@phdthesis{Schulz2016, author = {Schulz, Robert Frank}, title = {A radio view of high-energy emitting AGNs}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-137358}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2016}, abstract = {The most energetic versions of active galactic nuclei (AGNs) feature two highly-relativistic plasma outflows, so-called jets, that are created in the vicinity of the central supermassive black hole and evolve in opposite directions. In blazars, which dominate the extragalactic gamma-ray sky, the jets are aligned close to the observer's line of sight leading to strong relativistic beaming effects of the jet emission. Radio observations especially using very long baseline interferometry (VLBI) provide the best way to gain direct information on the intrinsic properties of jets down to sub-parsec scales, close to their formation region. In this thesis, I focus on the properties of three AGNs, IC 310, PKS 2004-447, and 3C 111 that belong to the small non-blazar population of gamma-ray-loud AGNs. In these kinds of AGNs, the jets are less strongly aligned with respect to the observer than in blazars. I study them in detail with a variety of radio astronomical instruments with respect to their high-energy emission and in the context of the large samples in the monitoring programmes MOJAVE and TANAMI. My analysis of radio interferometric observations and flux density monitoring data reveal very different characteristics of the jet emission in these sources. The work presented in this thesis illustrates the diversity of the radio properties of gamma-ray-loud AGNs that do not belong to the dominating class of blazars.}, subject = {Aktiver galaktischer Kern}, language = {en} } @phdthesis{Bankoglu2016, author = {Bankoglu, Ezgi Eyl{\"u}l}, title = {Oxidative status and genomic damage in an obesity model}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-137566}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2016}, abstract = {Several cohort studies showed that obesity increases the risk of chronic disease such as T2DM, hypertension and non-alcoholic fatty liver disease and various types of cancer. Different factors were described that might be involving in these diseases in obesity. Some of these suggested factors were chronic infection, elevated free fatty acids, increased ROS formation, mitochondrial dysfunction and raised NAPDH oxidase activity. Obesity is a multifactorial disease and it is very hard to distinguish between all of these factors. In this study, we wanted to focus on the association between obesity, oxidative stress and genomic damage in kidney, liver and colon, which are the most relevant organs for cancer risk according to the cohort studies. Our findings indicated elevated oxidative stress in kidney, liver and colon together with elevated lipid, RNA and DNA oxidation in the whole body. Additionally, we were able to show increased DNA damage in kidney, liver and colon. Since obesity has become an epidemic all over the world, possible therapeutic applications such as life style changes (diet and sport), pharmacological supplements and various type of surgeries are increasing. As a second question, we focused on the effect of weight loss, which is supplied either by Roux-en-Y gastric bypass surgery or by caloric restriction designed in a way to provide the same extent of weight loss, on oxidative stress and genomic damage. Our results indicated that weight loss either by gastric bypass surgery or by caloric restriction led to reduced oxidative stress and genomic damage in kidney, liver and colon. We could not find any difference between the weight loss methods, except the DNA oxidation and repair marker urinary 8-oxodG, which was still elevated after RYGB, but not after caloric restriction. It is known that hyperinsulinemia and in the long term T2DM are among the biggest concerns in obese individuals. Since we know the mutagenic potential of elevated insulin levels from previous data in our working group, the correlation between the highly mutagenic DNA DBSs marker, γ-H2AX and the plasma insulin level was tested and the findings indicated a positive correlation. In order to demonstrate the association between insulin-related oxidative stress and genomic damage, we used in vitro and in vivo models with Pten deficiency. In this part of study, the work was focused on liver. Pten is a known negative regulator of the PI3K/Akt pathway, which is responsible for the elevated NADPH oxidase activity and mitochondrial dysfunction through elevated insulin levels. Pten inhibition or deficiency were used to sensitize the system to insulin. Non-transformed immortalized human hepatocytes were used to show the mutagenic potential of elevated insulin and these in vitro data revealed once more the link between insulin signaling, elevated oxidative stress and genomic damage. Since the metabolic function of the liver is not only due to the extent of the hepatic insulin response but is also affected by systemic interactions, a whole-body Pten haplodeficient mouse model with an additional Pten+/-/Akt2-/- group was utilized for in vivo investigation of insulin-mediated toxicity. Our findings in this model suggested that Pten deficiency alone can cause an increase in oxidative stress. HFD alone was sufficient to increase the expression of HO-1 and genomic damage significantly. Moreover, the combination (whole-body Pten haplodeficient mice fed with HFD) showed significantly elevated oxidative stress and genomic damage in mouse liver. However, Akt2 knockout could only reduce the oxidative stress and DNA damage in high fat diet fed mice significantly. All these findings demonstrated that obesity can induce oxidative stress and genomic damage. Elevated insulin levels are associated with obesity-mediated oxidative stress and genomic damage. However, the underlying mechanisms are surely multifaceted and complicated. For example, Pten as oncogene might also induce other mechanisms besides the elevation of the PI3K/Akt pathway activity. In conclusion, it is clear that oxidative stress and DNA damage are linked to obesity and that weight loss can reduce these two factors. Since DNA-damage is associated with an elevated cancer risk, it might be logical to use an antioxidant therapy in obese individuals to reduce the side effects and oxidative stress dependent mutagenicity and cancer risk in these individuals. However, much more research will be needed to support this idea experimentally.}, subject = {{\"U}bergewicht}, language = {en} } @phdthesis{Wahl2016, author = {Wahl, Oliver}, title = {Impurity Profiling of Challenging Active Pharmaceutical Ingredients without Chromophore}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-137205}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2016}, abstract = {The impurity profiling of pharmaceutical ingredients can oppose many challenges. The best part of active pharmaceutical ingredients (APIs) and the related substances are detectable by UV detection, a very common detection principle. However, if an API lacks a suitable chromophore other means of detection are necessary. The corona charged aerosol detector (CAD) is a detector capable of detecting substances independent of their chemical structure. This "universal" detector has only one limitation: The analyte has to have a sufficiently low vapor pressure. Another important challenge that comes often together with the lack of a chromophore concerns the separation. These substances (e.g. most amino acids and derivatives) often contain structures that make them difficult to retain on conventional reversed phase columns. Possible solutions to overcome these challenges, like the application of the CAD and the benefit of so-called mixed-mode stationary phases in impurity profiling for pharmacopoeial purposes were explored in this work. The related substances analyzed in this thesis comprise amino acids, inorganic ions, bisphosphonic acids, basic and acidic derivatives of amino acids (esters and amides). The successful development and validation of mixed-mode liquid chromatography methods with CAD detection for carbocisteine and ibandronate sodium might help to increase the acceptance of this versatile detector in the pharmaceutical industry and in official authorities dealing with the determination of related substances. The combination of UV and CAD detection proved very useful during the analysis of Bicisate. Most of the related substances and some unidentified impurities were detectable by CAD whereas a synthesis by-product, a semi-volatile ester, was only detectable in the UV trace. The simple combination covers all relevant impurities in a single analysis. Two truly orthogonal methods regarding separation and detection for the enantiomeric purity of magnesium-L-aspartate helped to find the reason for elevated D aspartic acid content in the drug substance. A very quick and sensitive indirect separation using the OPA derivatization with NAC was developed as a powerful screening tool, whereas the direct separation of D- and L-CBQCA-Asp derivatives confirmed the results. Both methods were optimized in order to do without substances mentioned on the REACH list, like sodium tetraborate which is very frequently applied in standard derivatization protocols and CE separations. The importance of orthogonal detection principles in the determination of related substances of amino acids was discussed in a review article dealing with the revision of amino acid monographs in the Ph. Eur..}, subject = {Chromatographie}, language = {en} } @phdthesis{Eck2016, author = {Eck, Saskia}, title = {The impact of thermogenetic depolarizations of specific clock neurons on Drosophila melanogaster's circadian clock}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-137118}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2016}, abstract = {The rotation of the earth around its own axis determines periodically changing environmental conditions, like alterations in light and temperature. For the purpose of adapting all organisms' behavior, physiology and metabolism to recurring changes, endogenous clocks have evolved, which allow the organisms to anticipate environmental changes. In chronobiology, the scientific field dealing with the investigation of the underlying mechanisms of the endogenous clock, the fruit fly Drosophila melanogaster serves as a beneficial model organism. The fruit fly's circadian clock exhibits a rather simple anatomical organization, but nevertheless constitutes homologies to the mammalian system. Thus also in this PhD-thesis the fruit fly was used to decipher general features of the circadian clock's interneuronal communication. Drosophila melanogaster's circadian clock consists of about 150 clock neurons, which are located in the central nervous system of the fly. These clock neurons can be subdivided regarding to their anatomical position in the brain into the dorsal neurons (DN1s, DN2s, DN3s), as well as into the lateral neurons (LPNs, LNds, s-LNvs, l-LNvs). Functionally these clock neuron clusters can be classified as Morning- and Evening oscillators (M- and E- oscillators), driving different parts of the fly's locomotor activity in light-dark conditions (LD). The Morning-oscillators are represented by the s-LNvs and are known to be the main pacemakers, driving the pace of the clock in constant conditions (constant darkness; DD). The group of Evening-oscillators consists of the LNds, the DN1s and the 5th s-LNv and is important for the proper timing of the evening activity in LD. All of these clock neurons are not functionally independent, but form complex neuronal connections, which are highly plastic in their response to different environmental stimuli (Zeitgebers), like light or temperature. Even though a lot is known about the function and the importance of some clock neuron clusters, the exact interplay between the neurons is not fully known yet. To investigate the mechanisms, which are involved in communication processes among different clock neurons, we depolarized specific clock cells in a temporally and cell-type restricted manner using dTrpA1, a thermosensitive cation channel, which allows the depolarization of neurons by application of temperature pulses (TP) above 29°C to the intact and freely moving fly. Using different clock specific GAL4-driver lines and applying TPs at different time points within the circadian cycle in DD enabled us with the help of phase shift experiments to draw conclusions on the properties of the endogenous clock. The obtained phase shifts in locomotor behavior elicited by specific clock neuronal activation were plotted as phase response curves (PRCs). The depolarization of all clock neurons shifted the phase of activity the strongest, especially in the delay zone of the PRC. The exclusive depolarization of the M oscillators together with the l-LNvs (PDF+ neurons: s-LNvs \& l-LNvs) caused shifts in the delay and in the advance zone as well, however the advances were severely enhanced in their temporal occurrence ranging into the subjective day. We concluded that light might have inhibitory effects on the PDF+ cells in that particular part of the PRC, as typical light PRCs do not exhibit that kind of distinctive advances. By completely excluding light in the PRC-experiments of this PhD-thesis, this photic inhibitory input to the PDF+ neurons is missing, probably causing the broadened advance zone. These findings suggest the existence of an inhibitory light-input pathway to the PDF+ cells from the photoreceptive organs (Hofbauer-Buchner eyelet, photoreceptor cells of compound eyes, ocelli) or from other clock neurons, which might inhibit phase advances during the subjective day. To get an impression of the molecular state of the clock in the delay and advance zone, staining experiments against Period (PER), one of the most important core clock components, and against the neuropeptide Pigment Dispersing Factor (PDF) were performed. The cycling of PER levels mirrored the behavioral phase shifts in experimental flies, whereas the controls were widely unaffected. As just those neurons, which had been depolarized, exhibited immediate shifted PER oscillations, this effect has to be rapidly regulated in a cell-autonomous manner. However, the molecular link between clock neuron depolarization and shifts in the molecular clock's cycling is still missing. This issue was addressed by CREB (cAMP responsive element binding protein) quantification in the large ventrolateral neurons (l-LNvs), as these neurons responded unexpectedly and strongest to the artificial depolarization exhibiting a huge increase in PER levels. It had been previously suggested that CREB is involved in circadian rhythms by binding to regulatory sequences of the period gene (Belvin et al., 1999), thus activating its transcription. We were able to show, that CREB levels in the l-LNvs are under circadian regulation, as they exhibit higher CREB levels at the end of the subjective night relative to the end of the subjective day. That effect was further reinforced by artificial depolarization, independently of the time point of depolarization. Furthermore the data indicate that rises in CREB levels are coinciding with the time point of increases of PER levels in the l-LNvs, suggesting CREB being the molecular link between the neuronal electrical state and the molecular clock. Taking together, the results indicate that a temporal depolarization using dTrpA1 is able to significantly phase shift the clock on the behavioral and protein level. An artificial depolarization at the beginning of the subjective night caused phase delays, whereas a depolarization at the end of the subjective night resulted in advances. The activation of all clock neurons caused a PRC that roughly resembled a light-PRC. However, the depolarization of the PDF+ neurons led to a PRC exhibiting a shape that did not resemble that of a light-mediated PRC, indicating the complex processing ability of excitatory and inhibitory input by the circadian clock. Even though this experimental approach is highly artificial, just the exclusion of light-inputs enabled us to draw novel conclusions on the network communication and its light input pathways.}, subject = {Chronobiologie}, language = {en} } @phdthesis{Gershberg2016, author = {Gershberg, Jana}, title = {Self-assembled Perylene Bisimide Dimers and their Interaction with Double-stranded DNA}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-136725}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2016}, abstract = {The self-assembly of molecules based on π-π-interactions and hydrogen bonding is of significant importance in nature. These processes enable the formation of complex supramolecular structures with diverse functions. For the transfer of the concepts from nature to artificial supramolecular structures, a basic understanding of those processes is needed. For this purpose, π-conjugated aromatic molecules with an easy synthetic access are suitable as their functionalities can be changed effortless. Perylene bisimide (PBIs) dyes are attractive candidates since they fulfill these requirements owing to their tendency to self-assemble in solution due to their large aromatic π-surfaces. Furthermore, the changes of the optical properties (for instance absorption, emission or circular dichroism) of PBI dyes, caused by their self-assembly, are easy to study experimentally. Structural variations of PBI dyes including additional non-covalent interactions, such as hydro-gen bonding, enable to direct their self-assembly process. Thus, the formation of interesting su-pramolecular structures of PBI dyes could be realized, although, often of undefined size. The aim of this thesis was to develop strategies to restrict the aggregate size of PBI dyes. Therefore, de-fined structural features of PBI molecules were combined and a variation of external influences such as solvent and concentration included. Furthermore, DNA was utilized as a template for the limitation of the aggregate size of PBI dyes. Chapters 1 and 2 provide general information and describe examples from literature which are necessary to understand the following experimental work. The first chapter is based on the inter-actions of various molecules with DNA. Therefore, DNA is considered as a supramolecular biom-acromolecule containing specific structural and functional features to interact with small mole-cules. Afterwards, the main interaction modes of small molecules with DNA such as electrostatic interaction, intercalation and groove binding with corresponding examples are discussed. Among all techniques applied to study the interaction of ligands with DNA, UV/Vis absorption, fluores-cence and circular dichroism spectroscopy were described in detail. At the end of this chapter, examples of already pre-associated systems showing interactions with DNA are presented. The second chapter is focused on the determination and mathematic evaluation of the self-assembly processes. The simplest models such as monomer-dimer and isodesmic model are de-scribed and supplemented by examples. Furthermore, the simplest modification of the isodesmic model, the K2-K model, is presented. Additionally, experimental problems, which may arise dur-ing the investigations of the self-assembly processes, are addressed. For the description of the entire self-assembly process, a sufficiently large concentration range and an appropriate measure-ment method that is sensitive in this concentration range is necessary. Furthermore, the full transi-tion from the monomeric to the aggregated species has to be spectroscopically ascertainable. This enables an accurate mathematic evaluation of the self-assembly process and provides meaningful binding constants. The self-assembly pathway can be controlled by the variation of solvent, con-centration or temperature. However, this pathway can also be directed by a rational design of the molecular structure of the considered system. For example, a specific interplay of π-π-interactions and hydrogen bonding may promote isodesmic as well as cooperative growth into large struc-tures. The main focus of this thesis is to develop strategies to control the aggregate size of PBI dyes (Chapter 3). For this purpose, a PBI scaffold was designed which contains hydrogen bonding amide functions at the imide positions derived from the amino acid L-alanine and solubilizing side groups in the periphery (Figure 81). The variations of the residues R/R' range from didodecylox-yphenyl, didodecylphenyl, dioligo(ethylene glycol)phenyl to branched and linear alkyl chains. The most extensive study of the aggregation behavior was performed for the PBI dye 5. Concen-tration-dependent 1H NMR and UV/Vis absorption measurements clearly revealed the formation of dimers in chloroform. Further investigations by means of 2D NMR, VPO and ITC confirmed the exclusive presence of dimer aggregates of PBI 5 in the investigated concentration range. Mo-lecular modelling studies, supported by NMR and FT-IR experiments, provided structural reasons for the absence of further growth into larger aggregates. The specific combination of π-π interac-tions and hydrogen bonds between the NH groups of the amide groups and the carbonyl oxygen atoms of the PBI core are decisive for the formation of the discrete dimer stack (see Figure 82). The investigations of the aggregation behavior of PBIs 6-9 were less extensive but consistent with the results obtained for PBI 5. However, the determined binding constants vary over a considera-ble range of 1.1 x 102 M-1 (PBI 8) to 1.4 x 104 M-1 (PBI 5). These differences could be attributed to structural variations of the dyes. The electron-rich phenyl substituent promoted the aggregation tendency of PBIs 5-7 compared with 8 and 9 that carry only alkyl side chains. Thus, the π-π in-teractions of bay-unsubstituted PBI cores in combination with hydrogen bonding of the amide functions control the formation of discrete dimers of these PBI dyes. The variation of conditions, such as solvent, change the aggregation behavior of PBI dyes. In the solvents toluene and/or methylcyclohexane, anti-cooperative growth into larger aggregates of PBI 5 was observed (Chapter 4). The important feature of this self-assembly process is the absence of isosbestic points over the whole concentration range in the UV/Vis absorption measurements. The preference for the dimeric species of PBI 5 remained in both solvents as well as in mixtures of them, but upon increasing the concentration these dimers self-assemble into larger aggregates. An important feature of the self-assembly process is the preferred formation of even-numbered aggregates compared to the odd-numbered ones (see Figure 83). Although, the conventional K2-K model provides plausible binding constants, it is not capable to describe the aggregation behavior adequately, since it considers a continuous size distribution. The gradual aggregation process over dimers, tetramers, hexamers, etc. was therefore analyzed with a newly developed K2-K model for anti-cooperative supramolecular polymerization. By the global analysis of the UV/Vis absorption spectra a very good agreement between the experimental and simulated spectra, which were based on the new K2-K model, was obtained. Furthermore, the calculated UV/Vis absorption spectra of a dimer and an aggregate highlighted the most important structural differences. The absorption spectrum of the dimer still has a pronounced vibronic structure which gets lost in the spectrum of the aggregate. In another part of this work, a series of water soluble PBI dyes were described which contain similar PBI scaffolds as PBIs 5-8 (Chapter 5). These PBI dyes self-assemble into similar dimer aggregates in water due to their positively charged side chains causing electrostatic repulsion be-tween the molecules (see Figure 84). Here, however, the self-assembly behavior has not been studied thoroughly in water due to the similarities of already reported PBI dyes. Instead, the focus here is on the characterization of the interactions of these dyes with DNA/RNA. The comprehensive studies using thermal denaturation experiments showed the high stability of these PBI/polynucleotide complexes. The spermine-functionalized PBI dyes having six positive charges showed strong interactions with DNA/RNA which was expressed in a signif-icant increase of the melting temperatures of DNA/RNA (ΔTm values between 7 and > 35 ° C). The dioxa analogues containing only two positive charges had lower enhancement of the melting temperature of DNA/RNA (ΔTm values between 3 and 30 ° C). A similar trend has been observed in the fluorimetric titrations. The spermine-functionalized PBI dyes showed high binding con-stants (log Ks = 9.2 - 9.8), independently of the used polynucleotides. In contrast, the dioxa ana-logues displayed smaller binding constants (log Ks = 6.5 - 7.9) without any correlation between binding affinity and binding strength of the PBI dyes and the applied polynucleotides. The CD-spectroscopic measurements revealed significant differences in the binding properties of the dyes with DNA/RNA. They were dependent on the steric hindrance of the amino acid residues at the imide position and their configuration on one side and the grooves properties of ds-DNA/RNA on the other side. The spectroscopic results confirmed the formation of excitonically coupled PBI dimers in the minor groove of ds-DNA and the major groove of ds-RNA. Depending on the se-quence, the grooves of the polynucleotides provide different amount of space for embedding molecules. The guanine amino groups protrude into the minor groove of the polynucleotide poly(dG-dC)2 increasing the steric hindrance, which is not the case for poly(dA-dT)2. Molecular modeling studies showed that the PBI dimers penetrate deeper into the groove of poly(dA-dT)2 due to the absence of the steric hindrance, in comparison to the groove of poly(dG-dC)2 (see Figure 85).}, subject = {Perylentetracarbons{\"a}urederivate}, language = {en} } @phdthesis{Ceymann2016, author = {Ceymann, Harald}, title = {Synthesis and Optical Spectroscopic Properties of Squaraine Superchromophores}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-136850}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2016}, abstract = {In this work the successful synthesis, the linear and nonlinear spectroscopic properties as well as the electrochemical behaviour of some linear and star-shaped squaraine superchromophores that are based on indolenine derivatives were presented. The attempt to synthesise similar chromophores which contained only benzothiazole squaraines failed unfortunately. However, one trimer that contained mixed benzothiazole indolenine squaraines could be synthesised and investigated as well. The linear spectroscopic properties, like red-shift and broadening of the absorption, of all superchromophores could be explained by exciton coupling theory. The heterochromophores (SQA)2(SQB)-N, (SQA)(SQB)2-N and (SQA)(SQB)-NH displayed additional to the typical squaraine fluorescence from the lowest excited state some properties that could be assigned to localised states. While the chromophores with N-core showed very small emission quantum yields, the chromophores with the other cores and the linear oligomers display an enhancement compared to the monomers. Transient absorption spectroscopy experiments of the star-shaped superchromophores showed, that their formally degenerated S1 states are split due to a deviation of the ideal C3 symmetry. This is also the reason for the observation of an absorption band for the highest exciton state, which is derived from the S1-state of the monomers, as its transition-dipole moment would be zero in the symmetrical case. The linear oligomers and the star-shaped superchromophores with a benzene or triarylamine core showed at least additive, sometimes even weak cooperative, behaviour in the two-photon absorption experiments. Additional to higher two-photon absorption cross sections the chromophores showed a pronounced broadening of the nonlinear absorption, due to symmetry breaking and a higher density of states. Unfortunately it was not possible to solve the problem of the equilibrium of the cisoid and the transoid structure of donor substituted azulene squaraines, due to either instability of the squaraines or steric hindrance.}, subject = {Squaraine}, language = {en} } @phdthesis{Zott2016, author = {Zott, Maximilian}, title = {Extreme Value Theory in Higher Dimensions - Max-Stable Processes and Multivariate Records}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-136614}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2016}, abstract = {Die Extremwerttheorie behandelt die stochastische Modellierung seltener und extremer Ereignisse. W{\"a}hrend fundamentale Theorien in der klassischen Stochastik, wie etwa die Gesetze der großen Zahlen oder der zentrale Grenzwertsatz das asymptotische Verhalten der Summe von Zufallsvariablen untersucht, liegt in der Extremwerttheorie der Fokus auf dem Maximum oder dem Minimum einer Menge von Beobachtungen. Die Grenzverteilung des normierten Stichprobenmaximums unter einer Folge von unabh{\"a}ngigen und identisch verteilten Zufallsvariablen kann durch sogenannte max-stabile Verteilungen charakterisiert werden. In dieser Dissertation werden verschiedene Aspekte der Theorie der max-stabilen Zufallsvektoren und stochastischen Prozesse behandelt. Insbesondere wird der Begriff der 'Differenzierbarkeit in Verteilung' eines max-stabilen Prozesses eingef{\"u}hrt und untersucht. Ferner werden 'verallgemeinerte max-lineare Modelle' eingef{\"u}hrt, um einen bekannten max-stabilen Zufallsvektor durch einen max-stabilen Prozess zu interpolieren. Dar{\"u}ber hinaus wird der Zusammenhang von extremwerttheoretischen Methoden mit der Theorie der multivariaten Rekorde hergestellt. Insbesondere werden sogenannte 'vollst{\"a}ndige' und 'einfache' Rekorde eingef{\"u}hrt, und deren asymptotisches Verhalten untersucht.}, subject = {Stochastischer Prozess}, language = {en} } @phdthesis{Schindele2016, author = {Schindele, Andreas}, title = {Proximal methods in medical image reconstruction and in nonsmooth optimal control of partial differential equations}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-136569}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2016}, abstract = {Proximal methods are iterative optimization techniques for functionals, J = J1 + J2, consisting of a differentiable part J2 and a possibly nondifferentiable part J1. In this thesis proximal methods for finite- and infinite-dimensional optimization problems are discussed. In finite dimensions, they solve l1- and TV-minimization problems that are effectively applied to image reconstruction in magnetic resonance imaging (MRI). Convergence of these methods in this setting is proved. The proposed proximal scheme is compared to a split proximal scheme and it achieves a better signal-to-noise ratio. In addition, an application that uses parallel imaging is presented. In infinite dimensions, these methods are discussed to solve nonsmooth linear and bilinear elliptic and parabolic optimal control problems. In particular, fast convergence of these methods is proved. Furthermore, for benchmarking purposes, truncated proximal schemes are compared to an inexact semismooth Newton method. Results of numerical experiments are presented to demonstrate the computational effectiveness of our proximal schemes that need less computation time than the semismooth Newton method in most cases. Results of numerical experiments are presented that successfully validate the theoretical estimates.}, subject = {Optimale Kontrolle}, language = {en} } @phdthesis{Koenig2016, author = {K{\"o}nig, Sebastian}, title = {Spatially selective visual attention in Drosophila melanogaster}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-134452}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2016}, abstract = {Finding the right behavior at the right time is one of the major tasks of brains. In a natural scenery there is often an abundance of stimuli present and the brain has to separate the relevant from the irrelevant ones. Selective visual attention (SVA) is a property of higher visual systems that achieves this separation, as it allows to '[…] focus on one source of sensory input to the exclusion of others' (Luck and Mangun, 1996). There are probably several forms of SVA depending upon the criteria used for the separation, such as salience, color, location in space, novelty, or motion. Many studies have investigated SVA in humans and non-human primates. However, complex functions like attention were initially not expected to be already implemented in the brains of simple organisms like Drosophila. After a first demonstration of selective attention in the fly (Wolf and Heisenberg, 1980), it took some time until other studies included attentional mechanisms in their argumentation to explain certain behaviors of Drosophila. However, their definition and characterization of attention differed and often was ambiguous. Here, one particular form, spatially selective visual attention in the fly Drosophila is investigated. It has been shown earlier that the fly spontaneously may restrict its behavioral responses in stationary flight to the visual stimuli on one side of the visual field. On the basis of experiments of Sareen et al., (2011) it has been conjectured that the fly has a focus of attention (FoA) and that the fly responds to the visual stimuli within this area of the visual field. Whether the FoA is the adequate concept for this spatial property of SVA in the fly needs to be further discussed and is a subject also of the present study. At this stage, the concept will be used in the description of the new results expanding the characterization of SVA. This study continued the investigation of SVA during tethered flight with variable but controlled visual input and an automated primary data evaluation. This standardized paradigm allowed for analysis of wild-type behavior as well as for a comparison of several mutant and pharmacologically manipulated strains to the wild-type. Some properties of human SVA like the occurrence of externally as well as internally caused shifts of attention were found in Drosophila and it could be shown, that SVA in the fly can be externally guided and has an attention span. Additionally, a neurotransmitter and proteins, which play a significant role in SVA were discovered. Based on this, the genetic tools available for Drosophila provided the means to a first examination of cells and circuits involved in SVA. Finally, the free walk behavior of flies that had been shown to have compromised SVA was characterized. The results suggested that the observed phenotypes of SVA were not behavior specific. Covert shifts of the FoA were investigated. The FoA can be externally guided by visual cues to one or the other side of the visual field and even after the cue has disappeared it remains there for <4s. An intriguing finding of this study is the fact, that the quality of the cue determines whether it is attractive or repellent. For example a cue can be changed from being repellent (negative) to being attractive (positive) by changing its oscillation amplitude from 4° to 2°. Testing the effectiveness of cues in the upper and lower visual field separately, revealed that the perception of a cue by the fly is not exclusively based on a sum of its specifications. Because positive cueing did not have an after-effect in each of the two half-fields alone, but did so if the cue was shown in both, the fly seems to evaluate the cue for each combination of parameters specifically. Whether this evaluation of the cue changed on a trial-to-trial basis or if the cue in some cases failed to shift the FoA can at this point not be determined. Looking at the responses of the fly to the displacement of a black vertical stripe showed that they can be categorized as no responses, syn-directional responses (following the direction of motion of the stripe) and anti-directional responses (in the opposite direction of the motion of the stripe). The yaw-torque patterns of the latter bared similarities with spontaneous body saccades and they most likely represented escape attempts of the fly. Syn-directional responses, however, were genuine object responses, distinguishable by a longer latency until they were elicited and a larger amplitude. These properties as well as the distribution of response polarities were not influenced by the presence or absence of a cue. When two stripes were displaced simultaneously in opposite directions the rate of no responses increased in comparison to the displacement of a single stripe. If one of the stripes was cued, both, the responses towards and away from the side of cue resembled the syn-directional responses. Significant progress was made with the elucidation of the neuronal underpinnings of SVA. Ablation of the mushroom bodies (MB) demonstrated their requirement for SVA. Furthermore, it was shown that dopamine signaling has to be balanced between too much and too little. Either inhibiting the synthesis of dopamine or its re-uptake at the synapse via the dDAT impaired the flies' susceptibility to cueing. Using the Gal4/UAS system, cell specific expression or knockdown of the dDAT was used to scrutinize the role of MB sub-compartments in SVA. The αβ-lobes turned out to be necessary and sufficient to maintain SVA. The Gal4-line c708a labels only a subset of Kenyon cells (KC) within the αβ-lobes, αβposterior. These cells stand out, because of (A) the mesh-like arrangement of their fibers within the lobes and (B) the fact that unlike the other KCs they bypass the calyx and thereby the main source of olfactory input to the MBs, forming connections only in the posterior accessory calyx (Tanaka et al., 2008). This structure receives no or only marginal olfactory input, suggesting for it a role in tasks other than olfaction. This study shows their requirement in a visual task by demonstrating that they are necessary to uphold SVA. Restoring dDAT function in these approximately only 90 cells was probably insufficient to lower the dopamine concentration at the relevant synapses and hence a rescue failed. Alternatively, the processes mediating SVA at the αβ-lobes might require an interplay between all of their KCs. In conclusion, the results provide an initial point for future research to fully understand the localization of and circuitry required for SVA in the brain. In the experiments described so far, attention has been externally guided. However, flies are also able to internally shift their FoA without any cues from the outside world. In a set of 60 consecutive simultaneous displacements of two stripes, they were more likely to produce a response with the same polarity as the preceding one than a random polarity selection predicted. This suggested a dwelling of the FoA on one side of the visual field. Assuming that each response was influenced by the previous one in a way that the probability to repeat the response polarity was increased by a certain factor (dwelling factor, df), a random selection of response type including a df was computed. Implementation of the df removed the difference between observed probability of polarity repetition and the one suggested by random selection. When the interval between displacements was iteratively increased to 5s, no significant df could be detected anymore for pauses longer than 4s. In conclusion, Drosophila has an attention span of approximately 4s. Flies with a mutation in the radish gene expressed no after-effect of cueing and had a shortened attention span of about 1s. The dDAT inhibitor methylphenidate is able to rescue the first, but does not affect the latter phenotype. Probably, radish is differently involved in the two mechanisms. This study showed, that endogenous (covert) shifts of spatially selective visual attention in the fly Drosophila can be internally and externally guided. The variables determining the quality of a cue turned out to be multifaceted and a more systematic approach is needed for a better understanding of what property or feature of the cue changes the way it is evaluated by the fly. A first step has been made to demonstrate that SVA is a fundamental process and compromising it can influence the characteristics of other behaviors like walking. The existence of an attention span, the dependence of SVA on dopamine as well as the susceptibility to pharmacological manipulations, which in humans are used to treat respective diseases, point towards striking similarities between SVA in humans and Drosophila.}, subject = {Taufliege}, language = {en} } @phdthesis{Gradmann2016, author = {Gradmann, Rena}, title = {Analysis of Historical Islamic Glazes and the Development of a Substitution Material}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-136233}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2016}, abstract = {11 Conclusion 11.1 Glaze compositions Glazes from tiles of imposing Islamic buildings and some tableware glazes of the medieval epoch in Central Asia, the Middle East, Asia Minor, and North Africa are analysed regarding their main composition and colouring agents. Three major production recipes can be distinguished, i.e. alkali glazes, alkali lead glazes, and lead glazes. In the work of Tite (2011), Islamic glazes from Egypt, Iran, Iraq, and Syria are subdivided into four groups of composition, being partly consistent with those of this work. The alkali lime glazes with <2 wt\% PbO correspond to the alkali glazes, but with higher content of CaO. The second and third group of low lead alkali and lead alkali glazes (2-10 wt\% PbO and 10-35 wt\% PbO) can be subsumed to the alkali lead group described here. Tite´s high lead group has PbO contents >35 wt\% and is comparable to the lead glazes (>30 wt\% PbO) of this study. The lead and the alkali oxides serve as a flux for the lowering the melting point. In the interaction of ceramic body and glaze, primarily an influence from Si, Al, and K is observed in the line scans from the cross section of ceramic and glaze. However, the input of ceramic material doesn't seem to be critical for the classification of glazes according to their alkali and alkali lead compositions. In every epoch and locality, except of the Ilkhanate dynasty in Iran, lead glaze samples can be verified. This is also observed in previous investigations e.g. from medieval Iraq, Jordan and Iran (McCarthy, 1996; Al-Saad, 2002; Holakooei et al., 2014). In the Moroccan and Bulgarian glazes, lead seems to be the only important flux. In part, the lead flux is supplemented by additional alkali contents. The lack of alkali and alkali lead glazes in Bulgarian and Moroccan glazes (assuming that the Ottoman alkali lead glazes are imported tableware) seems to affect the regions with Roman-influenced history and with geographical distance to the Near East alkali flux tradition. For the alkali lead glazes and alkali glazes, the overall characteristic is sodium dominated, although the absolute soda values are in part surprisingly low. Samples from Bukhara, Takht-i-Suleiman and the Turkish localities have the highest, but still moderate Na2O values up to 15 wt\%, compared to other analyses from e.g. India (Gill \& Rehren, 2011). The source of the alkali flux is either mineral natron or plant ash. The source can be determined regarding the MgO values, limited to 1.3 wt\% in mineral natron and exceeding 2.0 wt\% in the case of plant ashes. In the samples of the present study, the K2O component is not suitable for the indication of the flux-relevant alkali source due to its broad scattering. The P2O5 contents are also enhanced in the plant ash compositions but the data set is not sufficient for statistical evaluation. An influence of the ceramic body on the glaze composition is observed only for SiO2, Al2O3, and K2O in quartz frit ceramics with slight K-feldspar content. The earliest Uzbek tableware glazes from the 10th-11th century (Seljuq period) were generally produced using a lead flux. The same applies to part of the Uzbek tile glazes which were produced between the 13th and 16th century. In Iran, glazes from the 12th century (Khwarezmid period) are lead glazes, but also alkali-fluxed glazes with mineral natron characteristics can be found. Although the production of lead-rich glazes was established from the 8th-9th century on in Iraq, Syria, and Egypt (Henshaw, 2010; Tite et al., 2011), alkali glazes are found in almost all regions except of Bulgaria and Morocco. Plant ash-fluxed alkali glazes are found in 13th century glazes from Takht-i-Suleiman. The plant ash flux technology is assumed to be continuously used in Mesopotamia, Iran, and Central Asia (Sayre \& Smith, 1974; Henderson, 2009), but it could be shown that a parallel use of mineral natron parallel existed in the alkali glaze production from the 12th-15th century from Uzbekistan to Afghanistan. Mineral natron characteristics are also reported by Mason (2004) for Syrian and Iranian alkali glazes on lustre ware of the 8th-14th century. Tile glazes with partly mineral natron compositions are found in the Mughal architectural glazes from the 14th- 17th century from India (Gill et al., 2014). Alkali and alkali lead tile glazes from Samarkand from the 13th century (Mongolian period) have mineral natron flux characteristics, but samples from the 15th century (Timurid period) show plant ash signature. Alkali fluxed Uzbek glazes from Bukhara from the 16th century (Sheibanid dynasty) are also made by plant ash flux and are subdivided into two groups with high and low sodium oxide content. The Afghan alkali glazes have sodium oxide contents similar to the sodium-poor Uzbek subgroup, which points to a possible exchange of glaze makers or glaze making technology from Uzbekistan and Afghanistan in the 15th-17th century. Regarding the extensive exchange of Timurid craftsmen in Central Asia, this option seems to be even more likely (Golombek, 1996). One sample from the 15th century from Afghanistan with mineral natron reveals that this material was parallel used in these centuries. Concerning the colouring of the glazes, it has to be distinguished between pigments and colouring ions which are incorporated in the glassy matrix. The colouring agents for translucent glazes are cations of various transition metals. As ions, Co2+ (blue), Cu2+ (green in a lead rich matrix), Fe3+ (brown/black), Mn4+ (brown/black) and Mn3+ (violet) are determined by EPMA. For opaque yellow, white, and turquoise glazes, different pigments were used. The crystalline pigments are investigated by a µ XRD2 device with the result of SnO2, SiO2, and PbSiO4 as whitening agents. PbSiO4 and Pb2Sn2O6 are found in the yellow glaze, from which only the lead tin oxide causes the yellow colour. In the black glazes, different Cr-rich pigments, Cu-Cr-Mn-oxides and iron containing clinopyroxenes are found, even in samples of the same period and region. Cr-rich particles are also detected in two turquoise Afghan glazes from the 15th and 16th century. The use of the ions of Fe, Cu, Co, Cr, and Mn seems to be widely common in the Islamic glazes and corresponds to the described colouring agents in e.g. the study of Tite (2011). The use of opacifying SnO2 particles is widespread as it is reported from different Islamic glazes from Iraq, Iran, Egypt, and Syria (Henshaw, 2010; O´Kane, 2011; Tite, 2011). The colouring agents are known already from former, e.g. Egyptian, Roman and pre-islamic periods, but especially SnO2 pigments became increasingly widespread in the Islamic glazing tradition. The use of yellow and black pigments instead varies already within the buildings from Bukhara from Cr crystals and clino-pyroxenes in the mosque Khoja Zainuddin to a Cu-Cr-Mn-oxide in the madrassa Mir-i Arab of the same epoch. Regarding the matrix compositions connected with the colouring, a certain assignment within the different locations and epochs can be seen. It is noticeable that e.g. the content of lead in turquoise glazes in Uzbekistan is in the range of 0.0-9.2 wt\% Pb, whereas blue glazes are mostly alkali ones with PbO contents <2.0 wt\%. The turquoise glazes show, that this restriction is not influenced by any defaults of availability and processability. The assumption of common addition of lead and tin to the glaze, which is already described for Iranian glazes of the 13th century (Allan et al., 1973) cannot be confirmed by correlations of tin and lead oxide in the compositions. 11.2 Portable XRF measurement With the p-XRF, semi-quantitative information about the major element compositions is generated. The depth of the detectable signals depends on the analysed sample setup. The p-XRF data are collected with the XL3 Hybrid device of the company Analyticon Instruments. In the comparison of p-XRF results of the "mining" program from Uzbek glazes with EPMA results, the same major composition groups can be distinguished. The Moroccan glazes, all lead rich, are measured with the "mining" as well as with the "soil" program, revealing a better performance in the "mining" measurements. The deviations are nevertheless high, because of the high lead contents, which make the calculation of matrix correction difficult. The measurement of the colouring oxides MnO2, CoO, and CuO is satisfying with the internal calibration of the device and even improved with the "mining" program measurement, if compared to the results of the "soil" program. The measurements of glaze imitations lead to better results than that of bulk glass. This can be attributed to the smoother surface texture. In spite of the accuracy limits in the measurements of particular elements in glazes, the classification of flux composition into three groups could be confirmed with the p XRF analysis. The measurement precision is therefore sufficient for the semi-quantitative analysis of the flux characteristic of glazes. Especially for the on-site measurement of large sample quantities on historical buildings, the device is a suitable tool. 11.3 Restoration material The ORMOCER® fulfils the requirements of stability, reversibility, and transparency, which are imposed to a modern restoration material. As pigments, historically coloured glass, cobalt blue, Egyptian blue, lead tin yellow, manganese violet, iron oxide, copper oxide, and cassiterite were used. The metal compounds have higher colour intensities than the pigments of coloured glass. It has to be considered that the proportion of ORMOCER® in the batch must be high enough (70 vol\%) to guarantee the ORMOCER® properties of weathering and mechanical stability. The adhesion properties of the ORMOCER® and the homogeneity of the mixture are the best in a fraction of max. 30 vol\% particles per ORMOCER®. With integrated particles, the ORMOCER® G materials show homogeneous coatings, whereas the particles in the ORMCOER® E show more agglomeration. In the sedimentation and weathering experiments, the use of an ultrasonic finger in combination with a roller mill is favourable compared to the treatment with bead grinding mill. The treatments with ultrasonic finger and roller mill result in less sedimentation and better adhesion of the dispersions. The treatment of the dispersions in the bead grinding mill does not result in sufficient adhesion, certainly due to the sedimentation behaviour and a congregation of particles on the bottom of the coating. The modification of dispersed nano-particles by 3-methacryl-oxypropyltrimethoxysilan leads to a further homogenization in the sedimentation tests. It is therefore approved for the use in coloured glaze supplements. In weathered coatings of nano-particle compounds, the surface modification shows certainly no enhancement of stability. The treatment of pigmented coatings with an additional layer of pure ORMOCER® results in a bright and transparent appearing, which is closer to the original optical appearance of the glaze. A long-time test application on a historical building will be the next step to validate the suitability of the restoration material.}, subject = {Glasur}, language = {en} } @phdthesis{Koch2016, author = {Koch, Federico Juan}, title = {Structure-Dependent Ultrafast Relaxation Dynamics in Multichromophoric Systems}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-136306}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2016}, abstract = {Time-resolved spectroscopy allows for analyzing light-induced energy conversion and chromophore-chromophore interactions in molecular systems, which is a prerequisite in the design of new materials and for improving the efficiency of opto-electronic devices. To elucidate photo-induced dynamics of complex molecular systems, transient absorption (TA) and coherent two-dimensional (2D) spectroscopy were employed and combined with additional experimental techniques, theoretical approaches, and simulation models in this work. A systematic series of merocyanines, synthetically varied in the number of chromophores and subsitution pattern, attached to a benzene unit was investigated in cooperation with the group of Prof. Dr. Frank W{\"u}rthner at the University of W{\"u}rzburg. The global analysis of several TA experiments, and additional coherent 2D spectroscopy experiments, provided the basis to elaborate a relaxation scheme which was applicable for all merocyanine systems under investigation. This relaxation scheme is based on a double minimum on the excited-state potential energy surface. One of these minima is assigned to an intramolecular charge-transfer state which is stabilized in the bis- and tris-chromophoric dyes by chromphore-chromophore interactions, resulting in an increase in excited-state lifetime. Electro-optical absorption and density functional theory (DFT) calculations revealed a preferential chromophore orientation which compensates most of the dipole moment of the individual chromophores. Based on this structural assignment the conformationdependent exciton energy splitting was calculated. The linear absorption spectra of the multi-chromophoric merocyanines could be described by a combination of monomeric and excitonic spectra. Subsequently, a structurally complex polymeric squaraine dye was studied in collaboration with the research groups of Prof. Dr. Christoph Lambert and Prof. Dr. Roland Mitric at the University of W{\"u}rzburg. This polymer consists of a superposition of zigzag and helix structures depending on the solvent. High-level DFT calculations confirmed the previous assignment that zigzag and helix structures can be treated as J- and H-aggregates, respectively. TA experiments revealed that in dependence on the solvent as well as the excitation energy, ultrafast energy transfer within the squaraine polymer proceeds from initially excited helix segments to zigzag segments or vice versa. Additionally, 2D spectroscopy confirmed the observed sub-picosecond dynamics. In contrast to other conjugated polymers such as MEH-PPV, which is investigated in the last chapter, ultrafast energy transfer in squaraine polymers is based on the matching of the density of states between donor and acceptor segments due to the small reorganization energy in cyanine-like chromophores. Finally, the photo-induced dynamics of the aggregated phase of the conjugated polymer MEH-PPV was investigated in cooperation with the group of Prof. Dr. Anna K{\"o}hler at the University of Bayreuth. Our collaborators had previously described the aggregation of MEH-PPV upon cooling by the formation of so-called HJ-aggregates based on exciton theory. By TA measurements and by making use of an affiliated band analysis distinct relaxation processes in the excited state and to the ground state were discriminated. By employing 2D spectroscopy the energy transfer between different conjugated segments within the aggregated polymer was resolved. The initial exciton relaxation within the aggregated phase indicates a low exciton mobility, in contrast to the subsequent energy transfer between different chromophores within several picoseconds. This work contributes by its systematic study of structure-dependent relaxation dynamics to the basic understanding of the structure-function relationship within complex molecular systems. The investigated molecular classes display a high potential to increase efficiencies of opto-electronic devices, e.g., organic solar cells, by the selective choice of the molecular morphology.}, subject = {Femtosekundenspektroskopie}, language = {en} } @phdthesis{Fuchs2016, author = {Fuchs, Moritz Jakob}, title = {Spin dynamics in the central spin model: Application to graphene quantum dots}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-136079}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2016}, abstract = {Due to their potential application for quantum computation, quantum dots have attracted a lot of interest in recent years. In these devices single electrons can be captured, whose spin can be used to define a quantum bit (qubit). However, the information stored in these quantum bits is fragile due to the interaction of the electron spin with its environment. While many of the resulting problems have already been solved, even on the experimental side, the hyperfine interaction between the nuclear spins of the host material and the electron spin in their center remains as one of the major obstacles. As a consequence, the reduction of the number of nuclear spins is a promising way to minimize this effect. However, most quantum dots have a fixed number of nuclear spins due to the presence of group III and V elements of the periodic table in the host material. In contrast, group IV elements such as carbon allow for a variable size of the nuclear spin environment through isotopic purification. Motivated by this possibility, we theoretically investigate the physics of the central spin model in carbon based quantum dots. In particular, we focus on the consequences of a variable number of nuclear spins on the decoherence of the electron spin in graphene quantum dots. Since our models are, in many aspects, based upon actual experimental setups, we provide an overview of the most important achievements of spin qubits in quantum dots in the first part of this Thesis. To this end, we discuss the spin interactions in semiconductors on a rather general ground. Subsequently, we elaborate on their effect in GaAs and graphene, which can be considered as prototype materials. Moreover, we also explain how the central spin model can be described in terms of open and closed quantum systems and which theoretical tools are suited to analyze such models. Based on these prerequisites, we then investigate the physics of the electron spin using analytical and numerical methods. We find an intriguing thermal flip of the electron spin using standard statistical physics. Subsequently, we analyze the dynamics of the electron spin under influence of a variable number of nuclear spins. The limit of a large nuclear spin environment is investigated using the Nakajima-Zwanzig quantum master equation, which reveals a decoherence of the electron spin with a power-law decay on short timescales. Interestingly, we find a dependence of the details of this decay on the orientation of an external magnetic field with respect to the graphene plane. By restricting to a small number of nuclear spins, we are able to analyze the dynamics of the electron spin by exact diagonalization, which provides us with more insight into the microscopic details of the decoherence. In particular, we find a fast initial decay of the electron spin, which asymptotically reaches a regime governed by small fluctuations around a finite long-time average value. Finally, we analytically predict upper bounds on the size of these fluctuations in the framework of quantum thermodynamics.}, subject = {Elektronenspin}, language = {en} } @phdthesis{VasquezOspina2016, author = {Vasquez Ospina, Juan Jose}, title = {Development of tools for the study of gene regulation in Trypanosoma brucei}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-133996}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2016}, abstract = {The protozoan parasite Trypanosoma brucei is the causal agent of sleeping sickness and besides its epidemiological importance it has been used as model organism for the study of many aspects of cellular and molecular biology especially the post-transcriptional control of gene expression. Several studies in the last 30 years have shown the importance of mRNA processing and stability for gene regulation. In T. brucei genes are unusually arranged in polycistronic transcription units (PTUs) and a coupled process of trans-splicing and polyadenylation produces the mature mRNAs. Both processes, mRNA processing and stability, cannot completely explain the control of gene expression in the different life cycle stages analyzed in T. brucei so far. In recent years, the relevance of expression regulation at the level of translation has become evident in other eukaryotes. Therefore, in the first part of my thesis I studied the impact of translational regulation by means of a genome-wide ribosome profiling approach. My data suggest that translational efficiencies vary between life cycle stages of the parasite as well as between genes within one life cycle stage. Furthermore, using ribosome profiling I was able to identify many new putative un-annotated coding sequences and to evaluate the coding potential of upstream open reading frames (uORF). Comparing my results with previously published proteomic and RNA interference (RNAi) target sequencing (RIT-seq) datasets allowed me to validate some of the new coding sequences and to evaluate their relevance for the fitness of the parasite. In the second part of my thesis I used the transcriptomic and translatomic profiles obtained from the ribosome profiling analysis for the identification of putative non-coding RNAs (ncRNAs). These results led to the analysis of the coding potential in the regions upstream and downstream of the expressed variant surface glycoprotein (VSG), which is outlined in the third part of the results section. The region upstream of the VSG, the co-transposed region (CTR), has been implicated in an increase of the in situ switching rate upon its deletion. The ribosome profiling results indicated moderate transcription but not translation in this region. These results raised the possibility that the CTR may be transcribed into ncRNA. Therefore, in the third part of my thesis, I performed a primary characterization of the CTR-derived transcripts based on northern blotting and RACE. The results suggested the presence of a unique transcript species of about 1,200 nucleotides (nt) and polyadenylated at the 3'-end of the sequence. The deletion of the CTR sequence promoting and increase of the in situ switching rates was performed around 20 years ago by means of inserting reporter genes. With the recent development of endonuclease-based tools for genome editing, it is now possible to delete sequences in a marker-free way. In the fourth part of my thesis, I show the results on the implementation of the highly efficient genome-editing CRISPR-Cas9 system in T. brucei using episomes. As a proof of principle, I inserted the sequence coding for the enhanced green fluorescent protein (eGFP) at the end of the SCD6 coding sequence (CDS). Fluorescent cells were observed as early as two days after transfection. Therefore, after the successful set up of the CRISPR-Cas9 system it will be possible to modify genomic regions with more relevance for the biology of the parasite, such as the substitution of codons present in gene tandem arrays. The implementation of ribosome profiling in T. brucei opens the opportunity for the study of translational regulation in a genome-wide scale, the re-annotation of the currently available genome, the search for new putative coding sequences, the detection of putative ncRNAs, the evaluation of the coding potential in uORFs and the role of unstranslated regions (UTRs) in the regulation of translation. In turn, the implementation of the CRISPR-Cas9 system offers the possibility to manipulate the genome of the parasite at a nucleotide resolution and without the need of including resistant makers. The CRISPR-Cas9 system is a powerful tool for editing ncRNAs, UTRs, multicopy gene families and CDSs keeping their endogenous UTRs. Moreover, the system can be used for the modification of both alleles after just one round of transfection and of codons coding for amino acids carrying post-translational modifications (PTMs) among other possibilities.    }, subject = {Trypanosoma brucei}, language = {en} } @phdthesis{Schuster2016, author = {Schuster, Ann-Christin}, title = {Chemical and functional analyses of the plant cuticle as leaf transpiration barrier}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-133475}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2016}, abstract = {Cuticles cover all above-ground primary plant organs and are lipoid in nature consisting of a cutin matrix with cuticular waxes embedded within or deposited on its surface. The foremost function of the plant cuticle is the limitation of transpirational water loss into the surrounding atmosphere. Transpiration of water vapour from plants differs between stomatal and cuticular transpiration. Stomatal closure minimises the stomatal water loss and the remaining, much lower water transpiration occurs through the plant cuticle. Temperature influence on the transpiration barrier properties of intact leaves is not yet known, despite the importance of the cuticular transpiration especially under drought and heat conditions. The present study focuses on the temperature-dependent minimum water permeability of whole leaves, in comparison to the temperature effect on the cuticular permeance of isolated, astomatous cuticles (Chapter I - III). The minimum water permeability was determined gravimetrically from leaf drying curves and represents the cuticular water permeability of intact, stomatous leaves under conditions of complete stomatal closure. The temperature effect on the transpiration barrier of the desert plant Rhazya stricta and the Mediterranean sclerophyll Nerium oleander exposed a continuous increase of minimum water permeabilities with an increase in temperature. In contrast to other published studies, no abrupt and steep increase of the water permeability at high temperatures was detected. This steep increase indicates structural changes of the barrier properties of isolated cuticular membranes with a drastic decrease of efficiency. A stabilising impact of the cell wall on the plant cuticle of intact leaves was proposed. This steadying effect was confirmed with different experimental approaches measuring the cuticular water permeability of Prunus laurocerasus intact leaves. Physiological analysis of water transport on isolated, astomatous leaf cuticles indicated a drastic decline of the barrier properties at elevated temperatures for Prunus laurocerasus but not for Nerium oleander. Cuticular components were quantitatively and qualitatively analysed by gas chromatography with a flame ionisation detector and a mass spectrometric detector, respectively. A high accumulation of pentacyclic triterpenoids as cuticular wax components in relation to the cutin monomer coverage was detected for Nerium oleander and for Rhazya stricta leaves, too. Accordingly, reinforcing of the cutin matrix by triterpenoids was proposed to improve the mechanical strength and to reduce the extensibility of plant cuticles. Thus, structural changes of the cuticular barrier properties were potentially suppressed at elevated temperatures. The function of the cuticular wax amount and/or wax composition and its relation with the cuticular water permeability remains to be elucidated. In the second part of this work the cuticular wax quantity and quality as well as its impact on the transpiration barrier properties was analysed in order to deduce a potential relation between chemistry and function of plant cuticles (Chapter IV - V). Chemical analyses of the cuticular wax components of a wide range of plant species, including one tropical (Vanilla planifolia), temperate (Juglans regia, Plantago lanceolata), Mediterranean (Nerium oleander, Olea europaea) and one desert (Rhazya stricta) plant species, were conducted. The cuticular wax compositions of nine characteristic plant species from xeric limestone sites naturally located in Franconia (Southern Germany) were determined for the first time. The corresponding minimum or cuticular water permeabilities of both stomatous and astomatous leaf surfaces were measured to detect a potential relationship between the cuticular wax amount, wax composition and the cuticular barrier properties. It was demonstrated that abundant cuticular wax amounts did not constitute more efficient transpiration barriers. However, 55\% of the cuticular barrier function can be attributed to the very-long-chain aliphatic wax coverages. These new findings provide evidence that the acyclic wax constituents play a pivotal role establishing efficient transpiration barriers. Additionally, these findings strengthen the hypothesis that cyclic components, such as pentacyclic triterpenoids, do not hinder the water diffusion through plant cuticles as effectively as acyclic constituents. For the first time a relationship between the cuticular wax composition and the transpiration barrier properties of a wide range of plant species proved insights into the potential relation between chemistry and function of plant cuticles.}, subject = {Kutikula}, language = {en} } @phdthesis{Lama2016, author = {Lama, Anu Kumari}, title = {Understanding Institutional Adaptation to Climate Change: Social Resilience and Adaptive Governance Capacities of the Nature Based Tourism Institutions in the Annapurna Conservation Area, Nepal}, publisher = {W{\"u}rzburg University Press}, address = {W{\"u}rzburg}, isbn = {978-3-95826-034-4 (print)}, issn = {0510-9833 (print)}, doi = {10.25972/WUP-978-3-95826-035-1}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-131351}, school = {W{\"u}rzburg University Press}, pages = {208}, year = {2016}, abstract = {The global-local sustainable development and climate change adaptation policy, and the emerging political discourse on the value of local Adaptation, have positioned the local institutions and their governance space within the strategic enclaves of multilevel governance system. Such shifts have transformed the context for sustainable Nature Based Tourism (NBT) development and adaptation in Nepal in general, and its protected areas, in particular. The emerging institutional adaptation discourse suggests on the need to link tourism development, adaptation and governance within the sustainability concept, and also to recognize the justice and inclusive dimensions of local adaptation. However, sociological investigation of institutional adaptation, particularly at the interface between sustainability, justice and inclusive local adaptation is an undertheorized research topic. This exploratory study examined the sociological process of the institutional adaptation, especially the social resilience and adaptive governance capacities of the NBT institutions, in 7 Village Development Committees of the Mustang district, a popular destination in the Annapurna Conservation Area, Nepal. Using the sphere (a dynamic social space concept) and quality of governance as the analytical framework, the integrative adaptation as the methodological approach and the case study action research method, the study investigated and generated a holistic picture on the state of the social resilience and adaptive governance capacities of the NBT institutions. The findings show institutional social resilience capacities to be contingent on socio-political construction of adaptation knowledge and power. Factors influencing such constructions among NBT institutions include: the site and institutions specific political, economic and environmental dispositions; the associated socio-political processes of knowledge constructions and volition action; and the social relationships and interaction, operating within the spheres and at multiple governance levels. The adaptive governance capacities hinge on the institutional arrangements, the procedural aspects of adaptation governance and the governmentality. These are reflective of the diverse legal frameworks, the interiority perspective of the decision making and governance practices of the NBT institutions. In conclusion, it is argued that effective local adaptation in the Mustang district is contingent on the adaptation and institutional dynamics of the NBT institutions, consisting of the cognitive, subjective, process and procedural aspects of the adaptation knowledge production and its use.}, subject = {Annapurna Conservation Area}, language = {en} } @phdthesis{Schwartz2016, author = {Schwartz, Christian}, title = {Modeling and Evaluation of Multi-Stakeholder Scenarios in Communication Networks}, issn = {1432-8801}, doi = {10.25972/OPUS-13388}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-133887}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2016}, abstract = {Today's Internet is no longer only controlled by a single stakeholder, e.g. a standard body or a telecommunications company. Rather, the interests of a multitude of stakeholders, e.g. application developers, hardware vendors, cloud operators, and network operators, collide during the development and operation of applications in the Internet. Each of these stakeholders considers different KPIs to be important and attempts to optimise scenarios in its favour. This results in different, often opposing views and can cause problems for the complete network ecosystem. One example of such a scenario are Signalling Storms in the mobile Internet, with one of the largest occurring in Japan in 2012 due to the release and high popularity of a free instant messaging application. The network traffic generated by the application caused a high number of connections to the Internet being established and terminated. This resulted in a similarly high number of signalling messages in the mobile network, causing overload and a loss of service for 2.5 million users over 4 hours. While the network operator suffers the largest impact of this signalling overload, it does not control the application. Thus, the network operator can not change the application traffic characteristics to generate less network signalling traffic. The stakeholders who could prevent, or at least reduce, such behaviour, i.e. application developers or hardware vendors, have no direct benefit from modifying their products in such a way. This results in a clash of interests which negatively impacts the network performance for all participants. The goal of this monograph is to provide an overview over the complex structures of stakeholder relationships in today's Internet applications in mobile networks. To this end, we study different scenarios where such interests clash and suggest methods where tradeoffs can be optimised for all participants. If such an optimisation is not possible or attempts at it might lead to adverse effects, we discuss the reasons.}, subject = {Leistungsbewertung}, language = {en} } @phdthesis{Hackl2016, author = {Hackl, Thomas}, title = {A draft genome for the Venus flytrap, Dionaea muscipula : Evaluation of assembly strategies for a complex Genome - Development of novel approaches and bioinformatics solutions}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-133149}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2016}, abstract = {The Venus flytrap, \textit{Dionaea muscipula}, with its carnivorous life-style and its highly specialized snap-traps has fascinated biologist since the days of Charles Darwin. The goal of the \textit{D. muscipula} genome project is to gain comprehensive insights into the genomic landscape of this remarkable plant. The genome of the diploid Venus flytrap with an estimated size between 2.6 Gbp to 3.0 Gbp is comparatively large and comprises more than 70 \% of repetitive regions. Sequencing and assembly of genomes of this scale are even with state-of-the-art technology and software challenging. Initial sequencing and assembly of the genome was performed by the BGI (Beijing Genomics Institute) in 2011 resulting in a 3.7 Gbp draft assembly. I started my work with thorough assessment of the delivered assembly and data. My analysis showed that the BGI assembly is highly fragmented and at the same time artificially inflated due to overassembly of repetitive sequences. Furthermore, it only comprises about on third of the expected genes in full-length, rendering it inadequate for downstream analysis. In the following I sought to optimize the sequencing and assembly strategy to obtain an assembly of higher completeness and contiguity by improving data quality and assembly procedure and by developing tailored bioinformatics tools. Issues with technical biases and high levels of heterogeneity in the original data set were solved by sequencing additional short read libraries from high quality non-polymorphic DNA samples. To address contiguity and heterozygosity I examined numerous alternative assembly software packages and strategies and eventually identified ALLPATHS-LG as the most suited program for assembling the data at hand. Moreover, by utilizing digital normalization to reduce repetitive reads, I was able to substantially reduce computational demands while at the same time significantly increasing contiguity of the assembly. To improve repeat resolution and scaffolding, I started to explore the novel PacBio long read sequencing technology. Raw PacBio reads exhibit high error rates of 15 \% impeding their use for assembly. To overcome this issue, I developed the PacBio hybrid correction pipeline proovread (Hackl et al., 2014). proovread uses high coverage Illumina read data in an iterative mapping-based consensus procedure to identify and remove errors present in raw PacBio reads. In terms of sensitivity and accuracy, proovread outperforms existing software. In contrast to other correction programs, which are incapable of handling data sets of the size of D. muscipula project, proovread's flexible design allows for the efficient distribution of work load on high-performance computing clusters, thus enabling the correction of the Venus flytrap PacBio data set. Next to the assembly process itself, also the assessment of the large de novo draft assemblies, particularly with respect to coverage by available sequencing data, is difficult. While typical evaluation procedures rely on computationally extensive mapping approaches, I developed and implemented a set of tools that utilize k-mer coverage and derived values to efficiently compute coverage landscapes of large-scale assemblies and in addition allow for automated visualization of the of the obtained information in comprehensive plots. Using the developed tools to analyze preliminary assemblies and by combining my findings regarding optimizations of the assembly process, I was ultimately able to generate a high quality draft assembly for D. muscipula. I further refined the assembly by removal of redundant contigs resulting from separate assembly of heterozygous regions and additional scaffolding and gapclosing using corrected PacBio data. The final draft assembly comprises 86 × 10 3 scaffolds and has a total size of 1.45 Gbp. The difference to the estimated genomes size is well explained by collapsed repeats. At the same time, the assembly exhibits high fractions full-length gene models, corroborating the interpretation that the obtained draft assembly provides a complete and comprehensive reference for further exploration of the fascinating biology of the Venus flytrap.}, subject = {Venusfliegenfalle}, language = {en} } @phdthesis{Weber2016, author = {Weber, Stefan}, title = {Simulation Studies on the New Small Wheel Shielding of the ATLAS Experiment and Design and Construction of a Test Facility for Gaseous Detectors}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-133084}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2016}, abstract = {In this thesis two main projects are presented, both aiming at the overall goal of particle detector development. In the first part of the thesis detailed shielding studies are discussed, focused on the shielding section of the planned New Small Wheel as part of the ATLAS detector upgrade. Those studies supported the discussions within the upgrade community and decisions made on the final design of the New Small Wheel. The second part of the thesis covers the design, construction and functional demonstration of a test facility for gaseous detectors at the University of W{\"u}rzburg. Additional studies on the trigger system of the facility are presented. Especially the precision and reliability of reference timing signals were investigated.}, subject = {Teilchendetektor}, language = {en} } @phdthesis{Kindermann2016, author = {Kindermann, Philipp}, title = {Angular Schematization in Graph Drawing}, publisher = {W{\"u}rzburg University Press}, address = {W{\"u}rzburg}, isbn = {978-3-95826-020-7 (print)}, doi = {10.25972/WUP-978-3-95826-021-4}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-112549}, school = {W{\"u}rzburg University Press}, pages = {184}, year = {2016}, abstract = {Graphs are a frequently used tool to model relationships among entities. A graph is a binary relation between objects, that is, it consists of a set of objects (vertices) and a set of pairs of objects (edges). Networks are common examples of modeling data as a graph. For example, relationships between persons in a social network, or network links between computers in a telecommunication network can be represented by a graph. The clearest way to illustrate the modeled data is to visualize the graphs. The field of Graph Drawing deals with the problem of finding algorithms to automatically generate graph visualizations. The task is to find a "good" drawing, which can be measured by different criteria such as number of crossings between edges or the used area. In this thesis, we study Angular Schematization in Graph Drawing. By this, we mean drawings with large angles (for example, between the edges at common vertices or at crossing points). The thesis consists of three parts. First, we deal with the placement of boxes. Boxes are axis-parallel rectangles that can, for example, contain text. They can be placed on a map to label important sites, or can be used to describe semantic relationships between words in a word network. In the second part of the thesis, we consider graph drawings visually guide the viewer. These drawings generally induce large angles between edges that meet at a vertex. Furthermore, the edges are drawn crossing-free and in a way that makes them easy to follow for the human eye. The third and final part is devoted to crossings with large angles. In drawings with crossings, it is important to have large angles between edges at their crossing point, preferably right angles.}, language = {en} } @phdthesis{SalinasSegura2016, author = {Salinas Segura, Alexander}, title = {The Internet of Things: Business Applications, Technology Acceptance, and Future Prospects}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-131605}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2016}, abstract = {This dissertation explores the Internet of Things from three different perspectives for which three individual studies were conducted. The first study presents a business application within supply chain management. The second study addresses user acceptance of pervasive information systems, while the third study covers future prospects of the Internet of Things. The first study is about wireless sensor technologies and their possibilities for optimizing product quality in the cold chain. The processing of sensor data such as temperature information allows for the construction of novel issuing policies in distribution centers. The objective of the study was to investigate the possible economic potential of sensor-based issuing policies in a cold chain. By means of simulation, we analyzed a three-echelon supply chain model, including a manufacturer, a distribution center, and a retail store. Our analysis shows that sensor-based issuing policies bear the potential to become an effective complement to conventional issuing policies. However, the results also indicate that important trade-offs must be taken into account in the selection of a specific issuing policy. The second study deals with the increasing emergence of pervasive information systems and user acceptance. Based on the integration of the extended "Unified Theory of Acceptance and Use of Technology" (UTAUT2) and three pervasiveness constructs, we derived a comprehensive research model to account for pervasive information systems. Data collected from 346 participants in an online survey was analyzed to test the developed research model using structural equation modeling and taking into account multi-group and mediation analysis. The results confirm the applicability of the integrated UTAUT2 model to measure pervasiveness. The third study addresses future prospects of the Internet of Things within the retail industry. We employed a research framework to explore the macro- as well as microeconomic perspective. First, we developed future projections for the retail industry containing IoT aspects. Second, a two-round Delphi study with an expert panel of 15 participants was conducted to evaluate the projections. Third, we used scenario development to create scenarios of the most relevant projections evaluated by the participants.}, subject = {Internet der Dinge}, language = {en} }