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Etude des effets de la glycation sur les interactions protéine-ligand dans le cadre du diabète et de l’athérosclérose : la liaison entre l’albumine et le liraglutide et entre l’apolipoprotéine A1 et ses partenaires de liaison / Study of the effects of glycation on protein-ligand interactions in diabetes and atherosclerosis : the link between albumin and liraglutide and between apolipoprotein A1 and its binding partnersGajahi Soudahome, Marie Angélique 27 June 2018 (has links)
Les interactions protéine-ligand interviennent dans de nombreux processus biochimiques et permettent notamment à certaines protéines sanguines d’assurer leur rôle de transport. Parmi ces protéines figurent notamment l’albumine, protéine la plus abondante du plasma, ou l’apolipoprotéine A1 (ApoA1), majoritaire au sein des lipoprotéines de haute densité (HDL). Dans un contexte diabétique, la glycation des protéines induit des modifications structurales affectant ainsi leur potentiel d’interaction.Le premier objectif de ce travail de thèse visait à déterminer l’impact de la glycation de l’albumine sur sa liaison au liraglutide, un médicament de plus en plus utilisé dans le traitement du diabète de type 2. Ensuite, la seconde partie de ce travail a consisté en la production d’une ApoA1 humaine recombinante fonctionnelle afin d’étudier ses propriétés d’interaction, sous forme libre ou associée aux phospholipides. La technique RMN (résonance magnétique nucléaire) a été utilisée sur les protéines préalablement marquées au fluor (pour le liraglutide) ou aux isotopes stables 13C/15N (pour l’ApoA1). La titration microcalorimétrique isotherme (ITC), méthode complémentaire à la RMN a été appliquée pour l’étude des interactions avec l’avantage de ne nécessiter aucun marquage. Différentes stratégies de clonage ont été explorées pour la surexpression de l’ApoA1 en bactérie Clearcoli.Les résultats obtenus démontrent une altération de l’affinité de l’albumine pour le liraglutide in vitro et in vivo, dépendante du degré de glycation. Ces résultats, enrichis d’une analyse lipidomique et peptidique, permettent d’expliquer les observations cliniques concernant la baisse de l’efficacité de médicaments liant l’albumine chez les patients ayant un diabète mal contrôlé. Concernant l’ApoA1, le choix de l’étiquette de fusion reste à optimiser, mais sa surexpression de manière soluble et abondante a été obtenue pour l’ApoA1 marquée et non marquée. / Protein-ligand interactions are involved in many biochemical processes. They are notably implicated in the role of transporter proteins in blood. Albumin, the most abundant plasma protein, and apolipoprotein A1 (ApoA1), which is the main component of high-density lipoprotein (HDL) belong to this class of proteins. In the context of diabetes, proteins are altered by glycation which leads to structural modifications and potentially affect their interactions.The first objective of this work was to determine the impact of albumin glycation on its binding to liraglutide, a drug increasingly used in the treatment of type 2 diabetes. Then, the second part of this work involved the production of recombinant functional human ApoA1 in order to study its interaction properties, in its lipid-free form or associated with phospholipids. The NMR (nuclear magnetic resonance) technique has been used on proteins previously labeled with fluorine (for liraglutide) or stable 13C/15N isotopes (for ApoA1). In addition, isothermal titration microcalorimetry (ITC), has been applied to the study of interactions with the advantage of not requiring any labeling. Various cloning strategies have been explored for the overexpression of ApoA1 in Clearcoli bacteria.The results demonstrate an alteration of the affinity of albumin for liraglutide in vitro and in vivo, depending on the degree of glycation. These results, supported by a lipidomic and peptide analysis, explain clinical observations concerning the decrease of efficacy of albumin-binding drugs in patients with poorly controlled diabetes. Regarding ApoA1, the choice of the fusion tag remains to be optimized, but both labeled and unlabeled ApoA1 were successfully overexpressed at high yields in a soluble form.
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Caracterização espectral e computacional da interação de derivados de benzoil-tiraminas e albumina humana São José do Rio Preto 2017 / Spectral and computational features of the binding between riparins and human serum albuminCamargo, Cintia Ramos [UNESP] 18 September 2017 (has links)
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Previous issue date: 2017-09-18 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / A folha de louro verde brasileira, uma especiaria muito apreciada na cozinha local (Aniba riparia, Lauraceae), contém compostos químicos que apresentam derivados de benzoíla chamados riparinas, que possuem propriedades anti-inflamatórias, antimicrobianas e ansiolíticas. No entanto, não está claro qual o tipo de interação que as riparins desempenham com qualquer alvo molecular. Como um alvo rentável, a albumina de soro humano (HSA) é uma das principais proteínas extracelulares, com uma capacidade excepcional para interagir com várias moléculas, e também desempenha um papel crucial no transporte, distribuição e metabolismo de uma grande variedade de ligantes endógenos e exógenos. Para delinear o mecanismo de interação HSA-riparina, a espectroscopia e os métodos computacionais foram aplicados de forma sinérgica. Uma avaliação através de espectroscopia de fluorescência mostrou que a emissão, atribuída ao Trp 214, a 346 nm, diminuiu com as titulações das riparinas. Observou-se um mecanismo de supressão estática na ligação das riparinas à HSA. Os experimentos de fluorescência realizados em 298, 308 e 318 K possibilitaram a realização de análises termodinâmicas que indicassem uma reação espontânea na formação do complexo (ΔG <0). O experimento do balanço entálpico-entrópico e com um cálculo de modelagem molecular revelou que interações hidrofóbicas, ligação de hidrogênio e interações não específicas estão presentes para as riparinas I - III com a HSA. O conjunto de resultados das mudanças da fração de fluorescência obtidos através de Schatchard não foi conclusivo ao estabelecer que tipo de cooperatividade esteja presente na interação. Para esclarecer o complexo HSA-riparinas, a abordagem de Hill foi utilizada para distinguir o índice de afinidade e a constante de ligação. Observou-se uma correspondência entre as estruturas moleculares das riparinas, devido à presença do grupo hidroxila no anel B, com parâmetros termodinâmicos e índice de afinidade. Riparin III realiza uma ligação de hidrogênio intramolecular, que afeta o coeficiente de Hill e a constante de ligação. Portanto, a presença de grupos hidroxila é capaz de modular a interação entre riparinas e HSA. Os experimentos de competição de sítio indicaram o sítio I como sendo o mais acessado, e as ferramentas de modelagem molecular reforçavam os resultados experimentais detalhando a participação de resíduos. / The green Brazilian bay leaf, a spice much prized in local cuisine (Aniba riparia, Lauraceae), contains chemical compounds presenting benzoyl-derivatives named riparins, which have anti-inflammatory, antimicrobial and anxiolytic properties However, it is unclear what kind of interaction riparins perform with any molecular target. As a profitable target, human serum albumin (HSA) is one of the principal extracellular proteins, with an exceptional capacity to interact with several molecules, and it also plays a crucial role in the transport, distribution, and metabolism of a wide variety of endogenous and exogenous ligands. To outline the HSA– riparin interaction mechanism, spectroscopy and computational methods were synergistically applied. An evaluation through fluorescence spectroscopy showed that the emission, attributed to Trp 214, at 346 nm decreased with titrations of riparins. A static quenching mechanism was observed in the binding of riparins to HSA. Fluorescence experiments performed at 298, 308 and 318 K made it possible to conduct thermodynamic analysis indicating a spontaneous reaction in the complex formation (ΔG<0). The enthalpy-entropy balance experiment with a molecular modeling calculation revealed that hydrophobic, hydrogen bond and non-specific interactions are present for riparin I - III with HSA. The set of results from fractional fluorescence changes obtained through Schatchard was inconclusive in establishing what kind of cooperativity is present in the interaction. To shed light upon the HSA-riparins complex, Hill’s approach was utilized to distinguish the index of affinity and the binding constant. A correspondence between the molecular structures of riparins, due to the presence of the hydroxyl group in the B-ring, with thermodynamic parameters and index of affinity were observed. Riparin III performs an intramolecular hydrogen bond, which affects the Hill coefficient and the binding constant. Therefore, the presence of hydroxyl groups is capable of modulating the interaction between riparins and HSA. Site marker competitive experiments indicated Site I as being the most suitable, and the molecular modeling tools reinforced the experimental results detailing the participation of residues.
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Investigação química de complexos de coordenação dos antibióticos enrofloxacina e norfloxacina combinados ao íon Ru(III) e suas interações com biomoléculas alvo / Chemical Investigation of coordination compounds with enrofloxacin and norfloxacin antibiotics combined to Ru (III) ion and their interations with target biomolecule.Felipe Costa Claro Reis 28 July 2014 (has links)
Este trabalho tem como objetivo sintetizar e caracterizar um novo complexo mononuclear de rutênio (III) e enrofloxacina (enro, fármaco antibacteriano da família das fluoroquinolonas), [Ru(enro)3].nH2O. Foram testadas várias rotas sintéticas e apenas a partir de uma delas obteve-se o composto desejado. O produto foi caracterizado pelas técnicas espectroscópicas de absorção na região do UV-visível e do infra-vermelho. Através desta última técnica foi possível determinar o modo pelo qual a enrofloxacina se coordena ao íon rutênio: a coordenação ocorre de modo bidentado através do oxigênio da piridona e do oxigênio do grupamento carboxilato. Outro objetivo deste trabalho foi investigar a interação do complexo mononuclear de rutênio (III) e norfloxacina, [Ru(nor)3].nH2O, com a albumina de soro humano (HSA), através da técnica de luminescência. Mais especificamente pelo estudo da supressão da luminescência dos resíduos de triptofano, aplicando-se o modelo de tratamento da supressão bimolecular de Stern-Volmer. O estudo de supressão de fluorescência mostrou, por meio de espectros de emissão da HSA, que com o aumento da concentração do complexo [Ru(nor)3].nH2O na solução de HSA, ocorre uma redução gradual da luminescência da HSA, devido a alterações da conformação da proteína, que sugerem alteração do microambiente próximos aos resíduos de triptofano. A partir do tratamento dos dados pode-se determinar tanto K_sv quanto a constante cinética do processo de supressão, que mostraram uma dependência com a temperatura sugerindo como mecanismo predominante de supressão o mecanismo dinâmico. Porém essa conclusão foi revista a partir da determinação dos tempos de vida do estado excitado da HSA, e pode-se concluir que o mecanismo predominante à temperatura ambiente é o mecanismo estático, porém com o aumento da temperatura ocorre a predominância do mecanismo do tipo dinâmico. Através da determinação dos parâmetros termodinâmicos, concluiu-se que as interações entre a HSA e o complexo são espontâneas, e forças de van der Waals e ligações de hidrogênio estão envolvidas na ligação entre a HSA e o supressor. / This work aims to synthesize and characterize a new mononuclear ruthenium (III) complex and enrofloxacin (enro, antibacterial drug of the fluoroquinolone family), [Ru(enro)3].nH2O. Several synthetic routes were tested, but only from one of them it was obtained the desired compound. The product was characterized by spectroscopic techniques of absorption in UV-visible and infra-red regions. Through this last technique, it was possible to determine the coordination mode of enrofloxacin to the ruthenium ion: the coordination occurs in a bidentate way through the pyridone oxygen and the oxygen of the carboxylate group. Another aim of this study was to investigate the interaction of mononuclear ruthenium (III) complex and the norfloxacin, [Ru(nor)3].nH2O, with the human serum albumin (HSA), through the technique of luminescence. More specifically, by the study of the quenching of luminescence of tryptophan residues, by applying the Stern-Volmers model of treatment of bimolecular suppression. The fluorescence quenching study showed, through the emission spectra of HSA, that increasing the complex concentration in HSA solution, there is a gradual reduction of the luminescence of HSA, due to the conformational changes of the protein that suggests the change of microenvironment near tryptophan residues. From the data processing it is possible to determine both K_sv and the kinetic constant of the suppression process, which showed temperature dependence, suggesting as the predominant mechanism of quenching the dynamic mechanism. However, this conclusion has been revised from the determination of the lifetimes of the excited state of HSA, and it can be concluded that the predominant mechanism at room temperature is the static mechanism, but with the temperatures increase, it occurs the predominance of the dynamic type mechanism. By determining the thermodynamic parameters, it was concluded that the interactions between HSA and the complex are spontaneous, and Van der Waals forces and hydrogen bonds are involved in the binding between HSA and suppressor.
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Design, Synthesis and Spectroscopic Studies of Resveratrol Aliphatic Acid Ligands of Human Serum AlbuminJiang, Yu 15 June 2008 (has links)
As one of the natural polyphenols, resveratrol possesses hydroxyl substituted trans-stilbene structure and exerts impact on health by inhibiting multiple human enzymes, such as cyclooxygenase, F1 ATPase, and tyrosinase. Resveratrol has to be bound by human serum albumin (HSA) to keep a high concentration in serum, since its solubility is low in water. To improve water solubility and bioavailability, two resveratrol aliphatic acids and their esters have been designed and synthesized. The solubilities of the resveratrol and its derivatives have been measured using a standard procedure. The two aliphatic acids showed better solubilities in pure water and phosphate buffer (pH 7). The binding affinities of resveratrol derivatives for HSA were also measured, and the drug-protein interaction mechanism was investigated using fluorescence, UV-vis, and NMR spectroscopies. Interestingly, resveratrol hexanoic acid (5) was found to be a much better ligand (Ka = (6.70 ± 0.10) × 106 M-1) for HSA than resveratrol (Ka = (1.64 ± 0.07) × 105 M-1), and there was 41-fold improvement for the binding affinity. It was the first time that the increase of fluorescence of resveratrol moiety was observed during the binding to HSA, suggesting that 5 should be bound tightly by HSA. The UV-vis absorption spectroscopy revealed a maximum absorption shift from 318 to 311 nm with decreasing intensity by 20% upon complexation, suggesting that the π-π conjugation of the stilbene structure was impaired during the binding. Although HSA was reported to have only one binding site for resveratrol, the Job's and molar ratio plots suggested that HSA should bind two molecules of 5. NMR study suggested that phenyl group (B ring) in the center of the molecule of 5 should be involved in the π-π stacking interactions with HSA aromatic amino acid residues. Molecular geometry calculation of 5 with Spartan software showed that the stilbene structure had two conformers, orthogonal and planar ones. The former (E = -1.432 KJ/mol) was more stable than the latter (E = -0.128 KJ/mol), suggesting that the former should be the conformer of 5 in the complexation with HSA.
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Investigation of Zinc Interactions to Human Serum Albumin and Their Modulation by Fatty AcidsAl-Harthi, Samah 03 1900 (has links)
Zinc is an essential metal ion for the activity of multiple enzymes and transcription factors. Among many other transporting proteins human serum albumin (HSA) is the main carrier of Zn(II) in the blood plasma. HSA displays multiple ligand binding sites with extraordinary binding capacity for a wide range of ions and molecules including fatty acids. Hence, HSA controls the availability and distribution of those molecules throughout the body. Previous studies have established that the existence of one zinc site with high affinity (MBS-A) that is modulated by the presence of fatty acids. Therefore, the fatty acid concentration in the blood influences zinc distribution which may result in a significant effect on both normal physiological processes and a range of diseases. Based on the current knowledge of HSA's structure and its coordination chemistry with zinc ion, here, we attempted to investigate zinc interactions and coordination with HSA and the effect of different fatty acids on the protein structure, stability and on Zn(II) binding. By NMR titration, we examine the Zn(II) binding to HSA and the spectra show distinct movements of some resonances showing a conformational change has occurred as a result of Zn(II) binding. Isothermal calorimetry titrations study was performed to evaluate zinc binding affinity to HSA in the absence and presence of fatty acids. Free HSA results indicates the existence of one high affinity site and multiple low affinity sites. Upon the binding of fatty acids to HSA, three distinct behaviors of Zn(II) affinity was observed ranging from no effect to moderate to significant depending on the FAs. By the use of circular dichroism, we investigate secondary and tertiary structure of HSA in the presence and absence of FAs and Zn(II). We found albumin is predominately α-helical and the overall conformation of the protein remains unchanged even after interacting with FAs and Zn(II) with some exception. The structural stability of HSA was evaluated by obtaining the denaturation temperature in the presence and absence of fatty acid and we found the thermal denaturation of HSA increases with the increase of amount of fatty acids.
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Understanding the Inhibition of the Alzheimer's Ab peptide by Human Serum AlbuminMilojevic, Julijana 04 1900 (has links)
<p>Aggregation of the<strong> </strong>Alzheimer’s Aβ peptide in the brain and blood plasma is controlled by endogenous Aβ binding proteins. The structural basis for the interaction between the Aβ peptide and the Aβ binding proteins is critical not only to understand how Aβ amyloids are controlled in vivo, but also to guide the design of novel Aβ-self association inhibitors. However, the current knowledge of the structures of the Aβ/Aβ binding protein complexes is still sparse. This thesis focuses mainly on the interaction of the Aβ peptide with Human Serum Albumin (HSA). It is known that HSA binds ~90% of the Aβ in human plasma and prevents the Aβ self-association into amyloid fibrils. However, the mechanism of Aβ self-association inhibition by albumin was not understood prior to our work. We have shown that albumin preferentially binds toxic Aβ oligomers and fibrils inhibiting their growth into larger Aβ assemblies through a “monomer competitor” mechanism. Using a combination of NMR, domain deletion mutants, dynamic light scattering and ultrafiltration we have investigated the stoichiomery and affinity of the Aβ oligomer: HSA complexes. Our results indicate that all three domains of HSA bind Aβ oligomers and fibrils with an affinity in the 1-100 nM range. Such binding site degeneracy explains how albumin minimizes competition by other ligands such as fatty acids and drugs. Moreover we have used the soluble and NMR suitable domain 3 of albumin to dissect further the determinants of the Aβ oligomer binding to albumin at subdomain and peptide resolution. We show that both subdomains of the HSA domain 3 (<em>i.e</em>. 3A and 3B) bind the Aβ oligomers. In addition, we identified a peptide sequence within subdomain 3B that displays significant potency in the inhibition of Aβ self-association.</p> / Doctor of Philosophy (PhD)
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Photophysical characterization and optimization of novel polymer based photosensitizer carrier systems for PDTChen, Kuan 27 June 2010 (has links)
Ziel der vorliegenden Arbeit ist die photophysikalische Untersuchung Photosensibilisator-beladener Nanopartikel als Transportsysteme für aktives und passives Tumor-Targeting. Zu diesem Zweck wurden sowohl stationäre, als auch zeitaufgelöste spektroskopische Methoden angewandt. Der erste Teil beschäftigt sich mit der photophysikalischen Charakterisierung von Pheo-HSA-Nanopartikeln. Mittels stationärer und zeitaufgelöster Messungen konnte gezeigt werden, dass die Wechselwirkungen zwischen Phäophorbid a und den HSA-Nanopartikeln sehr stark ist. Diese Wechselwirkungen bewirken eine geringe Singulettsauerstoffquantenausbeute (0,07) in D2O verglichen mit dem von Phäophorbid a in Ethanol (0,52). Im Gegensatz dazu konnte nach der Inkubation in Jurkat- und HT-29-Zellen eine intrazelluläre Singulettsauerstoffgenerierung der Pheo-HSA-NPs nachgewiesen werden. Im zweiten Teil wurden mit den Photosensibilisatoren mTHPP and mTHPC beladene HSA- und PLGA-Nanopartikel untersucht. Es konnte gezeigt werden, dass die Photosensibilisator-Beladungsrate die photophysikalischen Eigenschaften der HSA- und PLGA-Nanopartikel stark beeinflusst. Für die HSA-Nanopartikel dominieren bei geringen Beladungsraten die Wechselwirkungen zwischen HSA und den Photosensibilisatormolekülen. Mit steigender Beladung spielen Wechselwirkungen zwischen den Photosensibilisatormolekülen eine zunehmende Rolle. Diese Wechselwirkungen verringern bei hoher Beladung der HSA-Nanopartikel die Generierung von Singulettsauerstoff. Auch für die PLGA-Nanopartikel konnte mit zunehmender Beladung ein verstärktes Singulettsauerstoffquenching nachgewiesen werden. Im dritten Teil dieser Arbeit wurden, für aktives Targeting von Tumorzellen, Oberflächenmodifizierte PLGA- und HSA-Nanopartikel untersucht. Die intrazellulären Singulettsauerstoffmessungen weisen auf eine erleichterte Aufnahme in Tumorzellen von Antikörper- und PEG-modifizierten HSA-Nanopartikeln in vitro hin. / The main goal of this PhD thesis is the photophysical investigation of biodegradable photosensitizer-nanoparticle carrier systems achieving passive and active tumour targeting strategies. For this purpose both steady state and time-resolved spectroscopic methods accompanied by data analysis were utilized. This work contains three main parts: First the photophysical properties of Pheo-HSA nanoparticles were compared to free pheophorbide a. Steady-state and time-resolved fluorescence experiments have already proved that the interaction between pheophorbide a and HSA nanoparticles is strong. This interaction leads to low singlet oxygen quantum yield (0.07) in D2O compared to free Pheo (0.52) in ethanol. But when incubated in Jurkat and HT-29 cell lines, Pheo-HSA nanoparticles have been proved to generate singlet oxygen inside cells. In the second part the well-known photosensitizers mTHPP and mTHPC were loaded to HSA- and PLGA- nanoparticles. It was found that the loading ratio determines the photophysical properties of both photosensitizer-loaded HSA and PLGA nanoparticles. For HSA nanoparticles, photosensitizer-nanoparticle interaction is the preferential mechanism in low loading ratio sample. But in high loading ratio sample, photosensitizer-photosensitizer interaction becomes the determining interaction. This interaction prevents singlet oxygen generation from high loading sample. For PLGA nanoparticles, high drug loading ratio also leads to a strong singlet oxygen quenching. At high drug loading ratio PLGA nanoparticles, some photosensitizer molecules may be localized deeply inside PLGA matrices and far away from surface. In the third part of this work, active tumour targeting behaviour achieved by surface modification of HSA and PLGA nanoparticles has been tested. Intracellular singlet oxygen measurement reveals that HSA nanoparticles, both with antibody and PEG surface modification have an enhanced targeting of tumour cells in vitro.
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Estudo de um complexo trinuclear de rutênio como potencial liberador de óxido nítrico / Study of nitric oxide photorelease from a trinuclear ruthenium clusterCacita, Natacha 05 April 2013 (has links)
Resumo O presente trabalho teve como objetivo sintetizar e caracterizar um novo complexo trinuclear de rutênio, [Ru3O(CH3OO)6(3-pic)2(NO)]+, através de rotas sintéticas previamente descritas na literatura para complexos análogos. Para a obtenção deste complexo, foram necessárias cinco etapas de síntese, cada qual gerando o precursor da etapa seguinte. Os complexos precursores [Ru3O(CH3OO)6(3-pic)3]+, [Ru3O(CH3OO)6(3-pic)2(CO)] e [Ru3O(CH3OO)6(3-pic)2(H2O)]+, foram caracterizados por técnicas espectroscópicas e voltamétricas. Para o complexo de interesse, [Ru3O(CH3OO)6(3-pic)2(NO)]+, além da caracterização por técnicas espectroscópicas e voltamétricas, foram realizados estudos de fotólise e de interação com albumina de soro humano (HSA). Pelas técnicas espectroscópicas, pudemos ratificar as estruturas propostas tanto para o nitrosilo quanto para os precursores estudados. Para a caracterização do complexo [Ru3O(CH3OO)6(3-pic)2(NO)]+, utilizando a técnica de espectroscopia de infravermelho verificamos a coordenação do ligante NO ao centro metálico [Ru3O], devido ao estiramento característico deste ligante. Os espectros de absorção UV-vis e RMN mostraram que existe uma forte interação entre o elétron desemparelhado do centro metálico e o elétron do ligante NO. Pelos estudos de voltametria cíclica, observamos que os processos redox envolvendo o ligante NO, são compartilhados com o centro metálico. A fotólise do complexo [Ru3O(CH3OO)6(3-pic)2(NO)]+, mostrou-se eficiente, uma vez que a liberação fotoinduzida do NO ocorreu na região do visível e em pH fisiológico. Pelos estudos de supressão de fluorescência, observamos que o complexo realmente interage com a HSA na proporção de 1:1, na região em que se encontra o resíduo de triptofano. / The aim of the present study was synthesize and characterize a new trinuclear ruthenium complex, [Ru3O(CH3OO)6(3-pic)2(NO)]+, via synthetic routes previously described in the literature for analogous complexes. To obtain this complex, it took five synthetic steps, each one yielding a precursor for the next step. The precursor complexes [Ru3O(CH3OO)6(3-pic)3]+, [Ru3O(CH3OO)6(3-pic)2(CO)] and [Ru3O(CH3OO)6(3-pic)2(H2O)]+, were characterized by spectroscopic and voltammetric techniques. For the complex of interest, [Ru3O(CH3OO)6(3-pic)2(NO)]+, in addition to characterization by spectroscopic and voltammetric studies, it was carried out photolysis and interaction with human serum albumin. By spectroscopic techniques, we could confirm the proposed structures for both the nitrosyl and precursors. For characterization of the complex [Ru3O(CH3OO)6(3-pic)2(NO)]+, infrared spectroscopy allowed us to verify that the ligand coordination to the metal center [Ru3O], due to the characteristic stretching band of that ligand. The absorption spectra of UV-vis and NMR showed that there is a strong interaction between the unpaired electron of the metal center and the NO ligand. By cyclic voltammetry studies, we observed that the redox processes involving the NO ligand are shared with the metal center processes. The photolysis of the complex [Ru3O (CH3OO) 6 (3-pic) 2 (NO)] +, was efficient, since the photoinduced release of NO occurred in the visible region and at physiological pH. By fluorescence quenching studies, we observed that the complex actually interacts with the HSA in a 1:1 ratio, in the region which is the residue of tryptophan.
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Estudo de um complexo trinuclear de rutênio como potencial liberador de óxido nítrico / Study of nitric oxide photorelease from a trinuclear ruthenium clusterNatacha Cacita 05 April 2013 (has links)
Resumo O presente trabalho teve como objetivo sintetizar e caracterizar um novo complexo trinuclear de rutênio, [Ru3O(CH3OO)6(3-pic)2(NO)]+, através de rotas sintéticas previamente descritas na literatura para complexos análogos. Para a obtenção deste complexo, foram necessárias cinco etapas de síntese, cada qual gerando o precursor da etapa seguinte. Os complexos precursores [Ru3O(CH3OO)6(3-pic)3]+, [Ru3O(CH3OO)6(3-pic)2(CO)] e [Ru3O(CH3OO)6(3-pic)2(H2O)]+, foram caracterizados por técnicas espectroscópicas e voltamétricas. Para o complexo de interesse, [Ru3O(CH3OO)6(3-pic)2(NO)]+, além da caracterização por técnicas espectroscópicas e voltamétricas, foram realizados estudos de fotólise e de interação com albumina de soro humano (HSA). Pelas técnicas espectroscópicas, pudemos ratificar as estruturas propostas tanto para o nitrosilo quanto para os precursores estudados. Para a caracterização do complexo [Ru3O(CH3OO)6(3-pic)2(NO)]+, utilizando a técnica de espectroscopia de infravermelho verificamos a coordenação do ligante NO ao centro metálico [Ru3O], devido ao estiramento característico deste ligante. Os espectros de absorção UV-vis e RMN mostraram que existe uma forte interação entre o elétron desemparelhado do centro metálico e o elétron do ligante NO. Pelos estudos de voltametria cíclica, observamos que os processos redox envolvendo o ligante NO, são compartilhados com o centro metálico. A fotólise do complexo [Ru3O(CH3OO)6(3-pic)2(NO)]+, mostrou-se eficiente, uma vez que a liberação fotoinduzida do NO ocorreu na região do visível e em pH fisiológico. Pelos estudos de supressão de fluorescência, observamos que o complexo realmente interage com a HSA na proporção de 1:1, na região em que se encontra o resíduo de triptofano. / The aim of the present study was synthesize and characterize a new trinuclear ruthenium complex, [Ru3O(CH3OO)6(3-pic)2(NO)]+, via synthetic routes previously described in the literature for analogous complexes. To obtain this complex, it took five synthetic steps, each one yielding a precursor for the next step. The precursor complexes [Ru3O(CH3OO)6(3-pic)3]+, [Ru3O(CH3OO)6(3-pic)2(CO)] and [Ru3O(CH3OO)6(3-pic)2(H2O)]+, were characterized by spectroscopic and voltammetric techniques. For the complex of interest, [Ru3O(CH3OO)6(3-pic)2(NO)]+, in addition to characterization by spectroscopic and voltammetric studies, it was carried out photolysis and interaction with human serum albumin. By spectroscopic techniques, we could confirm the proposed structures for both the nitrosyl and precursors. For characterization of the complex [Ru3O(CH3OO)6(3-pic)2(NO)]+, infrared spectroscopy allowed us to verify that the ligand coordination to the metal center [Ru3O], due to the characteristic stretching band of that ligand. The absorption spectra of UV-vis and NMR showed that there is a strong interaction between the unpaired electron of the metal center and the NO ligand. By cyclic voltammetry studies, we observed that the redox processes involving the NO ligand are shared with the metal center processes. The photolysis of the complex [Ru3O (CH3OO) 6 (3-pic) 2 (NO)] +, was efficient, since the photoinduced release of NO occurred in the visible region and at physiological pH. By fluorescence quenching studies, we observed that the complex actually interacts with the HSA in a 1:1 ratio, in the region which is the residue of tryptophan.
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Producing A Peptide For Use In A Blood Biosensor For Injury DetectionPham, Errek Manh Trung 11 December 2020 (has links)
No description available.
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