Contribuições da eletroquímica molecular para a química medicinal: o caso das quinonas híbridas calcogenadas e halogenadas / Contributions of molecular electrochemistry to the medicinal chemistry: the case of the chalcogenated and halogenated hybrid quinones

Silva, Thaissa Lúcio

04 August 2017

Molecular electrochemistry has proved to be very useful for characterizing redox reactions and deciphering chemical reaction mechanisms that are associated with electron transfer. It correlates strongly with redox-based medicine. In this study, we investigated the electrochemical behavior of pterocarpanquinones and selenoquinones, in protic and aprotic media, in the absence and presence of oxygen, in order to obtain data regarding their reduction mechanisms, reactivity with oxygen, the analysis of the stability of the electrogenerated intermediates and interactions with biological targets, like DNA. In typical measurements, CVs were recorded in aprotic medium (DMF + TBAPF6) to resemble the cell membrane environment. On the other hand, protic medium mimics the hydrophilic regions of the biological matrixes. This work shows cases of successful pharmacoelectrochemical investigations. In the first case, we investigate the electrochemical behavior of LQB-118, a pterocarpanquinone, which is anticancer and parasiticidal, with biological mechanisms of action related to the formation of ROS and interaction with DNA, among others. The cyclic voltammogram (VC) for LQB-118 in aprotic medium exhibits, at least, four waves. The first two are related to the usual reduction of quinones. The presence of additional waves suggests the clivage of the heterocyclic rings and the generation of additional reducible systems. A spectroelectrochemical investigation revealed the appearance of new absorption bands, which suggest the formation of the transient quinonamethide (QM). The QM was captured with thiophenol. In addition, electrochemical experiments were performed in the presence and absence of oxygen to verify the reactivity with oxygen, after the reduction of LQB-118 and its derivatives, with positive results. Studies with the ssDNA biosensor in solution showed positive interaction with LQB-118 and its electrogenerated products. The interaction of LQB-118 with CT-DNA was also evidenced by the fluorescence quenching technique. In the second case, CV was used to investigate the electrochemical behaviour of the antitumor selenoquinones. The obtained profiles confirmed the presence of two individual redox centres. All the compounds had shown electrochemical activity in the cathodic and anodic portions of the CVs. We also studied the behaviour of the compounds in protic medium. Electrochemical methods do well to predict the mechanism for adduct formation, structural rearrangement, generation of reactive oxigen species of pterocarpanquinones and appear well-adapted to explore redox pathways of all the compounds in vitro to be correlated to in vivo studies. / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / A eletroquímica molecular tem se mostrado muito útil para caracterizar reações redox e decifrar mecanismos reacionais associados à transferência de elétrons. Relaciona-se fortemente com a medicina redox. Neste estudo, investigou-se o comportamento eletroquímico de quinonas híbridas, tais como pterocarpanoquinonas e selenoquinonas, em meios prótico e aprótico, na ausência e presença de oxigênio, a fim de obter dados sobre seus mecanismos de redução e oxidação, reatividade com oxigênio, análise da estabilidade dos intermediários eletrogerados e interações com alvos biológicos importantes, como os tióis e o DNA. Em medidas típicas, os voltamogramas cíclicos (VCs) foram registrados em meio aprótico (DMF + TBABF6), para se assemelhar ao ambiente lipofílico, típico de membranas celulares. Por outro lado, o meio prótico mimetiza regiões hidrofílicas das matrizes biológicas. Este trabalho descreve dois casos de investigações farmacoeletroquímicas bem-sucedidas. No primeiro caso, investigou-se o comportamento eletroquímico da LQB-118, uma pterocarpanoquinona antitumoral e parasiticida, com mecanismos de ação relacionados à formação de espécies reativas de oxigênio (EROs) e interação com DNA, entre outros. Estudou-se também as pterocarpanoquinonas derivadas da LQB-118, mais precisamente seus derivados clorado, bromado e nitrado. O voltamograma cíclico (VC) para a LQB-118, em meio aprótico, exibe, pelo menos, quatro ondas catódicas. As duas primeiras são relacionadas com a redução habitual de quinonas. A presença de ondas adicionais sugere a quebra de anel heterocíclico e a geração de sistemas redutíveis adicionais. Investigação espectroeletroquímica revelou o surgimento de novas bandas de absorção, as quais sugerem a formação do quinonametídeo (QM) transiente. O QM foi capturado com tiofenol. Além disso, experimentos eletroquímicos foram realizados na presença e na ausência de oxigênio para verificar a reatividade com oxigênio, após a redução de LQB-118 e seus derivados, com resultados positivos. Estudos com o sensor de ssDNA, em solução, mostrou interação positiva com LQB-118 e seus produtos eletrogerados. A interação de LQB-118 com CT-DNA também foi evidenciada através da técnica de quenching de fluorescência. No segundo caso, a voltametria cíclica foi utilizada para investigar o comportamento eletroquímico de selenoquinonas antitumorais. Os perfis obtidos confirmam a presença de dois centros redox individuais. Todos os compostos mostraram atividade eletroquímica nas regiões anódica e catódica dos VCs. Estudou-se também o comportamento dos compostos em meio prótico e foi observada a formação de selenóxidos. Métodos eletroquímicos se mostraram adequados para prever rearranjos estruturais, formação de adutos, geração de espécies reativas de oxigênio, no caso de pterocarpanquinonas e para explorar caminhos redox in vitro das outras séries, correlacionando-se aos estudos in vivo.

Eletroquímica molecular

Voltametria cíclica

Mecanismo redox

Quinonas

Molecular electrochemistry

Cyclic voltammetry

Quinones

Redox mechanism

Desenvolvimento de um aptassensor para detecção do vírus da dengue / Development an aptasensor for dengue virus detection

Souza, Evellyn Gonçalves de

17 August 2017

Submitted by Franciele Moreira (francielemoreyra@gmail.com) on 2017-09-13T16:28:44Z No. of bitstreams: 2 Dissertação - Evellyn Gonçalves de Souza - 2017.pdf: 2198173 bytes, checksum: 0e490bd8b1f7554afb334a3e27faf8ef (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) / Approved for entry into archive by Luciana Ferreira (lucgeral@gmail.com) on 2017-09-19T13:57:54Z (GMT) No. of bitstreams: 2 Dissertação - Evellyn Gonçalves de Souza - 2017.pdf: 2198173 bytes, checksum: 0e490bd8b1f7554afb334a3e27faf8ef (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) / Made available in DSpace on 2017-09-19T13:57:54Z (GMT). No. of bitstreams: 2 Dissertação - Evellyn Gonçalves de Souza - 2017.pdf: 2198173 bytes, checksum: 0e490bd8b1f7554afb334a3e27faf8ef (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) Previous issue date: 2017-08-17 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / Dengue is an endemic disease that causes wide concern both the health systems and to the patients. Thus, it is important that studies aiming at diagnoses faster and with possibility of field application can be developed for the medical intervention happens early, avoiding the worsening of the cases. Therefore, the aim of this work was to develop an electrochemical biosensor based on the use of aptamer as a bioelement for recognition on the surface of the boron doped diamond electrode (BDD) for the detection of each of the four serotypes of the dengue virus. Previously to the development of the biosensor, the dot-blot and apta-PCR techniques were used as validation methods for the interaction between aptamer B07 and target, the 5'UTR region present in the viral genome. The cyclic voltammetry technique was used in the analysis of redox reactions on the surface of the BDD electrode with and without modification of its surface with chitosan film. Ferrocene was used as the redox mediator and electroactive indicator of hybridization of the DNA strands formed in the sensor. The peaks of current indicated that the electrode with chitosan film modification on its surface presented greater stability. The redox compound had higher affinity for the double chains hybridized on the surface of the electrode, showing current values for DENV 1, 2, 3 and 4 of were 0.73; 0.69; 0.79 and 1.03 μA, respectively. These values were higher than the current found for the single-stranded aptamer (ssDNA), which was 0.62 μA, as well as for the current obtained from the aptamer hybridized with its complementary strand (dsDNA) whose value was 0.91 μA. Analyzes with time variations were performed showing a reduction in current values as a function of time, probably due to the reduction of the interaction of the electroactive material in the sensor. The aptasensor developed here showed good detection distinction between nucleic acid sequences, presenting potential for application in the detection of dengue virus. / A dengue é uma doença endêmica que causa grande preocupação tanto aos sistemas de saúde quanto aos pacientes. Dessa forma, é importante que estudos visando diagnósticos mais rápidos e com possibilidade de aplicação a campo possam ser desenvolvidos para que a intervenção médica possa ser precoce, evitando-se o agravamento dos casos. Neste sentido, buscou-se no presente trabalho desenvolver um biossensor eletroquímico baseado no uso de aptâmero como bioelemento reconhecedor na superfície do eletrodo de diamante dopado com boro (DDB) para a detecção de cada um dos quatro sorotipos do vírus da dengue. Previamente ao desenvolvimento do biossensor, as técnicas de dot-blot e apta-PCR foram utilizadas como métodos de validação da interação entre o aptâmero B07 e alvo, a região 5’UTR presente no genoma viral. A técnica de voltametria cíclica foi utilizada nas análises de reações redox na superfície do eletrodo DDB com e sem modificação de sua superfície com filme de quitosana. O composto ferroceno foi utilizado como mediador redox e indicador eletroativo de hibridização das cadeias de DNA formadas no sensor. Os picos de corrente indicaram que o eletrodo com modificação de filme de quitosana em sua superfície apresentou maior estabilidade, onde o composto redox teve maior afinidade pelas duplas cadeias hibridizadas na superfície do eletrodo, apresentando valores de correntes para DENV 1, 2, 3 e 4 de foram 0,73; 0,69; 0,79 e 1,03 μA, respectivamente. Esses valores foram superiores a corrente encontrada para o aptâmero em fita simples (ssDNA) que foi de 0,62 μA, assim como observada para corrente obtida do aptâmero hibridizado com sua fita complementar (dsDNA) cujo valor obtido foi de 0,91 μA. Análises com variações de tempo foram realizadas apresentando redução nos valores de correntes em função do tempo, provavelmente devido à redução da interação do material eletroativo no sensor. O aptasensor aqui desenvolvido apresentou boa detecção distinção entre sequências de ácidos nucleicos, apresentando potencial para aplicação na detecção do vírus da dengue.

Aptâmero

Dengue

Ferroceno

Detecção eletroquímica

Voltametria cíclica

Quitosana

Aptamer

Ferrocene

Electrochemical detection

Cyclic voltammetry

Chitosan

QUIMICA::QUIMICA ORGANICA

Funcionalização de grafite em condições de Friedel-Crafts / Graphite Functionalization in Friedel-Crafts conditions.

David Tatsuo Atique Sawazaki

30 September 2013

Neste trabalho foi realizada a funcionalização de grafite sem prévio tratamento em condições de Fridel-Crafts. Considerando que a grafite não possui hidrogênio em sua estrutura, não se observa uma reação de substituição eletrofílica. Por outro lado, o trabalho mostra o papel da umidade presente no grafite na reação de funcionalização. Dessa forma, foi proposto um mecanismo para a reação com a participação da água adsorvida na grafite estabilizando o carbocátion formado. O grafite funcionalizado obtido na reação foi utilizado como material eletródico. Para a reação de funcionalização, quatro moléculas foram utilizadas: ácido ferrocenomonocarboxílico, cloreto de 4-nitrobenzoíla, cloreto de 3,5-dinitrobenzoíla e ácido 3,4-dinitrobenzóico. Para o estudo das condições ótimas da reação, utilizou-se diferentes potências de radiação no reator de micro-ondas, sendo que a extensão da funcionalização mostrou-se sensível à variação deste parâmetro. Para a caracterização dos materiais, utilizou-se voltametria cíclica e análise térmica (TG e DTA). Resultados de infravermelho e Ramam são apresentados no Apêndice A. Os resultados eletroquímicos mostraram que os materiais funcionalizados em maiores potências apresentaram maior corrente Faradaica, mas ao mesmo tempo, o material obtido foi mais resistivo. A diferença de potencial relacionada ao processo redox do ferroceno aumentou conforme a extensão da funcionalização, uma vez que um sobrepotencial é necessário devido ao fluxo iônico (para a manutenção da eletroneutralidade) relativo ao número de espécies envolvidas. Os resultados eletroquímicos também indicaram que a funcionalização do grafite com os nitro compostos foi baixa. A análise térmica evidenciou que a reação de funcionalização do grafite com o ferroceno resultou em materiais com 15% a 20% (m/m) de material ligado ao grafite. Os materiais funcionalizados a maiores potências apresentaram maior massa ligada ao grafite. A funcionalização com os nitro compostos resultou em materiais com menos de 3% (m/m) de composto ligado ao grafite. Os resultados das duas técnicas mostraram coerência na análise da extensão da funcionalização. O material funcionalizado com o ácido ferrocenomonocarboxilico foi o que apresentou os melhores resultados e propõe-se uma explicação para tal baseado no mecanismo de reação sugerido. Com o objetivo de melhor elucidar o mecanismo da reação, foram realizadas algumas reações na ausência de alguns reagentes. Por exemplo, quando tenta-se funcionalizar o material sem a presença de cloreto de alumínio ou sem a umidade natural do grafite, a reação não ocorre. / In this work natural graphite functionalization in Fridel-Crafts conditions is performed using a one-step microwave assisted reaction. Since there is no hydrogen in graphite structure, it is not possible to observe electrophilic substitution. On the other hand this work shows the role of the moisture present on graphite in the functionalization reaction under this condition. Therefore, a reaction mechanism with the participation of the water naturally adsorbed on graphite stabilizing the formed carbocation has been suggested. After the reaction, the functionalized graphite was used as electrode material. Four molecules were used to functionalize graphite: Ferrocene monocarboxylic acid, 4-nitrobenzoyl chloride, 3,5-dinitrobenzoyl chloride and 3,4-dinitrobenzoic acid. To study the optimal conditions of the reaction, the microwave radiation power was varied and the extent of the functionalization on graphite was sensitive to this parameter. Two techniques were used to characterize the materials, cyclic voltammetry and thermal analysis (TG and DTA). IR and Raman data are shown in appendix A. Electrochemical results have shown that the materials functionalized at higher microwave radiation power have higher Faradaic current, but are more resistive. The potential difference between the peaks of the redox process of ferrocene increased with the extent of functionalization. This occurs because an overpotencial is needed to compensate the ionic flux (in order to maintain the electroneutrality) related to the number of species involved. The electrochemical results also indicated that the extent of functionalization of graphite with the nitro compounds was low. The thermal analysis have shown that the functionalization of graphite with ferrocene lead to values between 15% to 20% (m/m) of compound in the material. The materials functionalized at higher microwave radiation power presented higher relative mass in the material. The reaction with the nitro compounds lead to less than 3% (m/m) of compound in the final material. The results of both techniques were coherent about the extent of functionalization. The material functionalized with ferrocene monocarboxylic acid showed the best results, and an explanation for that based on the reaction mechanism is suggested. In order to elucidate the reaction mechanism, some experiments were realized in absent of some reagents. When the reaction were carried out without aluminum chloride or with dried graphite, the reaction has not occurred.

Acilação de Friedel-Crafts

Eletrodo de Pasta de Carbono

Grafite Funcionalizado

Voltametria Cíclica

Carbon Paste Electrode

Cyclic Voltammetry

Friedel-Crafts acylation

Functionalized Graphite

Uso da voltametria cíclica e da espectroscopia de impedância eletroquímica na determinação da área superficial ativa de eletrodos modificados à base de carbono / Use of cyclic voltammetry and electrochemical impedance spectroscopy for the determination of active surface area of modified carbon-based electrodes

Leticia Lopes de Souza

28 July 2011

Eletrodos à base de carbono, como os eletrodos de troca iônica, entre outros, têm aplicação principalmente no tratamento de efluentes industriais e rejeitos radioativos. Carbono é também amplamente utilizado em células a combustível como substrato para os eletrocatalisadores, por possuir elevada área superficial, que supera a sua área geométrica. O conhecimento desta superfície ativa total é importante na determinação das condições de operação de uma célula eletroquímica no que diz respeito às correntes a serem aplicadas (densidade de corrente). No presente estudo foram utilizadas duas técnicas eletroquímicas na determinação da área superficial ativa de eletrodos de carbono vítreo e poroso e eletrodos de troca iônica: espectroscopia de impedância eletroquímica (EIE) e voltametria cíclica (VC). Os experimentos foram realizados com soluções de KNO3 0,1 mol.L-1 em célula eletroquímica de três eletrodos: eletrodo de trabalho à base de carbono, eletrodo auxiliar de platina e eletrodo de referência de Ag/AgCl. Os eletrodos de carbono vítreo e de carbono poroso utilizado possuíam uma área geométrica de 3,14 x 10-2 cm2 e 2,83 10-1 cm2, respectivamente. O eletrodo de troca iônica foi preparado misturando-se grafite, carbono, resina de troca iônica e um aglutinante, sendo esta mistura aplicada em três camadas sobre feltro de carbono, utilizando-se nos experimentos uma área geométrica de 1,0 cm2. Por EIE determinou-se diretamente a capacitância dos materiais dos eletrodos (Cd) utilizando-se os diagramas de Bode. O valor de 172 μF.cm-2 encontrado para o carbono vítreo está de acordo com a literatura (~200 μF.cm-2). Por VC, variando a velocidade de varredura de 0,2 a 2,0 mV.s-1, determinou-se a capacitância CdS (S=área superficial ativa) na região da dupla camada elétrica (DCE) para cada um dos materiais, Por EIE, foram determinados os valores de Cd de 3,0 x 10-5 μF.cm-2 e de 11,0 x 103 μF.cm-2 para os eletrodos de carbono poroso e de troca iônica, respectivamente, o que possibilitou a determinação das áreas superficiais ativas de 3,73 x 106 cm2 e 4,72 cm2. Portanto, o uso combinado das técnicas de EIE e VC mostra-se promissor para o cálculo das áreas superficiais ativas de eletrodos à base de carbono. / Carbon-based electrodes as well the ion exchange electrodes among others have been applied mainly in the treatment of industrial effluents and radioactive wastes. Carbon is also used in fuel cells as substrate for the electrocatalysts, having high surface area which surpasses its geometric area. The knowledge of the total active area is important for the determination of operating conditions of an electrochemical cell with respect to the currents to be applied (current density). In this study it was used two techniques to determine the electrochemical active surface area of glassy carbon, electrodes and ion exchange electrodes: cyclic voltammetry (CV) and electrochemical impedance spectroscopy (EIS). The experiments were carried out with KNO3 0.1 mol.L-1 solutions in a three-electrode electrochemical cell: carbon-based working electrode, platinum auxiliary electrode and Ag/AgCl reference electrode. The glassy carbon and porous carbon electrodes with geometric areas of 3.14 x 10-2 and 2.83 10-1 cm2, respectively, were used. The ion exchange electrode was prepared by mixing graphite, carbon, ion exchange resin and a binder, and this mixture was applied in three layers on carbon felt, using a geometric area of 1.0 cm2 during the experiments. The capacitance (Cd) of the materials was determined by EIS using Bode diagrams. The value of 172 μF.cm-2 found for the glassy carbon is consistent with the literature data (~200 μF.cm-2). By VC, varying the scan rate from 0.2 to 2.0 mV.s-1, the capacitance CdS (S = active surface area) in the region of the electric double layer (EDL) of each material was determined. By EIS, the values of Cd, 3.0 x 10-5 μF.cm-2 and 11 x 103 μF.cm-2, were found for the porous carbon and ion exchange electrodes, respectively, which allowed the determination of active surface areas as 3.73 x 106 cm2 and 4.72 cm2. To sum up, the combined use of EIS and CV techniques is a valuable tool for the calculation of active surface areas of carbon-based electrodes.

área superficial

eletrodos de carbono

voltametria cíclica

carbon electrodes

cyclic voltammetry

electrochemistry impedance spectroscopy

surface area

Etude, caractérisation et suivi électrochimique de la surface de l’acier inoxydable 254 SMO en milieux aqueux naturels amazoniens / Study, electrochemical characterization and monitoring of the surface of stainless steel 254 SMO in Amazonian natural environnement

Ntienoue, Joseline

08 March 2013

Les aciers inoxydables à haute teneur en molybdène présentent une excellente résistance à la corrosion et ont été récemment utilisés dans des applications marines. L'acier inoxydable de type 254 SMO contient du molybdène (6% Mo) et des quantités plus élevées en éléments d'alliages que les aciers inoxydables plus classiques tels que 304, 316 et 316L. Alors que Anees Uddin Malik et al. montrent que l’acier 254 SMO est moins sensible à la corrosion par piqûre en eau de mer du golfe persique, Abdulsalam et al. démontrent que bien que cet acier présente une bonne résistance à la corrosion, il reste encore sensible à une corrosion caverneuse (surtout en milieu à 16% en masse d’ion chlorure ou à plus de 30°C).La première partie de ce travail traite du comportement électrochimique de l’acier inoxydable 254 SMO immergé dans l’eau de mer naturelle en laboratoire. Ainsi deux sites de la Guyane ont été choisis pour effectuer des prélèvements d’eau. Des analyses physicochimiques de ces eaux sont réalisées et montrent que l’eau du site du Port Larivot contient une quantité en ions chlorures plus importante que celle de l’eau du site du Mahury. Une colonisation par des bactéries et crustacés (balanes) a été mise en évidence, à l’aide du microscope électronique à balayage environnemental. Les mesures électrochimiques, notamment la voltammétrie cyclique a montré l’existence d’une zone de passivation et l’augmentation du courant de passivation par un facteur de 10 en présence d’un biofilm pour l’acier inoxydable immergé en eau du Mahury durant 22 jours. La deuxième partie propose une étude approfondie du comportement de l’interface complexe métal/couche passive/biofilm. Trois différents coupons d’aciers inoxydables (brut, poli et grenaillé) ont été déposés sur site (in-situ) dans un premier temps. Dans une seconde étape, nous avons réalisé des expérimentations mixtes (incubation in-situ et croissance en laboratoire). L’évolution du potentiel d’abandon de ces aciers est très proche pour l’acier brut et l’acier poli. En revanche, celui de l’acier grenaillé, de par la présence des grains d’alumine à sa surface, affiche un comportement différent. Une étude comparative des deux expérimentations montre des différences concernant les paramètres électriques de l’interface complexe métal/couche passive/biofilm. / Stainless steels with high content in molybdenum present an excellent corrosion resistance and were recently used in marine applications. The stainless steel 254 SMO contains molybdenum (6 %) and higher amounts of alloying elements than conventional stainless steels such as 304, 316 and 316L. While Anees Uddin Malik et al. show that 254 SMO steel is less likely to be susceptible to pitting corrosion in Arabian Gulf sea water, Abdulsalam et al. demonstrate that although this steel has good resistance to corrosion, it remains still susceptible to crevice corrosion (especially in environment with 16 chloride percent weight or more than 30 ° C).The first part of this work deals with the electrochemical behaviour of stainless steel 254 SMO immersed in natural seawater at laboratory. Two sites in French Guyane were chosen to take samples of seawater. Physicochemical analyses of these waters are made and show than the in Port Larivot site seawater contains a higher quantity of chloride ion than to Mahury seawater. Colonization by bacteria and crustaceans (barnacles) was highlighted, using the environmental scanning electron microscope. The electrochemical measurements, including cyclic voltammetry showed the existence of a passivation region and increasing the passivation current by a factor of 10 in the presence of biofilm on stainless steel immersed in Mahury seawater during 22 days.The second part offers a detailed study of the behaviour of the interface metal/passive film/biofilm. Three different coupons of stainless steel (crude, polished and blasted) were deposited on the site (in-situ) in the first time. In a second step, we performed experiments mixed (in-situ incubation and growth in the laboratory). The evolution of the free potential of these steels is very close for crude steel and polished steel. Conversely, the blasted steel, by the presence of alumina grains on its surface, shows a different behaviour. A comparative study of those two experiments shows differences in the electrical parameters of the interface metal/passive film/biofilm.

Acier inoxydable

Potentiel de corrosion

Voltammetry cyclique

Stainless steel

Free potential

Cyclic voltammetry

Spectroelectrochemical determination of the antioxidant properties of carpobrotus mellei and carpobrotus quadrifidus natural products

Maoela, Manki Sarah

January 2009

Philosophiae Doctor - PhD / South African Carpobrotus species have been found to contain hydrolysable tannins,various flavonoids e.g. rutin and hyperoside, phytosterols and aromatic acids which have a diverse range of pharmacological properties including antimicrobial and, antioxidant activities. The main aim of the thesis was to determine the natural products in C. mellei and C. quadrifidus using chromatographic techniques and electrochemical analysis. The antioxidant activity of both Carpobrotus species was determined by using a superoxide dismutase (SOD) biosensor. ESI-LC-MS was used to separate and determine flavonoids in C. mellei and C. quadrifidus. 8 flavonoid compounds: catechin, epicatechin, epicatechin-epicatechin, coumarylquinic acid, isorhamnetin, quercetin-hexose (hyperoside), rutin and myricetin-deoxyhexose were identified. Cyclic and square wave voltammetry were used to detect flavonoids from C. mellei and C. quadrifidus. Catechin was detected in the ethyl acetate extract of C. mellei and C. quadrifidus. The oxidation potential of the plant extracts were observed at +150.6 mV to +1072.6 mV. The oxidation mechanism proceeds in sequential steps, related to the catechol moiety, -OH groups in C ring and the resorcinol group. The oxidation process of the catechol moiety involves a two electron - two proton reversible reaction and forms o-quinone. This occurs first at low potential and is a reversible reaction. The hydroxyl group in the C ring and resorcinol group oxidise there after and undergo an irreversible reaction. UV-vis and FTIR spectroscopy were used to confirm the presence of catechin in the ethyl acetate extract of both plants.UV-visible spectroelectrochemistry confirmed the oxidation process of catechin at constant potential. Since C. mellei and C. quadrifidus were confirmed to contain flavonoids by ESI-LC-MS and electrochemical analysis, the antioxidant activity was further investigated using a SOD biosensor. The superoxide dismutase (SOD) enzyme was immobilised with 1% Nafion on a platinum electrode. Detection limit and sensitivity of the SOD biosensor were found to be 0.03918 μmol L-1 and 1.44 μA(μmol L-1)-1, respectively. The results showed that C. mellei and C. quadrifidus have antioxidant activity, with relative antioxidant capacity (RAC) of 24% and 42%, respectively. May 2009

Antioxidants

Carpobrotus species

Cyclic voltammetry

Electrochemical analysis

ESI-LC-MS

Flavonoids

Spectroelectrochemical analysis

Square wave voltammetry

Superoxide Dismutase (SOD) biosensor

Étude et développement de biocapteurs électrochimiques pour la détection de polluants en milieu aqueux / Study and development of electrochemical biosensors for the detection of pollutants in aqueous medium

Zehani, Nedjla

16 October 2015

Les biocapteurs sont des moyens d'analyse en plein essor à la fois rapides, sélectifs et peu coûteux applicables à des domaines extrêmement variés (environnement, santé, agroalimentaire,…). Dans ce type d'outil, un élément sensible de nature biologique (anticorps, enzyme, microorganisme, ADN…) doté d'un pouvoir de reconnaissance pour un analyte ou un groupe d'analytes est associé à un transducteur pouvant être de type électrochimique, optique ou thermique. Dans ce travail, nous nous sommes intéressés au développement de différents biocapteurs, en se basant à l'immobilisation d'enzymes sur des microélectrodes en vue de la détection électrochimique d'analytes d'intérêt dans le domaine environnemental. Nous avons montré les potentialités d'application de deux biocapteurs conductimétrique et impédimétrique à base de lipase Candida Rugosa pour la détection directe et rapide des pesticides organophosphorés. Nous avons cherché à mieux comprendre le fonctionnement des biocapteurs et optimisé le procédé d'immobilisation des enzymes ainsi que différents paramètres de mesure afin de maximiser les performances analytiques des outils développés. Nous avons également élaboré un biocapteur impédimètrique pour une détermination très sensible de la phospholipase A2 en utilisant les nanoparticules d'or afin de renforcer la conductivité électrique. Enfin, nous avons développé un biocapteur de tyrosinase pour la détection du Bisphénol A, en se basant sur la modification électrochimique des électrodes de diamant dopé qui possèdent des propriétés électriques remarquables et uniques, avec l'ajout de nanotube de carbone multi-feuillet, ce qui permet d'améliorer des performances analytiques du biocapteur, en particulier sa limite de détection et sa stabilité. Les biocapteurs à base de lipase et de tyrosinase ont été appliqués avec succès à la quantification des composés organophosphorés et du bisphénol A respectivement dans plusieurs échantillons d'eaux réelles / A biosensor is an analytical device, used for the detection of an analyte, that combines a biological component so-called a receptor (e.g. enzyme, antibody, DNA, microorganism) to a physical transducer (e.g. electrochemical, optical or thermal). In last decade, biosensors are quite promising tools since they are rapid, selective and cost effective, with an increasing interest for their application in various fields (e.g environment, food, health). In this work, we developed different biosensors based on immobilized enzymes onto microelectrodes in view of electrochemical detection. First, we demonstrated the potentialities of conductometric and impedimeteric biosensors based on lipase from Candida Rugosa for direct and rapid detection of organophosphate pesticides. In order to enhance the analytical performances of the developed devices, we tried to optimize enzyme immobilization as well as several operational parameters. We also elaborated an impedimetric biosensor for a sensitive determination of phospholipase A2 activity. Finally, a tyrosinase biosensor was developed for ultra-sensitive detection of Bisphenol A, based on the unique proprieties of boron doped diamond electrodes and taking advantage the use of multi walled carbon naotubes to improve the stability and detection limit of biosensor. We also demonstrated the applicability of both biosensors based on lipase and tyrosinase for the detection of organophosphate pesticides and bisphenol A in river water

Biocapteur

Lipase

Tyrosinase

Phospholipase A2

Impédance

Conductimètrie

Voltammétrie cyclique

Biosensor

Lipase

Tyrosinase

Phospholipase A2

Impedance spectroscopy

Conductometry

Cyclic voltammetry

543

Synthesis, electrodynamics and biosensor applications of novel sulphonated polyaniline nanocomposites

Michira, Immaculate Nyambura

January 2007

Philosophiae Doctor - PhD / The overall aim of this thesis was to prepare nanostructured more processable heteronuclear sulphonated polyanyline nanocomposites with electroconductive properties suitable for applications in biosensors. The sulphonated self-assembled polyaniline and derivatised polyaniline nanocomposites (SPAHs) were prepared by chemical oxidative polymerisation or electrical decomposition. The SPAHs prepared include those of polyaniline (PANi), poly-o-methoxyaniline (POMA) and poly-2.5 dimethoxyaniline (PDMA). Two types of sulphonic acids of heteronuclear aromatic hydrocarbons were used in the production of sulphonated SPAH composites. These were anthracene sulphonic acid (ASA) and naphthalene sulphonic acids (NSA) wich played both doping and surfactant roles. / South Africa

Sulphonated polyaniline nanocomposites

Anthracene sulphonic acid

Horseradish peroxidase

Cytochrome P450 3A4

Erythromycin

Diazinon

N-demethylation

Cyclic voltammetry

Biosensor

Dithiocarbonate and trithiocarbonate interactions with pyrite and copper

Venter, Jan Albert

24 April 2008

Extensive research has been performed on the interaction of dithiocarbonates (xanthate) with a wide variety of substrates. This study the focuses on the interaction of trithiocarbonates (TTC) with pyrite and copper. The mechanism of adsorption of the xanthate is compared to that of the TTC. For the xanthate to adsorb it is necessary for an oxidant to be present, since xanthate adsorbs via charge transfer processes (electrochemical processes). It was found by the use of cyclic voltammetry and contact angle measurements that collector adsorption of the TTC can occur in both oxidising and reducing (thus the absence of an oxidant) conditions. Neither the TTC monomer nor the dimer could be detected on the surface by the use of Raman spectroscopy. The collector species on the surface was the TTC decomposition products namely the thiol or thiolate. Electrochemical impedance spectroscopy (EIS) confirmed that the TTC can interact under oxidising and reducing conditions. EIS showed that the rate of adsorption of the collector species for anodic currents increases relatively to the rate of adsorption for cathodic currents. Different adsorption mechanisms are realised for the different polarisation conditions. It is postulated that the TTC species serves as an intermediate for the adsorption of the thiol or thiolate on the surface, ultimately rendering the surface hydrophobic. Decomposition tests, performed by employing UV/Vis spectroscopy, indicated that the TTC is very unstable between a pH of 4 and 11. The thiol or thiolate however does not readily adsorb onto the substrates (indicated by the EIS measurements). Microflotation tests confirmed the thiolate’s inability to render pyrite hydrophobic. The microflotation tests also indicated that the TTC became less effective in recovering pyrite after it was left to decompose for a couple of hours. / Dissertation (MSc (Metallurgy))--University of Pretoria, 2008. / Materials Science and Metallurgical Engineering / unrestricted

Raman spectroscopy

Uv/vis spectroscopy and microflotation

Xanthate

Contact angle measurements

Eis

Ttc

Pyrite

Copper

Cyclic voltammetry

UCTD

Silica Coated Core-Shell Quantum Dot-based Electro-Immunosensor for Interferon Gamma TB Disease Biomarker

Mini, Sixolile

January 2020

>Magister Scientiae - MSc / Tuberculosis (TB) is a disease that results from infection by Mycobacterium tuberculosis, which is regarded the most common infecting organism. TB has killed countless numbers of people particularly in underdeveloped countries. TB bacteria can remain inactive or in dormant state for years without causing symptoms or spreading to other subjects, but as soon as the immune system of the host becomes weakened, the bacteria become active and infect mainly the lungs along with other parts of body. TB cases are further aggravated by other illnesses that affect the immune system, such as human immune virus (HIV), which is very prevalent in resource-poor countries. Interferon-gamma (IFN-γ) is a TB biomarker that has found to have all the qualities that are needed to help and cure Tuberculosis disease. Early diagnosis and treatment are essential measures for effectively controlling the disease. Traditional microbial culture-based tests are the most common methodologies currently used. Usually, these methods involve cell culture, cell counts, and cell enrichment, but this process is time-consuming and laborious, especially for the slow-growing bacteria like M. tuberculosis. Sputum smear is one of the methods currently used to detect acid fast bacilli (AFB) in clinical specimens or fluorescent staining. It is a cost-effective tool for diagnosing patients with TB and to monitor the progress of treatment especially in developing countries. The traditional method of inoculating solid medium such as Lowerstein-Jensen (L-J) or 7H10/7H11 media is also used currently it is slow and takes 6-8 weeks of incubation to diagnose the infection and further more time to determine the susceptibility patterns. The microscopic observation drug susceptibility (MODS) assay they are also used currently they rely on light microscopy to visualize the characteristic cording morphology of M. tuberculosis in liquid culture. MODS has shorter time to culture positivity (average 8 days) compared with LJ medium (average ~26 days), they are very expensive. The Gen-Probe assay specific for M. tuberculosis complex is a rapid detection that is also used, nucleic acid amplification (NAA) test results can be obtained as fast as in two hours (provided if a positive culture is present); it also has a high sensitivity of 99% and specificity of 99.2%. It holds the disadvantage of needing of positive culture that can take several days. Enzyme-linked immunosorbent assay (ELISA), is a test that uses antibodies and colour change to identify a substance. ELISA is an assay that uses a solid-phase enzyme immunoassay (EIA) to detect the presence of a substance, usually an antigen, in a liquid sample or wet sample. It can be used to detection of Mycobacterium antibodies in tuberculosis. The Amplified Mycobacterium Tuberculosis Direct Test (AMTDT) is used for the detection of M. tuberculosis it enables the amplification and detection of M. tuberculosis rRNA directly from respiratory specimens. The diagnostic methods employing genetechnology based on the amplification of DNA or RNA are expected to improve the speed, sensitivity, and specificity of Mycobacterium tuberculosis detection. TB rapid cultivation detection technique, such as MB/BacT system, BactecMGIT 960 system and flow cytometry. The BACTEC MGIT960 system (Becton Dickinson, Sparks, MD) performs incubation and reading of the tubes continuously inside the machine using a predefined algorithm to interpret the fluorescent signal and giving the results as positive or negative. When performing DST, the BACTEC MGIT960 interprets the results as susceptible or resistant to the antibiotic under study. Results are available within 8 days. A recent meta-analysis of the published studies found high accuracy and high predictive values associated with the use of BACTEC MGIT960. These methods are more sensitive and rapid than the traditional microbial culture-based methods. However, they cannot provide the detection results in real-time and most of these methods are centralized in large stationary laboratories because complex instrumentation and highly qualified technical staff are required. Recently, Food and Drug Administration (FDA) approved two new assays that were introduced. These two assays detect in vitro a specific immune response to M. tuberculosis. These tests are the QuantiFERON-TB Gold In-Tube (Cellestis/Qiagen, Carnegie, Australia) and the T-SPOT.TB assay (Oxford Immunotec, Abingdon, United Kingdom). Both assays use whole blood from the patient and measure the production of interferon gamma after the whole blood is exposed to specific antigens from M. tuberculosis. These tests are based on the knowledge that IFN-γ is a product of an active cell-mediated immune response induced by M. tuberculosis. However, TB detection remains a major obstacle due to several drawbacks of these methods. To date, the number of diagnosis approaches for TB has increased as the disease continues to be a major public health problem worldwide and most conventional detection technologies present difficulties in recognizing the presence of M. tuberculosis, since they are time consuming, do not provide clinically reliable results and significantly lack of sensitivity. This thesis focusedon developing two binary and one ternary-electrochemically quantum dots, all synthesised at room temperature in aqueous media for detecting (IFN-γ). Copper telluride (CuTe) and Zinc telluride (ZnTe) was prepared to check how does the two quantum dot behave individual and also to check on how they behave when they are combined and formed ternary quantum dots (CuZnTe). The electrochemical studies of the binary CuTe quantum dots, ZnTe quantum dots and the ternary CuZnTe core-shell quantum dots reveal that ternary quantum dots were stable and showed a significant enhancement in the conductivity of CuZnTe core-shell solution compared to that of CuTe and ZnTe, all studied in solution. The three different quantum dots were capped with three different capping reagents which are tetraethyl orthosilicate (TEOS), thioglycolic acid (TGA), (3-mercaptopropyl) trimethoxysilane (MPS). In the study, a label-free electrochemical immunosensor for the detection of interferon gamma (IFN-γ) was prepared for the first time using ternary quantum dots. The biosensor consists of water-soluble silica coated Copper Zinc telluride (CuZnTe core-shell) quantum dots conjugated to a gold electrode. The antibody-antigen were then conjugated on the CuZnTe core-shell QD modified gold electrode. Results from synthesis of two different binary quantum dots are also presented in the study and compared to the results of the CuZnTe core-shell QDs. The CuTe quantum dots had a small average size which was confirmed through HRTEM, SAXS and XRD analysis

Biosensors

Capping agents

Cyclic voltammetry (CV)

Differential pulse voltammetry (DPV)

Electrochemical Impedance Spectroscopy

Interferon-gamma (IFN-ү)

Mycobacterium tub