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51	Syntheses of Allelochemicals for Insect Control Smitt, Olof January 2002 (has links) This thesis describes the synthetic preparation of somecompounds, which can serve as chemical signals for use in thedevelopment of control methods for pest insects. The compoundssynthesised are of the isoprenoid type and of two kinds:carvone derivatives and germacranes. The derivatives of carvoneare based on modifications of this compound, by reactions ofeither its endocyclic or its exocyclic double bond. One type ofmodifications was accomplished by chemoselective additions ofthiophenol. The latter ones imply additions to the exocyclicdouble bond and seem to constitute general, previously rarelystudied reactions. In other modifications of its exocyclic side chain, carvoneafforded some sesqui- and diterpeniod natural products. Thefollowing compounds were synthesised in an enantioselectiveway: (-)-epi-delobanone, (-)-delobanone,(-)-7-hydroxy-3,10-prenylbisaboladien- 2-one (an insecticidalconstituent of Croton linearis) as well as its diastereomer andsome other compounds with similar structures. All of thesecompounds weretested for their antifeedant/feeding deterrentcapability against gnawing of the pine weevil, Hylobiusabietis. The germacranes prepared by means of enantioselective totalsyntheses are: ()- 1(10),5-germacradien-4-ol and()-germacrene D. The former is a constituent of thedefence secretion (an allomone) from the larvae of the pinesawfly, and the needles of Scots pine. ()-Germacrene D isa ubiquitous compound in nature. For example, it occurs in thepeels of apples and acts as one component of a lure (akairomone) to the apples, which attracts the codling moth,Cydia pomonella. The main problem in the total syntheses of the germacraneswas the formation of the unsaturated monocyclic 10-memberedring. This was achieved by intramolecular alkylation with asuitably functionalised/protected cyanohydrin derivative,which, after further elaboration, afforded a monocyclic10-membered enone, that was used in the syntheses of the twogermacranes mentioned above. In the initial steps in thesynthetic sequence the stereochemistry was established byalkylation of an amide enolate attached to a chiral auxiliary.This approach could most likely also readily furnish the(+)-enantiomers of these germacrenes (of the germacraneterpenoid class) using the opposite enantiomer of the chiralauxiliary in the initial steps. <b>Keywords</b>: isoprenoids, natural product synthesis,allelochemicals, kairomones, allomones, bisabolane terpenoids,Hylobius abietis, germacrane terpenoids, Neodiprion sertifer,stereoselective synthesis. isoprenoids natural product synthesis allelochemicals kairomones allomones bisabolane terpenoids Hylobius abietis germacrane terpenoids Neodiprion sertifer stereoselective synthesis
52	Neuartige Myosin ATPase-Inhibitoren auf der Basis polyhalogenierter Pyrrolalkaloide und stereoselektive Synthese hormonell aktiver Steroide Martin, René 07 January 2009 (has links) (PDF) Während meiner Dissertation beschäftigte ich mich mit der Synthese von polyhalogenierten Pyrrolalkaloiden. Im Zentrum der Darstellung dieser Verbindungen stand die von mir in meiner Diplomarbeit erfolgreich zur Synthese von Pentabrompseudilin angewandte silber-katalysierte Cyclisierung von N-tosylsubstituierten Homopropargylaminen. So konnte das Pentachlorpseudilin in der zweiten Totalsynthese überhaupt sowie mehrere gemischt halogenierte synthetische Derivate aufgebaut werden. Diese Verbindungen konnten in einer Kooperation mit Herrn Prof. Gutzeit aus der Fachrichtung Biologie der TU Dresden und Herrn Prof. Manstein von der Medizinischen Hochschule Hannover, als hochwirksame Myosin ATPase-Inhibitoren identifiziert werden. Bei den verschieden halogenierten Verbindungen ließen sich deutliche Unterschiede in der inhibitorischen Aktivität feststellen. Ein zum Pentabrompseudilin benzologes Indolderivat, welches in einer kurzen Synthese aufgebaut werden konnte, war hingegen nicht aktiv. Im zweiten Teil der Promotion beschäftigte ich mich in einer Kooperation mit Dr. Kurzchalia vom Max-Planck-Institut für Molekulare Zellbiologie und Genetik (Dresden) mit der Synthese von hormonell aktiven Steroiden, speziell den Cholesten-26-säuren, welche Liganden für den hormonellen Rezeptor DAF-12 des Nematoden Caenorhabditis elegans repräsentieren. Die an C-25 R-konfigurierten Säuren waren in der Literatur mit einer deutlich geringeren Aktivität als die 25S-Säuren beschrieben. Die 25R-Steroide waren synthetisch leicht aus kommerziell erhältlichem Diosgenin zugänglich. So konnten alle drei 25R-Säuren in kurzen Synthesen dargestellt werden. In deren Verlauf wurden verschiedene Oxidations- und Schutzgruppenreaktionen eindrucksvoll angewendet. Für die Einführung der 25S-Konfiguration in der Seitenkette sollte eine EVANS-Aldolreaktion an geeignetem Startmaterial angewandt werden. In der Tat führte die Verwendung eines chiralen Oxazolidinons stereoselektiv zum gewünschten Enantiomer in sehr guten Ausbeuten, selbst bei großen Ansätzen. Zur weiteren Transformation musste die durch die Aldolreaktion eingeführte Hydroxygruppe an C-24 entfernt werden. Dies gelang in exzellenter Ausbeute mit Hilfe einer radikalischen Deoxygenierung nach BARTON und MCCOMBIE. So konnte in acht Stufen ein zentrales Syntheseintermediat gewonnen werden, dass in alle drei Naturstoffe überführt werden konnte. Damit waren ausreichende Mengen für biologische Untersuchungen hergestellt worden. Mit der gesättigten (25S)-Dafachronic Acid konnte ein neuer Ligand für DAF-12 synthetisiert werden. Gleichzeitig konnte gezeigt werden, dass die Existenz einer Doppelbindung in den Cholesten-26-säuren für die biologische Aktivität unerheblich ist. Für weitere biologische Tests konnten neue Normethylderivate des Cholesterols gewonnen werden. Diese zeigten zum Teil ungewöhnliche biologische Aktivität. Außerdem wurden Versuche zu an verschiedenen Positionen bromierten Cholesterolderivaten unternommen. Im letzten Teil meiner Dissertation konnten neue hoch hydroxylierte Steroide dargestellt werden, die in einer Kooperation mit Prof. Franzblau vom Institute for Tuberculosis Research (Chicago, USA) auf ihre Aktivität gegen Mycobacterium tuberculosis getestet werden sollten. Dabei konnte eine ungewöhnliche 1,2-anti-Hydroborierung beoachtet werden, deren Mechanismus noch genauer untersucht werden muss. Pyrrolalkaloide Myosin ATPase-Inhibitoren Steroide Stereoselektive Synthese Pyrrole Alkaloids Myosin ATPase Inhibitors Steroids Stereoselective Synthesis ddc:540 rvk:VK 8627
53	Syntheses of Allelochemicals for Insect Control Smitt, Olof January 2002 (has links) <p>This thesis describes the synthetic preparation of somecompounds, which can serve as chemical signals for use in thedevelopment of control methods for pest insects. The compoundssynthesised are of the isoprenoid type and of two kinds:carvone derivatives and germacranes. The derivatives of carvoneare based on modifications of this compound, by reactions ofeither its endocyclic or its exocyclic double bond. One type ofmodifications was accomplished by chemoselective additions ofthiophenol. The latter ones imply additions to the exocyclicdouble bond and seem to constitute general, previously rarelystudied reactions.</p><p>In other modifications of its exocyclic side chain, carvoneafforded some sesqui- and diterpeniod natural products. Thefollowing compounds were synthesised in an enantioselectiveway: (-)-epi-delobanone, (-)-delobanone,(-)-7-hydroxy-3,10-prenylbisaboladien- 2-one (an insecticidalconstituent of Croton linearis) as well as its diastereomer andsome other compounds with similar structures. All of thesecompounds weretested for their antifeedant/feeding deterrentcapability against gnawing of the pine weevil, Hylobiusabietis.</p><p>The germacranes prepared by means of enantioselective totalsyntheses are: ()- 1(10),5-germacradien-4-ol and()-germacrene D. The former is a constituent of thedefence secretion (an allomone) from the larvae of the pinesawfly, and the needles of Scots pine. ()-Germacrene D isa ubiquitous compound in nature. For example, it occurs in thepeels of apples and acts as one component of a lure (akairomone) to the apples, which attracts the codling moth,Cydia pomonella.</p><p>The main problem in the total syntheses of the germacraneswas the formation of the unsaturated monocyclic 10-memberedring. This was achieved by intramolecular alkylation with asuitably functionalised/protected cyanohydrin derivative,which, after further elaboration, afforded a monocyclic10-membered enone, that was used in the syntheses of the twogermacranes mentioned above. In the initial steps in thesynthetic sequence the stereochemistry was established byalkylation of an amide enolate attached to a chiral auxiliary.This approach could most likely also readily furnish the(+)-enantiomers of these germacrenes (of the germacraneterpenoid class) using the opposite enantiomer of the chiralauxiliary in the initial steps.</p><p><b>Keywords</b>: isoprenoids, natural product synthesis,allelochemicals, kairomones, allomones, bisabolane terpenoids,Hylobius abietis, germacrane terpenoids, Neodiprion sertifer,stereoselective synthesis.</p> isoprenoids natural product synthesis allelochemicals kairomones allomones bisabolane terpenoids Hylobius abietis germacrane terpenoids Neodiprion sertifer stereoselective synthesis
54	New Methodologies for the Regio- and Stereoselective Electrophilic Cyanation of Alkynes García Barrado, Alejandro 26 November 2018 (has links) No description available. 540 Electrophilic Cyanation Imidazolium Thiocyanates Regioselective Cyanation of Alkynes Stereoselective Cyanation of Alkynes Methodology Chlorocyanation of Alkynes Cyanative Cyclization Chemie (PPN62138352X)
55	Análise estereosseletiva de fármacos com aplicação em estudos de biotransformação empregando fungos / Stereoselective analysis of drugs with application in biotransformation studies employing fungi Keyller Bastos Borges 27 July 2010 (has links) Este trabalho teve por finalidade o desenvolvimento e validação de métodos para análise estereosseletiva de alguns fármacos e metabólitos, bem como a aplicação desses métodos na avaliação do potencial de fungos, principalmente endofíticos, em processos de biotransformação. Os seguintes fármacos foram selecionados para esse estudo: fluoxetina, propranolol, omeprazol, oxibutinina e ibuprofeno. Para determinação simultânea dos enantiômeros da fluoxetina (FLX) e norfluoxetina (NFLX) em meios de cultura de fungos endofíticos, empregou-se a cromatografia líquida de alta eficiência com detecção por absorção no ultravioleta, em um sistema com duas colunas em série, sendo uma de fase reversa (C18) e outra com fase estacionária quiral (Chirobiotic® V). A fase móvel foi composta por etanol: tampão acetato de amônio 15 mmol L-1, pH 5,90: acetonitrila (77,5: 17,5: 5, v/v/v) e a detecção foi realizada em 227 nm. A extração líquido-líquido foi empregada na preparação das amostras. As curvas analíticas foram lineares no intervalo de concentração de 12,5 a 3750 ng mL-1 (r 0,996) para todos os enantiômeros analisados. Os coeficientes de variação e erros relativos obtidos nos estudos de precisão e exatidão foram inferiores a 10%. Nas condições empregadas, os cinco fungos endofíticos estudados não foram capazes de promover a biotransformação da FLX (reação de demetilação). A eletroforese capilar foi empregada para análise enantiosseletiva do propranolol (PROP) e 4-hidroxipropranolol (4-OHPROP). A melhor condição de resolução dos enantiômeros foi encontrada com a aplicação de um planejamento experimental de Box-Behnken: solução de eletrólitos composta por tampão trietilamina / ácido fosfórico (TEA/H3PO4), 25 mmol L-1, pH 9,00, carboximetil--ciclodextrina 4% (m/v) como seletor quiral e análise realizada na voltagem de 17 kV. O método de extração líquido-líquido também foi empregado para preparação das amostras. As curvas analíticas foram lineares no intervalo de concentração de 0,25 a 10,0 g mL-1 para 4-OHPROP e de 0,10 a 10,0 g mL-1 para PROP, apresentando coeficientes de correlação (r) 0,995 para todos os enantiômeros analisados. Os coeficientes de variação e erros relativos obtidos nos estudos de precisão e exatidão foram inferiores a 15%. Os cinco fungos endofíticos em estudo se mostraram eficientes na biotransformação estereosseletiva do PROP, com maior formação do metabólito (-)-(S)-4-OHPROP. O fungo Glomerella cingulata (VA1), em especial, apresentou uma concentração de 1,745 g mL-1 do enantiômero (-)-(S)-4-OHPROP depois de 72 horas de incubação, ao passo que a formação do enantiômero (+)-(R)-4-OHPROP não foi observada. A utilização deste fungo em escalas ampliadas pode ser uma fonte promissora de obtenção do metabólito 4-OHPROP na forma enantiomericamente pura. A determinação simultânea de omeprazol (OMZ), 5-hidroxiomeprazol (5-HOMZ) e omeprazol sulfona (OMZ SUL) em meio de cultura Czapek Dox modificado ii tamponado foi realizada empregando um método rápido de análise por cromatografia líquida de ultra eficiência com detector por arranjo de diodos (UPLC / DAD), usando coluna monolítica de fase reversa e eluição por gradiente. OMZ, 5-HOMZ e OMZ SUL foram extraídos das amostras utilizando uma mistura de acetato de etila: t-butil metil éter (9: 1, v/v). A separação foi obtida empregando uma coluna RP 18 Chromolith Fast Gradient endcapped e fase móvel constituída por 0,15% (v/v) de ácido trifluoroacético (TFA) em água (solvente A) e 0,15% (v/v) de TFA em acetonitrila (solvente B). Os tempos de retenção foram de 0,70 min para 5-HOMZ, 0,74 min para OMZ, 0,77 min para OMZ SUL e 0,91 min para o padrão interno (bupropiona, BUP). O método foi linear no intervalo de 0,2 a 10,0 g mL-1 (r 0,995) para todos os analitos. O processo de biotransformação foi realizado durante apenas 24 horas de incubação, por causa de problemas de estabilidade do OMZ. Por esse mesmo motivo, a biotransformação estereosseletiva não foi avaliada. Apenas três fungos apresentaram formação do metabólito 5-HOMZ, e dentre estes, apenas o fungo Botritis cinerea (BC) produziu esse metabólito em concentração superior ao limite de quantificação do método. A formação do metabólito OMZ SUL foi observada para todos os fungos, exceto para Glomerella cingulata (VA1) e Guignardia mangiferae (VA15). Esses fungos podem ser úteis para a obtenção dos metabólitos do OMZ, mas estudos detalhados do comportamento do fármaco nas condições de cultivo são necessários, uma vez que este substrato pode sofrer degradação em meio ácido e na presença de luz. A análise simultânea dos enantiômeros da oxibutinina (OXY) e da N-desetiloxibutinina (DEOB) em meio de cultura Czapek foi obtida empregando a cromatografia líquida de alta eficiência com detector UV (HPLC/UV). Os analitos foram separados usando coluna quiral Chiralpak AD e fase móvel constituída por hexano: isopropanol: etanol: dietilamina (94: 4: 2: 0,05, v/v/v/v) e detectados em 210 nm. Um estudo piloto de biotransformação empregando os mesmos fungos e as condições de biotransformação utilizadas para os demais fármacos mostrou que não houve a formação do metabólito de interesse. Além disso, não houve uma diminuição significativa da concentração de OXY durante o período de incubação, o que poderia ser um indicativo da formação de outros metabólitos não monitorados nas condições de análise. Como a reação de desetilação da OXY para formar a DEOB não foi observada nos experimentos, não foi necessário realizar a validação do método analítico. A separação simultânea do ibuprofeno (IBP), dos enantiômeros do 2-hidroxi-ibuprofeno (2-OH-IBP) e dos estereoisômeros do carboxi-ibuprofeno (COOH-IBP) foi realizada empregando-se uma coluna Chiralpak AS-H e fase móvel constituída por hexano: isopropanol: TFA (95: 5: 0,1, v/v/v). O solvente extrator usado na extração líquido-líquido foi uma mistura de hexano: acetato de etila (1: 1, v/v). A detecção foi feita por espectrometria de massas (MS/MS), com a fonte de ionização por eletronebulização operada no modo positivo (ESI+). O método foi linear nos intervalos de 0,1 a 20,0 g mL-1 para IBP, de 0,05 a 7,5 g mL-1 para o cada enantiômero do 2-OH-IBP e de 0,025 a 5,0 g mL-1 para cada estereoisômero do COOH-IBP. Os demais parâmetros de validação obtidos para o método apresentaram-se dentro dos limites recomendados pela literatura. Os sete fungos endofíticos estudados se mostraram eficientes na biotransformação do IBP em seu principal metabólito 2-OH-IBP, mas apenas os fungos Nigrospora sphaerica (SS67) e Chaetomium globosum (VR10) iii biotransformaram o IBP de forma enantiosseletiva mais acentuada, observando-se maior formação do metabólito ativo (+)-(S)-2-OH-IBP. A não estereosseletividade observada para os demais fungos pode ser indício de uma possível conversão quiral do fármaco, similar a que ocorre em humanos. A formação dos estereoisômeros do COOH-IBP não foi observada, provavelmente, porque sua rota de formação envolve uma seqüência de reações. Os resultados apresentados nesse trabalho mostram que fungos, particularmente os endofíticos, podem ser uma fonte promissora para obtenção de metabólitos de fármacos, inclusive de forma enantiomericamente pura. / This work aimed the development and validation of suitable methods for the stereoselective analysis of some drugs and metabolites, as well as, the application of these methods to assess the potential of fungi, mainly the endophytic ones, in biotransformation processes. The following drugs were selected for this study: fluoxetine, propranolol, omeprazole, oxybutynin and ibuprofen. The simultaneous determination of fluoxetine (FLX) and norfluoxetine (NFLX) enantiomers in culture media of endophytic fungi was carried out by high-performance liquid chromatography with UV-detection, in a system of two columns coupled in series, in which one of them was a reversed phase (C18) column and the another one was a chiral stationary phase column (Chirobiotic ® V). The mobile phase consisted of ethanol: ammonium acetate buffer, 15 mol L-1, pH 5.90: acetonitrile (77.5: 17.5: 5, v/v/v) and the detection was performed at 227 nm. Liquid-liquid extraction was employed for sample preparation. The analytical curves were linear over the concentration range of 12.5 to 3750 ng mL-1 (r 0.996) for all enantiomers evaluated. The coefficients of variation and relative errors obtained in the evaluation of method precision and accuracy were lower than 10%. In the studied conditions, the five endophytic fungi used were not able to perform the biotransformation of FLX (demethylation reaction). Capillary electrophoresis was employed for the enantioselective analysis of propranolol (PROP) and 4-hydroxypropranolol (4-OHPROP). The best condition for enantiomer resolution was obtained by applying an experimental design of Box-Behnken: electrolyte solution composed of triethylamine / phosphoric acid (TEA/H3PO4) buffer, 25 mmol L-1, pH 9.00, with 4% (w/v) carboxymethyl--cyclodextrin as the chiral selector and analysis performed at 17 kV. Liquid-liquid extraction was also used for sample preparation. The analytical curves were linear over the concentration range of 0.25 to 10.0 g mL-1 for 4-OHPROP and 0.10 to 10.0 g mL-1 for PROP, presenting correlation coefficients (r) 0.995 for all enantiomers evaluated. The coefficients of variation and relative errors obtained in the evaluation of precision and accuracy were lower than 15%. All the five endophytic fungi (Phomopsis sp. (TD2), Glomerella cingulata (VA1), Penicillium crustosum (VR4), Chaetomium globosum (VR10) and Aspergillus fumigatus (VR12)) showed effectiveness in the stereoselective biotransformation of PROP, with higher formation of (-)-(S)-4-OH-PROP. The fungus Glomerella cingulata (VA1), in particular, showed a concentration of 1.745 g mL-1 for the enantiomer (-)-(S)-4-OHPROP after 72 hours of incubation, whereas there was no formation of the enantiomer (+)-(R)-4-OHPROP. Therefore, the use of this fungus in large scale may be a promising source to obtain 4-OHPROP in the enantiomerically pure form. A fast analytical method based on ultra-performance liquid chromatography / diode array detector (UPLC/DAD) using a monolithic reversed phase column and gradient elution was developed for the simultaneous determination of omeprazole (OMZ), 5-hydroxyomeprazole (5-HOMZ) and omeprazole sulfone (OMZ SUL) in modified and buffered Czapek-Dox culture medium. OMZ, 5-HOMZ and OMZ SUL were extracted using a mixture of ethyl acetate: methyl t-butyl ether (9: 1, v/v). The separation was achieved using a Chromolith Fast Gradient RP 18 endcapped column with the mobile phase consisting of 0.15% (v/v) trifluoroacetic acid (TFA) in water (solvent A) and 0.15% (v/v) TFA in acetonitrile (solvent B). Retention times were 0.70 min for 5-HOMZ, 0.74 min for OMZ, 0.77 min for OMZ SUL and 0.91 min for internal standard (bupropion, BUP). The method was linear over the concentration range of 0.2 to 10.0 g mL-1 (r 0.995) for all analytes. The biotransformation process was carried out only within 24 hours of incubation, due to OMZ instability. For the same reason, the stereoselectivity in this process was not evaluated. The formation of the metabolite 5-HOMZ was observed only for three fungi, and among them, only the fungus Botrytis cinerea (BC) produced this metabolite in concentrations higher than the limit of quantification. The formation of OMZ SUL was observed for all fungi, except for Guignardia mangiferae (VA1) and Glomerella cingulata (VA15). The fungi evaluated in this study can be useful to obtain the metabolites of OMZ, but detailed study of the drug stability in culture conditions is required, since this substrate can undergo degradation in acidic conditions and in the presence of light. The simultaneous analysis of oxybutinin (OXY) and N-desethyloxybutinin (DEOB) enantiomers in Czapek culture medium was carried out by liquid chromatography with UV detection (HPLC/UV). The analytes were separated using a Chiralpak AD column employing as mobile phase hexane: isopropanol: ethanol: diethylamine (94: 4: 2: 0.05, v/v/v/v) and detection at 210 nm. A pilot study of biotransformation using the same fungi and conditions employed for the biotransformation of the other drugs showed that the metabolite of interest was not formed. Moreover, the decrease in the concentration of OXY, which could be indicative of the formation of other metabolites not monitored under the conditions of analysis, was not observed. Since the reaction of OXY desethylation to form DEOB was not observed in the experiments, the validation of the analytical method was not required. The method for the simultaneous analysis of ibuprofen (IBP), 2-hydroxyibuprofen (2-OH-IBP) enantiomers and carboxyibuprofen (IBP-COOH) stereoisomers was developed using a Chiralpak AS-H column and a mobile phase consisting of hexane: isopropanol: TFA (95: 5: 0.1, v/v/v). A mixture of hexane: ethyl acetate (1: 1, v/v) was used as solvent extractor for sample preparation. The detection was performed by tanden mass spectrometry (MS/MS) with the electrospray interface operated in the positive mode (ESI+). The method was linear over the concentration range of 0.1 to 20.0 g mL-1 for IBP, 0.05 to 7.5 g mL-1 for each 2-OH-IBP enantiomer and 0.025 to 5.0 g mL-1 for each COOH-IBP stereoisomer. The other validation parameters studied were within the limits established in the literature. The seven studied endophytic fungi showed to be efficient in the biotransformation of IBP to its main metabolite 2-OH-IBP, however, only the fungi Nigrospora sphaerica (SS67) and Chaetomium globosum (VR10) biotransformed IBP enantioselectively, with greater formation of the active metabolite (+)-(S)-2-OH-IBP. The lack of stereoselectivity observed for the other fungi could be caused by a possible chiral inversion process occurring for IBP, in a similar way that happens in humans. The formation of COOH-IBP stereoisomers was not observed probably because the route of formation of this metabolite requires a sequence of reactions. The results presented here show that fungi, particularly the endophytic ones, may be a promising source to obtain the metabolites of drugs, including in their enantiomerically pure form. análise estereosseletiva biotransformação fluoxetina fungos endofíticos ibuprofeno omeprazol oxibutinina propranolol biotransformation endophytic fungi fluoxetine ibuprofen. omeprazole oxybutynin propranolol stereoselective analysis
56	N9 Alkylation and Glycosylation of Purines; A Practical Synthesis of 2-Chloro-2'-deoxyadenosine Zhong, Minghong 19 May 2004 (has links) (PDF) (a) The Robins reagent [2-acetamido-6-O-(diphenylcarbamoyl)purine] was utilized for glycosylation under Lewis acid conditions. Regioselectivity of glycosylation depends on the glycosyl donor and its 2-O- or 2-N-protecting group. Regioselective N9 glycosylation of 2-acetamido-6-O-(diphenylcarbamoyl)purine with problematic glucosamine has been accomplished by protecting the amino function as a phthalimido group with consequent stabilization of the oxocarbenium cation, and lowering the activation energy by introduction of trichloroacetimidate at the anomeric carbon. (b) 6-Heteroaryl functions [6-(1,2,4-triazol-4-yl) and 6-(imidazol-1-yl)] were introduced into purine derivatives for regioselective N9 alkylation. The regiospecificity of alkylation mainly results from steric effects due to the coplanar conformation of the two linked heterocyclic rings governed by conjugation. Several of the obtained acyclic derivatives showed antiviral and antitumor activities. (c) Glycosylation of purine derivatives with 2-deoxy-3,5-di-O-(p-toluoyl)-a-D-erythro-pentofuranosyl chloride using the sodium salt method usually gave a mixture of both anomers. Lipophilic groups were introduced into the imidazole ring of 6-(imidazol-1-yl)purine derivatives to increase the solubility of the sodium salts in moderately polar solvents. Differential solvation effects in binary solvent mixtures were utilized to improve the stereoselectivity of glycosylation. The stereoselectivity varied with the sizes of lipophilic groups and the polarity of solvents. With the propyl group, and in CH3CN/toluene (1:1) and/or CH3CN/CH2Cl2 (1:1), regiospecfic and highly stereoselective glycosylation of purines with 2-deoxy-3,5-di-O-(p-toluoyl)-a-D-erythro-pentofuranosyl chloride was achieved. (d) Using the above method, a low cost and efficient synthesis of 2-chloro-2'-deoxyadenosine (2-CdA, cladribine) was accomplished with an overall yield of 48% from inexpensive guanosine and 57% from 2,6-dichloropurine. 2-Chloro-6-(2-propylimidazol-1-yl)purine was prepared either from guanosine in a yield of 61% in 5 steps or from 2,6-dichloropurine in a yield of 72% in one step. Coupling of this 2-chloro-6-heteroarylpurine with 2-deoxy-3,5-di-O-(p-toluoyl)-α-D-erythro-pentofuranosyl chloride in binary solvent mixtures, followed by activation of imidazolyl as a better leaving group via benzylation at N3 and then ammonolysis gave cladribine in good yield (79%) for 3 steps. Analogs of purine derivatives with lipophilic groups (butyl, pentyl and 2-phenylpropyl) worked almost as well. purine N9 alkylation glycosylation 6-heteroarylpurines regiospecific stereoselective preparation 2'-deoxy purine nucleosides cladribine antiviral Biochemistry Chemistry
57	RumpleMasterThesis_Final.pdf Joshua Keith Rumple (14286443) 21 December 2022 (has links) <p> </p> <p>The access of ring junction functionalized 5,6-hydrindanone systems has been elusive in the realm of synthetic methodology, and the functionalization of a pre-built ring system rarely explored. These 5,6-hydridanone systems are prevalent in a variety of terpenoid ring systems, especially that of steroidal molecules. Previous synthetic methods to reach these systems using a Diels-Alder cycloaddition proved to be difficult and lacked labile functional groups that would be useful for substitution after the cycloaddition. The design of the α-nitrile cyclopentenone dienophile allows for both post-cyclization adduct functionalization, as well as lowering the energy barrier of the cycloaddition itself. In this work, it is shown that the Lewis acid promoted Diels-Alder reaction with α-nitrile β-methyl cyclopentenone dienophile can be performed under standard temperatures and pressures unlike previously established methods.1 This reaction can generate four chiral centers in a single synthetic step when the starting materials are prochiral. After the generation of 5,6-hydrindanone systems, radical cleavage of the nitrile functionality also allowed for electrophile trapping at the ring junction. This radical cleavage and electrophile trapping pathway allows for functionalization of a quaternary carbon at the ring junction, a method that should be fruitful in the generation of difficult to synthesize steroidal and other terpenoid molecules.</p> <p>In the work on synthetic cell penetrating peptides, camptothecin whilst a notably effective topoisomerase I inhibitor, has never quite reached it’s potential as a therapeutic due to its poor solubility in living systems. Previously, cationic amphiphilic polyproline helices (CAPH) molecules from the Chmielewski lab have been hydrophobically functionalized through O-alkylation of hydroxyprolines at specific regions within the peptide to generate a hydrophobic face. The combination of the cationic faces and the hydrophobic face have made the CAPH molecules notably cell penetrant and tunable. With camptothecin’s notable insolubility in water, it may serve as valuable surrogate to the hydrophobic groups on CAPH molecules and allowing it to be delivered intracellularly. Using an endogenously cleavable linker, we have worked towards a CPP that acts as a drug delivery vehicle. Acting as a replacement of the hydrophobic residue of a CAPH molecule, camptothecin will be chaperoned into the cell and should be released through the action of intracellular esterases.</p> Natural products and bioactive compounds Organic chemical synthesis cell penetrating peptide (CPP) organic synthesis peptide synthesis unnatural amino acids stereoselective synthesis
58	Practical and stereoselective synthesis of alkenes through catalytic cross-metathesis Nguyen, Thach Truc January 2018 (has links) Thesis advisor: Amir H. Hoveyda / Abstract Chapter 1: Development of Efficient and Kinetically E-Selective Cross-Metathesis to Generate Alkenyl Halides We have devised a broadly applicable strategy to achieve kinetically E-selective cross-metathesis to generate a valuable set of E-alkenyl chlorides and fluorides in high efficiency. The synthetic utility was demonstrated through several concise syntheses of E-alkenyl chloride and fluoride precursors to biologically active molecules. The design principles delineated in this study are expected to initiate a wider range of efficient and kinetically controlled E-selective olefin metathesis processes where there is a diminished preference for the E isomer such as macrocyclic ring-closing metathesis. Chapter 2: Development of Efficient and Kinetically E-Selective Macrocyclic Ring-Closing Metathesis We devised a strategy to achieve high E selectivity in ring-closing metathesis to afford E-macrocyclic alkenes of various ring sizes regardless of the associated thermodynamic preferences. The key findings revealed that E-alkenylB(pin), widely recognized for its broad use in catalytic cross-coupling chemistry, possesses the appropriate steric and electronic attributes to serve as a suitable cross-partner in ring-closing metathesis with Mo alkylidenes. Synthetic utility was demonstrated through ring-closing metathesis at a late stage of a multi-step route. The investigation described herein offers a practical solution to a compelling problem in olefin metathesis, further elevating the utility of this widely used transformation. Chapter 3: Stereoselective Synthesis of E- and Z-Trisubstituted Alkenes by Combining Stereoretentive Catalytic Cross-Metathesis and Catalytic Cross-Coupling We introduced a general solution to a longstanding and compelling problem in olefin metathesis: a broadly applicable strategy for the reliable and efficient synthesis of acyclic E- and Z-trisubstituted alkenyl halides. Complications resulted from the formation of an unstable methylidene species or less reactive disubstituted alkylidene complexes can be addressed by utilizing a stereo-defined E- or Z-trisubstituted alkene and a 1,2-disubstituted olefin as substrates. By merging two central catalytic transformations in organic synthesis, cross-coupling and CM, various E- or Z-trisubstituted alkenyl chloride and bromides were readily accessed by the same catalytic system without the need for directing groups. The synthetic utility of the present protocol was demonstrated through several concise and efficient synthesis of biologically active natural products/synthetic precursors. Notably, the E- or Z-trisubstituted alkenyl halides prepared by CM may be readily converted to other trisubstituted olefins with complete retention of stereochemical purity by means of a second cross-coupling reaction. Based on the new findings, we revisited previously unaddressed problems and establish that readily available isoprenoid alkenes can serve as a suitable surrogate for unhindered terminal alkenes in CM. Chapter 4: In situ Protection/Deprotection for Catalytic Olefin Metathesis in the Presence of Polar Protic Functional Groups We demonstrated that protic groups such as alcohols and carboxylic acids that are problematic with high-oxidation-state alkylidenes could be effectively masked in situ prior to CM reactions by an appropriate borane reagent. The commercial sample of alkenes that are usually contaminated with protic impurities could be ‘purified’ in situ by a sub-stoichiometric amount of pinacolborane. Deprotection of the in situ boron-based protecting group proceeded under mild conditions and could be performed in the same vessel. The one-pot protection/cross-metathesis/deprotection of alcohol and carboxylic acid-containing alkenes described herein is likely to have an impact on the diversity of organic molecules that can be prepared in a laboratory setting. / Thesis (PhD) — Boston College, 2018. / Submitted to: Boston College. Graduate School of Arts and Sciences. / Discipline: Chemistry. E-alkenyl halides in situ protection of alcohols in situ protection of carboxylic acids kinetically E-selective cross-metathesis
59	Técnicas de microextração aplicadas à análise estereosseletiva do ibuprofeno, da hidroxicloroquina e de seus metabólitos em urina / Microextraction techniques applied to the stereoselective analysis of ibuprofen, hydroxychloroquine and their metabolites in human urine. Oliveira, Anderson Rodrigo Moraes de 21 June 2007 (has links) A análise estereosseletiva tem um lugar de destaque em várias áreas e, dentre elas, a farmacêutica, pois diversos fármacos quirais são comercializados como misturas racêmicas. A análise estereosseletiva empregando a cromatografia líquida de alta eficiência e a eletroforese capilar é prática e bastante eficaz para aplicações que envolvem a determinação de enantiômeros ao nível de traços em matrizes complexas, como por exemplo, em estudos de disposição cinética. Entretanto, devido à complexidade das matrizes biológicas, há necessidade da preparação da amostra antes de sua análise. Entre as diversas técnicas existentes, as mais utilizadas são a extração líquido-líquido e a extração em fase sólida. Contudo, essas técnicas apresentam algumas desvantagens,sendo a principal delas o uso de grandes quantidades de solventes. Portanto, técnicas que requerem pouco ou nenhum consumo de solventes orgânicos são bastante desejáveis. Entre essas técnicas destacam-se a microextração em fase sólida (SPME) e a microextração em fase líquida (LPME). Essas técnicas relativamente recentes têm como vantagens a utilização de quantidades mínimas de solventes orgânicos, o alto poder de concentração, a remoção dos interferentes da matriz biológica e a simplicidade de automação. Nesse trabalho propusemos a utilização da SPME e LPME como técnicas de preparação de amostras de urina, visando o desenvolvimento de métodos estereosseletivos com detectabilidade e seletividade adequadas para aplicação em estudos posteriores de disposição cinética. A SPME foi empregada para análise estereosseletiva do ibuprofeno e de seus principais metabólitos, carboxiibuprofeno e 2-hidroxiibuprofeno e da hidroxicloroquina e seus principais metabólitos, enquanto que a LPME foi usada para a análise estereosseletiva da hidroxicloroquina e seus metabólitos. Inicialmente, foi realizada a otimização da separação dos fármacos e metabólitos em diversas colunas quirais,a otimização da separação da hidroxicloroquina e seus metabólitos por eletroforese capilar e,em seguida, a otimização dos procedimentos de extração e a validação dos métodos desenvolvidos. Utilizando a coluna Chiralpak AD-RH® e fase móvel composta por solução de ácido fosfórico 1 mol L-1 pH 3 : metanol (75 : 25, v/v), foi validado um método para análise enantiosseletiva do ibuprofeno em urina. A SPME foi empregada para extração do ibuprofeno das amostras de urina utilizando a fibra PDMS-DVB 60 6;m. O método mostrou ser linear na faixa de concentração de 0,25 a 25 μg mL1 para cada enantiômero. Para a análise do 2-hidroxiibuprofeno e carboxiibuprofeno, foi utilizada a coluna Chiralpak AS® e fase móvel composta por hexano: isopropanol (94 : 6, v/v) + 0,05% de ácido trifluoracético. A extração desses metabólitos foi feita empregando a fibra de CW-TPR 50 µm. O método mostrou ser linear na faixa de concentração de 5 a 50 µg mL -1. Já para a análise da hidroxicloroquina e seus principais metabólitos, DHCQ e DCQ, foi utilizada a coluna Chiralcel OD-H® e fase móvel composta por hexano : etanol : metanol (96 : 2 : 2, v/v/v) + 0,2% de dietilamina. A extração desses metabólitos foi feita empregando a fibra de PDMSDVB 60 μm. O método mostrou ser linear na faixa de concentração de 50 a 1000 ng mL -1para HCQ e 42 - 416 ng mL-1 para os metabólitos. A microextração em fase líquida foi avaliada na análise da hidroxicloroquina e seus metabólitos, BDCQ, DHCQ e DCQ e separação por eletroforese capilar. Para tanto foi utilizado um capilar de sílica fundida nãorecoberto com um comprimento efetivo de 42 cm, e 30 mmol L-1 de HP-b-CD + 1% de CD-b- sulfatada dissolvida em tampão tris(hidroxiaminometano) 100 mmol L-1 pH 9 como tampão de análise. O método mostrou ser linear na faixa de concentração de 10 - 1000 ng mL-1 para HCQ e 21-333 ng mL-1 para os metabólitos. Obteve-se precisão com coeficientes de variação inferiores a 15% e exatidão com erros relativos menores que 15% para todos os métodos desenvolvidos. Após validação, os métodos foram empregados na determinação da quantidade excretada acumulada do do ibuprofeno, da hidroxicloroquina e de seus metabólitos após administração de de rac-ibuprofeno e rac-hidroxicloroquina a voluntários sadios. Em suma, as duas técnicas foram eficientes na extração dos fármacos e metabólitos estudados. A SPME mostrou ser uma técnica de mais fácil manuseio, porém com baixos valores de recuperação. Por outro lado, a LPME apresentou valores de recuperação maiores, porém o manuseio do sistema de extração foi mais difícil, necessitando de um tempo maior para o domínio da técnica. / The stereoselective analysis has been standing out in several areas, and it is mainly present in the pharmaceutical industry, since many drugs are marketed as racemic mixtures. The stereoselective analysis employing high-performance liquid chromatography (HPLC) and capillary electrophoresis (CE) is very useful for the determination of enantiomers at very low concentrations, as the ones found in biological matrices, for instance, in pharmacokinetic studies. The first step in the analysis of drugs in biological fluids is the extraction procedure. The most common extraction procedures employed are liquid-liquid extraction and solidphase extraction. These techniques show several drawbacks, such as the high amount of organic solvent consumed. So, based on this fact, techniques that consume small amounts of organic solvents are desirable. Among these techniques, solid-phase microextraction (SPME) and liquid-phase microextraction (LPME) have been stood out. The main advantages of these techniques are the small amount of organic solvent consumed and its high capacity in drug concentration. In this work, our purpose was to employ the SPME and the LPME as sample preparation techniques to develop stereoselective methods to be further applied in pharmacokinetic studies. SPME was employed for the stereoselective analysis of ibuprofen, hydroxychloroquine and their major metabolites.On the other hand,LPME was employed only for the enantioselective analysis of hydroxychloroquine and its metabolites. The first step was the separation optimization of the drugs and their metabolites by HPLC using several chiral columns, and the separation optimization of hydroxychloroquine and its metabolites by CE. Next, the extraction optimizations and method validations were performed. The enantioselective analysis of ibuprofen in human urine was carried out in the Chiralpak AD-RH® column, using methanol-pH 3.0 phosphoric acid solution (75 : 25 v/v) as mobile phase. The method was linear over the 0.5 - 25 µg mL-1 concentration range for both enantiomers. The fiber used in this method was PDMS-DVB 60 µm.The analysis of 2-hydroxyibuprofen and carboxyibuprofen was performed on a Chiralpak AS® column using hexane:isopropanol (95 : 5 v/v) plus 0.05% trifluoroacetic acid as the mobile phase. The method was linear over the 5 - 50 µg mL-1 concentration range. To perform the extractions, a CW-TPR 50 µm coated fiber was employed. The analysis of hydroxychloroquine and its major metabolites (DCQ and DHCQ) was done on a Chiralcel OD-H® column using hexane-methanol-ethanol (96 : 2 : 2, v/v/v) plus 0.2% diethylamine as mobile phase. The extraction was performed using a PDMS-DVB 60 µm coated fiber. The method was linear over the range of 50 - 1000 ng mL-1 for HCQ enantiomers and over the range of 42 - 416 ng mL-1 for DCQ and DHCQ enantiomers. LPME and CE were applied for the chiral determination of hydroxychloroquine and its metabolites (DCQ, DHCQ, BDCQ) in human urine. The electrophoretic separations were carried out in 100 mmol L-1tris(hydroxymethyl)aminomethane buffer (pH adjusted to 9.0 with phosphoric acid) containing 1% (w/v) S-b-CD and 30 mg mL-1 HP-?-CD, with a constant voltage of +18 kV. The method was linear over the concentration range of 10-1000 ng mL -1 for each HCQ stereoisomer and 21-333 ng mL -1 for each metabolite stereoisomer. Within-day and between-day assay precision and accuracy for all described methods were lower than 15%. The developed methods were applied for the determination of the cumulative urinary excretion of ibuprofen metabolites and hydroxychloroquine and its metabolites after oral administration of racibuprofen and rac-hydroxychloroquine to health volunteers. Comparing the techniques, both SPME and LPME were efficient to extract the drugs and their metabolites from human urine. iv SPME showed to be an easier technique to handle, however, the drug amount recovered by this technique was too small. On the contrary, LPME was a more difficulty technique to be handled, but better recovery values were obtained with this technique. análise estereosseletiva hidroxicloroquina hydroxychloroquine ibuprofen ibuprofeno liquid-phase microextraction metabolites metabólitos microextração em fase liquida Microextração em fase sólida Solid-phase microextraction stereoselective analysis urina urine
60	Organokatalysierte, kettenverlängernde Kaskadenreaktionen an ungeschützten Kohlenhydraten Voigt, Benjamin 28 April 2016 (has links) Im Rahmen der vorliegenden Dissertation wurden drei neue Zugangswege zu kettenverlängerten Kohlenhydraten aus ungeschützten Aldosen entwickelt. Dabei ermöglichen diese Protokolle die Synthese verschiedener Klassen von kettenverlängerten Strukturen. Neben der selektiven Darstellung von 2-Ketoaldonsäurederivaten konnten effiziente Zugangsstrategien zu hoch funktionalisierten bizyklischen C-Glycosiden und polyhydroxylierten Pseudopeptiden präsentiert werden. Dabei konnte gezeigt werden, dass ein breites Spektrum dieser verschiedenen Arten kettenverlängerter Kohlenhydrate aus ungeschützten natürlichen Hexose- und Pentose-Substraten zugänglich ist. Durch den Einbezug der natürlich vorhandenen Hydroxylgruppen der Aldosen ermöglichen die präsentierten Kaskadenreaktionen einen sehr effektiven Zugang zu hoch funktionalisierten Produkten, welche in Sequenzen unter Verwendung von Schützungsstrategien nur in aufwendigen, mehrstufigen Reaktionen zugänglich wären. Zudem konnte gezeigt werden, dass die natürlich vorkommende Chiralität in den verwendeten Substraten für ein stereoselektives Dirigieren der neu installierten Stereozentren nutzbar ist. Damit konnte eine bedeutende Erweiterung des bestehenden Repertoires von Methoden für die Verlängerung ungeschützter Kohlenhydrate erreicht werden.. Die entwickelten Transformationen bestechen durch ihre hohe Atomökonomie, wie auch durch ihre sehr gute ökologische und ökonomische Bilanz und erfüllen damit die Anforderungen an nachhaltige Synthesemethoden. / The scope of the presented work was the investigation of new organocatalysed synthesis strategies of carbon chain elongated carbohydrates. Here three new accesses to three different structure motifs of these biologically highly important and manifold compounds from unprotected carbohydrates were developed. Using naturally occurring, unprotected pentoses and hexoses, a wide variety of keto aldonic acids, bicyclic C-glycosides and glycosylated pseudopeptides are accessible in three different cascade reactions. All of the presented strategies enable the C-chain elongation by employment of the naturally occurring aldehyde motive without tedious protection ad deprotection protocols or synthetic modifications of the substrates. By utilisation of the chiral hydroxyl moieties of the carbohydrate chain, diastereoselective control of the installation of the stereocenters formed in the cascade reactions is achieved. The high regio- and diastereoselectivities, high yields as well as the convenient synthesis conditions of the presented protocols make the presented cascade reactions valuable tools among the already described accesses to the biological important compounds of chain elongated carbohydrates. The presented cascades enable the diastereoselective synthesis of a high variety of these motifs in only one synthetic step from readily available unprotected carbohydrates without additional modification steps. These advantages give rise to a very high atom economy of the transformations, which therefore fulfil the requirements to green chemistry and sustainable synthesis methods. Organokatalyse Kaskadenreaktionen Stereoselektive Synthese ungeschützte Kohlenhydrate green Chemistry organocatalysis cascade reactions stereoselective synthesis unprotected carbohydrates green chemistry 540 Chemie 30 Chemie VK 5587 VK 8587 ddc:540

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