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81	A model route to a brominated hydroxy[2,3-c]pyran- a potential precursor to extended quinones / Mei, Mawonga Newton. January 2008 (has links) Thesis (MTech (Chemistry))--Cape Peninsula University of Technology, 2008. / Includes bibliographical references (leaves 77-79). Also available online.
82	Síntese de derivados 5-amino-1H-pirazólicos da nor-β-lapachona com potencial perfil anticancerígeno Cardoso, Mariana Filomena do Carmo 04 April 2017 (has links) Submitted by Biblioteca da Faculdade de Farmácia (bff@ndc.uff.br) on 2017-04-04T18:00:06Z No. of bitstreams: 1 Cardoso, Mariana Filomena do Carmo [Dissertação, 2012].pdf: 7461706 bytes, checksum: 1ba99c29719229ef773ca5d72b10c91f (MD5) / Made available in DSpace on 2017-04-04T18:00:06Z (GMT). No. of bitstreams: 1 Cardoso, Mariana Filomena do Carmo [Dissertação, 2012].pdf: 7461706 bytes, checksum: 1ba99c29719229ef773ca5d72b10c91f (MD5) / Esse trabalho descreve uma nova metodologia sintética de novos derivados pirazólicos análogos a 2,2-dimetil-2,3-di-hidronafto[1,2-b]furan-4,5-diona (nor-β-lapachona), através da inserção do núcleo pirazólico a posição C-3 da nor-β-lapachona. Nesta dissertação foram sintetizados 16 (dezesseis) substâncias inéditas, sendo oito da família 3-pirazolil-2,2-dimetil-2,3-di-hidronafto[1,2-b]furan-4,5-diona contendo o núcleo pirazólico acoplado à naftoquinona os quais foram submetidos a testes biológicos para avaliação de suas atividades citotóxicas in vitro contra quatro linhagens de células tumorais humanas e uma linhagem de células normais humanas. Todas as amostras mostraram-se ativas para as linhagens tumorais e não apresentaram hemólise. A metodologia clássica para a substituição nucleofílica no carbono 3 da nor-β-lapachona desenvolvida pelo nosso grupo de pesquisa mostrou-se pouco eficaz, levando a baixos rendimentos com formação de vários produtos colaterais. Desta forma, realizou-se um estudo metodológico a fim de se viabilizar a síntese de uma família de 3-pirazolil-nor-β-lapachonas com rendimentos satisfatórios. Assim, após várias modificações nos parâmetros reacionais, observou-se que o melhor intermediário sintético era o 3-hidroxi-2,2-dimetil-2,3-di-hidronafto[1,2-b]furan-4,5-diona / This paper describes a new synthetic methodology to new pyrazole derivatives analogous to the 2,2-dimethyl-2,3-dihidronaphtho-[1,2-b]-furan-4 ,5-dione (nor-β-lapachone) by inserting the core pyrazolic on the C-3 position of the nor-β-lapachone. In this essay were synthesized 16 (sixteen) new compounds, being eight 3-pyrazolyl-2,2-dimethyl-2,3-dihidronaphtho [1,2-b]-furan-4 ,5-dione family containing core pyrazolic naphthoquinone attached to which were submitted to biological tests to evaluate their in vitro cytotoxic activities against four human tumor cell lines and normal human cell line. All samples were active for tumor cell lines and showed no hemolysis. The classical methodology for the nucleophilic substitution at carbon 3 of the nor-β-lapachone developed by our research group proved to be ineffective, leading to low yields with the formation of various side products. Thus, there was a methodological study in order to facilitate the synthesis of a family of 3-pyrazolyl-nor-β-lapachones with satisfactory yields. Then, after the various modifications on the reaction parameters, it was found that the better synthetic intermediate was the 3-hydroxy-2,2-dimethyl-2,3-dihidronaphtho-[1,2-b]-furan-4 ,5-dione Quinona Naftoquinona Química orgânica Organic chemistry Quinone Naphthoquinone
83	Studies in marine quinone chemistry Sunassee, Suthananda Naidu January 2011 (has links) This thesis is divided into two parts and the rationale of the research conducted is based on the cytotoxicity of the prenylated quinones 1.24-1.29, isolated from the South African nudibranch Leminda millecra, against oesophageal cancer cells. The first part (Chapters 2 and 3) of the thesis initially documents the distribution of cytotoxic and antioxidant prenylated quinones and hydroquinones in the marine environment. We have been able to show, for the first time, that these compounds can be divided into eight structural classes closely related to their phyletic distribution. Secondly, we attempted to synthesize the two marine natural products 1.24 and 1.26 in an effort to contribute to an ongoing collaborative search with the Division of Medical Biochemistry at the University of Cape Town for new compounds with anti-oesophageal cancer activity. Accordingly, we followed the published synthetic procedure for 1.26 and, although we were unable to reproduce the reported results, we have generated five new prenylated quinone analogues 3.53-3.55, 3.63 and 3.71, which are a potentially viable addition to our ongoing structure-activity relationship (SAR) studies. Moreover, we embarked on a 7Li NMR mechanistic study for the synthesis of 3.2 from 3.1 which rewarded us with an improved and reproducible methodology for this crucial reaction that is detailed in Chapter 3. The second part of this thesis (Chapters 4 and 5) is concerned with a synthetic, structural, electrochemical and biological exploration of the 1,4-naphthoquinone nucleus as a primary pharmacophore in our search for new chemical entities which can induce apoptosis in oesophageal cancer cells, thus contributing to our overall ongoing SAR study in this class of compounds. Seven new naphthoquinone derivatves (4.19, 4.30, 4.31, 4.33 and 4.46-4.48) of the natural products 2-deoxylapachol (2.44), lapachol (4.1) and β-lapachone (5.2) were synthesized and 2-(1`-hydroxy-`-phenylmethyl)-1,4-naphthoquinone (4.29) was found to be the most cytotoxic (IC50 1.5 μM) against the oesophageal cancer cell line WHCO1, while 5.2, which is currently in phase II clinical trials as an anticancer drug, was found to be similarly active (IC50 1.6 μM). Electrochemical investigations of the redox properties of the benzylic alcohol derivatives 4.29-4.31 indicated a higher reduction potential compared to their oxidized counterparts 4.45-4.48, and this finding has been correlated to the increased activity of 4.29-4.31 against the WHCO1 cell line. Additionally, 4.29 is synthetically more accessible than either 1.26 or 5.2 and potentially a lead compound in our search for new and more effective chemotherapeutic agents against oesophageal cancer Quinone Marine natural products Marine invertebrates Marine pharmacology Cancer -- Treatment
84	Effect of Chronic Methylphenidate Treatment in a Female Experimental Model of Parkinsonism Oakes, Hannah V., McWethy, David, Ketchem, Shannon, Tran, Lily, Phillips, Kaitlyn, Oakley, Laura, Smeyne, Richard J., Pond, Brooks B. 01 June 2021 (has links) Methylphenidate (MPH) is the most commonly prescribed drug for the treatment of ADHD in males and females. However, a majority of previous studies investigated the effect of MPH in only males, and little is known regarding consequences of female exposure to MPH. This is unfortunate because the few studies that have been conducted indicate that females have a greater sensitivity to MPH. Previous research in male mice has shown that chronic exposure to MPH causes dopaminergic neurons within the nigrostriatal pathway to be more sensitive to the Parkinsonian toxin 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP). However, estrogen has been shown to protect dopaminergic neurons from MPTP neurotoxicity. Therefore, in this study, we test the hypothesis that chronic MPH exposure in female mice will render dopaminergic neurons in the nigrostriatal pathway more sensitive to MPTP, and that estrogen may play a protective role. Interestingly, proestrus females exhibited greater sensitivity to MPTP, with significantly reduced dopaminergic neurons in the SN and significant increases in DA quinone production. Chronic MPH exposure contributed to GSH depletion, but surprisingly, it did not increase dopamine quinone levels or dopaminergic cell loss. There were no significant differences in anestrus animals, with the exception of a depletion in GSH seen when animals received chronic high-dose (10 mg/kg) MPH followed by MPTP. Thus, estrogen may actually sensitize neurons to MPTP in this model, and chronic MPH may contribute to GSH depletion within the striatum. This study provides insight into how chronic psychostimulant use may affect males and females differently. dopamine dopamine-quinone estrogen glutathione methylphenidate Pharmaceutical Sciences
85	Chronic Methylphenidate Induces Increased Quinone Production and Subsequent Depletion of the Antioxidant Glutathione in the Striatum Oakes, Hannah V., Ketchem, Shannon, Hall, Alexis N., Ensley, Tucker, Archibald, Kristen M., Pond, Brooks B. 01 December 2019 (has links) Background: Methylphenidate (Ritalin®) is a psychostimulant used chronically to treat attention deficit hyperactivity disorder. Methylphenidate acts by preventing the reuptake of dopamine and norepinephrine, resulting in an increase in these neurotransmitters in the synaptic cleft. Excess dopamine can be autoxidized to a quinone that may lead to oxidative stress. The antioxidant, glutathione helps to protect the cell against quinones via conjugation reactions; however, depletion of glutathione may result from excess quinone formation. Chronic exposure to methylphenidate appears to sensitize dopaminergic neurons to the Parkinsonian toxin 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP). We hypothesized that oxidative stress caused by the autooxidation of the excess dopamine renders dopaminergic neurons within the nigrostriatal pathway to be more sensitive to MPTP. Methods: To test this hypothesis, male mice received chronic low or high doses of MPH and were exposed to saline or MPTP following a 1-week washout. Quinone formation in the striatum was examined via dot blot, and striatal GSH was quantified using a glutathione assay. Results: Indeed, quinone formation increased with increasing doses of methylphenidate. Additionally, methylphenidate dose-dependently resulted in a depletion of glutathione, which was further depleted following MPTP treatment. Conclusions: Thus, the increased sensitivity of dopamine neurons to MPTP toxicity following chronic methylphenidate exposure may be due to quinone production and subsequent depletion of glutathione. dopamine glutathione methylphenidate oxidative stress quinone Pharmaceutical Sciences
86	Synthesis of 5- and 6-Aminopyridin-3-ol Quinone Methide Precursors Lind, Eli A. January 2022 (has links) No description available. Biochemistry Pharmaceuticals Organophosphorus nerve agents QMP quinone methide precursor
87	Etude de la photoréactivité de la méthoxy-p-quinone et de phényl-p-benzoquinones en solution BEARNAIS-BARBRY, Stéphane 14 September 2001 (has links) (PDF) L'étude de la photoréactivité du couple méthoxy-p-quinone/méthoxyhydroquinone en solution a permis d'appréhender son importance dans la photodégradation des pâtes à papier à haut rendement. Le mécanisme de la photocyclisation de phényl-p-benzoquinones et d'un analogue, la 4,4'-diméthoxybiphényle-2,5,2',5'-diquinone issue du couplage entre la méthoxy-p-quinone et la méthoxyhydroquinone, a été déterminée par irradiation continue et spectroscopie résolue dans le temps. [CHIM:OTHE] Chemical Sciences/Other quinone lignine méthoxy-p-quinone méthoxyhydroquinone photoréactivité photodégradation phase liquide phényl-p-benzoquinones photocyclisation état triplet mécanisme photophysique photochimie spectroscopie résolue dans le temps
88	Investigation of enzymes from the respiratory chain by using electrochemical and spectroscopic techniques / Etude des enzymes de la chaîne respiratoire caractérisées par électrochimie et spectroscopie Sabuncu, Sinan 09 May 2017 (has links) Le présent travail porte sur l’étude de deux protéines de la famille des oxydases à hème-fer par des techniques de spectroscopie et d’électrochimie. Le premier chapitre décrit l’étude du cytochrome bo3 oxydase issue d’E. coli. Nous nous sommes intéressés à l’étude des interactions enzyme-quinone par l’utilisation de quinones avec des longueurs chaines isoprenyl différentes. Notre but est de mieux comprendre le rôle de la longueur de la chaine des quinones sur l’activité catalytique de l’enzyme et sur les propriétés redox des cofacteurs à hème. Dans l’étape suivante, on a étudié les résidus impliqués dans le site de liaison des quinones (haute affinité, QH). Plusieurs mutations de ces résidus sont étudiées pour mieux comprendre l’importance de chacun des résidus dans cette liaison. Dans la dernière partie de ce premier chapitre, la spectroscopie SEIRAS «spectroscopie d’absorption infrarouge exaltée de surface» est introduite comme une technique alternative pour l’étude des protéines membranaires. Dans le second chapitre, la protéine membranaire cNOR issue de P. denitrificans est étudiée. Nous nous sommes focalisés sur l’effet de différents environnements (pH, présence de protéo-liposomes) sur la stabilité de la cNOR. Pour ce faire, trois valeurs de pH (6.5, 7.5 et 8.5) sont choisies et quelques échantillons de cNOR sont reconstitués dans des protéo-liposomes. Enfin, le donneur de proton terminal (au centre binucléaire) dans la protéine cNOR était étudié. De plus, nous avons étudié les ligands des ions Ca2+ puisqu’il est proposé que le donneur de proton est situé proche de cette région. / This thesis is focused on the study of two members of the heme-copper oxidase family by using spectroscopic and electrochemical techniques. In the first chapter cytochrome bo3 oxidase from E. coli was studied. We focused on the quinone-enzyme interactions by using quinones with different isoprenyl chains. Our aim was to better understand the role of isoprenyl chain on the catalytic activity of the enzyme and the redox properties of the heme cofactors. In the next step we studied the residues that are suggested to be in the high-affinity (QH) quinone binding site. Several site-directed mutants of these residues were investigated in order to better understand the position of QH binding site and the importance of each residue. In the last part of this chapter surface-enhanced infrared absorption spectroscopy (SEIRAS) was introduced as an alternative technique to study the membrane proteins. In the second chapter cytochrome c dependent nitric oxide reducates (cNOR) from P. denitrificans was studied. We focused on the effect of different environment (pH, proteoliposomes) on the stability of cNOR. For that purpose three pH values (6.5, 7.5 and 8.5) was selected and some of the cNOR samples were reconstituted in liposomes. Finally, the terminal proton donor (to the binuclear center) in cNOR was investigated. We studied the ligands of the Ca2+ site in cNOR since it was suggested that the proton donor may be close to this area. Spectroscopie infrarouge Électrochimie Titration potentiométrique Site de liaison de la quinone Bo3 oxydase CNOR Infrared spectroscopy Electrochemistry Potentiometric titration Quinone binding site Bo3 oxydase CNOR 572.7 541.3
89	Cycle redox quinone-quinone réductase 2 et conséquences sur la production d'espèces oxygénées réactives dans le contexte cellulaire / Quinone-quinone reductase 2 redox cycle and consequences on the production of reactive oxygen species in the cellular context Cassagnes, Laure-Estelle 28 September 2015 (has links) La quinone réductase 2 ou QR2 est une enzyme qui, comme son homologue QR1, joue un rôle de détoxification des quinones, molécules fortement réactives, en les réduisant en hydroquinones. Cependant, il a été observé au niveau cellulaire et tissulaire que l'activité de cette flavoprotéine pouvait avoir des effets délétères en déclenchant une surproduction d'espèces réactives de l'oxygène (ROS). D'autre part, on observe une surexpression ou une sous expression de QR2 dans certaines maladies neurodégénératives comme la maladie de Parkinson et la maladie d'Alzheimer. Dans ce contexte, ce travail a porté sur l'étude des espèces oxygénées réactives produites lors du cycle redox quinone / QR2 et leurs variations en fonction de la nature de la quinone, sur protéine purifiée et sur modèles cellulaires comparativement à QR1. Les propriétés d'oxydo-réduction des substrats, co-substrats et inhibiteurs de QR2 étudiées par électrochimie ont permis de les classer en fonction de leur capacité à être réduits. L'activité enzymatique de la protéine, qu'elle soit purifiée ou intracellulaire, a été suivie par différentes méthodologies (résonance paramagnétique électronique, spectroscopie UV-visible et de fluorescence, U(H)PLC-MS, microscopie confocale de fluorescence). La production du radical superoxyde est observée en présence de lignées cellulaires surexprimant ou non QR1 et QR2. Les quinones sont réduites enzymatiquement pour donner des hydroquinones via l'activité des quinones réductases (QR1 et QR2) et des semiquinones via l'activité de réductases à un électron (CytP540 réductase par exemple). La réoxydation de ces produits est responsable d'une production plus ou moins forte de radicaux superoxydes selon la structure initiale de la quinone et l'affinité pour les différentes réductases. La ménadione provoque une production cellulaire de superoxyde plus importante en l'absence de QR1 et QR2. Ces analyses ont également démontré que, comme son homologue QR1, QR2 est capable de réduire les ortho-quinones dont certaines catécholquinones (aminochrome, dopachrome, adrénochrome) reconnues pour leur toxicité neuronale. / Quinone reductase 2 or QR2 is an enzyme that, like its counterpart QR1, plays a role in detoxification of the highly reactives quinones by reducing them into hydroquinones. On one hand, it has been observed at the cellular and tissue level that the activity of this flavoprotein could have deleterious effects by triggering an overproduction of reactive oxygen species (ROS). On the other hand, overexpression or under expression of QR2 has been observed in some neurodegenerative diseases such as Parkinson's disease and Alzheimer's disease. In this context, this work focused on the study of reactive oxygen species produced during the quinone / QR2 redox cycle and their variations depending on the nature of the quinone, on both purified protein and cell models, in comparison to QR1. The redox properties of the substrates, co-substrates and inhibitors ok QR2 studied by electrochemistry allowed to classify them according to their capacity to be reduced. The enzymatic activity of the protein, either purified or intracellular, was followed by various methodologies (electron paramagnetic resonance, UV-visible and fluorescence spectroscopy, U(H)PLC-MS, confocal fluorescence microscopy). Production of superoxide radical is observed in the presence of cell lines overexpressing or not QR1 and QR2. Quinones are reduced enzymatically to form hydroquinones via the activity of quinone reductase (QR1 and QR2) and semiquinone via the activity of one electron reductases (e.g. CytP540 reductase). Reoxidation of these products is responsible for a greater or lesser production of the superoxide radical, according to the initial structure of the quinone and the affinity for different reductases. Menadione causes a higher production of cellular superoxide in the absence of QR1 and QR2. These analyzes have also shown that, like its counterpart QR1, QR2 is capable of reducing ortho-quinones including catecholquinones (aminochrome, dopachrome, adrenochrome) known for their neuronal toxicity. Quinone réductase 2 Stress oxydant RPE Electrochimie Ortho et para-quinones Sonde redox Quinone reductase 2 Oxidative stress EPR Electrochemistry Ortho and para-quinones Redox probe
90	A Computational Investigation Into the Development of an Effective Therapeutic Against Organophosphorus Nerve Agent Exposure Brown, Jason David January 2014 (has links) No description available. Chemistry Organic Chemistry organophosphorus nerve agents acetylcholinesterase AChE molecular baskets quinone methide encapsulation molecular recognition molecular dynamics docking sarin soman naphthoquinone methide quinoline quinone methide

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