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Análise dos efeitos tóxicos de cádmio sobre a microalga Lingulodinium polyedrum utilizando cromatografia líquida de alta eficiência acoplada à espectrometria de massas (LC-MS/MS) / Toxic effects of cadmium on the microalgae Lingulodinium polyedrum using high performance liquid chromatography coupled to mass spectrometry (LC-MS/MS)Romano, Renato Lahos 09 April 2010 (has links)
Com o aumento de atividades humanas nocivas ao meio ambiente e principalmente ao meio aquático, torna-se importante a elucidação dos mecanismos de defesa que envolvem os organismos expostos. As algas têm particular importância por serem a base da cadeia alimentar do ecossistema marinho. Ao acumular as substâncias tóxicas presentes no ambiente e servirem de alimento para outras espécies, elas podem provocar biomagnificação do agente tóxico ao longo da cadeia. A escolha da microalga Lingulodinium polyedrum deve-se à sua ampla distribuição em âmbito nacional e mundial e por ser um organismo modelo para estudos de toxicologia envolvendo metais. Este trabalho tem como objetivos padronizar as condições do meio de cultivo de forma a proporcionar o crescimento ideal da espécie, traçar a curva de crescimento e monitorar os aspectos biológicos que sofrem alterações frente a metais, tais como: taxa fotossintética, atividade da enzima antioxidante superóxido dismutase, balanço entre glutationa reduzida e oxidada, bioacumulação intracelular dos metais a que foram expostas e identificação de substâncias quelantes sintetizadas pelas algas, conhecidas como fitoquelatinas. Para alcançar estes objetivos foram utilizadas técnicas analíticas tais como espectrofotometria, espectrometria de massas e espectrometria de emissão atômica com plasma acoplado indutivamente. Dentre os resultados obtidos estão diminuição da quantidade de glutationa reduzida e oxidada quando algas são expostas a metais, diminuição da quantidade de cádmio presente no meio, aumento da atividade de superóxido dismutase e síntese de fitoquelatinas. Com os resultados obtidos podemos concluir que as fitoquelatinas podem ser usadas como biomarcadores de exposição ao cádmio e o organismo, por ser capaz de diminuir a quantidade de metais disponíveis no ambiente, tem potencial para biorremediar ambientes poluídos. / Given the increase of environmentally harmful human activities, in particular the ones injurious to the aquatic environment, it is important to elucidate the defense mechanisms utilized by organisms exposed to damaging agents. Those species can later be suggested to be used as pollution bioindicators or bioremediatiors. Algae are of particular importance because they are the basis of the marine ecosystem food chain. Given that these organisms can accumulate toxic substances from the environment and they serve as food for other species, it will cause biomagnification of the toxic agent in the chain. The choice of the microalgae Lingulodinium polyedrum was due to its wide national and global distribution and the fact that it is a model organism for toxicology studies involving metals. This work aims to standardize the medium conditions in order to provide the ideal growth of the species; plot the growth curve; and monitor the biological aspects that change in the presence of metals, such as: photosynthetic rate, antioxidant enzyme superoxide dismutase activity, balance between oxidized and reduced glutathione, intracellular accumulation of metals and identification of chelating substances synthesized by the alga, known as phytochelatins. To achieve these objectives there were used analytical techniques such as spectrophotometry, mass spectrometry and inductively coupled plasma atomic emission spectroscopy. Among the obtained results there are the decrease in the amount of reduced and oxidized glutathione when algae are exposed to the metal; reduction in the quantity of cadmium in the medium; and increase in superoxide dismutase activity and phytochelatin synthesis. Based on the results it can be concluded that phytochelatins can be used as biomarkers of exposure to cadmium and the organism have potential to bioremediate polluted environments.
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Análise dos efeitos tóxicos de cádmio sobre a microalga Lingulodinium polyedrum utilizando cromatografia líquida de alta eficiência acoplada à espectrometria de massas (LC-MS/MS) / Toxic effects of cadmium on the microalgae Lingulodinium polyedrum using high performance liquid chromatography coupled to mass spectrometry (LC-MS/MS)Renato Lahos Romano 09 April 2010 (has links)
Com o aumento de atividades humanas nocivas ao meio ambiente e principalmente ao meio aquático, torna-se importante a elucidação dos mecanismos de defesa que envolvem os organismos expostos. As algas têm particular importância por serem a base da cadeia alimentar do ecossistema marinho. Ao acumular as substâncias tóxicas presentes no ambiente e servirem de alimento para outras espécies, elas podem provocar biomagnificação do agente tóxico ao longo da cadeia. A escolha da microalga Lingulodinium polyedrum deve-se à sua ampla distribuição em âmbito nacional e mundial e por ser um organismo modelo para estudos de toxicologia envolvendo metais. Este trabalho tem como objetivos padronizar as condições do meio de cultivo de forma a proporcionar o crescimento ideal da espécie, traçar a curva de crescimento e monitorar os aspectos biológicos que sofrem alterações frente a metais, tais como: taxa fotossintética, atividade da enzima antioxidante superóxido dismutase, balanço entre glutationa reduzida e oxidada, bioacumulação intracelular dos metais a que foram expostas e identificação de substâncias quelantes sintetizadas pelas algas, conhecidas como fitoquelatinas. Para alcançar estes objetivos foram utilizadas técnicas analíticas tais como espectrofotometria, espectrometria de massas e espectrometria de emissão atômica com plasma acoplado indutivamente. Dentre os resultados obtidos estão diminuição da quantidade de glutationa reduzida e oxidada quando algas são expostas a metais, diminuição da quantidade de cádmio presente no meio, aumento da atividade de superóxido dismutase e síntese de fitoquelatinas. Com os resultados obtidos podemos concluir que as fitoquelatinas podem ser usadas como biomarcadores de exposição ao cádmio e o organismo, por ser capaz de diminuir a quantidade de metais disponíveis no ambiente, tem potencial para biorremediar ambientes poluídos. / Given the increase of environmentally harmful human activities, in particular the ones injurious to the aquatic environment, it is important to elucidate the defense mechanisms utilized by organisms exposed to damaging agents. Those species can later be suggested to be used as pollution bioindicators or bioremediatiors. Algae are of particular importance because they are the basis of the marine ecosystem food chain. Given that these organisms can accumulate toxic substances from the environment and they serve as food for other species, it will cause biomagnification of the toxic agent in the chain. The choice of the microalgae Lingulodinium polyedrum was due to its wide national and global distribution and the fact that it is a model organism for toxicology studies involving metals. This work aims to standardize the medium conditions in order to provide the ideal growth of the species; plot the growth curve; and monitor the biological aspects that change in the presence of metals, such as: photosynthetic rate, antioxidant enzyme superoxide dismutase activity, balance between oxidized and reduced glutathione, intracellular accumulation of metals and identification of chelating substances synthesized by the alga, known as phytochelatins. To achieve these objectives there were used analytical techniques such as spectrophotometry, mass spectrometry and inductively coupled plasma atomic emission spectroscopy. Among the obtained results there are the decrease in the amount of reduced and oxidized glutathione when algae are exposed to the metal; reduction in the quantity of cadmium in the medium; and increase in superoxide dismutase activity and phytochelatin synthesis. Based on the results it can be concluded that phytochelatins can be used as biomarkers of exposure to cadmium and the organism have potential to bioremediate polluted environments.
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Development of novel nanomaterials for fabricating white-light emitting devices and assaying thiols in biological and environmental samplesShen, Chien-Chih 12 January 2012 (has links)
This thesis focuses on development of novel nanomaterials, including semiconductor quantum dots (QDs) and gold nanoparticles (AuNPs), for fabricating white-light emitting devices and assaying thiols in biological and environmental samples. The thesis mainly contains two divisions. One demonstrates synthesis, optical properties and white-light emissions of alloyed quantum dots and their application to light-emitting devices. The other describes to combine functionalized gold nanoparticles with capillary electrophoresis and accomplish high selectivity and ultrasensitive detection for thiols.
First, through one-step aqueous synthesis, alloyed ZnxCd1¡VxSe QDs have been successfully prepared at low temperatures by reacting a mixture of Cd(ClO4)2 and Zn(ClO4)2 with NaHSe using 3-mercaptopropionic acid as a surface-stabilizing agent. The optical properties and composition of the alloyed QDs were highly dependent on the molar ratio of Zn2+ to Cd2+. With the increase in Zn content, a systematic blue shift occurred in the first exciton absorption and band edge emission. Moreover, X-ray diffraction peaks of the alloyed QDs systematically shifted to larger angles simultaneously. These systematic shifts indicated the formation of the alloyed QDs. Interestingly, among these alloyed QDs, Zn0.93Cd0.07Se QDs exhibited white-light emission with quantum yields of 12%. In addition, we discovered that we could adjust the relative strength of the band edge and trap state emissions by controlling the reaction time, thereby attain white-light-emitting QDs. Finally, we blended alloyed QDs with ultraviolet-transparent polydimethylsiloxane (PDMS) to develop a white-light, solid-state lighting device by using a 365-nm UV lamp as the pump source.
In the other part of this thesis, we proposed a method for selective enrichment of thiols using Tween 20-capped gold nanoparticles (AuNPs) prior to capillary electrophoresis coupled with laser-induced fluorescence (CE-LIF). By forming Au-S bonds, Tween 20-AuNPs can selectively extract thiols from a complicated matrix. A Tween 20 capping layer not only suppresses nonspecific adsorption, but also enables NPs to disperse in a highly-salinity solution. For analyses of aminothiols, after extraction and centrifugation, thioglycollic acid was utilized to remove aminothiols that attached to the NP surfaces. The extracted aminothiols was derivatized with o-phthalaldehyde (OPA) followed by CE-LIF. The use of this nanoprobe provided approximately 11-, 282-, and 21-fold sensitivity improvements for homocysteine (HCys), glutathione (GSH), and £^-glutamylcysteine (GluCys), respectively. Furthermore, the limits of detection (LODs) at a signal-to-noise ratio of 3 for HCys, GSH, and GluCys are 4013, 80, and 383 pM, respectively. A practical analysis of aminothiols in human urine sample has been accomplished by our proposed method. For another application to determining thiol-containing peptides, we use dithiothreitol to remove thiol-containing peptides from the NP surface through ligand exchange. The released peptides are selectively derivatized with OPA to form tricyclic isoindole derivatives. After injecting a large sample volume, the sensitivity of these peptides was improved by stacking them via using polyethylene oxide (PEO) as additive for on-line concentration and separation. As a result, LODs for GSH, GluCys, and phytochelatins (PC2 ~ PC4) were down to 0.1-6 pM. The proposed method has the lowest LODs for five peptides compared to other reported methods, and it also detect dissolve thiols in seawater in practice. Our proposed method is capable of ultrasensitive detection for thiols in biological and environmental samples.
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Desenvolvimento de métodos rápidos de preparo de amostras para especiação química de arsênio em alimentos por LC-ICP-MS e avaliação das concentrações e do metabolismo em arroz / Development of rapid methods for sample preparation and chemical speciation of arsenic in foods by LC-ICP-MS and evaluation of metabolism and concentration in riceBatista, Bruno Lemos 27 June 2012 (has links)
O arsênio é um dos mais tóxicos elementos químicos e reconhecidamente carcinogênico. Ele pode ser encontrado em alimentos basicamente em 5 formas: arsenobetaína (AsB), dimetil-arsênio (DMA), monometil-arsênio (MMA), arsenato (As5+) e arsenito (As3+), sendo estas duas últimas (As-i) as mais tóxicas. Assim, é de suma importância a utilização da especiação química de As para avaliação dos reais riscos associados à ingestão de alimentos contaminados. Neste sentido, o presente trabalho teve como objetivos o desenvolvimento de um método para separação das espécies de As por LC e detecção por ICP-MS; extrações quantitativas das espécies de As de tecidos animais e em grãos de arroz; aplicação dos métodos em amostras de alimentos consumidos no Brasil; e estudo do metabolismo do As em diferentes cultivares de arroz. O método desenvolvido para a extração das espécies de As em tecidos animais (ovo, músculos de ave, peixe e boi, etc.) utilizou apenas metanol (10%v/v) e ácido nítrico (2%v/v) como extratores e 2 minutos de sonicação, mostrando recuperação quantitativa do analito (>88%, n=3) pela análise dos materiais de referência (CE278, DOLT-3, DORM-3 e SRM NIST 1577). No entanto, para a análise de arroz, apenas ácido nítrico 2%v/v foi utilizado como extrator, possibilitando uma recuperação quantitativa (>94%, n=6), quando da análise do material de referência (NIST Rice Flour 1568a). Para a separação cromatográfica foram avaliadas diversas colunas, das quais a troca aniônica (Hamilton PRP-X100®) foi utilizada em todos os experimentos. A aplicação dos métodos na análise de alimentos diversos consumidos no Brasil mostrou uma grande variação nas concentrações das diferentes espécies do arsênio em músculos, ovos e, especialmente, no arroz. Devido as altas concentrações de As encontradas em amostras de arroz comercializadas no Brasil (em vários casos com predominância das espécies mais tóxicas, As3+ e As5+) e ao grande consumo deste alimento no país e no mundo, foi também realizado um estudo de metabolismo do As em 6 diferentes cultivares. O foco deste estudo foi a síntese de fitoquelatinas (PCs), compostos não peptídicos produzidos por plantas expostas a elementos tóxicos, e sua influência no fator de transferência (TF) do As solo-grãos. O TF do As, assim como a concentração das PCs, variaram em relação aos cultivares (genótipos) estudados. Além disso, as PCs mostraram ter uma forte correlação positiva entre si e com a concentração de As-i nos grãos, bem como uma correlação negativa do TF do As raízes-grãos. Portanto, os métodos desenvolvidos demonstraram fácil aplicação em rotina para avaliação toxicológica dos alimentos em relação às espécies de As e, finalmente, o estudo de metabolismo do As pela planta do arroz pode contribuir para escolha de cultivares que o absorvam menos, reduzindo sua ingestão frente ao consumo de arroz. / Arsenic is one of the most toxic chemicals and known carcinogen. It can be found in food basically in 5 different forms: arsenobetaine (AsB), dimethyl arsenic (DMA), monomethyl arsenic (MMA), arsenate (As5+) and arsenite (As3+), the latter two forms (i-As) are the most toxic. Thus, it is of extreme importance the use of chemical speciation for the evaluation of the real risks associated to arsenic intake from contaminated food. In this sense, this study aimed develop a simple method for separation of arsenic species by LC and detection by ICP-MS, quantitative extraction of arsenic species from animal tissues and rice grains, the application of the proposed method in the analysis of food samples commercialized in Brazilian markets, and the study of arsenic metabolism in different rice cultivars. The method developed for the extraction of arsenic species in animal tissues (egg, muscle of chicken, fish and cattle, etc.) used only methanol (10%v/v) and nitric acid (2%v/v) as extractant and 2 minutes of sonication, showing quantitative recovery of the analyte (>88%, n=3) when analyzing reference materials (CE278, DOLT-3, DORM-3 e SRM NIST 1577). However, for the analysis of rice grains, only nitric acid (2%v/v) was used as extractant, allowing a quantitative recovery (>94%, n=6), when analyzing the reference material (NIST Rice Flour 1568a). For the chromatographic separation several columns were evaluated and an anion exchange column (Hamilton PRP X-100) was used in all experiments. The analysis of several foods consumed in Brazil, showed a wide variation in the concentrations of different arsenic species in muscle, eggs, and especially in rice. Due to the high concentrations of arsenic found in rice samples (in several cases with predominance of more toxic species, As3+ and As5+) and the large consumption of this food in the country and abroad, it was also carried out a study on arsenic metabolism in 6 different rice cultivars. The focus of this study was the synthesis of phytochelatins (PCs), non-peptide compounds produced by plants exposed to toxic elements, and its influence on the transfer factor (TF) soil-grains. The TF of arsenic as well as the concentration of PCs varied in relation to the cultivars (genotype) studied. Furthermore, the PCs have shown a strong positive correlation between themselves and with the concentration of i-As in the grains, and a negative correlation with TF roots-grains. Therefore, the developed method demonstrated feasibility for routine use in toxicological studies of arsenic species in food samples and, finally, the study of arsenic metabolism in rice plant can contribute to the selection of cultivars that absorb less arsenic, thereby reducing the intake of this toxic element by rice consumption.
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Desenvolvimento de métodos rápidos de preparo de amostras para especiação química de arsênio em alimentos por LC-ICP-MS e avaliação das concentrações e do metabolismo em arroz / Development of rapid methods for sample preparation and chemical speciation of arsenic in foods by LC-ICP-MS and evaluation of metabolism and concentration in riceBruno Lemos Batista 27 June 2012 (has links)
O arsênio é um dos mais tóxicos elementos químicos e reconhecidamente carcinogênico. Ele pode ser encontrado em alimentos basicamente em 5 formas: arsenobetaína (AsB), dimetil-arsênio (DMA), monometil-arsênio (MMA), arsenato (As5+) e arsenito (As3+), sendo estas duas últimas (As-i) as mais tóxicas. Assim, é de suma importância a utilização da especiação química de As para avaliação dos reais riscos associados à ingestão de alimentos contaminados. Neste sentido, o presente trabalho teve como objetivos o desenvolvimento de um método para separação das espécies de As por LC e detecção por ICP-MS; extrações quantitativas das espécies de As de tecidos animais e em grãos de arroz; aplicação dos métodos em amostras de alimentos consumidos no Brasil; e estudo do metabolismo do As em diferentes cultivares de arroz. O método desenvolvido para a extração das espécies de As em tecidos animais (ovo, músculos de ave, peixe e boi, etc.) utilizou apenas metanol (10%v/v) e ácido nítrico (2%v/v) como extratores e 2 minutos de sonicação, mostrando recuperação quantitativa do analito (>88%, n=3) pela análise dos materiais de referência (CE278, DOLT-3, DORM-3 e SRM NIST 1577). No entanto, para a análise de arroz, apenas ácido nítrico 2%v/v foi utilizado como extrator, possibilitando uma recuperação quantitativa (>94%, n=6), quando da análise do material de referência (NIST Rice Flour 1568a). Para a separação cromatográfica foram avaliadas diversas colunas, das quais a troca aniônica (Hamilton PRP-X100®) foi utilizada em todos os experimentos. A aplicação dos métodos na análise de alimentos diversos consumidos no Brasil mostrou uma grande variação nas concentrações das diferentes espécies do arsênio em músculos, ovos e, especialmente, no arroz. Devido as altas concentrações de As encontradas em amostras de arroz comercializadas no Brasil (em vários casos com predominância das espécies mais tóxicas, As3+ e As5+) e ao grande consumo deste alimento no país e no mundo, foi também realizado um estudo de metabolismo do As em 6 diferentes cultivares. O foco deste estudo foi a síntese de fitoquelatinas (PCs), compostos não peptídicos produzidos por plantas expostas a elementos tóxicos, e sua influência no fator de transferência (TF) do As solo-grãos. O TF do As, assim como a concentração das PCs, variaram em relação aos cultivares (genótipos) estudados. Além disso, as PCs mostraram ter uma forte correlação positiva entre si e com a concentração de As-i nos grãos, bem como uma correlação negativa do TF do As raízes-grãos. Portanto, os métodos desenvolvidos demonstraram fácil aplicação em rotina para avaliação toxicológica dos alimentos em relação às espécies de As e, finalmente, o estudo de metabolismo do As pela planta do arroz pode contribuir para escolha de cultivares que o absorvam menos, reduzindo sua ingestão frente ao consumo de arroz. / Arsenic is one of the most toxic chemicals and known carcinogen. It can be found in food basically in 5 different forms: arsenobetaine (AsB), dimethyl arsenic (DMA), monomethyl arsenic (MMA), arsenate (As5+) and arsenite (As3+), the latter two forms (i-As) are the most toxic. Thus, it is of extreme importance the use of chemical speciation for the evaluation of the real risks associated to arsenic intake from contaminated food. In this sense, this study aimed develop a simple method for separation of arsenic species by LC and detection by ICP-MS, quantitative extraction of arsenic species from animal tissues and rice grains, the application of the proposed method in the analysis of food samples commercialized in Brazilian markets, and the study of arsenic metabolism in different rice cultivars. The method developed for the extraction of arsenic species in animal tissues (egg, muscle of chicken, fish and cattle, etc.) used only methanol (10%v/v) and nitric acid (2%v/v) as extractant and 2 minutes of sonication, showing quantitative recovery of the analyte (>88%, n=3) when analyzing reference materials (CE278, DOLT-3, DORM-3 e SRM NIST 1577). However, for the analysis of rice grains, only nitric acid (2%v/v) was used as extractant, allowing a quantitative recovery (>94%, n=6), when analyzing the reference material (NIST Rice Flour 1568a). For the chromatographic separation several columns were evaluated and an anion exchange column (Hamilton PRP X-100) was used in all experiments. The analysis of several foods consumed in Brazil, showed a wide variation in the concentrations of different arsenic species in muscle, eggs, and especially in rice. Due to the high concentrations of arsenic found in rice samples (in several cases with predominance of more toxic species, As3+ and As5+) and the large consumption of this food in the country and abroad, it was also carried out a study on arsenic metabolism in 6 different rice cultivars. The focus of this study was the synthesis of phytochelatins (PCs), non-peptide compounds produced by plants exposed to toxic elements, and its influence on the transfer factor (TF) soil-grains. The TF of arsenic as well as the concentration of PCs varied in relation to the cultivars (genotype) studied. Furthermore, the PCs have shown a strong positive correlation between themselves and with the concentration of i-As in the grains, and a negative correlation with TF roots-grains. Therefore, the developed method demonstrated feasibility for routine use in toxicological studies of arsenic species in food samples and, finally, the study of arsenic metabolism in rice plant can contribute to the selection of cultivars that absorb less arsenic, thereby reducing the intake of this toxic element by rice consumption.
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Développement d’outils analytiques pour évaluer la biodisponibilité du Cd dans les eaux doucesEngland, Roxane 08 1900 (has links)
Les phytochélatines (PC) sont des polypeptides ayant la structure générale, (alpha-Glu-Cys)n-Gly, où n = 2 à 11. Leur synthèse est induite par un grand nombre de végétaux en réponse à une élévation de la concentration du milieu en métaux, en particulier le cadmium (ci-après, Cd). Le but de cette étude a été de développer un outil pour évaluer la biodisponibilité du Cd dans les eaux douces. Pour ce faire, une méthode analytique a été réalisée afin de déterminer les phytochélatines induites dans les algues C. reinhardtii. Celle-ci consiste à utiliser la chromatographie liquide couplée à la spectrométrie de masse en tandem (LCHP-SM/SM) "on-line". L’ionisation des molécules est celle faite par électronébulisation (IEN) (traduction de electrospray ionisation). L’objectif principal de ce mémoire est la validation de cette méthode : la détermination des courbes de calibration et des limites de détection et l'identification d'interférences potentielles.
L’utilisation de dithiothreitol (DTT) à une concentration de 25 mM a été nécessaire à la conservation de la forme réduite des phytochélatines. En effet, suite à la validation de la méthode d’analyse des phytochélatines il a été démontré qu’elle représente un potentiel d’application. Ceci dans la mesure où l’induction des phytochélatines (PC2, PC3 et PC4) dans les algues C. reinhardtii a été possible à deux concentrations de Cd (1 x 10-7 M et 1 x 10 6 M) et ce, après plusieurs temps d'induction (1, 2, 4, et 6 h). Ainsi, l’étude de la stabilité des phytochélatines a été réalisée et toutes les températures examinées ont démontré une diminution des phytochélatines analysées par HPLC-ESI-MS/MS.
Il se pourrait que la cause de la dégradation des phytochélatines soit physique ou chimique plutôt que bactérienne. Toutefois, un approfondissement au niveau de la purification de la solution d’extraction serait nécessaire à la mise au point de la dite méthode analytique afin de quantifier les phytochélatines dans l’algue C. reinhardtii. / Phytochelatins (PC) are polypeptides having the general structure, (alpha-Glu-Cys)n-Gly, where n = 2 to 11. Many plants respond to an elevated concentration of metals in environment, particularly Cd, by synthesizing PC. The purpose of this study was to develop a tool to assess the bioavailability of the Cd in fresh water by determining phytochelatins in algae, C. reinhardtii, by online HPLC-ESI-MS/MS. The gold of this work was the validation of the analytical method i.e. the determination of the calibration curves and the limits of detection. The addition of dithiothreitol (DTT), 25 mM, was found to be necessary to maintain the PC in their reduced form for analysis. It was shown that the liquid chromatography coupled to tandem mass spectrometry (HPLC-ESI-MS/MS) technique has excellent potential for PC analysis, however, it will still requires some more work with respect to sample purification. Furthermore, the stability of the PC was evaluated for different sample storage temperatures. At all temperatures studied, some degradation of PC was observed possibly due to physical rather than chemical or bacterial reasons. Finally, the induction of phytochelatins (PC2, PC3 and PC4) was observed in C. reinhardtii for two Cd concentrations (10-7 M and 10-6 M) and for several induction times (1, 2, 4, and 6 h).
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Effet du calcium, plomb et cuivre sur la bioaccumulation du cadmium et la production des phytochélatines par Chlamydomonas reinhardtiiAbboud, Pauline 05 1900 (has links)
Dans les milieux contaminés par les métaux, les organismes vivants sont exposés à plusieurs d’entre eux en même temps. Les modèles courants de prédiction des effets biologiques des métaux sur les organismes (p. ex., modèle du ligand biotique, BLM ; modèle de l’ion libre, FIAM), sont des modèles d’équilibre chimique qui prévoient, en présence d'un deuxième métal, une diminution de la bioaccumulation du métal d’intérêt et par la suite une atténuation de ses effets. Les biomarqueurs de toxicité, tels que les phytochélatines (PCs), ont été utilisés comme étant un moyen alternatif pour l’évaluation des effets biologiques. Les phytochélatines sont des polypeptides riches en cystéine dont la structure générale est (γ-glu-cys)n-Gly où n varie de 2 à 11. Leur synthèse semble dépendante de la concentration des ions métalliques ainsi que de la durée de l’ exposition de l’organisme, aux métaux. L'objectif de cette étude était donc de déterminer, dans les mélanges binaires de métaux, la possibilité de prédiction de la synthèse des phytochélatines par les modèles d’équilibres chimiques, tel que le BLM. Pour cela, la quantité de phytochélatines produites en réponse d’une exposition aux mélanges binaires : Cd-Ca, Cd-Cu et Cd-Pb a été mesurée tout en surveillant l’effet direct de la compétition par le biais des concentrations de métaux internalisés. En effet, après six heures d’exposition, la bioaccumulation de Cd diminue en présence du Ca et de très fortes concentrations de Pb et de Cu (de l’ordre de 5×10-6 M). Par contre, avec des concentrations modérées de ces deux métaux, le Cd augmente en présence de Cu et ne semble pas affecté par la présence de Pb. Dans le cas de la compétition Cd-Cu, une bonne corrélation a été observée entre la production de PC2, PC3 et PC4 et la quantité des métaux bioaccumulés. Pour la synthèse des phytochélatines et la bioaccumulation, les effets étaient considérés comme synergiques. Dans le cas du Cd-Ca, les quantités de PC3 et PC4 ont diminué avec le métal internalisé (effet antagoniste), mais ce qui était remarquable était la grande quantité de cystéine (GSH) et PC2 qui ont été produites à de fortes concentrations du Ca. Le Pb seul n’a pas induit les PCs. Par conséquent, il n’y avait pas de variation de la quantité de PCs avec la concentration de Pb à laquelle les algues ont été exposées. La détection et la quantification des PCs ont été faites par chromatographie à haute performance couplée d’un détecteur de fluorescence (HPLC-FL). Tandis que les concentrations métalliques intracellulaires ont été analysées par spectroscopie d’absorption atomique (AAS) ou par spectrométrie de masse à source plasma à couplage inductif (ICP-MS). / In contaminated environments, organisms are often exposed to multiple contaminants at the same time. Based upon the current models for predicting metal effects on organisms (e.g., Biotic Ligand Model, BLM, the free ion model, FIAM), the presence of a second metal is predicted to decrease the bioaccumulation and biological effects of the first. In contrast to this prediction, antagonistic, synergistic and additive effects have been well documented in the literature. Phytochelatins (PCs) are a family of thiol-rich peptides with a general structure (γ-Glu-Cys)n-Gly with n=2-11. PCs are involved in both metal homeostasis and the protection of plants from metal toxicity, through their role as metal chelators. Their synthesis depends upon the metal exposure, the duration of exposure and the biological species involved. Therefore, the objective of this study was to determine, in binary mixtures of metals, if the synthesis of phytochelatins could be predicted using equilibrium models, such as the BLM. The study initially examined binary mixtures: Cd-Ca, Cd-Pb and Cd-Cu by comparing the quantity of internalized metal to the amount of phytochelatins produced by Chlamydomonas reinhardtii in response to a metal stress. The bioaccumulation results, after six hours of exposure, showed that Cd decreased in the presence of Ca and very high concentrations of Pb and Cu. In contrast, it increased in the presence of Cu and remained unchanged in the presence of moderate concentrations of Pb. For mixtures of Cu and Cd, a good correlation was observed between the production of PC2, PC3 and PC4 and the quantity of internalized metals. Both bioaccumulation and phytochelatin synthesis were considered to be synergistic. For mixtures of Cd and Ca, the amount of PC3 and PC4 produced decreased with the internalized metal (antagonistic effect); however, in the presence of added Ca, GSH and PC2 production was much higher than predicted. The detection and quantification of the PCs were performed using an optimized protocol for high performance liquid chromatography coupled with fluorescence detection (HPLC-FL); metal uptake was determined using atomic absorption spectrometry (AAS) or inductively coupled plasma mass spectrometry (ICP-MS).
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Développement d’outils analytiques pour évaluer la biodisponibilité du Cd dans les eaux doucesEngland, Roxane 08 1900 (has links)
Les phytochélatines (PC) sont des polypeptides ayant la structure générale, (alpha-Glu-Cys)n-Gly, où n = 2 à 11. Leur synthèse est induite par un grand nombre de végétaux en réponse à une élévation de la concentration du milieu en métaux, en particulier le cadmium (ci-après, Cd). Le but de cette étude a été de développer un outil pour évaluer la biodisponibilité du Cd dans les eaux douces. Pour ce faire, une méthode analytique a été réalisée afin de déterminer les phytochélatines induites dans les algues C. reinhardtii. Celle-ci consiste à utiliser la chromatographie liquide couplée à la spectrométrie de masse en tandem (LCHP-SM/SM) "on-line". L’ionisation des molécules est celle faite par électronébulisation (IEN) (traduction de electrospray ionisation). L’objectif principal de ce mémoire est la validation de cette méthode : la détermination des courbes de calibration et des limites de détection et l'identification d'interférences potentielles.
L’utilisation de dithiothreitol (DTT) à une concentration de 25 mM a été nécessaire à la conservation de la forme réduite des phytochélatines. En effet, suite à la validation de la méthode d’analyse des phytochélatines il a été démontré qu’elle représente un potentiel d’application. Ceci dans la mesure où l’induction des phytochélatines (PC2, PC3 et PC4) dans les algues C. reinhardtii a été possible à deux concentrations de Cd (1 x 10-7 M et 1 x 10 6 M) et ce, après plusieurs temps d'induction (1, 2, 4, et 6 h). Ainsi, l’étude de la stabilité des phytochélatines a été réalisée et toutes les températures examinées ont démontré une diminution des phytochélatines analysées par HPLC-ESI-MS/MS.
Il se pourrait que la cause de la dégradation des phytochélatines soit physique ou chimique plutôt que bactérienne. Toutefois, un approfondissement au niveau de la purification de la solution d’extraction serait nécessaire à la mise au point de la dite méthode analytique afin de quantifier les phytochélatines dans l’algue C. reinhardtii. / Phytochelatins (PC) are polypeptides having the general structure, (alpha-Glu-Cys)n-Gly, where n = 2 to 11. Many plants respond to an elevated concentration of metals in environment, particularly Cd, by synthesizing PC. The purpose of this study was to develop a tool to assess the bioavailability of the Cd in fresh water by determining phytochelatins in algae, C. reinhardtii, by online HPLC-ESI-MS/MS. The gold of this work was the validation of the analytical method i.e. the determination of the calibration curves and the limits of detection. The addition of dithiothreitol (DTT), 25 mM, was found to be necessary to maintain the PC in their reduced form for analysis. It was shown that the liquid chromatography coupled to tandem mass spectrometry (HPLC-ESI-MS/MS) technique has excellent potential for PC analysis, however, it will still requires some more work with respect to sample purification. Furthermore, the stability of the PC was evaluated for different sample storage temperatures. At all temperatures studied, some degradation of PC was observed possibly due to physical rather than chemical or bacterial reasons. Finally, the induction of phytochelatins (PC2, PC3 and PC4) was observed in C. reinhardtii for two Cd concentrations (10-7 M and 10-6 M) and for several induction times (1, 2, 4, and 6 h).
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Effet du calcium, plomb et cuivre sur la bioaccumulation du cadmium et la production des phytochélatines par Chlamydomonas reinhardtiiAbboud, Pauline 05 1900 (has links)
Dans les milieux contaminés par les métaux, les organismes vivants sont exposés à plusieurs d’entre eux en même temps. Les modèles courants de prédiction des effets biologiques des métaux sur les organismes (p. ex., modèle du ligand biotique, BLM ; modèle de l’ion libre, FIAM), sont des modèles d’équilibre chimique qui prévoient, en présence d'un deuxième métal, une diminution de la bioaccumulation du métal d’intérêt et par la suite une atténuation de ses effets. Les biomarqueurs de toxicité, tels que les phytochélatines (PCs), ont été utilisés comme étant un moyen alternatif pour l’évaluation des effets biologiques. Les phytochélatines sont des polypeptides riches en cystéine dont la structure générale est (γ-glu-cys)n-Gly où n varie de 2 à 11. Leur synthèse semble dépendante de la concentration des ions métalliques ainsi que de la durée de l’ exposition de l’organisme, aux métaux. L'objectif de cette étude était donc de déterminer, dans les mélanges binaires de métaux, la possibilité de prédiction de la synthèse des phytochélatines par les modèles d’équilibres chimiques, tel que le BLM. Pour cela, la quantité de phytochélatines produites en réponse d’une exposition aux mélanges binaires : Cd-Ca, Cd-Cu et Cd-Pb a été mesurée tout en surveillant l’effet direct de la compétition par le biais des concentrations de métaux internalisés. En effet, après six heures d’exposition, la bioaccumulation de Cd diminue en présence du Ca et de très fortes concentrations de Pb et de Cu (de l’ordre de 5×10-6 M). Par contre, avec des concentrations modérées de ces deux métaux, le Cd augmente en présence de Cu et ne semble pas affecté par la présence de Pb. Dans le cas de la compétition Cd-Cu, une bonne corrélation a été observée entre la production de PC2, PC3 et PC4 et la quantité des métaux bioaccumulés. Pour la synthèse des phytochélatines et la bioaccumulation, les effets étaient considérés comme synergiques. Dans le cas du Cd-Ca, les quantités de PC3 et PC4 ont diminué avec le métal internalisé (effet antagoniste), mais ce qui était remarquable était la grande quantité de cystéine (GSH) et PC2 qui ont été produites à de fortes concentrations du Ca. Le Pb seul n’a pas induit les PCs. Par conséquent, il n’y avait pas de variation de la quantité de PCs avec la concentration de Pb à laquelle les algues ont été exposées. La détection et la quantification des PCs ont été faites par chromatographie à haute performance couplée d’un détecteur de fluorescence (HPLC-FL). Tandis que les concentrations métalliques intracellulaires ont été analysées par spectroscopie d’absorption atomique (AAS) ou par spectrométrie de masse à source plasma à couplage inductif (ICP-MS). / In contaminated environments, organisms are often exposed to multiple contaminants at the same time. Based upon the current models for predicting metal effects on organisms (e.g., Biotic Ligand Model, BLM, the free ion model, FIAM), the presence of a second metal is predicted to decrease the bioaccumulation and biological effects of the first. In contrast to this prediction, antagonistic, synergistic and additive effects have been well documented in the literature. Phytochelatins (PCs) are a family of thiol-rich peptides with a general structure (γ-Glu-Cys)n-Gly with n=2-11. PCs are involved in both metal homeostasis and the protection of plants from metal toxicity, through their role as metal chelators. Their synthesis depends upon the metal exposure, the duration of exposure and the biological species involved. Therefore, the objective of this study was to determine, in binary mixtures of metals, if the synthesis of phytochelatins could be predicted using equilibrium models, such as the BLM. The study initially examined binary mixtures: Cd-Ca, Cd-Pb and Cd-Cu by comparing the quantity of internalized metal to the amount of phytochelatins produced by Chlamydomonas reinhardtii in response to a metal stress. The bioaccumulation results, after six hours of exposure, showed that Cd decreased in the presence of Ca and very high concentrations of Pb and Cu. In contrast, it increased in the presence of Cu and remained unchanged in the presence of moderate concentrations of Pb. For mixtures of Cu and Cd, a good correlation was observed between the production of PC2, PC3 and PC4 and the quantity of internalized metals. Both bioaccumulation and phytochelatin synthesis were considered to be synergistic. For mixtures of Cd and Ca, the amount of PC3 and PC4 produced decreased with the internalized metal (antagonistic effect); however, in the presence of added Ca, GSH and PC2 production was much higher than predicted. The detection and quantification of the PCs were performed using an optimized protocol for high performance liquid chromatography coupled with fluorescence detection (HPLC-FL); metal uptake was determined using atomic absorption spectrometry (AAS) or inductively coupled plasma mass spectrometry (ICP-MS).
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Nuevas estrategias electroanalíticas y quimiométricas aplicadas a sistemas de difícil resolución. Complejación de fitoquelatinas con plomoAlberich Herranz, Aristides 21 February 2011 (has links)
La fitorremediación es una técnica de descontaminación de ecosistemas que aprovecha la capacidad de las plantas para acumular sustancias tóxicas en su interior sin que afecten severamente a su ciclo vital. Dicha técnica presenta un bajo impacto medioambiental, convirtiéndose en una alternativa a los métodos clásicos, más agresivos y costosos.
En lo referente a metales pesados, las plantas inducen la síntesis intracelular de fitoquelatinas (PC), ligandos tiólicos que complejan los metales y los almacenan en orgánulos celulares de bajo metabolismo como las vacuolas. A pesar de las investigaciones realizadas hasta la fecha, el mecanismo de actuación de las fitoquelatinas no está totalmente establecido, incluida la secuencia de formación y la estequiometria final de los complejos PC-M. Por esta razón, resulta de gran interés estudiar estos procesos de complejación, pues sus conclusiones pueden ayudar a entender la fitorremediación y a optimizar su aplicación.
Las investigaciones recogidas en esta tesis se sustentan -como metodología básica- en el análisis quimiométrico mediante MCR-ALS de los datos obtenidos de valoraciones complexométricas registradas por técnicas electroanalíticas, concluyendo con la proposición de modelos de complejación para el sistema en estudio.
La elección del plomo como metal complejante se debe a su alta toxicidad y dispersión en el medio ambiente, así como por suponer un paso más en el uso de dicha metodología, pues el estudio de los sistemas PC/Pb(II) presentan problemas que la dificultan. Estos problemas son, principalmente, el desplazamiento lateral de las señales voltamperométricas que produce un decrecimiento en la linealidad de los datos obtenidos, y la presencia de señales anódicas que favorece un fuerte solapamiento entre los picos de las diferentes especies químicas; ambos problemas comprometen la aplicación del método MCR-ALS y el correcto examen de los resultados.
El objetivo de esta tesis adquiere así una doble vertiente. Por un lado, para solucionar dichos problemas y, de alguna forma, ampliar la aplicabilidad de MCR-ALS a eventuales sistemas más complejos, se estudian nuevas adaptaciones metodológicas (análisis MCR-ALS de matrices espectro-voltamperométricas), herramientas (programa shiftfit, que corrige el desplazamiento de potencial de las señales voltamperométricas) y metodologías experimentales (uso de electrodos alternativos al de mercurio). Por otro lado, se procura la consecución de resultados para los propios sistemas PC/Pb(II) estudiados, es decir, la determinación de modelos de complejación lo bastante completos y sólidos para servir de apoyo a los resultados de los estudios in vivo o in vitro.
Los trabajos publicados y la explicación de los resultados están organizados en tres bloques:
• El primer bloque (artículo 11.1) recoge la aproximación inicial al estudio de la complejación de fitoquelatinas y ligandos relacionados con plomo utilizando la metodología básica. Los resultados ponen de relieve la relativa solvencia del procedimiento, así como el verdadero alcance de los problemas que se describen en el capítulo 5.
• El segundo bloque recopila los resultados de la aplicación de las nuevas metodologías y herramientas propuestas para solucionar las insuficiencias o ambigüedades de los modelos de complejación obtenidos en el artículo anterior. Estas metodologías son el análisis quimiométrico conjunto de valoraciones registradas por polarografía y dicroísmo circular (11.2), la formulación del programa shiftfit que corrige el movimiento lateral de señales polarográficas, es decir, la falta de un valor fijo del potencial de pico (11.3) y, finalmente, el uso del electrodo de película de bismuto (BiFE) con la intención de minimizar el solapamiento que producen las señales anódicas (11.4).
• Tras la aplicación de estas metodologías a sistemas sencillos, en el tercer bloque se aplican a sistemas con plomo (11.5 y 11.6), incluyendo la comparación de los diferentes modelos de complejación obtenidos en los artículos 11.1 y 11.5 para el sistema PC3/Pb(II). / Phytoremediation is a decontamination technique that takes profit by the plants ability to accumulate toxic substances without affecting severely their vital cycles. This technique presents the advantatges of being cheap and non-destructive to ecological systems.
Regarding heavy metals, plants induce the intracellular synthesis of phytochelatins (PC), Cys-rich polypeptides that complex metals and storage them in cellular organelles of limited metabolism as vacuoles. Despite the research achieved to date, the mechanism of actuation of phytochelatins is not entirely established, including the sequence of formation and the final stoichiometry of the PC-M complexes. By this reason, it is of great interest to study these complexation processes, reaching conclusions that would be able to help the optimization of phytoremediation.
The investigations collected in this doctoral thesis are held -as basic methodology- in the chemometric analysis through MCR-ALS of the data obtained from complexometric titrations carried out by voltammetric techniques. This methodology concludes with the proposition of complexation models for the systems under study, but when lead is used as complexing metal, PC/Pb(II) systems present problems that make it more difficult. Mainly, these problems are the lateral movement of the voltammetric signals (producing a decrease in the linearity of the data), and the presence of anodic signals that propitiate a strong overlapping between peaks of different chemical species; both troubles compromise the MCR-ALS application and the correct investigation of the results.
To solve the aforementioned problems -and that way to increase the applicability of MCR-ALS to more complex systems-, some new tools have been applied for the first time:
• Methodologic adaptations as the MCR-ALS simultaneous analysis of spectro- and electrochemical data (row-wise CD-DPP augmented matrices) to differenciate real chemical species from physicochemical or kinetic phenomena of the diffusion layer.
• Chemometric programs as shiftfit that corrects the potential shift of the polarographic signals to obtain a matrix of corrected voltammograms with an increased linearity.
• The use of the bismuth film electrode (BiFE) for complexation studies, to minimize the overlapping produced by the anodic signals.
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