Global ETD Search

31	Conformational Dynamics of large protein Complexes Haselbach, David 13 October 2014 (has links) No description available. 571.4 cryo elctron microscopy single particle image processing structural dynamics of proteins protein complexes Biologie (PPN619462639)
32	Teaching and learning about reaction mechanisms in organic chemistry Ladhams Zieba, Meagan January 2004 (has links) [Truncated abstract] This study was carried out to investigate the teaching and learning processes occurring in the topic of reaction mechanisms in three tertiary level organic chemistry courses and focussed on investigating perceptions about the importance of teaching and learning about reaction mechanisms and about the difficult aspects of the topic .... In the organic chemistry courses under investigation, students achieved many of the explicitly stated aims that their lecturers identified. The students rarely achieved implicit outcomes anticipated by the lecturer. Lecturers demonstrate a tendency to use particular structural representations when discussing certain types of reaction process. The study identified that students commonly use these same types when working through particular reaction processes. In addition, it was found that the use of a particular structure could cue students into thinking about only one type of reaction process taking place in a given reaction. The use of language that is consistent with a consideration of only single reaction particles was also commonly observed in lectures. While this can be adequate in some circumstances, other aspects of reaction processes are better considered in terms of multiple reaction particles ... The project proposes an integrated model, which takes into account the many levels (macroscopic, single particle molecular, multiple particle molecular and intramolecular) involved when describing reaction processes. It is felt that a consideration of the levels discussed in this model is useful when teaching and learning about reaction mechanisms. Single-particle Multi-particle Levels of understanding Structural representation Cueing Teaching and learning
33	Automontagem de filamentos de septinas estudada por microscopia eletrônica / Self-assembling of septine filaments studied by electron microscopy Déborah Cezar Mendonça 06 March 2018 (has links) Septinas são GTPases consideradas como um novo componente do citoesqueleto. Essas proteínas interagem entre si para formar heterocomplexos filamentosos e estruturas de alta ordem que são importantes para a citocinese e uma variedade de outros processos celulares. Existem muitos aspectos mecânicos dessas proteínas que não são totalmente compreendidos, incluindo a forma como os heterocomplexos se agrupam corretamente. Em humanos, há 13 genes que codificam septinas, classificadas em quatro grupos quanto à similaridade em relação à estrutura primária. O complexo hexamérico SEPT7-SEPT6-SEPT2-SEPT2-SEPT6-SEPT7 foi o melhor caracterizado, com uma estrutura cristalina resolvida à 4 Å. Segundo às Regras de Kinoshita, as septinas desse complexo podem ser substituídas nesse arranjo por outras pertencentes ao mesmo grupo. Neste trabalho utilizamos a técnica de microscopia eletrônica de transmissão com análise de partícula única para estudar dois complexos de septinas. Um dos complexos estudados neste projeto é formado por septinas humanas, para as quais atualmente não há informações estruturais disponíveis. O complexo SEPT5-SEPT6-SEPT7 foi expresso heterólogamente em E. coli e purificado em alta concentração salina para evitar a polimerização. A análise de partículas únicas de imagens por contrastação negativa mostrou a presença de partículas alongadas de aproximadamente 25 nm de comprimento, compostos por seis monômeros, como esperado. Com o objetivo de localizar a posição da SEPT5 no complexo, foi realizada uma fusão com MBP (Maltose Binding Protein) e imunomarcação com anticorpo monoclonal anti-SEPT5, concluindo que a SEPT5 está localizada na extremidade do complexo hexamérico. Porém, a SEPT5 pertence ao mesmo grupo da SEPT2, que foi relatada estar localizada no centro do hexâmero. Este resultado possibilitou uma nova discussão sobre a maneira que as septinas formam os complexos e, como a sensibilidade à concentração salina está relacionada com a fragilidade da interface NC, análogo ao observado em complexos de Saccharomyces cerevisiae. Um complexo de Ciona intestinalis incluindo a SEPT2, SEPT6, SEPT7 e SEPT9, também expresso heterólogamente em E. coli, foi preparado por contrastação negativa. A análise de partícula única das imagens coletadas mostrou um heterocomplexo aparentemente hexamérico, embora fosse esperado um octâmero devido à presença das quatro septinas diferentes, sendo uma pertencente à cada um dos quatro grupos. Os resultados deste trabalho proporcionaram um avanço na compreensão da formação de heterocomplexos de septinas e como essas proteínas interagem umas com as outras nesta montagem. / Septins are GTPases that appear to be a novel component of the cytoskeleton. These proteins interact with each other to form filamentous heterocomplexes and high order structures which are important for cytokinesis and a variety of other cellular processes. There are many mechanistic aspects of these proteins that are not fully understood, including how the heterocomplexes correctly assemble. In humans, there are 13 genes encoding septins, classified in four groups based on primary structure. The SEPT7-SEPT6-SEPT2-SEPT2-SEPT6-SEPT7 hexameric complex was the best characterized, with a crystalline structure solved at 4 Å. According to Kinoshita´s Rules, the septins of this complex can be replaced in this arrangement by others belonging to the same group. In this work, we used transmission electron microscopy with single particle analysis to study two septin complexes. One of the complexes studied in this project is composed of three human septins, for which there is currently no structural information available. The SEPT5-SEPT6-SEPT7 complex was heterologously expressed in E. coli and purified at high salt concentration to avoid polymerization. Single particle analysis of negatively stained samples showed the presence of elongated particles of approximately 25 nm in length. To locate SEPT5 in the complex, a fusion with MBP (Maltose Binding Protein) and immunoblotting with anti-SEPT5 monoclonal antibody was performed, concluding that SEPT5 is located at the end of the hexameric complex. However, SEPT5 belongs to the same group as SEPT2, which was reported to be located in the center of the hexamer. This result allowed for a new discussion on the way that septins form heterocomplexes and also, on how the sensitivity of the NC interface in related to salt concentration, analogous to that observed in the heterocomplex of Saccharomyces cerevisiae. A Ciona intestinalis complex including SEPT2, SEPT6, SEPT7 and SEPT9, also expressed heterologously in E. coli, was prepared by negative staining. The single particle analysis of the collected images showed an apparently hexameric heterocomplex, although an octamer was expected due to the presence of the four different septins, one belonging to each of the four groups. The results of this work represent advances in the understanding of the formation of septin heterocomplexes and how these proteins interact with each other during assembly. Análise de partícula única Microscopia eletrônica de transmissão Septinas Septins Single particle analysis Transmission electron microscopy
34	Improving the utility of LA-ICP-MS for isotope ratio analyses of single particles with application to uranium oxide Craig, Grant January 2016 (has links) The determination of the isotopic composition of single uranium oxide particles, size 0.3-2 μm, for nuclear safeguards is current performed by either thermal ionisation mass spectrometry (TIMS) or Secondary Ion Mass Spectrometry (SIMS). Laser Ablation-Inductively Coupled Plasma-Mass Spectrometry (LA-ICP-MS), a well-established analytical technique for determining the isotopic composition of solid materials, has the potential to be another method by which single uranium oxide particles can be analysed, complementing established protocol, but requires optimisation. In this study the ability of LA-ICP-MS to determine the isotopic composition, principally 234U/238U, 235U/238U and 236U/238U, of glass reference materials and sub-micron uranium oxide particles is investigated. To achieve the best detection efficiency a prototype high-speed ablation cell and injector design, designed previously at Loughborough University, was coupled to a high efficiency multi collector (MC-) ICP-MS. As a result an increase in signal-to-noise ratio and a measured detection efficiency of 5-7% was achieved for a LA-MC-ICP-MS system. The capability of the LA-MC-ICP-MS system, for the determination of the uranium isotopic composition of single particles was compared to a more established low-volume ablation cell. A source of additional uncertainty, blind time arising from incompatibilities with the mixed detector array of the MC-ICP-MS was identified. The impact of the additional uncertainty on isotope ratio analysis was modeled and a method developed to filter out affected data. LA-ICP-MS and LA-MC-ICP-MS were used to successfully determine the uranium isotopic compositions of sub-micron uranium oxide particles, of a known certified composition. A sample planchet containing particles of two distinct isotopic compositions was resolved. The utility of three data evaluation strategies to determine the isotopic composition of single uranium oxide particles was investigated. The necessity and advantages of calculating isotope ratios using the geometric mean is demonstrated, which has application for isotope ratio analysis performed on all forms of mass spectrometry. A novel approach to prepare particulate samples for laser ablation analysis, cytocentrifugation, is described. By using as the solvent, a mixture of nail polish and acetone, dispersed particles are held in a strong film layer thin enough to allow embedded particles to be imaged by SEM-EDX. A sample of uranium oxide particles in an environmental matrix prepared using cytocentrifugation is analysed by LA-MC-ICP-MS and their isotopic composition resolved. 546
35	Trends in single-particle energies in N=51 nuclei Sharp, David Keith January 2012 (has links) A systematic study of the neutron single-particle states in N=51 isotones has been performed. Final states in 89Sr, 91Zr and 93Mo have been populated using the (d,p) and (alpha,3He) single-neutron adding reactions. The Yale tandem provided beams of 15-MeV deuterons and 50-MeV alpha particles with the outgoing ejectiles momentum analysed using an Enge split-pole spectrometer. A supplementary measurement of the d(86Kr,p)87Kr reaction, at a beam energy of 10 MeV/u, was made in inverse kinematics using the HELIOS spectrometer. Outgoing protons execute a helical orbit in a uniform field before detection, before they return to axis, using a position-sensitive silicon array. Absolute cross sections were measured for states up to 4 MeV in excitation. The transferred angular momentum was identified through a comparison of angular distributions and the ratio of cross section between reactions. Relative spectroscopic factors were extracted through a DWBA analysis.The measured centroids for the single-particle energies of the s1/2, d3/2, d5/2, g7/2 and h11/2 orbitals were compared to calculations using a Gaussian central potential with and without the addition of a tensor interaction. Through this comparison it was deduced that the inclusion of a tensor interaction is required to explain the observed shifts in the single-particle energies of the d3/2 and g7/2 orbitals. This system provided an observation of a switch in behaviour, from repulsive to attractive and vice versa, of the effect of the tensor interaction. This occurs due to a change from j> to j< proton occupancy at Z=40. 539.7
36	COSMIC RAY SHOWER SIMULATION STUDY AT A GLOBAL SCALE AND ASSOCIATED APPLICATIONS Sarajlic, Olesya 08 August 2017 (has links) Galactic cosmic rays are the high-energy particles that stream into our solar system from distant corners of our Galaxy. The Earth's atmosphere serves as an ideal detector for the high energy cosmic rays which interact with the air molecule nuclei causing propagation of extensive air showers. The primary cosmic ray particles interact with the molecules in the atmosphere and produce showers of secondary particles (mainly pions) at about 15 km altitude. These pions decay into muons which are the dominant particles of radiation (about 80%) at the surface of the Earth. In recent years, there are growing interests in the applications of the cosmic ray measurements such as space/earth weather monitoring, homeland security activities based on the cosmic ray muon tomography, radiation effects on health via air travel, etc. A simulation program (based on the Geant4 software package developed at CERN) has been developed at Georgia State University for studying cosmic ray showers in the atmosphere. The results of this simulation study will provide unprecedented knowledge of geo-position-dependent cosmic ray shower profiles and will significantly advance cosmic ray applications. Simulation results are critically important for determining the temperature coefficients in every pressure layer in the atmosphere in order to calculate the temperature variations using the cosmic ray data. Using a single particle shower simulation, the weighted particle altitude distributions on a global scale are calculated with geomagnetic field implementation. The results of the simulation can aid the computation of the effective temperature in stratosphere. Cosmic rays Geant4 geomagnetic field single particle shower simulation global weather patterns XSEDE
37	Quasi-Three Dimensional Experiments on Liquid-Solid Fluidized Bed of Three Different Particles in Two Different Distributors Obuseh, Chukwuyem Charles 12 1900 (has links) This thesis is an experimental study of the fluidization of binary mixture in particulate flows. A fluidized bed with two distributors was built with water being used as carrying fluid. Three types of solid particles of nylon, glass and aluminum of the same size and different densities are used in the experiments. The wall effect on a single particle fluidization, the fluidization of binary mixture of large density difference (nylon and aluminum of density ratio of 0.42), and the fluidization of binary mixture of close density (glass and aluminum with density ratio of 0.91) were investigated. Also, the effect of distributors on mono-disperse and bi-disperse particle fluidization was investigated. Results show that the presence of narrow walls reduces the minimum fluidization velocity for a single particle by as much as nearly 40%. Also, in the case of binary mixture of close density particles, uniform mixing was easily achieved and no segregation was observed, but in the case of large density difference particles, there exists significant segregation and separation. At high velocity, the uniform distributor behaves like a transport bed. To achieve a full bed in the single jet, it requires 1.5 times velocity of the uniform distributor. This behavior determines their application in the industries. Fluidization single particle liquid-solid fluidized bed Fluidization. Bulk solids flow. Granular materials -- Fluid dynamics.
38	3D rekonstrukce makromolekulárních komplexů pomocí kryoelektronové mikroskopie / 3D reconstruction of macromolecular complexes by cryoelectron microscopy Skoupý, Radim January 2016 (has links) Semester project deals with the processing of data from TEM and their analysis (to- mography, single particle analysis). The main aim of this work is to determine the 3D structure of the studied enzyme. As a test sample with low symmetry is used restriction endonuclease EcoR124I.
39	Mechanistic Analysis of Sodiation in Electrodes Akshay Parag Biniwale (8098121) 11 December 2019 (has links) <p>The single particle model was extended to include electrode and particle volume expansion effects observed in high capacity alloying electrodes. The model was used to predict voltage profiles in sodium ion batteries with tin and tin-phosphide negative electrodes. It was seen that the profiles predicted by the modified model were significantly better than the classical model. A parametric study was done to understand the impact of properties such as particle radius, diffusivity, reaction rate etc on the performance of the electrode. The model was also modified for incorporating particles having a cylindrical morphology. For the same material properties, it was seen that cylindrical particles outperform spherical particles for large L/R values in the cylinder due to the diffusion limitations at low L/R ratios. A lattice spring-based degradation model was used to observe crack formation and creep relaxation within the particle. It was observed that the fraction of broken bonds increases with an increase in strain rate. At low strain rates, it was seen that there was a significant expansion in particle volumes due to creep deformation. This expansion helped release particle stresses subsequently reducing the amount of fracture.</p> Electrochemistry Computational Modeling Lithium-Ion Batteries Sodium-Ion Batteries Single Particle Model Tin electrodes
40	Dipole Orientation of Gas Phase Ubiquitin Using Time Dependent Electric Fields Agelii, Harald January 2020 (has links) The method of dipole orientation of protein complexes using electric fields plays a key role in the development of single particle imaging, since it enables orientation of the protein in vacuum. In the orientation process the protein is exposed to an external electric field along which the dipole axis of the protein will eventually align. Earlier studies using molecular dynamics simulations have implemented a constant electric field to examine the dipole orientation process. However, when injected into the electric field the protein experiences a gradually increasing field strength converging to some terminal field strength rather than a constant electric field. In order to examine the effects of the time-dependant nature of the electric field, in comparison to a constant one, fields with different time dependances were implemented in molecular dynamics simulations in vacuum performed with GROMACS. Ubiquitin was chosen as a model protein. The results of the study show time-increasing fields tend to result in slower orientation, but preserve the structure of the protein better than for a constant field. It was also shown that after 10 ns electric field exposure, with terminal field strengths greater or equal to 0.6Vnm^-1, there was no apparent difference of the average degree of orientation of proteins within the time-increasing fields and the constant one. However, for fields of greater or equal to 1.5Vnm^-1 the constant field tended to result in a larger change of the protein structure. dipole orientation protein spectography GROMACS simulation single particle imaging Atom and Molecular Physics and Optics Atom- och molekylfysik och optik

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