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Synthesis of potential opioids based on the natural PawhuskinsGardner, Kevyn Danielle 01 May 2016 (has links)
Living organisms are capable of producing novel terpenoids with both remarkable ease and great selectivity. Many of these natural products exhibit significant biological activity useful for treatment of human diseases, but isolation of highly sought chemicals often results in only minute quantities. Consequently, extraction of these potential therapeutics from natural sources becomes an unrealistic method for obtaining enough material for a thorough biological evaluation, and so synthesizing these compounds becomes essential. Synthesis of terpenoids as potential therapeutics requires exceptional selectivity, especially when corresponding isomers elicit a contrasting biological response. The necessity for such selective syntheses along with the inherent structural complexities of terpenoids, often presents a number of significant challenges for the synthetic chemist.
Isolation of the terpenoids pawhuskins A–C and petalostemumol from Dalea purpurea was reported by Belofsky in 2004, and of the collected compounds pawhuskin A was found to exhibit the most significant activity in an opioid receptor assay in vitro. Natural pawhuskin A was extracted from “Purple Prairie Clover” in only a 39 mg quantity and therefore syntheses of the natural product along with several analogues were pursued. Two of the synthesized analogues demonstrated greater potency than pawhuskin A, and interestingly these two isomeric derivatives were found to be selective for two different opioid receptors. However, the synthetic route utilized to form these two derivatives was not very selective for either isomer, and thorough purification proved challenging. Ergo, an alternative approach was sought to ensure the purity of these potential therapeutics.
Parallel syntheses affording high selectivity for the key isomeric intermediates as well as a third regioisomer have been developed. The new isomeric intermediate also allowed the synthesis of two new analogues. This work is described in this report along with the formation of additional pawhuskin derivatives. The activity of these analogues as opioid receptor modulators also will be discussed.
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Syntéza cyklodextrinových derivátů pro organokatalýzu / Synthesis of cyclodextrin derivatives for organocatalysisChena Tichá, Iveta January 2019 (has links)
Synthesis of cyclodextrin derivatives for organocatalysis This doctoral thesis examines the preparation of new cyclodextrin (CD) derivatives suitable for organocatalysis. The aim of this work is to prepare monosubstituted and disubstituted CD derivatives as organocatalysts for different types of enantioselective reactions potentially performed in water. In addition, disubstituted CD derivatives require considering the potential mixture of regioisomers and pseudoenantiomers. Thus, this thesis is divided into several sections - preparation of CD precursors and derivatives for organocatalysis, preparation of pure regioisomers and pseudoenantiomers of disubstituted CDs and final application of CD derivatives in enantioselective reactions. Furthermore, this thesis also focuses on the molecular modeling of the prepared CD derivatives and on their catalytic activity in silico. The first section covers the preparation of new disubstituted CD precursors as pure regioisomers for organocatalysts, specifically to develop a new method for the preparation of heterodisubstituted AC regioisomers on the primary rim of α-CD. This section also includes the determination of the regioisomer ratios of common α-CD intermediates disubstituted on the primary rim to evaluate their potential as precursors in organocatalysis....
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Structure-Property Relationships of Polyester Regioisomers and Pendant Functionalized PolyetherimidesMondschein, Ryan Joseph 11 July 2019 (has links)
Step-growth polymerization enabled the synthesis of novel polyester regioisomers and pendant functionalized polyetherimides (PEI)s. Novel monomers incorporated at targeted mol % produced series of polyesters and PEIs, suitable for systematic analysis of key polymer properties. Subsequent compositional, thermal, mechanical, and rheological characterization forged structure-property relationships to further understand the influence of composition on performance. Altering regiochemistry is a subtle way to maintain the same polymer composition but tune desired properties. Similarly, introducing functional pendant groups expands the property profile of common industrial polymers and installs a handle for secondary chemistry after synthesizing the main polymer. Both altering regiochemistry and adding pendant groups alters polymer properties without the need for large changes in synthetic requirements or reaction conditions, ideal for industrial adoption.
Incorporation of a kinked bibenzoate (BB)-based diester monomers into the commonly utilized linear regioisomer afforded processable amorphous and semi-aromatic (co)polyesters. BB-(co)polyesters with ethylene glycol (EG) possessed improved barrier performance compared to poly(ethylene terephthalate) (PET) while improving on mechanical properties, including tensile and flexural modulus/strength, rivaling bisphenol-A polycarbonate (BPA-PC). Replacement of EG with 1,4-cyclohexanedimethanol (CHDM) improved thermal properties closer to BPA-PC, while enabling melt rheological analysis due to its amorphous morphology. Time-temperature superposition (TTS) analysis produced master curves provided insight into the entanglement molecular weight (Me) and entanglement density. More kinked structures possessed a lower Me and more entanglements.
Introducing kinked monomers posed the question of cyclic speices generation during polymerization, common in step-growth reactions. Thus, systematic incorporation of meta-substituted hydroxyethylresorcinol and para-substituted hydroxyethylhydroquinone regioisomers into PET analogues enabled the characterization of cyclic formation due to monomer regioisomers. Increased meta substitution produced increased amounts of cylic species, analyzed by size exclusion chromatography (SEC).
Adding functionality to high performance polyetherimides (PEI)s is difficult due to the high temperatures required for processing. The lack of thermal stability for commonly utilized H-bonding/reactive groups limits viable moieties. Utilizing the high temperture processing, PEIs incorporating pendant carboxylic acids reacted in the melt to form branched PEIs. These branched PEIs exhibited steeper shear thinning as well as improved flame resistance, limited in thin film commercial PEIs. / Doctor of Philosophy / My research focused on making new plastics (polymers) for use in consumer and performance markets. Typical applications utilizing these plastics include food packaging, consumer goods, automotive, aerospace, microelectronics, construction, and medical devices. Large changes such as intricate new chemicals used to make the plastics increase the difficulty in incorporating these new materials into existing synthesis and processing techniques and infrastructure. Thus, my research revolved around subtle changes to the chemical structure of the plastic, suitable for easy industrial adoption while also improving targeted properties necessary for the aforementioned applications.
Polyesters are a class of polymers commonly used for food packaging and consumer goods. Thus, improving gas barrier performance and mechanical integrity/strength is crucial when designing new polyesters. Changing the bond angles through the linear versus kinked nature of the polymer chain imparts processability and improved gas barrier, compared to commercial poly(ethylene terepthalate) (PET), commonly used in food packaging applications. The density of the polyesters is also increased, which improves mechanical strength. The specific structures used also increased the thermal resistivity compared to PET. This higher thermal resistivity enables use in applications where high temperature cleaning such as steam sterilization and dish-washing could deform products or processing such as filling food packaging containers with hot foods.
Similar types of polymers which possess much higher thermal resistivity are classified as high performance polymers. One class of these include polyetherimides (PEIs). The specific chemical structures and their high thermal resistance makes them great candidates for applications in automotive, aerospace, and microelectronic applications; although, these same properties make these polymers very difficult and expensive to process into the desired parts. Thus, adding functionality to the polymer by putting specific chemical groups off of the main chain enabled easier processing and improved other polymer properties. Adding the functionality to these polymers allowed them to react and change structure at high temperatures (during processing) to achieve a different shape, thus improving desired properties, such as how easy they flow like liquids at high temperatures and processing conditions. Another benefit realized from this change during processing was the improvement of flame resistance. Due to the chemical structure of the PEIs, they inherently possess resistance to catching on fire, remaining on fire, and dripping flaming material. Although PEIs typically possess good flame resistance, thin films or small parts made from these polymers do not possess the same flame resistance and can produce flaming drips, undesirable for applications requiring flame resistance. Chemically modifying these polymers with the aforementioned functionality and processing them increased the flame resistance to eliminate flaming drips and lessen the amount of time the polymer was on fire.
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Mechanistic Studies on the Photochemical Formation and Cleavage of Oxetanes Derived from Pyrimidine BasesBlasco Brusola, Alejandro 13 April 2021 (has links)
[ES] La luz solar puede producir daños en el ADN por absorción directa de luz UVB, o por fotosensibilización tras la absorción de luz UVA por parte de fármacos, que pueden actuar como fotosensibilizadores (PS). La benzofenona (BP), presente en la estructura química de una amplia variedad de fármacos, tiene el potencial de fotosensibilizar daño al ADN, especialmente hacia la base de timina (Thy). Este daño puede dar lugar a dímeros de pirimidina de tipo ciclobutano (CPD) y a fotoproductos (6-4) pirimidina-pirimidona ((6-4)PPs), los cuales pueden causar mutaciones graves, melanomas o incluso la muerte celular. En algunos organismos, los (6-4)PPs pueden repararse de manera eficiente por las fotoliasas, en lo que se podría entender como una reacción Paternò-Büchi (PB) inversa a través de un intermedio de oxetano altamente inestable.
Con el fin de profundizar en la fotorreactividad de los derivados BP-Thy y en la ruptura fotoinducida de oxetanos, se sintetizaron por primera vez una variedad de diadas en las que Thy y BP están covalentemente unidas por un espaciador lineal de diferente longitud y naturaleza. La fotorreactividad de los diferentes derivados se investigó por fotólisis de destello láser (LFP) y espectroscopía de absorción transitoria a escala de femtosegundo; además, se aislaron y caracterizaron los principales fotoproductos (PPs) derivados de la irradiación en estado estacionario.
Los resultados mostraron un alto grado de quimioselectividad en la longitud y conformación del espaciador. En cuanto a la reactividad fotoquímica, se formaron PPs derivados de la PB y de la abstracción formal de hidrógeno; así, las diadas con el espaciador más largo dieron lugar a la formación de oxetanos y de PPs de abstracción de hidrógeno. Por el contrario, las diadas con espaciadores más cortos formaron un fotoproducto de abstracción formal de hidrógeno y/o polimerización. Por tanto, la fotorreactividad se vio influida por la longitud del espaciador, correlacionándose bien con los tiempos de 3BP*, observándose los tiempos más cortos para las diadas de espaciadores largos. En relación con la fotoapertura de oxetanos, la irradiación de los diferentes regio- y estereoisoméros condujo a la formación de la típica banda de absorción triplete-triplete de BP; por tanto, dicho proceso opera de forma adiabática. La fotólisis del oxetano que resulta de la irradiación de la diada con el espaciador más largo mostró una banda de absorción transitoria sobre 400 nm, atribuida a la formación del exciplejo triplete entre BP y Thy covalentemente unidos.
Por otro lado, se investigó la reacción PB y la cicloreversión de oxetanos que surgen de la interacción entre Thy o derivados de uracilo (Ura) y BP. Así, se sintetizó una amplia gama de oxetanos Thy-BP y Ura-BP con diferentes sustituyentes en las posiciones 1 y 5 de la nucleobase, incluyéndose los regioisómeros cabeza-cabeza (HH) y cabeza-cola (HT).
Los estudios espectroscópicos (absorción transitoria ultrarrápida y LFP), junto con el análisis teórico, coinciden en que la cicloreversión fotoinducida para los isómeros HH y HT implica la formación de un exciplejo en el estado excitado triplete antes de la ruptura. Generalmente, se observó que la reacción fue completamente adiabática para los regioisómeros HH. En el caso del oxetano HH que surge de la interacción entre 1,3-dimetiltimina (DMT) y BP, se observó la formación de una banda ~400 nm, que se atribuyó al exciplejo triplete 3[DMT···BP]*. Su formación fue altamente regioselectiva, siendo más rápida y eficiente para el isómero HH que para HT. Estos resultados fueron confirmados por análisis computacional. En general, se observó adiabaticidad en el proceso de fotorreversión para todos los oxetanos investigados, con un alto grado de regioselectividad y con la participación de exciplejos triplete. / [CA] La llum solar pot produir danys a l'ADN per absorció directa de llum UVB, o per fotosensibilització després de l'absorció de llum UVA per part de fàrmacs, que poden actuar com fotosensibilitzadors (PS). La benzofenona (BP), present en l'estructura química d'una àmplia varietat de fàrmacs, té el potencial de fotosensibilitzar dany a l'ADN, especialment a la base de timina (Thy). Aquest dany pot donar lloc a dímers de pirimidina de tipus ciclobutà (CPD) i a fotoproductes (6-4) pirimidina-pirimidona ((6-4)PPs), els quals poden causar mutacions greus, melanomes o fins i tot la mort cel·lular. En alguns organismes, els (6-4)PPs poden reparar-se de manera eficient per les fotoliases, en el que es podria entendre com una reacció Paternò-Büchi (PB) inversa a través d'un intermedi d'oxetà altament inestable.
Amb la finalitat d'aprofundir en la fotoreactivitat dels derivats BP-Thy i en la ruptura fotoinduïda d'oxetans, es van sintetitzar per primera vegada una varietat de diades en les quals Thy i BP estan covalentment unides per un espaiador lineal de diferent longitud i naturalesa. La fotoreactivitat dels diferents derivats es va investigar per fotòlisi de centelleig làser (LFP) i espectroscopía d'absorció transitòria a escala de femtosegons; a més, es van aïllar i caracteritzar els principals fotoproductes (PPs) derivats de la irradiació en estat estacionari.
Els resultats van mostrar un alt grau de quimioselectivitat en la longitud i conformació de l'espaiador. Quant a la reactivitat fotoquímica, es van formar PPs derivats de la PB i de l'abstracció formal d'hidrogen; així, les diades amb l'espaiador més llarg van donar lloc a la formació d'oxetans i de PPs d'abstracció d'hidrogen. Per contra, les diades amb espaiadors més curts van formar un fotoproducte d'abstracció formal d'hidrogen i/o polimerització. Per tant, la fotoreactivitat es va veure influïda per la longitud de l'espaiador, correlacionant-se bé amb els temps de 3BP*, observant-se els temps més curts per a les diades amb espaiadors llargs. En relació amb la fotoapertura d'oxetans, la irradiació dels diferents regi- i estereoisòmers va conduir a la formació de la típica banda d'absorció triplet-triplet de BP; per tant, aquest procés opera de manera adiabàtica. La fotòlisi de l'oxetà que resulta de la irradiació de la diada amb l'espaiador més llarg va mostrar una banda d'absorció transitòria sobre 400 nm, atribuïda a la formació de l'exciplex triplet entre BP i Thy covalentment units.
D'altra banda, es va investigar la reacció PB i la cicloreversió d'oxetans que sorgeixen de la interacció entre Thy o derivats d'uracil (Ura) i BP. Així, es va sintetitzar una àmplia gamma d'oxetans Thy-BP i Ura-BP amb diferents substituents en les posicions 1 i 5 de la nucleobase, incloent-se els regioisòmers cap-cap (HH) i cap-cua (HT).
Els estudis espectroscòpics (absorció transitòria ultraràpida i LFP), juntament amb l'anàlisi teòric, coincideixen en que la cicloreversió fotoinduïda per als isòmers HH i HT implica la formació d'un exciplex en l'estat excitat triplet abans de la ruptura. Generalment, es va observar que la reacció va ser completament adiabàtica per als regioisòmers HH. En el cas de l'oxetà HH que sorgeix de la interacció entre 1,3-dimetiltimina (DMT) i BP, es va observar la formació d'una banda ~400 nm, que es va atribuir a l'exciplex triplet 3[DMT···BP]*. La seua formació va ser altament regioselectiva, sent més ràpida i eficient per a l'isòmer HH que per a HT. Aquests resultats van ser confirmats per anàlisi computacional. En general, es va observar adiabaticitat en el procés de fotoreversió per a tots els oxetans investigats, amb un alt grau de regioselectivitat i amb la participació d'exciplexes triplet. / [EN] Sunlight light can produce damage to DNA through direct absorption of UVB or, more commonly, by photosensitization upon absorption of UVA light by drugs, that act as a photosensitizer (PS). Benzophenone (BP) as a building-block is present in a wide variety of drugs, and have the potential to photosensitize damage to DNA, specially towards the thymine (Thy) nucleobase. The resulting DNA damage can give rise to bulky dimers, i.e. cyclobutane pyrimidine dimers (CPDs) and pyrimidine-pyrimidone (6-4) photoproducts ((6-4)PPs), which can cause severe mutations, melanomas, or even be fatal for the cell. In some organisms, (6-4)PP can be efficiently repaired by photolyase enzymes, in what could be a reverse Paternò-Büchi (PB) reaction through an unstable oxetane intermediate.
With the aim of getting deeper insight into the photoreactivity of BP-Thy derivatives and in the photoinduced cleavage of oxetanes, a variety of dyads where Thy and BP are covalently linked by a linear spacer of different lengths and nature were first synthesized. The photochemical reactivity and the photophysical properties of the different derivatives were investigated by means of laser flash photolysis (LFP) and femtosecond transient absorption spectroscopy; besides, the main photoproducts (PPs) arising from steady-state irradiation were also isolated and characterized.
The results showed a high degree of chemoselectivity on the linking bridge length and conformation. Concerning the photochemical reactivity, PPs arising from the PB and from formal hydrogen abstraction were formed. In this context, the PB reaction took place for the dyads with the longest spacer with complete regio- and stereoselectivity, along with a hydrogen abstraction process. Finally, the dyads with shorter spacers gave rise to a formal hydrogen abstraction photoproduct and/or polymerization. Accordingly, the overall photoreactivity was proportional to the spacer length and was well correlated with the 3BP* lifetimes, the longer spacers giving rise to shorter lifetimes. In connection to the oxetane photocleavage, irradiation of the different regio- and stereoisomeric oxetanes led to the formation of the typical triplet-triplet absorption band of BP. Accordingly, the photoinduced cycloreversion also operates as an adiabatic process. Photolysis of the oxetane that results from irradiation of the dyad with the longest spacer showed a transient absorption at ~400 nm, which is ascribed to formation of the purported triplet exciplex between BP and Thy covalently linked.
Additionally, the PB reaction and the cycloreversion of oxetanes arising from the interaction between Thy or uracil (Ura) derivatives and BP were also investigated. Thus, a wide range of Thy-BP and Ura-BP oxetanes with varying substituents at positions 1 and 5 of the nucleobase were synthesized, including both the head-to-head (HH) and head-to-tail (HT) regioisomers.
Spectroscopic studies, including femtosecond transient absorption and LFP results, as well as theoretical multiconfigurational quantum chemistry analysis, agree that the photoinduced cycloreversion for the HH and HT isomers involved the formation of a triplet excited exciplex before the cleavage takes place. Generally, the photochemical reaction was fully adiabatic for the HH regioisomers. In the case of the HH-oxetane arising from the interaction between 1,3-dimethylthymine (DMT) and BP, an absorption band at ca. 400 nm was formed, and was attributed to the triplet exciplex 3[DMT···BP]*. Its formation was highly regioselective towards the HH regioisomer, being faster and more efficient than for the HT isomer. These results were confirmed by computational analysis. In general, adiabaticity was observed in the photoreversion process for all oxetanes, with a high degree of regioselectivity, which falls in line with the theory of the involvement of a triplet exciplex in the process. / Thanks to the Generalitat Valenciana for the finantial support through the Santiago Grisolía grant. / Blasco Brusola, A. (2021). Mechanistic Studies on the Photochemical Formation and Cleavage of Oxetanes Derived from Pyrimidine Bases [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/165256
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