Global ETD Search

1771	Rôles non-canoniques des arrestines dans la signalisation et l’endocytose des récepteurs couplés aux protéines G Paradis, Justine 04 1900 (has links) G protein-coupled receptors (GPCRs) form the biggest family of membrane receptors and are involved in numerous physiological processes. Collectively, these receptors are also prominently targeted by the pharmaceutical industry due to their implications in multiple diseases and disorders. GPCR signaling is tightly regulated. Several kinases, activated downstream of the receptor, initiate negative feedback loops; and arrestins play a crucial role in these regulatory processes by desensitizing the ligand–activated receptor and promoting its endocytosis. By doing so, arrestins control the duration and the amplitude of signal transduction at the cell surface. In the last few years, several non-canonical roles have also been attributed to arrestins, such as the post-endocytic activation of several signalling pathways, or the regulation of crosstalks between GPCRs and various other signalling events. My thesis project was aimed at providing a better understanding of the non-canonical functions of arrestins. The first objective of my research work was to investigate a possible reciprocal effect of the activation of the extracellular signal-regulated kinases 1 and 2 (ERK1/2) on GPCR signaling. We demonstrated that stimulation of ERK1/2, either by a cell surface receptor or a constitutively active mutant, leads to a reduction in steady-state expression levels of many GPCRs at the cell surface. This receptor redistribution mechanism is dependent on beta-arrestins phosphorylation. In vitro kinase assays combined with complementation experiments in mouse embryonic fibroblasts (MEFs) lacking beta-arrestins, revealed that beta-arrestin-2 phosphorylation on Ser14 and Thr276 is essential for the ERK1/2-promoted GPCR sequestration. This ERK1/2- and arrestins mediated regulatory process was found to result in a global dampening of cell responsiveness. The second objective of my research work was to identify and develop a small organic compound that inhibits the interaction between arrestins and the adaptor protein AP-2, without interfering with the recruitment of arrestin to the receptor. This inhibitor, named Barbadin, was found to specifically block endocytic processes that are dependent on the interaction between arrestins and the appendage domain of the b-subunit of AP-2. We demonstrated its value as an analytical tool in studying the role of the arrestins in GPCR signaling, such as cAMP production and ERK1/2 activation. These results support the concept that beta-arrestin/AP-2-dependent signaling is important to both G protein-dependent and -independent pathways. The third objective of my research work was to develop a BRET-based biosensor able to detect signal-dependent PTEN conformational changes. This biosensor was validated by monitoring PTEN activation induced by targeted mutations affecting key intramolecular interactions or by modulating signalling pathways that impact PTEN function. We also demonstrated the value of this biosensor in studying PTEN/protein interactions using two known interactors that activate PTEN, beta-arrestin-2 and RhoA. Finally, we uncovered PTEN activation by several GPCRs, previously unknown as PTEN regulators. Given the central role of the tumor suppressor PTEN in oncogenesis, this biosensor could also provide a precious tool for anti-cancer drug research. To conclude, my research work highlighted non-canonical mechanisms for arrestins to activate GPCR-dependent signaling pathways, such as cAMP, ERK1/2 and PTEN, as well as negatively regulate GPCR signaling upon phosphorylation by ERK1/2. This work was made possible by the development of new tools: a beta-arrestin inhibitor named Barbadin and a PTEN BRET-based biosensor that have both shown their usefulness in studying beta-arrestin noncanonical signaling. / Les récepteurs couplés aux protéines G (RCPG) représentent la plus grande famille de récepteurs membranaires et sont impliqués dans un grand nombre de processus physiologiques. Cette famille de récepteurs constitue aussi une cible majeure dans la recherche pharmaceutique au vu de son importance dans de nombreuses pathologies. La signalisation des RCPG est étroitement régulée. Plusieurs kinases activées en aval du récepteur initient des boucles de régulation négative. Les arrestines jouent un rôle clé dans ces processus de régulation en favorisant la désensibilisation du récepteur activé par le ligand, suivie de son endocytose. Ainsi, les arrestines contrôlent la durée et l’amplitude de la transmission du signal à la surface de la cellule. Ces dernières années, plusieurs rôles non-canoniques ont été attribués aux arrestines comme l’activation de voies de signalisation post-endocytiques, ou la modulation de la régulation croisée entre les RCPG et d’autres acteurs de la signalisation cellulaire. Le premier objectif de mon travail de recherche est d’examiner l’effet réciproque de l’activation des kinases ERK1/2 (extracellular signal-regulated kinases 1/2) sur la signalisation des RCPG. Nous avons démontré que la stimulation de ERK1/2, soit par un récepteur de surface soit par l’utilisation d’un mutant constitutivement actif, conduit à la baisse de l’expression de surface basale de nombreux RCPG. Des essais kinases in vitro, combinés à des expériences de complémentation dans des fibroblastes embryonnaires de souris (MEF), où les gènes beta-arrestine-1/2 ont été supprimés, démontrent l’importance de la phosphorylation par ERK1/2 des résidus Ser14 et Thr276 dans ce mécanisme de séquestration des RCPG. Cette régulation, contrôlée par ERK1/2 et arrestine, conduit à une baisse globale de la capacité de réponse de la cellule aux stimuli extracellulaires. Le deuxième objectif de mon travail de recherche est d’identifier et de développer une petite molécule organique qui inhibe l’interaction entre l’arrestine et la protéine adaptatrice du complexe d’endocytose AP-2, sans toutefois empêcher la formation du complexe arrestine/récepteur. Cet inhibiteur, nommé Barbadin, bloque sélectivement les processus d’internalisation dépendants de l’interaction entre arrestine- et la sous-unité beta2 de la protéine adaptatrice AP-2. Barbadin représente le premier inhibiteur des fonctions d’arrestine, et nous avons démontré son utilité comme outil analytique pour déterminer la contribution des arrestines dans l’activation de plusieurs voies de signalisation en aval des RCPG, telles que la production d’AMP cyclique (AMPc) ou l’activation des kinases ERK1/2. Nos résultats démontrent l’importance du complexe arrestine/AP-2 dans la signalisation dépendante et indépendante des protéines G. Le troisième objectif de mon travail de recherche est de développer un biosenseur BRET capable de mesurer les changements de conformation du suppresseur de tumeur PTEN. Nous avons validé ce biosenseur en mesurant l’activation de PTEN suite à des mutations ciblées déstabilisant les interactions intramoléculaires au sein de cette protéine ou en modulant différentes voies de signalisation qui affectent sa fonction. Nous avons démontré l’intérêt de ce nouvel outil dans l’étude des interactions entre PTEN et des partenaires protéiques, en utilisant deux interacteurs connus pour activer PTEN : b-arrestine-2 et RhoA. Finalement, en utilisant ce biosenseur, nous avons démontré pour la première fois la capacité de plusieurs RCPG à induire l’activation de PTEN. Étant donné le rôle central de PTEN dans le développement tumoral, ce biosenseur constitue aussi un outil précieux pour la recherche de nouveaux médicaments anticancer. Ainsi, au travers de ces trois lignes directrices, nous avons pu mettre en lumière de nouveaux rôles non-canoniques des arrestines, soit dans l’activation de voies de signalisation, (comme la production d’AMPc, l’activation de ERK1/2 ou de PTEN), soit comme régulateur négatif de la signalisation des RCPG après phosphorylation par ERK1/2. Ce travail a été rendu possible par le développement de nouveaux outils pour l’étude des RCPG : un inhibiteur de beta-arrestine, Barbadin, et un biosenseur BRET de PTEN ; tous deux ayant démontré leur utilité dans l’étude des voies de signalisation non-canoniques des arrestines. arrestine récepteurs couplés aux protéines G voie ERK/MAPK internalisation protéine adaptatrice AP-2 inhibiteur pharmacologique phosphatase et tensine homologue (PTEN) biosenseur Arrestin G protein-coupled receptor (GPCR) ERK/MAPK pathway Internalization Adaptor protein AP-2 Pharmacological inhibitor Phosphatase and tensin homolog (PTEN) Biosensor
1772	Die Agonistspezifität des G-Protein-gekoppelten Rezeptors GPR34 Ritscher, Lars 10 October 2012 (has links) In der vorliegenden Arbeit wurden die molekularen Grundlagen für die Agonistspezifität des G-Protein-gekoppelten Rezeptors GPR34 untersucht. Mittels verschiedener funktioneller Versuche konnte an ausgewählten Orthologen des Rezeptors gezeigt werden, dass, im Gegensatz zu publizierten Daten, Lysophosphatidylserin (Lyso-PS) nicht der natürliche Agonist des GPR34 ist. Lediglich an einigen cyprinoiden Subtypen des GPR34 hat Lyso-PS surrogat-agonistische Effekte. Anhand eines detaillierten evolutionären Vergleichs von Orthologen konnten Bereiche des Rezeptors ermittelt werden, welche an der Ligandenbindung, und damit an der Agonistspezifität des GPR34 beteiligt sind. Durch Übertragung dieser Bereiche vom Karpfen-GPR34-Subtyp 2a auf den humanen GPR34 konnte dieser zu einem Lyso-PS-sensitiven Rezeptor modelliert werden. Weiterhin wurde Aminoethyl-Carbamoyl-ATP (EDA-ATP) als inverser Agonist an cyprinoiden Orthologen des GPR34 identifiziert. Die Erweiterung des möglichen Ligandenspektrums von Lipiden zu Nukleotidderivaten gibt Hinweise auf die Promiskuität der Bindungsstelle des GPR34. Die Ergebnisse zeigen, dass Lyso-PS nur eine zufällige Aktivität an einigen Orthologen des GPR34 hat. Mit Identifizierung eines Nichtlipides als invers-agonistischen Liganden ist die Suche nach dem natürlichen Liganden des GPR34 noch nicht abgeschlossen und sollte auf weitere chemische Entitäten ausgeweitet werden. / Lyso-PS (lyso-phosphatidylserine) has been shown to activate the G(i/o)-protein-coupled receptor GPR34. Since in vitro and in vivo studies provided controversial results in assigning lyso-PS as the endogenous agonist for GPR34, we investigated the evolutionary conservation of agonist specificity in more detail. Except for some fish GPR34 subtypes, lyso-PS has no or very weak agonistic activity at most vertebrate GPR34 orthologues investigated. Using chimaeras we identified single positions in the second extracellular loop and the transmembrane helix 5 of carp subtype 2a that, if transferred to the human orthologue, enabled lyso-PS to activate the human GPR34. Significant improvement of agonist efficacy by changing only a few positions strongly argues against the hypothesis that nature optimized GPR34 as the receptor for lyso-PS. Phylogenetic analysis revealed several positions in some fish GPR34 orthologues which are under positive selection. These structural changes may indicate functional specification of these orthologues which can explain the species- and subtype-specific pharmacology of lyso-PS. Furthermore, we identified aminoethyl-carbamoyl ATP as an antagonist of carp GPR34, indicating ligand promiscuity with non-lipid compounds. The results of the present study suggest that lyso-PS has only a random agonistic activity at some GPR34 orthologues and the search for the endogenous agonist should consider additional chemical entities. info:eu-repo/classification/ddc/610 ddc:610 info:eu-repo/classification/ddc/572 ddc:572
1773	Mathematical models of social-ecological systems: Coupling human behavioural and environmental dynamics Sun, Tithnara Anthony 31 March 2020 (has links) There is an increasing concern for the impact of humans on the environment. Traditionally, ecological models consider human influence as a constant or linearly varying parameter, whereas socioeconomic models and frameworks tend to oversimplify the ecological system. But tackling complex environmental challenges faced by our societies requires interdisciplinary approaches due to the intricate feedbacks between the socioeconomic and ecological systems involved. Thus, models of social-ecological systems couple an ecological system with a socioeconomic system to investigate their interaction in the integrated dynamical system. We define this coupling formally and apply the social-ecological approach to three ecological cases. Indeed, we focus on eutrophication in shallow freshwater lakes, which is a well-known system showing bistability between a clear water state and a turbid polluted state. We also study a model accounting for an aquifer (water stock) and a model accounting for a biotic population exhibiting bistability through an Allee effect. The socioeconomic dynamics is driven by the incentive that agents feel to act in a desirable or undesirable way. This incentive can be represented by a difference in utility, or in payoff, between two strategies that each agent can adopt: agents can cooperate and act in an environment-friendly way, or they can defect and act in an ecologically undesirable way. The agents' motivation includes such factors as the economic cost of their choice, the concern they feel for the environment and conformism to the collective attitude of the human group. Thus, the incentive to cooperate responds to the state of the ecological system and to the agents' collective opinion, and this response can be linear, nonlinear and monotonic, or non-monotonic. When investigating the mathematical form of this response, we find that monotonic non-linear responses may result in additional equilibria, cycles and basins of attraction compared to the linear case. Non-monotonic responses, such as resignation effects, may produce much more complicated nullclines such as a closed nullcline and weaken our ability to anticipate the dynamics of a social-ecological system. Regarding the modelling of the socioeconomic subsystem, the replicator dynamics and the logit best-response dynamics are widely used mathematical formulations from evolutionary game theory. There seems to be little awareness about the impact of choosing one or the other. The replicator dynamics assumes that the socioeconomic subsystem is stationary when all agents adopt the same behaviour, whereas the best-response dynamics assumes that this situation is not stationary. The replicator dynamics has formal game theoretical foundations, whereas best-response dynamics comes from psychology. Recent experiments found that the best-response dynamics explains empirical data better. We find that the two dynamics can produce a different number of equilibria as well as differences in their stability. The replicator dynamics is a limit case of the logit best-response dynamics when agents have an infinite rationality. We show that even generic social-ecological models can show multistability. In many cases, multistability allows for counterintuitive equilibria to emerge, where ecological desirability and socioeconomic desirability are not correlated. This makes generic management recommendations difficult to find and several policies with and without socioeconomic impact should be considered. Even in cases where there is a unique equilibrium, it can lose stability and give rise to sustained oscillations. We can interpret these oscillations in a way similar to the cycles found in classical predator-prey systems. In the lake pollution social-ecological model for instance, the agents' defection increases the lake pollution, which makes agents feel concerned and convince the majority to cooperate. Then, the ecological concern decreases because the lake is not polluted and the incentive to cooperate plummets, so that it becomes more advantageous for the agents to defect again. We show that the oscillations obtained when using the replicator dynamics tend to produce a make-or-break dynamics, where a random perturbation could shift the system to either full cooperation or full defection depending on its timing along the cycle. Management measures may shift the location of the social-ecological system at equilibrium, but also make attractors appear or disappear in the phase plane or change the resilience of stable steady states. The resilience of equilibria relates to basins of attraction and is especially important in the face of potential regime shifts. Sources of uncertainty that should be taken into account for the management of social-ecological systems include multistability and the possibility of counterintuitive equilibria, the wide range of possible policy measures with or without socioeconomic interventions, and the behaviour of human collectives involved, which may be described by different dynamics. Yet, uncertainty coming from the collective behaviour of agents is mitigated if they do not give up or rely on the other agents' efforts, which allows modelling to better inform decision makers. social-ecological system social-ecological model mathematical model lake eutrophication coupled human-environment system modelling of human behaviour multistability oscillations best-response replicator best-reply evolutionary game theory theoretical ecology 30.10 - Systemtheorie ddc:500
1774	Laserspektroskopie an Photosystem II Zur Proton-Elektron-Kopplung bei Tyrosin Z und über die Natur der Chlorophyll a Entität P680 / Laser flash spectroscopy of photosystem II The proton-electron-coupling around tyrosine Z and the nature of the chlorophyll a entity P680 Ahlbrink, Ralf 12 December 2002 (has links) "Laser flash spectroscopy of photosystem II" Photosystem II (PS II) of plants and cyanobacteria oxidizes water in a light-powered reaction. Thereby, this protein is the ultimate source of the atmospheric oxygen. The capacity to oxidize water is owed to two properties of PS II: (i) The midpoint potential of the oxidizing chlorophyll moiety is increased by 0.6 V compared to photosystem I or photochemical reaction centers of anoxygenic bacteria, and (ii) the energy requirements of the four steps needed for the tetravalent oxidation of water are adapted to the energy of red light quanta. This thesis deals with two particular aspects, namely: 1. The coupling of the electron transfer from tyrosine Z (YZ) to the primary donor (P680+) to proton transfer, and an inquiry on the role of a positive charge on YZox (plus base cluster) in increasing the oxidizing potential at the catalytic site. 2. The localization of the electron hole, P680+, among the excitonically coupled four inner chlorophyll a molecules, and an estimation of the midpoint potential differences between them. Electron-proton-coupling by YZ This study was carried out with PS II core complexes from spinach or pea with a deactivated (removed) manganese cluster. The reduction of P680+ was investigated as a function of pH by detecting the laser flash induced absorption changes with nanosecond resolution. Two kinetic components were found with different pH-dependence and activation energies. The alteration of kinetic parameters by H/D isotope substitutions or by addition of divalent cations implied two different types of YZ-oxidation: At acidic pH the electron transfer was coupled with proton transfer, whereas in the alkaline region it was more rapid and no longer controlled by proton transfer. The conversion between both mechanisms occured at pH 7.4. This value corresponds either to the apparent pK of YZ itself (i.e. of the hydroxy group of the phenol ring) or to the pK of an acid-base-cluster, which includes YZ. Independent measurements of pH-transients by following the absorption changes of hydrophilic proton indicators corroborated this notion. The data were interpreted as indicating that the phenolic proton of YZ was released into the medium at acidic, but not at alkaline pH. The electron transfer and proton release characteristics of intact, oxygen-evolving PS II resembled those in deactivated samples kept at alkaline pH. We concluded that the electron transfer from YZ to P680+ in the native system was not coupled with proton transfer into the bulk. This has shed doubt on a popular hypothesis on the role of YZ as 'hydrogen abstractor' from bound water. On the other hand, the energetic constraints of water oxidation could be eased by the positive upcharging during oxidation of YZox plus its base cluster. On the localization of the electron hole of P680+ Photooxidation of PS II oxidizes the set of four innermost chlorophyll a molecules giving rise to the only spectroscopically defined species P680+. The deconvolution of difference spectra into bands of pigments is ambiguous. By using photoselective excitation of antennae, i.e. chl a molecules with site specific energies at the long wavelength border of the mean Qy-band, and by polarized detection, it was possible to tag P680+QA-/P680QA and 3P680/P680 difference spectra with a further parameter, the (wavelength-dependent) anisotropy r. Results obtained at liquid nitrogen temperature (77 K) can be clearly interpreted in terms of two chl a monomer bands. The two main components of the P680+QA-/P680QA difference spectrum were marked by two distinct values of the anisotropy and could be interpreted in a straightforward manner: the bleaching of a band at 675 nm belonging to the charged species (chl a+) and an electrochromic blue-shift of a nearby chl a from 684 to 682 nm. The main bleaching band of the 3P680/P680 spectrum (at 77 K) can be apparently attributed to a third (or several) chl a component(s). The analysis of the P680+QA-/P680QA spectrum at cryogenic temperature is compatible with monomeric chl a bands. On the other hand, one could assume a system of excitonically coupled core pigments, as it was recently introduced in the literature on the basis of energy transfer studies ('multimer model'). However, in view of the clear indications for an electrochromic band shift and the location of the bleaching band, which absorbs in a wavelength region of monomeric chl a, one assumption of the 'multimer model' should be questioned. Presumably, the excitonic couplings are rather weak, in particular between each of the two central chl a-molecules (PA/PB) and its respective accessory chl a (BA/BB), because of (i) the distances and (ii) different site energies of the monomeric chromophores. At room temperature, the absorption difference and anisotropy spectra of P680+QA-/P680QA were clearly altered. The anisotropy data indicated that the changes could no longer exclusively be ascribed to thermal broadening of individual bands. The localization of the positive charge on one pigment, analogous to the situation at 77 K, was now unlikely. Hence, the midpoint potential differences between the inner four chlorophyll a molecules were small and were estimated as approximately 15 meV. photosystem II P680 tyrosine Z proton-coupled electron transfer chlorophyll linear dichroism 29 - Physik, Astronomie 32 - Biologie ddc:530 ddc:570
1775	Sphingosine 1-phosphate enhances excitability of sensory neurons through sphingosine 1-phosphate receptors 1 and/or 3 Li, Chao January 2014 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / Sphingosine 1-phosphate (S1P) is a bioactive sphingolipid that has proven to be an important signaling molecule both as an extracellular primary messenger and as an intracellular second messenger. Extracellular S1P acts through a family of five S1P receptors, S1PR1-5, all of which are G protein-coupled receptors associated with different G proteins. Previous work from our laboratory shows that externally applied S1P increases the excitability of small-diameter sensory neurons by enhancing the action potential firing. The increased neuronal excitability is mediated primarily, but not exclusively, through S1PR1. This raises the question as to which other S1PRs mediate the enhanced excitability in sensory neurons. To address this question, the expression of different S1PR subtypes in small-diameter sensory neurons was examined by single-cell quantitative PCR. The results show that sensory neurons express the mRNAs for all five S1PRs, with S1PR1 mRNA level significantly greater than the other subtypes. To investigate the functional contribution of other S1PRs in augmenting excitability, sensory neurons were treated with a pool of three individual siRNAs targeted to S1PR1, R2 and R3. This treatment prevented S1P from augmenting excitability, indicating that S1PR1, R2 and/or R3 are essential in mediating S1P-induced sensitization. To study the role of S1PR2 in S1P-induced sensitization, JTE-013, a selective antagonist at S1PR2, was used. Surprisingly, JTE-013 by itself enhanced neuronal excitability. Alternatively, sensory neurons were pretreated with FTY720, which is an agonist at S1PR1/R3/R4/R5 and presumably downregulates these receptors. FTY720 pretreatment prevented S1P from increasing neuronal excitability, suggesting that S1PR2 does not mediate the S1P-induced sensitization. To test the hypothesis that S1PR1 and R3 mediate S1P-induced sensitization, sensory neurons were pretreated with specific antagonists for S1PR1 and R3, or with siRNAs targeted to S1PR1 and R3. Both treatments blocked the capacity of S1P to enhance neuronal excitability. Therefore my results demonstrate that the enhanced excitability produced by S1P is mediated by S1PR1 and/or S1PR3. Additionally, my results indicate that S1P/S1PR1 elevates neuronal excitability through the activation of mitogen-activated protein kinase kinase. The data from antagonism at S1PR1 to regulate neuronal excitability provides insight into the importance of S1P/S1PR1 axis in modulating pain signal transduction. sphingosine 1-phosphate S1P excitability sensory neurons G protein-coupled receptors Sphingolipids -- Research Excitation (Physiology) Sensory neurons -- Research Protein kinases Cellular signal transduction Phospholipids -- Research G proteins -- Research Neurochemistry Second messengers (Biochemistry) Cell interaction Neural transmission
1776	Memometer: Strong PUF-Based Passive Memory Hardware Metering Methodology for Integrated Circuits Perumalla, Anvesh January 2021 (has links) No description available. Computer Engineering
1777	Víceúčelová sportovní hala / Multi-purpose sports building Mešťan, Vojtěch January 2012 (has links) The objective of this Master´s thesis is to create and examine two versions of the project for a bearing steel structure of a multi-purpose sports building) in Polička. The multi-purpose sports hall has dimensions 33 x 48 metres with a terraced floory part that has dimensions 18 x 24 metres. The hall is made of cross-links from lattice truss placed on fixed columns. The structure ridgidity is by wind braces. The storey part is made coupled steel-conrete slabs attached to the columns. The ridgidity of the storey part is provided by lattice braces in traverse and longitudinal direction. The thesis in its detail focuses on individual parts of the construction and is carried out in compliance with the Eurocodes
1778	MIKROPÁSKOVÉ FILTRY S VYUŽITÍM NARUŠENÉ ZEMNÍ PLOCHY / MICROSTRIP FILTERS USING DEFECTED GROUND STRUCTURE Vágner, Petr January 2009 (has links) The thesis deals with the microstrip filter design using defected ground structure (DGS). The difference between standard asymmetric microstrip technique and DGS is in using the structures etched in the microwave substrate ground plane. The DGS resonant characteristics are then used in filter design. The thesis consists of three factual parts. The first one (chapter 4) introduces the use of the DGS resonators in the lowpass filter design. It involves experimental analysis of one type of the lowpass filter. The second part (chapter 5) deals with a novel microstrip lowpass filter design method using DGS. The proposed method is verified by simulations and several samples are realized and measured. Finally, the third part (chapters 7 and 8) deals with the bandpass filter design using specific defected ground structure as a resonator. The resonators are used in a coupled resonator structure. Filters of various orders and resonator configurations are designed and simulated. A combination of the DGS resonators and half-wavelength microstrip resonators is introduced as well. Selected samples are realized and measurement results are compared with simulations.
1779	Grafický editor simulačních modelů / Graphical Editor of Simulation Models Hořák, Jan January 2008 (has links) This paper contains brief introduction into modeling and simulation using Discrete Event Specified System (DEVS) formalism. It defines basic models (atomic and coupled DEVS) and shows how they are simulated. Examples of derived DEVS formalism like parallel DEVS or DESS are also presented. It is described how to create DEVS models using graphic modeling software and advantages and disadvantages of this approach. A short summary of known programs are also covered. Storing models in the XML language, validation of XML document and transformation capabilities by XSLT are discussed. The main section is dedicated to the design of a graphic editor for simulation models inspired by design patterns including classes for canvas, model representation, export module interface and main application. The XML document used for storing DEVS models and simple DEVS simulator are also described. Implementation section presents used programming libraries, reasons why they have been used and their advantages and disadvantages. Paper ends with an example of a simple DEVS model created by implemented graphic editor for simulation DEVS models.
1780	Tunable High-Field/ High-Frequency ESR and High-Field Magnetization on Single-Molecule Clusters Golze, Christian 06 December 2007 (has links) In this work, low dimensional iron group clusters have been studied by application of high magnetic fields. The magnetization has been probed with an MPMS as function of temperature and field. The combination with pulse field measurements up to 52\,T allowed determination of the magnetic exchange coupling parameters, and to probing the effective spin of the ground state. The main focus was on tunable high-field/high-frequency (tHF) ESR in static fields &lt; 17 T and pulse field ESR up to 36 T. This magnetic resonance method has been used for the characterization of the local magnetic properties: The detailed analysis of the field dependence of dedicated spin states allowed to determine the magnetic anisotropy and g-factors. The results were analyzed in the framework of the appropriate effective spin Hamiltonians in terms of magnetization fits and ESR spectrum simulations. info:eu-repo/classification/ddc/530 ddc:530

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