydroxy enone. QD Organic Chemistry 241-441 &amp #945 -Hydroxy enones, &amp #945 -acetoxy enones, &amp #947

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