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241	Transmission Electron Microscopy for Characterization of Structures, Interfaces and Magnetic Moments in Magnetic Thin Films and Multilayers Lidbaum, Hans January 2009 (has links) Structural characterization is essential for the understanding of the magnetic properties of thin films and multilayers. In this thesis, both crystalline and amorphous thin films and multilayers were analyzed utilizing transmission electron microscopy (TEM). High resolution TEM and electron diffraction studies emphasize on the growth of amorphous Fe91Zr9 and Co68Fe24Zr8 on both Al2O3 and Al70Zr30 in multilayer structures by magnetron sputtering. The properties of the growth surfaces were found to strongly influence the formation of nano-crystallites of the magnetic material at interfaces. Field induced uniaxial magnetic anisotropy was found to be possible to imprint into both fully amorphous and partially crystallized Co68Fe24Zr8 layers, yielding similar magnetic characteristics regardless of the structure. These findings are important for the understanding of both growth and magnetic properties of these amorphous thin films. As magnetic systems become smaller, new analysis techniques need to be developed. One such important step was the realization of electron energy-loss magnetic circular dichroism (EMCD) in the TEM, where information about the ratio of the orbital to spin magnetic moment (mL/mS) of a sample can be obtained. EMCD makes use of angular dependent inelastic scattering, which is characterized using electron energy-loss spectroscopy. The work of this thesis contributes to the development of EMCD by performing quantitative measurements of the mL/mS ratio. Especially, methods for obtaining energy filtered diffraction patterns in the TEM together with analysis tools of the data were developed. It was found that plural inelastic scattering events modify the determination of the mL/mS ratio, wherefore a procedure to compensate for it was derived. Additionally, utilizing special settings of the electron gun it was shown that EMCD measurements becomes feasible on the nanometer level through real space maps of the EMCD signal. Transmission electron microscopy TEM magnetism multilayer superlattice thin films amorphous metals EMCD electron diffraction Magnetism Magnetism Surfaces and interfaces Ytor och mellanytor Physics Fysik
242	Optically Active Chiral Mediums Fabricated with Glancing Angle Deposition Yang, Jian 06 July 2012 (has links) Optically active helical microparticles are studied in the forms of thin films, suspensions and powders. From fabricated helical porous thin films, microparticle suspensions are obtained by removing the microparticles (film columns) from their substrates and dispersing them into water. For removing microparticles, four methods are explored and compared: sacrificial NaCl layer, gold (Au) layer, buffered oxide etching, and direct ultrasonic agitation. The primary film material studied in this work is amorphous silicon (Si). Physical morphology of the microparticles is examined with scanning electron microscopy (SEM). Methods employed to characterize optical activity of the microparticles include: polarimetry, spectrophotometry, and spectroscopic ellipsometry (SE). The produced chiral microparticles exhibit optical activity: optical rotation (OR) and circular dichroism (CD - in the form of differential circular transmission (DCT)). Significant findings include: (a) we observe the largest optical rotatory power ever reported in scientific literature, 11◦/μm at 610 nm wavelength for a Si film; (b) for the helical thin films, there is one dominant DCT band in the measured wavelength range; however for microparticle suspensions and powders, there exist two DCT bands: one broad band at long wavelengths, and one narrow band in the short wavelength range; compared to their thin film forms, microparticle suspensions and powders have inverted sign for the broad DCT band. A discrete dipole approximation (DDA) model is employed to calculate optical response (e.g. extinction, scattering, and absorption cross-sections) of the microparticles, so as to enable us to understand the effects of different structural parameters of the microparticles on their optical response. Calculation confirms that optical activity of chiral microparticles is due to coherent light scatterings with the chiral structures of the particles. The inversion in sign of the broad DCT bands of microparticle suspensions and powders is likely due to the averaging effect from random orientation of the helical microparticles, as is indicated both from experimental results and from calculation. / Thesis (Ph.D, Physics, Engineering Physics and Astronomy) -- Queen's University, 2012-07-06 09:59:20.751 glancing angle deposition bi-isotropic mediums discrete dipole approximation isotropic chiral mediums ellipsometry Mueller matrix optical activity circular dichroism inhomogeneity chiral microparticles optical rotation dispersion thin films
243	Calmodulin as a universal regulator of voltage gated calcium channels Taiakina, Valentina 22 May 2015 (has links) Calmodulin (CaM) is a ubiquitous calcium-binding protein responsible for the binding and activation of a vast number of enzymes and signaling pathways. It contains two lobes that bind two calcium ions each, separated by a flexible central linker. This structural flexibility allows CaM to bind and regulate a large number of diverse protein targets within the cell in response to Ca2+ gradients. Voltage gated calcium channels (CaVs), as main sources of extracellular Ca2+, are crucial for a number of physiological processes, from muscle contraction to neurotransmission and endocrine function. These large transmembrane proteins open in response to membrane depolarization and allow gated entry of Ca2+ ions into the cytoplasm. Their regulation is currently the subject of intense investigation due to its pharmacological and scientific importance. CaM has been previously shown to pre-associate and act as a potent inhibitor of one class of high-voltage activated (HVA) channels called L-type channels via its interaction with their C-terminal cytoplasmic region. This interaction is primarily mediated by a conserved CaM-binding motif called the ‘IQ’ motif (for conserved isoleucine and glutamine residues), although the exact molecular details of its involvement in inactivation are currently unclear. Elucidation of these details was the primary objective of this dissertation. Recently, a novel sequence motif within this channel called ‘NSCaTE’ (N-terminal spatial calcium transforming element) has been described as an important contributor to calcium-dependent inactivation (CDI) of L-type channels. It was presumed to be unique to vertebrates, but we also show its conservation in a distantly related L-type channel homolog of Lymnaea stagnalis (pond snail). The interaction of CaM with a number of peptides representing the different regulatory motifs (IQ and NSCaTE) for both mammalian and snail isoforms was characterized in an attempt to better understand their role in CDI. Biophysical work with peptides as well as electrophysiology recordings with an N-terminal truncation mutant of Lymnaea CaV1 homolog were performed to expand our understanding of how the interplay between these channel elements might occur. In brief, the most striking feature of the interaction concerns the strong evidence for a CaM-mediated bridge between the N- and C-terminal elements of L-type channels. Further investigation of the CaM interaction with both IQ and NSCaTE peptides using Ca2+-deficient CaM mutants reveals a preference of both peptides for the Ca2+-C-lobe of CaM, and a much higher affinity of CaM for the IQ peptide, suggesting that the N-lobe of CaM is the main interaction responsible for the physiological effects of NSCaTE. These results are consistent with our electrophysiology findings that reveal a distinct buffer-sensitive CDI in wild type LCaV1 that can be abolished by the N-terminal truncation spanning the NSCaTE region. In addition to L-type channels, CaM has also been shown to have an indirect role in the regulation of low-voltage activated (LVA) or T-type channels (CaV3.x), via their phosphorylation by CaM-dependent protein kinase II (CaMKII). Using a primary sequence scanning algorithm, a CaM-binding site was predicted in a cytoplasmic region of these channels that was also previously shown to be important in channel gating. Biophysical experiments with synthetic peptides spanning this gating brake region from the three human and the single Lymnaea isoform strongly suggest that there is a novel, bona fide CaM interaction in this channel region, and also hint that this interaction may be a Ca2+-dependent switch of some sort. The results confirm a possible new role for CaM in the direct regulation of these channels, although the exact mechanism remains to be elucidated. calmodulin calcium voltage gated calcium channels isothermal calorimetry calcium dependent inactivation electrophysiology Circular Dichroism (spectropolarimetry) Lymnaea stagnalis L-type channels protein interaction
244	A Structural Viewpoint of Magnetism in Fe and Co Based Superlattices Björck, Matts January 2007 (has links) In order to understand the properties of thin film devices, knowledge of the material's structure is essential. The work presented here combines magnetic and structural characterization of the systems studied to gain a deeper physical understanding. The magnetic properties have been studied with a combination of x-ray magnetic circular dichroism, SQUID magnetometry and magneto-optical Kerr effect. For the structural characterization, x-ray reflectivity and diffraction have been used, complemented by neutron diffraction and transmission electron microscopy. One structural property that affects the magnetic moment in metal-on-metal superlattices is interdiffusion between the layers. This is discussed for bcc Fe/Co(001) and bcc Fe81Ni19/Co(001) superlattices. The effect of interdiffusion was seen as a large region of enhanced magnetic moments as compared to theoretical calculations, which assume perfectly sharp interfaces. For the Fe81Ni19/Co(001) superlattices the chemical interface region, as revealed by neutron diffraction, was in good agreement with the region of magnetic enhancement. Another structural property that has been investigated is the strain in the magnetic layers. This does not affect the spin magnetic moment to a large extent. However the magnetocrystalline anisotropy and the orbital moment are affected by the presence of strain. The effects on the orbital moment from strain and interfaces for Fe in Fe/V superlattices was studied, and it was found that the two contributions were separable. In this context the effect of strain on the out-of-plane magnetocrystalline anisotropy in FeCo/Pt has also been studied. The latter system is interesting from a technological perspective since tetragonally distorted FeCo alloys have the potential to be suitable new materials in computer hard drives. Finally, a computer program, based on the Differential Evolution algorithm, to refine primarily x-ray reflectivity data, is presented. Physics Magnetism Multilayer Superlattice X-ray magnetic circular dichroism X-ray diffraction X-ray reflectivity Neutron diffraction Structural refinement Interfaces Fysik
245	Optimization of purification and characterisation of over-expressed rotavirus capsid protein VP6 Kgokolo, Samuel Maphalle 12 1900 (has links) Rotavirus is responsible for the death of many children annually, and current vaccines have lower efficiency in developing countries. A reverse translated consensus gene sequence of the rotavirus VP6 cloned into a pET-28a(+) plasmid was used to transform BL21 and KRX Escherichia coli cells. Optimal expression of soluble protein was induced in KRX cells by adding 0.05% L-rhamnose and 0.0001 M IPTG, with an incubation temperature of 25ºC for 6 h. VP6 was purified by combining anion exchange chromatography followed by affinity chromatography. Far-UV circular dichroism and intrinsic fluorescence were used as probes to assess the native structure of VP6 and structural in the presence of a denaturant, high sodium chloride concentrations and varying temperatures. The 0.2 M sodium chloride had an impact on the VP6’s tertiary structure and also influenced the proteins conformational changes as detected during thermal unfolding to 90ºC. Although treatment with 3 M urea showed tertiary structural changes no secondary structural loss occurred due to the presence of a denaturant. / Life Sciences / M. Sc. (Life Sciences) Chromatography Circular dichroism Escherichia coli Fluorescence Plasmid Protein conformation Protein expression Purification Rotavirus VP6 616.926 Rotavirus infections Molecular epidemiology Chromatographic analysis Gastritis -- Microbiology Escherichia coli infections
246	Charakterizace molekulárního složení genomu obaleče jablečného, \kur{Cydia pomonella}, s využitím reasociační kinetiky / Characterization of molecular composition of the codling moth (\kur{Cydia pomonella}) genome using reassociation kinetics BLAŽKOVÁ, Barbora January 2012 (has links) In this study, the reassociation kinetics of codling moth (Cydia pomonella) was performed in order to characterize the molecular composition of the codling moth (Cydia pomonella) genome and to isolate highly repetitive and unique DNA components. The effectivity of distinct repetitive DNA fractions as a specific competitor in fluerescence in situ hybridization was tested.
247	Photosensibilisation de l’ADN : modélisation des interactions entre la lumière et les systèmes moléculaires complexes / DNA photosensitization : modeling the interaction between light and complex molecular systems Gattuso, Hugo 06 July 2017 (has links) Le travail présenté dans ce manuscrit est basé sur l’utilisation de la modélisation moléculaire, de la simulation et de la chimie théorique pour l’étude de la photosensibilisation de l’ADN ; c’est à dire l’augmentation de la sensibilité de l’ADN vis-à-vis de la lumière au travers de l’action d’agents photosensibilisants. Premièrement, les voies photophysiques et photochimiques de plusieurs molécules connues telles que nile bleu, nile rouge, BMEMC ou une base modifiée endogène, Pyo, ont été étudiés dans le but de comprendre leurs mécanismes de photosensibilisation. Les phénomènes associés qui ont été mis en évidence sont des transferts d’électrons et d’énergie, la production d’électrons solvatés et l’activation à deux photons. De plus, deux outils pour l’étude des interactions entre les molécules et l’ADN ont été dévellopés; i) un protocole calculatoire capable de fournir l’énergie libre d’interaction de drogues dans leurs poches; ii) un outil basé sur l’hamiltonien semi-empirique de Frenkel qui permet de modéliser le spectre de dichroïsme circulaire électronique de biomacromolécules. Ensuite, les effets de photolésions sur la structure et la flexibilité de l’ADN ont été étudiés ; i.e. les dimères de pyrimidines, la pyrimidine(6-4)pyrimidone (6-4PP) et les clusters de sites abasiques. Finalement, la reconnaissance de brins d’ADN lésés par des protéines de réparation et le rapport avec leurs activités enzymatiques a été analysé. Le lecteur peut se référer à la première partie de ce manuscrit pour une présentation vulgarisée du contexte de ce projet / The work presented in this manuscript is based on the use of molecular modeling, simulation and theoretical chemistry in order to study the photosensitization of DNA; i.e. the enhancement of the sensitivity of DNA to light through the action of a photosensitizing agent. A first aspect has been to study the photophysical and photochemical pathways of several known sensitizers such as nileblue, nilered, BMEMC or an endogenous modified nucleobase, Pyo, in order to understand their mechanisms of photosensitization. The related phenomena that have been observed are electron transfers, triplet-triplet energy transfers, production of solvated electrons and two-photons activations. Moreover, two tools have been developed to study the interaction between photosensitizing agents and DNA; i) a protocol able to provide the binding free energy of drugs in their interaction pockets; ii) a tool based on the semi-empirical Frenkel Hamiltonian to model the electronic circular dichroism of biomacromolecular systems in a straightforward way. Then the effects of photoinduced lesions on the DNA structure and flexibility have been investigated; i.e. cylcopyrimidine dimers (CPD), pyrimidine(6-4)pyrimidone (6-4PP) and cluster abasic sites. Finally the recognition of damaged DNA strands by repair enzymes is presented and the implication on enzymatic activities has been highlighted. The reader can refer to the first section of the manuscript for a popularized presentation of the project context ADN Protéines Lésions Photosensibilization Dynamique moléculaire TD-DFT Absorption Dichroïsme circulaire DNA Proteins Damages Photosensitization Molecular dynamics Absorption Circular dichroism 572.435 572.86
248	Correlation of optical anisotropy with structural changes in Ge2Sb2Te5 Shanmugam, Janaki January 2018 (has links) Ge<sub>2</sub>Sb<sub>2</sub>Te<sub>5</sub> (GST) is an established phase-change material that undergoes fast reversible transitions between amorphous and crystalline states with a high electro-optical contrast, enabling applications in non-volatile optical and electronic memories and optically-switchable structured metamaterials. This work demonstrates that optical anisotropy can be induced and recorded in pure and doped GST thin films using circularly polarised light (CPL), opening up the possibility of controlled induction of anisotropic phase transition in these and related materials for optoelectronic and photonic applications. While the amorphous-to-crystalline phase transition in GST has generally been understood to proceed via a thermal mechanism, significant optical anisotropy (measured by circular dichroism (CD) spectroscopy in this work) strongly suggests that there is an electronic athermal component of the phase change induced by the handedness of circularly polarised nanosecond laser pulses and implies the existence of chiral structures or motifs. Optically active and inactive regions in the films have also been studied using X-ray and electron diffraction and spectroscopic techniques in order to obtain a structural picture that can be correlated to the optical changes observed and the findings offer surprising evidence of the nature of the phase transition. Regions exhibiting higher CD signal intensities were found to be mostly amorphous with elemental phase separation observed within modified surface features. Several mechanisms are proposed for the observed phenomena, including the retention of chiral crystalline fragments in laser- irradiated and melt-quenched amorphous regions, which could explain the results of CD spectroscopy. This may be extended to other material systems and harnessed in potential metamaterials, plasmonics, photonics or chiroptical applications.
249	Method Development for Thermal Stability Analysis by Circular Dichroism : Application to the Abp1p SH3 domain from yeast Sjöstrand, Linda January 2018 (has links) Thermal stability is an important and interesting physical property of proteins. A common method to study it by is circular dichroism (CD) spectroscopy. The aim of this study was to test methods to improve thermal stability analysis by CD spectroscopy. Experiments were performed using the Abp1p SH3 domain from yeast as a model protein. Thermal denaturation was monitored at multiple wavelengths. It was concluded that for data sets of reasonable quality the choice of wavelength does not affect the results. An approach to estimate stability of thermophilic proteins was tested where thermal stability was measured at different concentrations of the denaturant GuHCl. The thermochemical data was used to estimate the stability in absence of GuHCl by extrapolation. The results were compared to those obtained from CD spectroscopy and differential scanning calorimetry. It was found that a stabilizing effect from low concentrations of GuHCl complicated the extrapolation. It is likely that this method is more successful if there is no stabilizing effect. The effect of ΔCp in stability parameter calculations was investigated with an experimentally and theoretically determined ΔCp. This was further investigated with synthetic data sets. The ΔCp used in calculations had no notable effect, as long as there was no cold denaturation. Although ΔCp is not necessary in calculations, it is an interesting parameter itself. ΔCp can be calculated from the thermochemical data used for extrapolation. The results in this study demonstrate robustness in thermal stability analysis by CD spectroscopy and a potential for development. Abp1p SH3 thermal stability chemical stability circular dichroism spectroscopy fluorescence spectroscopy differential scanning calorimetry nuclear magnetic resonance spectroscopy Natural Sciences Naturvetenskap Chemical Sciences Kemi
250	Estudo da conformação e atividade lítica de peptídeos antimicrobianos de vespas / Cabrera, Marcia Perez dos Santos. January 2006 (has links) Orientador: João Ruggiero Neto / Banca: João Procópio de Araújo Filho / Banca: Maria Teresa Lamy / Banca: Roberto da Silva / Banca: Valmir Fadel / Resumo: Neste trabalho estudamos a conformação em ambientes anisotrópicos e a atividade lítica em vesículas aniônicas e zwitteriônicas de um conjunto de peptídeos biologicamente ativos, extraídos de veneno de vespas solitárias, que se caracterizam por usar seus venenos para paralisar as presas com as quais alimentam suas larvas. Esses peptídeos que são desgranuladores de mastócitos, apresentam atividade antimicrobiana e a maioria deles não é hemolítica. Possuem entre 10 e 15 resíduos, são catiônicos, com alta proporção de resíduos carregados e polares, e são lineares e helicoidais em meios miméticos de membranas. Buscamos correlacionar a atividade lítica em vesículas de diferentes composições, analisada em experimentos de fluorimetria, às mudanças conformacionais, induzidas por diferentes ambientes miméticos, monitoradas por dicroísmo circular, complementando com a análise das características físico-químicas como comprimento da cadeia, amidação do terminal-C, carga líquida, influências no macrodipolo da hélice, hidrofobicidade, momento hidrofóbico e ângulo polar. Observamos que estes peptídeos apresentam intensa atividade em membranas modelo, interagem preferencialmente com bicamadas aniônicas, e sua atividade lítica acontece de modo cooperativo tanto em vesículas aniônicas como nas zwitteriônicas. Com exceção de Anoplin, todos os peptídeos com ação antimicrobiana apresentam curvas de dose-resposta que mostram uma dependência sigmoidal com a concentração do peptídeo. Isso sugere que esses peptídeos se acumulam na superfície da vesícula até atingir uma concentração crítica, além da qual o vazamento aumenta cooperativamente. De uma forma geral os peptídeos mais eficientes como antimicrobianos, são também aqueles caracterizados pela maior eficiência em permeabilizar vesículas aniônicas do tipo PCPG 7030 e por baixas razões limite P/L. / Abstract: Solitary wasps use their venoms to paralise prays to feed their larvae. A set of biologically active peptides, obtained from these venoms, have been investigated in relation to the conformational changes they undergo in anisotropic environments and their lytic activity on zwitterionic and anionic vesicles. These peptides are mast cell degranulators, present antimicrobial activities and most of them are not hemolytic. They are cationic, their chain length are 10 to 15 residues long, with high hydrophilic / hydrophobic ratio; they are linear and helical in membrane mimetic environments. We searched correlation between the lytic activity in vesicles of different compositions, monitored in fluorimetric experiments, and conformational changes, induced by varied mimetic media, monitored by circular dichroism. The results have been also correlated with peptides' physical-chemical parameters such as chain length, amidated or carboxylated C-terminal, net charge, influences on the helix macrodipole, hydrophobicity, hydrophobic moment and polar angle. We observed that these peptides present intense activity on model membranes, they interact preferentially with anionic bilayers, and their lytic activity is a cooperative process either in anionic or in zwitterionic vesicles. Exception made to Anoplin, all the other peptides that have antimicrobial activity present in their dose-response curves a sigmoidal dependence with the peptide concentration. This fact suggests that these peptides accumulate on the vesicles surface until they reach a threshold concentration, beyond which leakage increases cooperatively. As a general rule, the most efficient antimicrobial peptides are also those characterized by efficient permeabilization of anionic vesicles, namely PCPG 7030 and by small threshold P/L ratios. / Doutor Biologia molecular. Biofísica. Peptídeos. Lipossomos. Mastoparano. Wasp venom peptides. eng Antimicrobial peptides. eng Mastoparan. eng Lipossomes. eng Lytic activity. eng Circular dichroism. eng

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