Global ETD Search

231	The Synthesis of Dendrimer-based Radioimaging Agents Knight, Spencer D. 10 1900 (has links) <p>The synthesis of new macromolecular diagnostic imaging agents has been a growing field in polymeric chemistry research. Dendrimers provide a viable scaffold for such applications due to their unique, defined macromolecular architecture. The precise structural control afforded via the step-wise synthesis of dendrimers yields exceptional and precise macromolecules that can be functionalized to include necessary imaging moieties with the same degree of precision.</p> <p>We have herein contributed to this growing field by attempting the synthesis of a series of PEGylated poly(2,2-bis[hydroxymethyl]propanoic acid) PMPA dendrons using thiol-ene "click" chemistry. The series consisted of three dendritic architectures peripherally functionalized with poly(ethylene glycol) (PEG) chains of varying length (n= 3, 8, 16), with the goal of determining the effect of PEG chain length on blood circulation times. Synthesis of these conjugates began first with functionalization of the dendron periphery to incorporate alkene functionalities using anhydride-mediated esterification chemistry.</p> <p>The core of the alkene PMPA dendrons was then modified to introduce a metal chelating bis-pyridyl functionality, which has been observed to chelate the radionuclide technetium-99m (<sup>99m</sup>Tc) with high binding affinity. <sup>99m</sup>Tc is the most widely used diagnostic radioisotope in diagnostic medicine due to its ideal isotopic properties, widespread availability, low cost, and its ability to be traced, in real time, <em>in vivo</em> using Single Photon Emission Computed Tomography (SPECT).</p> <p>PEGylation at the periphery was performed by thiol-ene “click” chemistry using thiol-terminated PEG chains. Metallation of the core of each PEGylated dendron was then attempted according to literature procedures for <sup>99m</sup>Tc radiolabeling with the bis-pyridyl chelate.</p> / Master of Science (MSc) dendrimer radioimaging therapeutics epr effect drug delivery polymer chemistry Diagnosis Organic Chemistry Polymer Chemistry Radiochemistry Diagnosis
232	EPR and the 'Passage' of Time Weinert, Friedel 09 1900 (has links) Yes / The essay revisits the puzzle of the ‘passage’ of time in relation to EPR-type measurements and asks what philosophical consequences can be drawn from them. Some argue that the lack of invariance of temporal order in the measurement of a space-like related EPR pair, under relativistic motion, casts serious doubts on the ‘reality’ of the lapse of time. Others argue that certain features of quantum mechanics establish a tensed theory of time – understood here as Possibilism or the growing block universe. The paper analyzes the employment of frame-invariant entropic clocks in a relativistic setting and argues that tenselessness does not imply timelessness. But this conclusion does not support a tensed theory of time, which requires a preferred foliation. It is argued that the only reliable inference from the EPR example and the use of entropic clocks is an inference not just to a Leibnizian order of the succession of events but a frame-invariant order according to some selected clocks.
233	Advancements in Nuclear Magnetic Resonance, Electron Paramagnetic Resonance, Multipole Moments, and Lie Group Proprieties Liu, Zhichen 01 January 2024 (has links) (PDF) To accurately solve the general nuclear spin state function in Nuclear Magnetic Resonance (NMR), a rotation wave approach was employed, allowing the reference frame to rotate in sync with the oscillating magnetic field. The spin state system was analogously treated as a Rubik's Cube, ensuring the diagonalization of only the time-dependent part of the state function. Although Gottfried's equation (1966) aligns with transitions between specific spin states m and m′, his second rotation contradicts the conservation of angular momentum, resulting in inaccuracies for spin states with initial phase shifts or entangled states. Contrarily, Schwinger (1937) efficiently computed the coefficients for each spin state in a frequency range opposite to the Larmor frequency, using an unorthodox approach in quantum mechanics, which unfortunately led to the oversight of his work in subsequent citations. This methodology was also applied to derive the general electron spin state function in Nuclear Magnetic Resonance (NMR) and Electron Paramagnetic Resonance (EPR), enabling the construction of a doubly rotated ground state for time-dependent perturbation theory. This was particularly relevant as the Hamiltonians for magnetic dipole, electric quadrupole, and magnetic octupole moments incorporate powers of I · J terms, necessitating the calculation of sub-state energy levels for perturbation, including those of molecules 14N7 and 7Li3. Furthermore, the study expanded to the general Lie group for 3D rotations along three linearly independent axes, resulting in 12 distinct methods to achieve rotations in any arbitrary direction using these axes, yielding wave function with only one spin operator in each exponent. The ongoing research is now concentrated on generating NMR spectra for 14N7 in amino acids, furthering the understanding of nuclear spin dynamics in complex molecular systems. NMR EPR Magnetic Dipole Moment Electric Quadrupole Moment Multipole Moments Lie Group Physics
234	Estudo preliminar de RPE em banda K de esmalte dental e hidroxiapatita sintética irradiados / Preliminary Study of EPR in K-Band of Dental Enamel and Hydroxyapatite Synthetic Irradiated. Santos, Adevailton Bernardo dos 29 August 2002 (has links) A hidroxiapatita e o esmalte dental são, na atualidade, alguns dos materiais mais pesquisados pela técnica de espectroscopia por Ressonância Paramagnética Eletrônica ? RPE. O esmalte dental, que possui cerca de 97% de sua massa constituída por cristais de hidroxiapatita, se apresenta como o tecido humano preferencial para dosimetria de radiação com o uso desta técnica, principalmente no caso de exposições acidentais da população em geral. A análise de hidroxiapatitas sintéticas tem por finalidade auxiliar o entendimento do espectro do esmalte dental bem como desenvolver um dosímetro de radiação com boa eficiência e eficácia. O espectrômetro em banda-K utiliza uma freqüência intermediária aos espectrômetros em banda-X e em banda-Q, possuindo uma melhor resolução que banda-X sem as dificuldades, devido à alta sensibilidade, do banda-Q. O presente trabalho tem como objetivo analisar espectros em banda-K de um bloco de esmalte irradiado e de hidroxiapatitas sintéticas, comparando com espectros de banda-Q e banda-X presentes na literatura, e ainda verificar a possibilidade de se fazer dosimetria de radiação com o uso deste aparelho. / Hydroxyapatite and tooth enamel are, nowadays, some of materials mostly investigated by the spectroscopic technique of Electron Paramagnetic Resonance ? EPR. Tooth enamel, that have about of 97% of its mass constituted by hydroxyapatite crystals, appears itself as the preferential human tissue for radiation dosimetry using EPR, mainly in case of accidental expositions by ordinary personnel. The analyses of synthetic hydroxyapatites have as the main goal to help the understanding of tooth enamel?s spectrum seeking the developing of a radiation dosimeter with good efficiency and accuracy. The K-band EPR spectrometer uses an intermediate frequency between the spectrometers in X-band and Q-band, possessing a better resolution than the X-band without presenting the Q-band?s difficulties. In this preliminary work the EPR spectra of a small block tooth enamel and synthetic hydroxyapatites irradiated were analyzed in K-band, comparing the results with X- and Q-band with published results, the possibility of performing radiation dosimetry at K-band was verified. Banda-K Dosimetria Dosimetry Dosimetry Electron Paramagnetic Resonance (EPR) Electron Paramagnetic Resonance (EPR) Esmalte Dental Hidroxiapatita Hydroxyapatite Hydroxyapatite K-Band K-Band Tooth Enamel Tooth Enamel
235	Ressonância Paramagnética Eletrônica: teoria da medida. Relaxação eletrônica do hidrogênio atômico intersticial em CaF2 : evidência da difusão espectral. / Eletron Paramagnetic Resonance: theory of experiments. Electronic relaxation of the intersticial atomic hydrogen in CaF2: evidence of spectral diffusion Magon, Claudio Jose 10 August 1979 (has links) Na primeira parte deste trabalho, são discutidos alguns fatores que determinam a forma correta de operação de um espectro convencional de RPE. Um sistema específico, possuindo o circuito usual de \"ponte de microonda\", é analisado e as condições ideais para a realização da medida das duas componentes da susceptibilidade magnética complexa são determinadas. A seguir, mostra-mos os resultados encontrados para a relaxação eletrônica do hidrogênio atômico intersticial no CaF2. As medidas foram efetuadas utilizando técnicas de microonda pulsada, a 3 KGauss, para temperatura entre 1.6 e 4.2 0K. Os resultados experimentais foram interpretados, através dos dois processos seguintes: - difusão espectral entre spins pertencentes a uma mesma linha de absorção, e relaxação cruzada entre as diferentes componentes hiperfinas do espectro de absorção. A estes dois processos relacionamos tempos característicos da ordem de 10 ms a 60ms, respectivamente. / In the first part of this work some factors are discussed wich determine the correct way of operating of a convenctional EPR spectrometer. A specific system, having the usual \"microwave bridge\" circuit, is analysed and the complex conditions for the measurement of both components of the complex magnetic susceptibility are determined. We show results for the electronics relaxation of an interstitial atomic hydrogen in CaF2. Measurement were performed using the pulsed microwave technique at 3 kilogauss for temperatures between 1.6 and 4.2 0K.The experimental results were interpreted by means of two processes: - Spectral diffusion between spin states belonging to the same absorption line, and cross relaxation between different hyperfine components of the absorption spectrum. The characteristic times assigned to these processes are of the order or 10 ms and 60 ms respectively. Difusão spectral Electron Paramagnetic Resonande EPR Hidrogênio em CaF2 Hydrogen in CaF2 Relaxação do spin eletrônico Relaxation of the electronic spin Ressonância Paramagnética Eletrônica RPE Spectral Diffusion Teoria da medida da RPE Theory of experiments in EPR
236	Studies on the late rhodopsin activation steps Knierim, Bernhard 20 March 2008 (has links) Rhodopsin ist der Photorezeptor der Stäbchenzellen in der Retina von Vertebraten und wird als Prototyp für die gesamte Gruppe der GPCRs beforscht. Trifft ein Photon auf das Protein, so wird der über eine Schiffbase kovalent gebundene Chromophor von seiner 11-cis- in die All-trans-Konfiguration isomerisiert und setzt infolgedessen den Aktivierungsprozess in Gang. Dieser mündet in der aktiven Rezeptorkonformation, die das G-Protein Transducin aktivieren kann und dadurch eine Kaskade weiterer Aktivierungsschritten einleitet, die letztlich ein Nervensignal verursachen. Das Ziel dieser Arbeit war die Aufklärung der späten Aktivierungsschritte und ihrer Ursache-Wirkungs-Beziehungen. Zu diesem Zweck wurden Blitzlichtphotolyse, Elektronenspinresonanz (EPR) mit Spinlabeling (SDSL), UV/vis-Spektroskopie, FTIR-Spektroskopie und Fluoreszenzspektroskopie angewandt. Kinetische Messungen wurden unter identischen Bedingungen durchgeführt, um die Abfolge der mit den unterschiedlichen Techniken zugänglichen Aktivierungsschritte aufzuklären. Nach der Bildung des absorptionsspektroskopisch definierten Meta-II-Zustands bewegt sich die Helix TM6 in einem späteren Schritt als ganzes nach außen und markiert damit den Übergang von Meta-IIa zu Meta-IIb. Dadurch wird die bis dahin in der Membran verborgene D(E)RY-Region für das Umgebungsmedium zugänglich und nimmt ohne Zeitverzögerung ein Proton auf, wodurch der Meta-IIbH+-Zustand gebildet wird. Die verfügbaren Daten sprechen dafür, dass das D(E)RY-Motiv bei der Aktivierung des Transducins sowohl die Alpha- als auch die Gamma-Untereinheit desselben bindet. Die Bindung von zu Transducin-Abschnitten analogen Peptiden kann dann erfolgen, wenn die Helix TM6 im nach außen bewegten Zustand ist, und führt zur Abgabe von bis zu zwei Protonen vom aktivierten Rhodopsin. Sowohl das D(E)RY- und das NPxxY(x)5,6F-Motiv als auch die beiden Zustände Meta-IIb und Meta-IIbH+ könnten relevant für den sequenziellen Transducin-Aktivierungsmechanismus sein. / Rhodopsin is the photoreceptor in the rod cells of the vertebrate retina. It is considered as a prototype of the whole group of GPCRs. Upon absorption of a photon the chromophore, which is covalently bound through a Schiff base, is isomerized from its 11-cis into the all-trans configuration. This initiates the activation process and finally results in the active receptor conformation which is capable of activating the G protein transducin and thereby triggers a cascade of further activation steps which finally cause a nerve signal. The aim of this work was the clarification of the late activation steps and their cause-and-effect chain. For this purpose flash photolysis, electron paramagnetic resonance (EPR) with spin labeling (SDSL), UV/vis spectroscopy, FTIR spectroscopy and fluorescence spectroscopy were applied. Kinetic measurements were executed under identical conditions in order to elucidate the sequence of activation steps, which are accessible with the different techniques. After formation of the spectroscopically defined Meta-II state helix TM6 moves outward as a rigid body, thereby marking the transition from Meta-IIa to Meta-IIb. Therefore the D(E)RY region, which is until then buried in the membrane, gets accessible to the surrounding solution. It consequently takes up a proton without delay, thus forming the Meta-IIbH+ state. Available data argue for the D(E)RY motif binding both the Alpha and the Gamma subunit of transducin during activation of the latter. The binding of peptides which are analogous to sections of transducin is possible when helix TM6 is in the outward position. It causes the release of up to two protons from the activated rhodopsin. Both the D(E)RY motif and the NPxxY(x)5,6F motif as well as both the states Meta-IIb and Meta-IIbH+ are potentially relevant for the sequential transducin activation mechanism. GPCR Rhodopsin Biophysik Spektroskopie Protonierung D(E)RY-Motiv Blitzlichtphotolyse EPR-Spektroskopie Photorezeptor GPCR rhodopsin biophysics spectroscopy protonation D(E)RY motif flash photolysis EPR spectroscopy photoreceptor 570 Biowissenschaften, Biologie 32 Biologie YO 8100 WW 1780 ddc:570
237	Espécies polinucleares de cobre e ferro com catalisadores de oxidação e modelos de sítios ativos / Polynuclear species of copper and iron as oxidation catalysts and types of active sites Alves, Wendel Andrade 23 March 2005 (has links) Diferentes complexos de cobre(II), contendo ligantes do tipo base de Schiff e um grupamento imidazólico, com interesse bioinorgânico, catalítico e como novos materiais, foram preparados na forma de sais perclorato, nitrato ou cloreto e caracterizados através de diferentes técnicas espectroscópicas (UV/Vis, IR, EPR, Raman) e espectrometria de massa Tandem (ESI-MS/MS), além de análise elementar, condutividade molar e medidas de propriedades magnéticas. Alguns destes compostos, obtidos como cristais adequados, tiveram suas estruturas determinadas por cristalografia de raios-X. As espécies di- e polinucleares contendo pontes cloreto, mostraram desdobramentos das hiperfinas nos espectros de EPR, relacionados à presença do equilíbrio com a respectiva espécie mononuclear, devido à labilidade dos íons cloretos, dependendo do contra-íon e do tipo de solvente utilizado. Adicionalmente, em solução alcalina, estes compostos estão em equilíbrio com as correspondentes espécies polinucleares, onde os centros de cobre estão ligados através de um ligante imidazolato. Em meio alcalino, estes compostos polinucleares contendo ponte imidazolato foram também isolados e caracterizados por diferentes técnicas espectroscópicas e magnéticas. Através da variação estrutural e também do ligante-ponte foi possível modular o fenômeno da interação magnética entre os íons de cobre em estruturas correlatas di- e polinucleares. Os respectivos parâmetros magnéticos foram obtidos com ajuste das curvas experimentais de XM vs T, correlacionando-se muito bem com a geometria, ângulos e distâncias de ligação entre os íons, quando comparado com outros complexos similares descritos na literatura. Posteriormente, estudaram-se os fatores relacionados com a reatividade de todas essas espécies como catalisadores na oxidação de substratos de interesse (fenóis e aminas), através da variação do tamanho da cavidade nas estruturas cíclicas ou de variações no ligante coordenado ao redor do íon metálico. Vários deles se mostraram bons miméticos de tirosinases e catecol oxidases. Um novo complexo-modelo da citocromo c oxidase (CcO), utilizando a protoporfirina IX condensada ao quelato N,N,-bis[2-(1,2-metilbenzimidazolil)etil]amino e ao resíduo de glicil-L-histidina, foi sintetizado e caracterizado através de diferentes técnicas espectroscópicas, especialmente EPR. A adição de H2O2 ao sistema completamente oxidado, FeIII/CuII, a -55°C, ou o borbulhamento de oxigênio molecular a uma solução do complexo na sua forma reduzida, FeII/CuI, saturada de CO, resultou na formação de adutos com O2, de baixo spin, estáveis a baixas temperaturas. / Different Schiff base copper(II) complexes containing an imidazole ligand were prepared as perchlorate, nitrate and chloride salts, and characterized by different techniques (UV/Vis, IR, EPR, Raman) and tandem mass spectrometry (ESI-MS/MS), besides elemental analysis, conductivity measurements and magnetic properties. Some of these complexes, suitable crystals were isolated, allowing its structure to be determined by X-ray crystallography. Equilibria involving mono- and dinuclear species containing chloro-bridges were monitored in solution by EPR spectra, indicating a significant dependence on the solvent, and the counter-ion. In alkaline solution, deprotonation of the imidazole moiety promotes a self-assembled process, by coordination of the irnidazolate nitrogen atom to a copper(II) center of an adjacent unit, leading to the macrociclic or zig-zag-chain structures. These complexes were isolated and characterized by different spectroscopy techniques and magnetic susceptibility. The use of different bridging ligands and well-designed polydentate ligands afforded correlated structural features and exchange coupling constant in a series of di- e polinuclear copper(II) complexes. The magnetic parameters of these compounds were determined by temperaturedependent magnetic studies XM vs T, showing that the sign and the magnitude of the exchange coupling constant depends of the geometry, angle at the bridge, as well as on the bond length between paramagnetic ions, when compared with other complexes already described in the literature. The catalytic activity of the obtained complexes toward the usual biological oxidant, molecular oxygen, were then compared. Most of the di- and polynuclear compounds showed to be efficient catalysts of the aerobic oxidation of amines and o henolic substrates. Differinvg in some structural features, their tyrosinase-like catalytic activity was verified to be influenced by several factors, including steric hindrance of the ligands, cavity dimensions and accessibility of the oxidant to the catalytic center. A new biomimetic model system of the cytochrome c oxidase (CcO) derived from protohemin-IX and it contains a glycyl-L-histidine methyl ester arm axially binds the iron; the bis(benzimidazole) group acts as copper-coordinating site. has been prepared and characterized by different spectroscopic techniques, including EPR spectroscopy. The H2O2 addiction to the fully oxidised state of the system at -55ºC, or bubbling molecular oxygen into a CO-saturated solution of the reduced FeII/CuI state of the complex, resulted in a low spin oxygenated intermediate. Biochemistry inorganic Bioinorganic Bioinorgânica Bioquímica inorgânica Catalise Catalysis Compostos de cobre(II) Copper (II) compounds EPR EPR Espécies polinuclares Magnetic properties Polynuclear species Propriedades magneticas
238	Espécies polinucleares de cobre e ferro com catalisadores de oxidação e modelos de sítios ativos / Polynuclear species of copper and iron as oxidation catalysts and types of active sites Wendel Andrade Alves 23 March 2005 (has links) Diferentes complexos de cobre(II), contendo ligantes do tipo base de Schiff e um grupamento imidazólico, com interesse bioinorgânico, catalítico e como novos materiais, foram preparados na forma de sais perclorato, nitrato ou cloreto e caracterizados através de diferentes técnicas espectroscópicas (UV/Vis, IR, EPR, Raman) e espectrometria de massa Tandem (ESI-MS/MS), além de análise elementar, condutividade molar e medidas de propriedades magnéticas. Alguns destes compostos, obtidos como cristais adequados, tiveram suas estruturas determinadas por cristalografia de raios-X. As espécies di- e polinucleares contendo pontes cloreto, mostraram desdobramentos das hiperfinas nos espectros de EPR, relacionados à presença do equilíbrio com a respectiva espécie mononuclear, devido à labilidade dos íons cloretos, dependendo do contra-íon e do tipo de solvente utilizado. Adicionalmente, em solução alcalina, estes compostos estão em equilíbrio com as correspondentes espécies polinucleares, onde os centros de cobre estão ligados através de um ligante imidazolato. Em meio alcalino, estes compostos polinucleares contendo ponte imidazolato foram também isolados e caracterizados por diferentes técnicas espectroscópicas e magnéticas. Através da variação estrutural e também do ligante-ponte foi possível modular o fenômeno da interação magnética entre os íons de cobre em estruturas correlatas di- e polinucleares. Os respectivos parâmetros magnéticos foram obtidos com ajuste das curvas experimentais de XM vs T, correlacionando-se muito bem com a geometria, ângulos e distâncias de ligação entre os íons, quando comparado com outros complexos similares descritos na literatura. Posteriormente, estudaram-se os fatores relacionados com a reatividade de todas essas espécies como catalisadores na oxidação de substratos de interesse (fenóis e aminas), através da variação do tamanho da cavidade nas estruturas cíclicas ou de variações no ligante coordenado ao redor do íon metálico. Vários deles se mostraram bons miméticos de tirosinases e catecol oxidases. Um novo complexo-modelo da citocromo c oxidase (CcO), utilizando a protoporfirina IX condensada ao quelato N,N,-bis[2-(1,2-metilbenzimidazolil)etil]amino e ao resíduo de glicil-L-histidina, foi sintetizado e caracterizado através de diferentes técnicas espectroscópicas, especialmente EPR. A adição de H2O2 ao sistema completamente oxidado, FeIII/CuII, a -55°C, ou o borbulhamento de oxigênio molecular a uma solução do complexo na sua forma reduzida, FeII/CuI, saturada de CO, resultou na formação de adutos com O2, de baixo spin, estáveis a baixas temperaturas. / Different Schiff base copper(II) complexes containing an imidazole ligand were prepared as perchlorate, nitrate and chloride salts, and characterized by different techniques (UV/Vis, IR, EPR, Raman) and tandem mass spectrometry (ESI-MS/MS), besides elemental analysis, conductivity measurements and magnetic properties. Some of these complexes, suitable crystals were isolated, allowing its structure to be determined by X-ray crystallography. Equilibria involving mono- and dinuclear species containing chloro-bridges were monitored in solution by EPR spectra, indicating a significant dependence on the solvent, and the counter-ion. In alkaline solution, deprotonation of the imidazole moiety promotes a self-assembled process, by coordination of the irnidazolate nitrogen atom to a copper(II) center of an adjacent unit, leading to the macrociclic or zig-zag-chain structures. These complexes were isolated and characterized by different spectroscopy techniques and magnetic susceptibility. The use of different bridging ligands and well-designed polydentate ligands afforded correlated structural features and exchange coupling constant in a series of di- e polinuclear copper(II) complexes. The magnetic parameters of these compounds were determined by temperaturedependent magnetic studies XM vs T, showing that the sign and the magnitude of the exchange coupling constant depends of the geometry, angle at the bridge, as well as on the bond length between paramagnetic ions, when compared with other complexes already described in the literature. The catalytic activity of the obtained complexes toward the usual biological oxidant, molecular oxygen, were then compared. Most of the di- and polynuclear compounds showed to be efficient catalysts of the aerobic oxidation of amines and o henolic substrates. Differinvg in some structural features, their tyrosinase-like catalytic activity was verified to be influenced by several factors, including steric hindrance of the ligands, cavity dimensions and accessibility of the oxidant to the catalytic center. A new biomimetic model system of the cytochrome c oxidase (CcO) derived from protohemin-IX and it contains a glycyl-L-histidine methyl ester arm axially binds the iron; the bis(benzimidazole) group acts as copper-coordinating site. has been prepared and characterized by different spectroscopic techniques, including EPR spectroscopy. The H2O2 addiction to the fully oxidised state of the system at -55ºC, or bubbling molecular oxygen into a CO-saturated solution of the reduced FeII/CuI state of the complex, resulted in a low spin oxygenated intermediate. Bioinorgânica Bioquímica inorgânica Catalise Compostos de cobre(II) EPR Espécies polinuclares Propriedades magneticas Biochemistry inorganic Bioinorganic Catalysis Copper (II) compounds EPR Magnetic properties Polynuclear species
239	Zur Substratspezifität und Substratbindung des periplasmatischen Chaperons SurA aus <i>Escherichia coli</i> / Substrate specficity and substrate binding of the periplasmic chaperone SurA from <i>Escherichia coli</i> Hennecke, Gerrit 01 November 2005 (has links) No description available. 570 Biowissenschaften, Biologie Mathematics and Computer Science Chaperon SurA <i>E. coli</i> Peptid-Bibliothek Porine Periplasma SPR EPR chaperone SurA <i>E. coli</i> peptid library porins periplasm SPR EPR 42 W
240	Développement de stratégies de biofonctionnalisation de surface de nano-objets pour des applications biologiques / Development of nano-objects surface biofunctionalization strategies for biological applications Adumeau, Laurent 09 December 2015 (has links) Cette étude porte sur le développement de nanoparticules pour différentes applicationsbiologiques. Trois systèmes de nanoparticules ont été mis au point : des clusters de nanoparticulesmagnétiques pour l’extraction par magnétophorèse d’objets biologiques, des agents de contrastemultimodaux (IRM, fluorescence dans le proche infrarouge) pour le diagnostic de l’athérosclérose etdes nanoparticules de silice fluorescentes doublement marquées pour la détection de tumeurs in vivo.Au cours de cette étude, une stratégie de greffage de surface de silice par des macromolécules depoly(oxyde d’éthylène) (PEG) permettant d’atteindre de hautes densités de greffage. Cette PEGylationpermet, d’annuler les interactions non spécifiques dans le cadre de l’extraction magnétique rendantainsi ce système plus efficace, et de conférer aux nanoparticules des propriétés de furtivité vis-à-vis dusystème immunitaire dans le cadre du marquage de tumeurs. Le contrôle du nombre de biomoléculesgreffées régiosélectivement sur les nanoparticules (Annexine A5, ou fragments d’anticorps) ainsi quel’étude des interactions biomoléculaires par des techniques de biophysique (SPR, QCM-D) ont permisd’optimiser la propriété de reconnaissance des nano-objets pour leurs cible respective. Enfin, les nanoobjetsont été évalués dans le cadre de leur application. / The aim of this study was the design of nanoparticles for three different biologicalapplications: magnetic nanoparticles cluster for magnetic extraction of biological materials,multimodal contrast agents (MRI and near infrared fluorescence imaging) for atherosclerosisdiagnosis, and fluorescent silica nanoparticles with two different dyes for in vitro and in vivo tumorlabeling. One part of the project dealt with the developement of a new grafting method ofpoly(ethylene oxide) macromolecules onto nanoparticle’s silica surfaces (PEGylation) in order toobtain a high grafting densities. The obtained results have shown that this PEGylation reduces the nonspecificprotein adsorption allowing a better extraction and sorting efficiency, and also permitsnanoparticles to escape the surveillance of the immune system for in vivo tumor labeling. Therefore,the biomolecular recognition of the nanoparticles has been optimized by controlling the number ofconjugated biomolecules and by studying this biomolecular recognition using biophysical methods(SPR, QCM-D). Finally, the different nano-objects were evaluated in the context of their respectiveapplication. Nanoparticules magnétiques Silice colloïdale Sol-gel Fonctionnalisation de surface PEGylation Bioconjugaison Extraction magnétique Imagerie in vivo Effet EPR Athérosclérose Magnetic nanoparticle Colloidal silica Sol-gel process Surface functionalization PEGylation Bioconjugation Magnetic extraction In vivo imaging EPR effect Atherosclerosis 620.5

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