Global ETD Search

11	The electronic structure of the Tyr-Cys· free radical in galactose oxidase determined by EPR spectroscopy Lee, Yuk Ki 09 1900 (has links) (PDF) M.S. / Biochemistry / The EPR spectrum of the Tyr-Cys· free radical in oxidized apoGAOX has been investigated, using a combination of approaches. Power saturation analysis has been used to resolve two unique spectra through Evolving Factor Analysis (EFA) global fitting, indicating the presence of two distinct free radical species in the sample. The component that dominates at low microwave power arises from the Tyr-Cys· side chain, while the high power component has not yet been assigned. The experimental results show that the EPR spectrum collected at low power includes approximately 7% of the high power component. EPR spectra have been collected for ten different isotope derivatives of GAOX, including ²H-labeled, ¹³C-labeled, 17[superscript]O-labeled, and ³³S-labeled forms. XSophe simulation of the EPR spectra has been performed for the isotopically labeled samples in order to determine the spectroscopic parameters - g-values, hyperfine coupling constants, and linewidths. The g-values and the methylene proton hyperfine coupling constants obtained for the isotopically labeled samples are consistent with the literature values. The magnitude of the hyperfine coupling constants associated with each of the nuclei confirms that significant electron spin density is found on the methylene protons, the alternating carbon atoms within the aromatic π system and the 2p[subscript]z orbital of both sulfur and oxygen. Moreover, the rotation angle of the methylene protons to the phenoxyl ring around the C1-C7 bond has been evaluated based on the experimentally defined hyperfine coupling constants of the two methylene protons.
12	Metal dependent structure, dynamics, and function in RNA measured by site-directed spin labeling and EPR spectroscopy Kim, Nak-Kyoon 25 April 2007 (has links) The structure and function of RNA molecules are dependent on RNA-metal ion interactions in both diffusive and direct ways. Structural information for RNA has been obtained using various biophysical and biochemical methods. In this study, using site-directed spin labeling (SDSL) and EPR spectroscopy, distances in RNA duplexes, TAR RNA, and the hammerhead ribozyme have been measured to investigate RNA structures. Kinetic measurements have been performed in the extended hammerhead ribozyme to correlate the catalytic function with metal dependent ribozyme folding. As a basic model system for distance measurements, inter-spin distances in RNA duplexes with spin labels at various positions are measured using SDSL with continuous EPR and a Fourier deconvolution method. Divalent metal-ion dependent TAR RNA folding from bent to extended conformers is monitored by measuring inter-spin distances near the bulge region. In order to investigate a proposed loop-loop interaction in the extended hammerhead ribozyme which significantly enhances the ribozyme activity, distance measurements, dynamics studies, and kinetics measurements have been performed. We have introduced PELDOR long-distance measurements in order to investigate metal dependent folding of the hammerhead ribozyme. The dynamics of the spin labels attached to the hammerhead ribozyme with increasing mono- and divalent metal ion concentrations are monitored using CW EPR spectroscopy at room temperature. EPR data show that a loop-loop interaction occurs near the U1.6 nucleotide, and that in 0.1 M NaCl the docking occurs at submillimolar Mg2+ concentrations ([Mg2+]1/2, docking = ~ 0.7 mM). Kinetics measurements show that the hammerhead ribozyme requires high concentration of Mg2+ for the maximum cleavage activity ([Mg2+]1/2, cleavage = ~ 90 mM). Ribozyme Nucleic acid Spin labeling EPR spectroscopy Distance measurement Dynamics Kinetics
13	Probing Iron Accumulation in Sacchromyces cerevisiae Using Integrative Biophysical and Biochemical Techniques Miao, Ren 2010 December 1900 (has links) Iron is an essential element for life. It is involved in a number of biological processes, including iron sulfur (Fe/S) cluster assembly and heme biosynthesis. However it is also potentially toxic due to its ability to induce formation of reactive oxygen species (ROS) via Fenton chemistry. Therefore its uptake, trafficking and utilization must be regulated to avoid its toxicological effect. It has been recently discovered that Fe/S cluster biosynthesis machinery plays a key role in the cellular iron regulation and its disruption leads to impaired iron regulation and iron accumulation within mitochondria. The iron accumulation resulted from impaired Fe/S cluster assembly in the eukaryotic model organism Saccharomyces cerevisiae (baker’s yeast) was studied. Various biophysical (e.g. Mössbauer, EPR, UV-vis spectroscopy) and biochemical (e.g. Western blots, PCR, enzyme activity assay, etc.) techniques were used to characterize the iron content in yeast mitochondria isolated from several mutants strains. In these mutants one of the proteins involved in Fe/S cluster biosynthesis (Yah1p and Atm1p) is mutated and iron regulation and metabolism are disrupted. By integrating the results obtained from these different methods, it was determined that excess iron accumulates in the mutant mitochondria as inorganic phosphate Fe(III) nano-particles exhibiting superparamagnetic behaviors. Oxygen is required for iron accumulation and nanoparticle formation. The Fe(III) nano-particles can be chemically reduced to Fe(II) then largely exported from the mitochondria. These biophysical and biochemical methods were also used to examine the iron distribution in whole yeast cells of the Aft1-1up strain in which iron regulon genes are constitutively activated and compared to that of Yah1p-depleted and wild type yeast. Constitutive activation of iron regulon genes does not alter the cellular iron distribution significantly. However disruption of Fe/S cluster assembly by Yah1p depletion causes dramatic cellular iron redistribution: the vacuolar iron is largely evacuated and most of the cellular iron probably precipitates in mitochondria as Fe(III) nanoparticles. The results provide novel insights into iron trafficking and possible signal communications between organelles within cells. Biological iron Mossbauer spectroscopy EPR spectroscopy Electron microscopy XAS spectroscopy UV-vis spectroscopy Nanoparticles
14	Metal dependent structure, dynamics, and function in RNA measured by site-directed spin labeling and EPR spectroscopy Kim, Nak-Kyoon 25 April 2007 (has links) The structure and function of RNA molecules are dependent on RNA-metal ion interactions in both diffusive and direct ways. Structural information for RNA has been obtained using various biophysical and biochemical methods. In this study, using site-directed spin labeling (SDSL) and EPR spectroscopy, distances in RNA duplexes, TAR RNA, and the hammerhead ribozyme have been measured to investigate RNA structures. Kinetic measurements have been performed in the extended hammerhead ribozyme to correlate the catalytic function with metal dependent ribozyme folding. As a basic model system for distance measurements, inter-spin distances in RNA duplexes with spin labels at various positions are measured using SDSL with continuous EPR and a Fourier deconvolution method. Divalent metal-ion dependent TAR RNA folding from bent to extended conformers is monitored by measuring inter-spin distances near the bulge region. In order to investigate a proposed loop-loop interaction in the extended hammerhead ribozyme which significantly enhances the ribozyme activity, distance measurements, dynamics studies, and kinetics measurements have been performed. We have introduced PELDOR long-distance measurements in order to investigate metal dependent folding of the hammerhead ribozyme. The dynamics of the spin labels attached to the hammerhead ribozyme with increasing mono- and divalent metal ion concentrations are monitored using CW EPR spectroscopy at room temperature. EPR data show that a loop-loop interaction occurs near the U1.6 nucleotide, and that in 0.1 M NaCl the docking occurs at submillimolar Mg2+ concentrations ([Mg2+]1/2, docking = ~ 0.7 mM). Kinetics measurements show that the hammerhead ribozyme requires high concentration of Mg2+ for the maximum cleavage activity ([Mg2+]1/2, cleavage = ~ 90 mM). Ribozyme Nucleic acid Spin labeling EPR spectroscopy Distance measurement Dynamics Kinetics
15	Estudo da diagênese óssea e experimento de datação direta dos sepultamentos do Sítio Arqueológico Pedra do Alexandre – RN SANTOS, André Luiz Campelo Dos 25 February 2016 (has links) Submitted by Irene Nascimento (irene.kessia@ufpe.br) on 2016-07-18T17:02:33Z No. of bitstreams: 2 license_rdf: 1232 bytes, checksum: 66e71c371cc565284e70f40736c94386 (MD5) dissALCS.pdf: 4351696 bytes, checksum: d3ab158b6c41f3904ec4d1ac454232f2 (MD5) / Made available in DSpace on 2016-07-18T17:02:33Z (GMT). No. of bitstreams: 2 license_rdf: 1232 bytes, checksum: 66e71c371cc565284e70f40736c94386 (MD5) dissALCS.pdf: 4351696 bytes, checksum: d3ab158b6c41f3904ec4d1ac454232f2 (MD5) Previous issue date: 2016-02-25 / Intervenções realizadas no Sítio Arqueológico Pedra do Alexandre resultaram na exumação de vestígios ósseos pertencentes a pelo menos 36 indivíduos humanos. Datações radiocarbônicas de carvões vegetais associados forneceram dados para o estabelecimento de uma cronologia de ocupação do sítio entre 9400 e 2620 anos antes do presente, ainda que possivelmente não contínua. No entanto, tentativas de se datar diretamente os indivíduos mostraram-se infrutíferas devido às perdas de colágeno provocadas por processos diagenéticos. A partir desta constatação deu-se início à investigação para saber o que ocasionou tais processos ao mesmo tempo em que foi experimentada a datação direta de um dos indivíduos mediante emprego da espectroscopia de RPE. Com a realização de espectroscopias no infravermelho e difrações de raio-x em amostras ósseas dos indivíduos foi possível constatar que todas apresentavam extensa perda de colágeno. Medições do pH de sedimentos associados levaram a concluir que o principal causador destas perdas teria sido uma intensa atividade microbiana no sedimento e não a ocorrência de hidrólises ácidas, como era pensado inicialmente. O experimento de datação foi realizado com dificuldade devido à pequena dose de radiação na amostra, o que indicaria a pouca idade da mesma, provavelmente posicionada na metade mais recente do intervalo cronológico já estabelecido para a ocupação do Sítio. A partir destas análises amostrais é possível concluir que todo o conjunto de vestígios ósseos do referido sítio deve ter sido diageneticamente alterado. A espectroscopia de RPE por sua vez mostra-se capaz de datar plenamente dentes provenientes dos indivíduos exumados / Archaeological interventions conducted in the Pedra do Alexandre Archaeological Site resulted in the exhumation of skeletal remains of at least 36 human individuals. Radiocarbon dating of associated charcoals provided data for the establishment of a site occupation chronology between 9400 and 2620 years before present, although possibly not continuous. However, attempts to direct date the individuals proved fruitless due to the loss of collagen caused by diagenetic processes. From that finding, this research was initiated to know what caused these processes at the same time that was tried the direct dating of one individual using EPR spectroscopy. Infrared spectroscopy and x-ray diffraction conducted on bone samples from the individual made it possible to calculate determined diagenetic indices that showed extensive loss of collagen in all the samples. pH measurements in associated sediments indicated the conclusion that the main cause of these losses would have been an intense microbial activity in these sediments, and not the acidic hydrolysis as initially thought. The dating experiment was carried out with difficulty due to the small dose of radiation in the sample, which would indicate the recent age of the tooth, probably posiotioned in the most recent half of the chronological range already established for the occupation of the site. From these sample analysis we conclude that the entire set of skeletal remains of the said site must have been diagenetically altered. The EPR spectroscopy in turn proves to be able to fully date teeth from the exhumed individuals.
16	Radical Polymerization Kinetics of Non-Ionized and Fully-Ionized Monomers Studied by Pulsed-Laser EPR Kattner, Hendrik 06 June 2016 (has links) No description available. 540 Radical Polymerization Polymerization Kinetics EPR Spectroscopy Conventional Polymerization Chemie (PPN62138352X)
17	Structure et dynamique fonctionnelle de l'ACC oxydase étudiées par marquage de spin suivi par la spectroscopie RPE / Exploring functional dynamics of ACC oxidase by site-directed spin labeling coupled to EPR spectroscopy Fournier, Eugénie 15 November 2018 (has links) L’ACC Oxydase est une enzyme à Fe(II) non-hémique impliquée dans la biosynthèse de l’éthylène chez les plantes. Notre compréhension du mécanisme ainsi le rôle des différents cofacteurs nécessite l’obtention des données structurales. Une structure cristallographique a été publiée montrant la partie C-terminale (C-term) éloignée du site actif. Ce n’est pas la conformation active car la partie C-term est essentielle à l’activité. Un modèle structural a été construit dans lequel la partie C-term est tournée vers le site actif. Différentes conformations semblent donc possibles. Le marquage de spin couplé à la spectroscopie RPE est une technique puissante pour sonder la dynamique structurale des protéines. Elle implique la liaison de nitroxydes sur des cystéines. Il est possible d’analyser la mobilité des sondes pour obtenir des informations sur leur environnement local. Par l’utilisation de techniques de RPE avancées, des mesures de distances entre deux sondes sont possibles. Des mutants portant une ou deux cystéines ont été conçus. La dynamique des mutants marqués a été étudiée in vitro par RPE. Par RPE impulsionnelle, des distances ont été mesurées pour l’ACCO en présence de différentes combinaisons de cofacteurs. Les distances expérimentales ont été comparées à celles prédites à partir des structures cristallographiques et du modèle structural et aussi à celles obtenues par des calculs de dynamique moléculaire. Pour cibler d’autres positions sur l’ACCO, l’introduction d’un acide aminé non naturel a été réalisée avec succès permettant d’obtenir de premières données structurales. Des données structurales préliminaires par RPE in cell sont également présentées / ACC Oxidase is a nonheme iron(II) containing enzyme involved in the biosynthesis of ethylene in plants. ACCO reaction mechanism and the role of the various cofactors are not well understood and structural and dynamic data are still required. A crystallographic structure has been reported showing the C-terminal part (C-term) away from the active site. This is not the active conformation as it has been shown that the C-term is essential. Later, a structural model has been proposed in which the C-term is folded towards the active site. Different conformations can be hypothesized. A technique well suited to monitor protein dynamics is site-directed spin labeling followed by EPR spectroscopy. It relies on the insertion of a nitroxide derivative on cysteines. Using this approach, it is possible to analyze the mobility of the label in order to obtain information on its local environment. Moreover using advanced EPR techniques, it is possible to acquire interspin distances between two incorporated probes. Mutants bearing one or two cysteines at desirable positions were designed. The dynamics of labeled mutants were studied in vitro using continuous wave EPR. By pulsed EPR, distances were recorded for ACCO in presence of different combinations of cofactors. The experimental distances were compared to the predicted ones obtained from the crystallographic and model structures, and also to the calculated ones obtained by molecular dynamic simulations. A successful introduction of an unnatural amino acid onto the sequence of ACCO was performed, allowing to obtain earliest results. The achievement of preliminary structural data by in cell EPR are also presented Enzyme à fer non-hémique Nitroxyde Spectroscopie RPE ACC Oxydase Nonheme iron enzyme Nitroxide EPR spectroscopy ACC Oxidase
18	Nouvelles approches pour le marquage de spin suivi par spectroscopie de résonance paramagnétique électronique : application à l'étude de la dynamique des protéines / New approaches by Site-Directed Spin Labeling combined with Electronic Paramagnetic Resonance spectroscopy : application to the study of structural transitions in proteins Le Breton, Nolwenn 19 November 2014 (has links) Cette thèse porte sur le développement de nouvelles approches par marquage de spin suivi par spectroscopie RPE. Cette technique est bien adaptée pour suivre la dynamique structurale des protéines. Son principe repose sur l'insertion d'un radical nitroxyde, en un (ou plusieurs) site(s) choisi(s) d'une protéine et permet de sonder localement la structure de la protéine étudiée grâce aux différentes techniques de RPE (en onde continue et impulsionnelle).Dans une première partie, cette technique a été appliquée à la caractérisation de la dynamique structurale de l'IF1 de levure, un peptide inhibiteur de l'ATP-synthase. L'utilisation des spectroscopies de RPE et de dichroïsme circulaire a permis de montrer qu'IF1 de levure dimérise par sa partie médiane et que la partie C-terminale est désordonnée.La seconde partie est plus méthodologique et a pour but d'étudier et de caractériser un marqueur nouvellement synthétisé afin d'élargir les potentialités du marquage de spin. En effet, cette technique est notamment limitée par la faible diversité spectrale offerte par les sondes disponibles (trois raies). Le nouveau marqueur donne un spectre RPE à six raies grâce à la présence d'un noyau magnétique dans l'environnement du radical. Greffé sur une protéine modèle, nous avons montré que ce nouveau marqueur est tout autant capable de rendre compte de variations structurales qu'un marqueur classique. La superposition des signatures spectrales (trois raies + six raies) montre qu'il est possible de différencier les deux signatures spectrales et de sonder simultanément deux sites d'une protéine et de son partenaire. / This thesis focuses on the development of new approaches for site-directed spin labeling followed by EPR spectroscopy. This technique is well suited to monitor the structural dynamics of proteins. The insertion of a nitroxide radical, in one (or several) selected site(s) of a protein, allows probing the structure of the protein using different EPR spectroscopy approaches (continuous wave and pulsed).In a first part, this technique has been applied to characterize the structural dynamics of the yeast IF1, an inhibitory peptide of the ATP-synthase. Using EPR and circular dichroïsm spectroscopies we showed that yeast IF1 dimerizes by its central part and that the C-terminal part remains disordered.The second part is more methodological and the aim is to study and characterize a newly synthesized spin label in order to expand the potential of site-directed spin labeling. In particular, the technique is limited by the poor spectral diversity offered by the available labels (three lines). The new label gives a six lines EPR spectrum thanks to the presence of a magnetic nucleus in the environment of the radical. Grafted on a model protein, we demonstrated that this new label is as able as classical ones to report on structural variations. The superposition of the spectral signatures (three lines + six lines) showed that it is possible to differentiate the two spectral signatures and to probe two sites of a protein and its partner simultaneously. Spectroscopie RPE Marquage de spin Repliement des protéines Radicaux nitroxydes Dynamique des protéines EPR spectroscopy Spin labeling Proteins folding Nitroxides Proteins dynamic
19	EPR studium radikálových reakcí, iniciovaných rozpadem vybraných typů peroxidických sloučenin / EPR study of radical reactions initiated by the decomposition of selected types of peroxy compounds Krkošková, Petra January 2010 (has links) The products of the decomposition of selected types of peroxo compounds in the presence of redox agents (Pb and Co compounds) were investigated by EPR method. Besides some commercial peroxides the study was performed with peroxo compounds of Luperoxide group (Luperox 101, Luperox 256, Luperox 531). For the detection of the decomposition products the technique of spin-trapping using nitrosobenzene was applied. EPR spectra of radical adducts formed by the reaction of the reactive oxygenous radicals with nitrosobenzen having the character of stable nitroxyl radicals were analyzed. Their EPR parameters were obtained by simulation method. Besides the addition to nitrosobenzene the generated oxygen centered radicals were proved also on the basis of their reaction with model compounds (Santonox R; 2,6–ditercbutyl–4–methylphenol; diphenylamine).
20	Conformational Changes Of Vinculin Tail Upon F-Actin And Phospholipid Binding Studied By EPR Spectroscopy Abé, Christoph 29 June 2010 (has links) The cytoskeletal protein vinculin plays a key role in the control of cell-cell or cell-matrix adhesions. It is involved in the assembly and disassembly of focal adhesions and affects their mechanical stability. While many facts highlight the importance and significance of vinculin for vital processes, its precise role in the regulation of cell adhesions is still only partially understood. Various EPR methods are used in this work in order to study the vinculin tail (Vt) domain in an aqueous buffer solution and its structural changes induced by F-actin and acidic phospholipids. EPR results in combination with a rotamer library approach (RLA), MD simulation and other computational methods allowed the construction of molecular models of Vt and dimeric Vt in the presence and absence of its binding partners. Furthermore, X-band orientation selective DEER measurements were applied on a Vt double mutant. It could be shown that the determination of the mutual orientation of protein bound spin labels is possible at X-band frequencies, if the orientation correlation of the spin label pair is strong. The method established here can be used to determine valuable information about proteins and nucleic acids, expanding the virtue of DEER spectroscopy as a tool for structure determination. ddc:530

Search results