@phdthesis{GilPulido2018, author = {Gil Pulido, Jes{\´u}s}, title = {The role of Batf3-dependent dendritic cells and the IL-23 receptor in atherosclerosis}, doi = {10.25972/OPUS-16720}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-167203}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Cardiovascular diseases represent the leading cause of death worldwide, with myocardial infarction and strokes being the most common complications. In both cases, the appearance of an enlarged artery wall as a consequence of a growing plaque is responsible for the disturbance of the blood flow. The formation of plaques is driven by a chronic inflammatory condition known as atherosclerosis, characterized by an initial step of endothelial cell (EC) dysfunction followed by the recruitment of circulating immune cells into the tunica intima of the vessel. Accumulation of lipids and cells lead to the formation of atheromatous plaques that will define the cardiovascular outcome of an individual. The role of the immune system in the progression of atherosclerosis has been widely recognized. By far, macrophages constitute the most abundant cell type in lesions and are known to be the major source of the lipid-laden foam cell pool during the course of the disease. However, other immune cells types, including T cells, dendritic cells (DCs) or mast cells, among others, have been described to be present in human and mouse plaques. How these populations can modulate the atherogenic process is dependent on their specialized function. DCs constitute a unique population with the ability to bridge innate and adaptive immune responses, mainly by their strong capacity to present antigens bound to a major histocompatibility complex (MHC) molecule. Given their ability to polarize T cells and secrete cytokines, their role in atherosclerosis has gained attention for the development of new therapeutic approaches that could impact lesion growth. Hence, knowing the effect of a specific subset is an initial key step to evaluate its potential for clinical purposes. For example, the basic leucine zipper ATF-like 3 transcription factor (Batf3) controls the development of conventional dendritic cells type 1 (cDCs1), characterized by the expression of the surface markers CD8 and CD103. Initially, they were described to promote both T-helper 1 (Th1) and regulatory T cell (Treg) responses, known to accelerate and to protect against atherosclerosis, respectively. The first part of this thesis aimed to elucidate the potential role of Batf3-dependent DCs in atherosclerosis and concluded that even though systemic immune responses were mildly altered they do not modify the course of the disease and may not represent an attractive candidate for clinical studies. DCs also have the ability to impact lesion growth through the release of a broad range of cytokines, which can either directly impact atherosclerotic plaques by modulating resident cells, or by further polarizing T cell responses. Among others, interleukin (IL) 23, a member of the IL-12 family of cytokines, has received much attention during the past year due to its connection to autoimmunity. IL-23 is known to induce pathogenicity of Th17 cells and is responsible for the development of several autoimmune diseases including multiple sclerosis, psoriasis or rheumatoid arthritis. Interestingly, these patients often present with an accelerated course of atherosclerosis and thus, are at higher risk of developing cardiovascular events. Several epidemiological studies have pointed toward a possible connection between IL-23 and its receptor IL-23R in atherosclerosis, although their exact contribution remains to be elucidated. The second part of this thesis showed that resident antigen-presenting cells (APCs) in the aorta produced IL-23 during the steady state but this secretion was greatly enhanced after incubation with oxidized low-density lipoprotein (oxLDL). Furthermore, disruption of the IL-23R signaling led to decreased relative necrotic plaque area in lesions of Ldlr-/-Il23r-/- mice fed a high-fat diet (HFD) for 6 and 12 weeks compared to Ldlr-/- controls. A proposed mechanism involves that increased IL-23 production in the context of atherosclerosis may promote the pathogenicity of IL-23-responding T cells, especially IL-23R+ γδ T cells in the aortic root. Response to IL-23 might increase the release of granulocyte-macrophage colony-stimulating factor (GM-CSF) and IL-17 and alter the pro- and anti-inflammatory balance of cytokines in the aortic root. Altogether, these data showed that the IL-23 / IL-23R axis play a role in plaque stability.}, subject = {Arteriosklerose}, language = {en} } @phdthesis{Steck2018, author = {Steck, Daniel}, title = {Lagrange Multiplier Methods for Constrained Optimization and Variational Problems in Banach Spaces}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-174444}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {This thesis is concerned with a class of general-purpose algorithms for constrained minimization problems, variational inequalities, and quasi-variational inequalities in Banach spaces. A substantial amount of background material from Banach space theory, convex analysis, variational analysis, and optimization theory is presented, including some results which are refinements of those existing in the literature. This basis is used to formulate an augmented Lagrangian algorithm with multiplier safeguarding for the solution of constrained optimization problems in Banach spaces. The method is analyzed in terms of local and global convergence, and many popular problem classes such as nonlinear programming, semidefinite programming, and function space optimization are shown to be included as special cases of the general setting. The algorithmic framework is then extended to variational and quasi-variational inequalities, which include, by extension, Nash and generalized Nash equilibrium problems. For these problem classes, the convergence is analyzed in detail. The thesis then presents a rich collection of application examples for all problem classes, including implementation details and numerical results.}, subject = {Optimierung}, language = {en} } @phdthesis{Ziegenhals2018, author = {Ziegenhals, Thomas}, title = {The role of the miR-26 family in neurogenesis}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-156395}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {For the differentiation of a embryonic stem cells (ESCs) to neuronal cells (NCs) a complex and coordinated gene regulation program is needed. One important control element for neuronal differentiation is the repressor element 1 silencing transcription factor (REST) complex, which represses neuronal gene expression in non-neuronal cells. Crucial effector proteins of the REST complex are small phosphatases such as the CTDSPs (C-terminal domain small phosphatases) that regulate polymerase II activity by dephosphorylating the C-terminal domain of the polymerase, thereby repressing target genes. The stepwise inactivation of REST, including the CTDSPs, leads to the induction of a neuron-specific gene program, which ultimately induces the formation of neurons. The spatio-temporal control of REST and its effector components is therefore a crucial step for neurogenesis. In zebrafish it was shown that the REST-associated CTDSP2 is negatively regulated by the micro RNA (miR) -26b. Interestingly, the miR-26b is encoded in an intron of the primary transcript of CTDSP2. This gives the fundament of an intrinsic regulatory negative feedback loop, which is essential for the proceeding of neurogenesis. This feedback loop is active during neurogenesis, but inactive in non-neuronal cells. The reason for this is that the maturation of the precursor miR (pre-miR) to the mature miR-26 is arrested in non neuronal cells, but not in neurons. As only mature miRs are actively repressing genes, the regulation of miR-26 processing is an essential step in neurogenesis. In this study, the molecular basis of miR-26 processing regulation in the context of neurogenesis was addressed. The mature miR is processed from two larger precursors: First the primary transcript is cleaved by the enzyme DROSHA in the nucleus to form the pre-miR. The pre-miR is exported from the nucleus and processed further through the enzyme DICER to yield the mature miR. The mature miR can regulate gene expression in association with the RNA-induced silencing complex (RISC). Multiple different scenarios in which miR processing was regulated were proposed and experimentally tested. Microinjection studies using Xenopus leavis oocytes showed that slowdown or blockage of the nucleo-cytoplasmic transport are not the reason for delayed pre-miR-26 processing. Moreover, in vitro and in vivo miR-processing assays showed that maturation is most likely regulated through a in trans acting factor, which blocks processing in non neuronal cells. Through RNA affinity chromatographic assays using zebrafish and murine lysates I was able to isolate and identify proteins that interact specifically with pre-miR-26 and could by this influence its biogenesis. Potential candidates are FMRP/FXR1/2, ZNF346 and Eral1, whose functional characterisation in the context of miR-biogenesis could now be addressed. The second part of my thesis was executed in close colaboration with the laboratory of Prof. Albrecht M{\"u}ller. The principal question was addressed how miR-26 influences neuronal gene expression and which genes are primarily affected. This research question could be addressed by using a cell culture model system, which mimics ex vivo the differentiation of ESCs to NCs via neuronal progenitor. For the functional analysis of miR-26 knock out cell lines were generated by the CRISPR/Cas9 technology. miR-26 deficient ESC keep their pluripotent state and are able to develop NPC, but show major impairment in differentiating to NCs. Through RNA deep sequencing the miR-26 induced transcriptome differences could be analysed. On the level of mRNAs it could be shown, that the expression of neuronal gene is downregulated in miR-26 deficient NCs. Interestingly, the deletion of miR-26 leads to selectively decreased levels of miRs, which on one hand regulate the REST complex and on the other hand are under transcriptional control by REST themself. This data and the discovery that induction of miR-26 leads to enrichment of other REST regulating miRs indicates that miR-26 initiates neurogenesis through stepwise inactivation of the REST complex.}, subject = {miRNS}, language = {en} } @phdthesis{Schoetz2018, author = {Sch{\"o}tz, Matthias}, title = {Convergent Star Products and Abstract O*-Algebras}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-174355}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Diese Dissertation behandelt ein Problem aus der Deformationsquantisierung: Nachdem man die Quantisierung eines klassischen Systems konstruiert hat, w{\"u}rde man gerne ihre mathematischen Eigenschaften verstehen (sowohl die des klassischen Systems als auch die des Quantensystems). Falls beide Systeme durch *-Algebren {\"u}ber dem K{\"o}rper der komplexen Zahlen beschrieben werden, bedeutet dies dass man die Eigenschaften bestimmter *-Algebren verstehen muss: Welche Darstellungen gibt es? Was sind deren Eigenschaften? Wie k{\"o}nnen die Zust{\"a}nde in diesen Darstellungen beschrieben werden? Wie kann das Spektrum der Observablen beschrieben werden? Um eine hinreichend allgemeine Behandlung dieser Fragen zu erm{\"o}glichen, wird das Konzept von abstrakten O*-Algebren entwickelt. Dies sind im Wesentlichen *-Algebren zusammen mit einem Kegel positiver linearer Funktionale darauf (z.B. die stetigen positiven linearen Funktionale wenn man mit einer *-Algebra startet, die mit einer gutartigen Topologie versehen ist). Im Anschluss daran wird dieser Ansatz dann auf zwei Beispiele aus der Deformationsquantisierung angewandt, die im Detail untersucht werden.}, subject = {Deformationsquantisierung}, language = {en} } @phdthesis{Schreck2018, author = {Schreck, Maximilian}, title = {Synthesis and Photophysics of Linear and Star-Shaped Oligomers of Squaraine Dyes}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-174272}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {In this thesis, the synthesis and photophysics of a great variety of squaraine dyes are presented. This variety is based on four parent squaraines containing either indolenine or quinoline heterocycles. By a suitable choice of the donor and acceptor unit, the optical properties can already be adapted to the properties desired on the stage of the monomer. To promote a further derivatisation of these dyes, diverse functional groups are attached to the monomers using transition metal-catalysed C-C coupling reactions. However, this has to be preceded by the synthesis of bromine-functionalised derivatives as a direct halogenation of squaraine dyes is not feasible. Therefore, the halogen function is already introduced in precursor molecules giving rise to a molecular building block system containing bromine-, boronic ester-, and alkyne-functionalised monomer units, which pave the way to a plethora of squaraine oligomers and polymers. The indolenine homopolymer pSQB-1 as well as the corresponding small molecular weight oligomers dSQB-1 and tSQB were synthesized applying Ni-mediated Yamamoto and Pd-catalysed Suzuki coupling methodologies, respectively. The motivation for this project relied on the fundamental investigations by V{\"o}lker et al. on pSQB-V. A progressive red-shift of the lowest energy absorption maximum from the dimer to the polymer was observed in CHCl3 compared to the monomer. With increasing number of monomer units, the exciton coupling decreases from the dimer to the polymer. In addition, the shape of the absorption band manifold shows a strong dependence on the solvent, which was also observed by V{\"o}lker et al. J-type aggregate behavior is found in chlorinated solvents such as CHCl3 and DCM, whereas H-type aggregates are formed in acetone. Temperature-dependent absorption studies in PhCN reveals a reversible equilibrium of diverse polymer conformers, which manifests itself in a gradual change from H-aggregate behavior to a mixture with a more pronounced J-aggregate behavior upon raising the temperature. It isassumed that both characteristic aggregate bands correlate in borderline cases with two polymer structures which can be assigned to a zig-zag and a helical structure. As no experimental evidence for these structures could hitherto be provided by NMR, TD-DFT computations on oligomers (22-mers) can reproduce very closely the characteristic features of the spectra for the two conformational isomers. The subsequent chapters are motivated by the goal to influence the optical properties through a control of the superstructure and thus of the intramolecular aggregate formation. On the one hand, bulky groups are implemented in the 3-position of the indolenine scaffold to provoke steric repulsion and thus favoring J-aggregate behavior at the expense of helical arrangements. The resulting homopolymer pDiPhSQB bearing two phenyl groups per indolenine exhibits J-type aggregate behavior with red-shifted absorption maxima in all considered solvents which is explained to be caused by the formation of elongated zig-zag structures. Furthermore, single-crystal X-ray analysis of monomer DiPhSQB-2-Br2 reveals a torsion of the indolenine moieties as a consequence of steric congestion. The twist of the molecular geometry and the resulting loss of planarity leads to a serious deterioration of the fluorescence properties, however a significant bathochromic shift of ca. 1 200 cm-1 of the lowest absorption band was observed compared to parent SQB, which is even larger than the shift for dSQB-1 (ca. 1 000 cm-1). On the other hand, a partial stiffening of the polymer backbone is attempted to create a bias for elongated polymer chains. In this respect, the synthetic approach is to replace every second biarylaxis with the rigid transoid benzodipyrrolenine unit. Despite a rather low average degree of polymerization < 10, exclusively red-shifted absorption maxima are observed in all solvents used. In order to complete the picture of intramolecular aggregates through the selective design of H-aggregates, a squaraine-squaraine copolymer was synthesised containing the classic cisoid indolenine as well as the cisoid quinoline building block. Taking advantage of the highly structure directing self-assembly character of the quinoline moiety, the copolymer pSQBC indeed showes a broad, blue-shifted main absorption band in comparison with the monomer unit dSQBC. The shape of the absorption band manifold solely exhibited a minor solvent and temperature dependence indicating a persistent H-aggregate behaviour. Hence, as a proof of concept, it is shown that the optical properties of the polymers (H- and J-aggregate) and the corresponding superstructure can be inherently controlled by an adequate design of monomer precursors. The last chapter of this work deals, in contrast to all other chapters, with intermolecular aggregates. It is shown that the two star-shaped hexasquarainyl benzenes hSQA-1 and hSQA-2 exhibit a strong propensity for self-organisation. Concentration- and temperature-dependent studies reveal a great driving force for self-assembly in acetone. While the larger hSQA-2 instantaneously forms stable aggregates, the aggregates of hSQA-1 shows a pronounced kinetic stability. Taking advantage of the kinetic persistency of these aggregates, the corresponding kinetic activation parameters for aggregation and deaggregation can be assessed. The absorption spectra of both hexasquarainyl benzenes in the aggregated state reveal some striking differences. While hSQA-1 features an intensive, very narrow and blue-shifted absorption band, two red-shifted bands are observed for hSQA-2, which are closely located at the monomer absorption. The very small bandwidth of hSQA-1 are interpreted to be caused by exchange narrowing and pointed towards highly ordered supramolecular aggregates. The concentration-dependent data of the two hexasquarainyl benzenes can be fitted to the dimer-model with excellent correlation coefficients, yielding binding constants in excess of 10^6 M-1, respectively. Such high binding constants are very surprising, considering the unfavourable bulky 3,3-dimethyl groups of the indolenine units which should rather prevent aggregation. Joint theoretical and NMR spectroscopic methods were applied to unravel the supramolecular aggregate structure of hSQA-1, which is shown to consist of two stacked hexasquarainyl benzenes resembling the picture of two stacked bowls.}, subject = {Squaraine}, language = {en} } @phdthesis{Lerch2018, author = {Lerch, Maike Franziska}, title = {Characterisation of a novel non-coding RNA and its involvement in polysaccharide intercellular adhesin (PIA)-mediated biofilm formation of \(Staphylococcus\) \(epidermidis\)}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-155777}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Coagulase-negative staphylococci, particularly Staphylococcus epidermidis, have been recognised as an important cause of health care-associated infections due to catheterisation, and livestock-associated infections. The colonisation of indwelling medical devices is achieved by the formation of biofilms, which are large cell-clusters surrounded by an extracellular matrix. This extracellular matrix consists mainly of PIA (polysaccharide intercellular adhesin), which is encoded by the icaADBC-operon. The importance of icaADBC in clinical strains provoking severe infections initiated numerous investigations of this operon and its regulation within the last two decades. The discovery of a long transcript being located next to icaADBC, downstream of the regulator gene icaR, led to the hypothesis of a possible involvement of this transcript in the regulation of biofilm formation (Eckart, 2006). Goal of this work was to characterise this transcript, named ncRNA IcaZ, in molecular detail and to uncover its functional role in S. epidermidis. The ~400 nt long IcaZ is specific for ica-positive S. epidermidis and is transcribed in early- and mid-exponential growth phase as primary transcript. The promotor sequence and the first nucleotides of icaZ overlap with the 3' UTR of the preceding icaR gene, whereas the terminator sequence is shared by tRNAThr-4, being located convergently to icaZ. Deletion of icaZ resulted in a macroscopic biofilm-negative phenotype with highly diminished PIA-biofilm. Biofilm composition was analysed in vitro by classical crystal violet assays and in vivo by confocal laser scanning microscopy under flow conditions to display biofilm formation in real-time. The mutant showed clear defects in initial adherence and decreased cell-cell adherence, and was therefore not able to form a proper biofilm under flow in contrast to the wildtype. Restoration of PIA upon providing icaZ complementation from plasmids revealed inconsistent results in the various mutant backgrounds. To uncover the functional role of IcaZ, transcriptomic and proteomic analysis was carried out, providing some hints on candidate targets, but the varying biofilm phenotypes of wildtype and icaZ mutants made it difficult to identify direct IcaZ mRNA targets. Pulse expression of icaZ was then used as direct fishing method and computational target predictions were executed with candidate mRNAs from aforesaid approaches. The combined data of these analyses suggested an involvement of icaR in IcaZ-mediated biofilm control. Therefore, RNA binding assays were established for IcaZ and icaR mRNA. A positive gel shift was maintained with icaR 3' UTR and with 5'/3' icaR mRNA fusion product, whereas no gel shift was obtained with icaA mRNA. From these assays, it was assumed that IcaZ regulates icaR mRNA expression in S. epidermidis. S. aureus instead lacks ncRNA IcaZ and its icaR mRNA was shown to undergo autoregulation under so far unknown circumstances by intra- or intermolecular binding of 5' UTR and 3' UTR (Ruiz de los Mozos et al., 2013). Here, the Shine-Dalgarno sequence is blocked through 5'/3' UTR base pairing and RNase III, an endoribonuclease, degrades icaR mRNA, leading to translational blockade. In this work, icaR mRNA autoregulation was therefore analysed experimentally in S. epidermidis and results showed that this specific autoregulation does not take place in this organism. An involvement of RNase III in the degradation process could not be verified here. GFP-reporter plasmids were generated to visualise the interaction, but have to be improved for further investigations. In conclusion, IcaZ was found to interact with icaR mRNA, thereby conceivably interfering with translation initiation of repressor IcaR, and thus to promote PIA synthesis and biofilm formation. In addition, the environmental factor ethanol was found to induce icaZ expression, while only weak or no effects were obtained with NaCl and glucose. Ethanol, actually is an ingredient of disinfectants in hospital settings and known as efficient effector for biofilm induction. As biofilm formation on medical devices is a critical factor hampering treatment of S. epidermidis infections in clinical care, the results of this thesis do not only contribute to better understanding of the complex network of biofilm regulation in staphylococci, but may also have practical relevance in the future.}, subject = {Biofilm}, language = {en} } @phdthesis{Budig2018, author = {Budig, Benedikt}, title = {Extracting Spatial Information from Historical Maps: Algorithms and Interaction}, edition = {1. Auflage}, publisher = {W{\"u}rzburg University Press}, address = {W{\"u}rzburg}, isbn = {978-3-95826-092-4}, doi = {10.25972/WUP-978-3-95826-093-1}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-160955}, school = {W{\"u}rzburg University Press}, pages = {viii, 160}, year = {2018}, abstract = {Historical maps are fascinating documents and a valuable source of information for scientists of various disciplines. Many of these maps are available as scanned bitmap images, but in order to make them searchable in useful ways, a structured representation of the contained information is desirable. This book deals with the extraction of spatial information from historical maps. This cannot be expected to be solved fully automatically (since it involves difficult semantics), but is also too tedious to be done manually at scale. The methodology used in this book combines the strengths of both computers and humans: it describes efficient algorithms to largely automate information extraction tasks and pairs these algorithms with smart user interactions to handle what is not understood by the algorithm. The effectiveness of this approach is shown for various kinds of spatial documents from the 16th to the early 20th century.}, subject = {Karte}, language = {en} } @phdthesis{Furth2018, author = {Furth, Sebastian}, title = {Linkable Technical Documentation}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-174185}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {The success of semantic systems has been proven over the last years. Nowadays, Linked Data is the driver for the rapid development of ever new intelligent systems. Especially in enterprise environments semantic systems successfully support more and more business processes. This is especially true for after sales service in the mechanical engineering domain. Here, service technicians need effective access to relevant technical documentation in order to diagnose and solve problems and defects. Therefore, the usage of semantic information retrieval systems has become the new system metaphor. Unlike classical retrieval software Linked Enterprise Data graphs are exploited to grant targeted and problem-oriented access to relevant documents. However, huge parts of legacy technical documents have not yet been integrated into Linked Enterprise Data graphs. Additionally, a plethora of information models for the semantic representation of technical information exists. The semantic maturity of these information models can hardly be measured. This thesis motivates that there is an inherent need for a self-contained semantification approach for technical documents. This work introduces a maturity model that allows to quickly assess existing documentation. Additionally, the approach comprises an abstracting semantic representation for technical documents that is aligned to all major standard information models. The semantic representation combines structural and rhetorical aspects to provide access to so called Core Documentation Entities. A novel and holistic semantification process describes how technical documents in different legacy formats can be transformed to a semantic and linked representation. The practical significance of the semantification approach depends on tools supporting its application. This work presents an accompanying tool chain of semantification applications, especially the semantification framework CAPLAN that is a highly integrated development and runtime environment for semantification processes. The complete semantification approach is evaluated in four real-life projects: in a spare part augmentation project, semantification projects for earth moving technology and harvesting technology, as well as an ontology population project for special purpose vehicles. Three additional case studies underline the broad applicability of the presented ideas.}, subject = {Linked Data}, language = {en} } @phdthesis{Seifert2018, author = {Seifert, Sabine}, title = {New Electron-Deficient Polycyclic Aromatic Dicarboximides by Palladium-Catalyzed C-C Coupling and Core Halogenation-Cyanation}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-156200}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {The thesis describes the development of new synthetic strategies towards planar nanometer-sized and electron-deficient polycyclic aromatic dicarboximides, which are rather unexplored compared with the large variety of electron-rich polycyclic aromatic hydrocarbons and nanographenes. Thus, new polycyclic aromatic systems containing a different number of dicarboximide groups were designed since this class of compounds has revealed its significance in the past due to a range of desirable molecular properties and its high thermal and photochemical stability. The synthetic concept towards these systems includes different C-C coupling techniques that were combined within coupling cascade reactions. Therefore, this thesis provides new insights into the reactivity of aromatic substrates and elucidates mechanistic aspects of C-C coupling cascade reactions to facilitate the precise design of new and desirable materials based on polycyclic aromatic dicarboximides. Furthermore, structure-property relationships as well as the optical and electrochemical properties were investigated by UV/Vis absorption and fluorescence spectroscopy and cyclic or square wave voltammetry. Insights into the molecular structures in the solid state were obtained by single-crystal X-ray analysis. In subsequent studies, highly electron-deficient perylene bisimides and their reduced species have been investigated in detail. Thus, core-functionalized perylene bisimides were synthesized and UV/Vis absorption spectroscopy, spectroelectrochemistry and cyclic or square wave voltammetry were used to determine their optical properties and the stability of the individual reduced species.}, subject = {Kupplungsreaktion}, language = {en} } @phdthesis{Wandtner2018, author = {Wandtner, Bernhard}, title = {Non-driving related tasks in highly automated driving - Effects of task characteristics and drivers' self-regulation on take-over performance}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-173956}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {The rise of automated driving will fundamentally change our mobility in the near future. This thesis specifically considers the stage of so called highly automated driving (Level 3, SAE International, 2014). At this level, a system carries out vehicle guidance in specific application areas, e.g. on highway roads. The driver can temporarily suspend from monitoring the driving task and might use the time by engaging in so called non-driving related tasks (NDR-tasks). However, the driver is still in charge to resume vehicle control when prompted by the system. This new role of the driver has to be critically examined from a human factors perspective. The main aim of this thesis was to systematically investigate the impact of different NDR-tasks on driver behavior and take-over performance. Wickens' (2008) architecture of multiple resource theory was chosen as theoretical framework, with the building blocks of multiplicity (task interference due to resource overlap), mental workload (task demands), and aspects of executive control or self-regulation. Specific adaptations and extensions of the theory were discussed to account for the context of NDR-task interactions in highly automated driving. Overall four driving simulator studies were carried out to investigate the role of these theoretical components. Study 1 showed that drivers focused NDR-task engagement on sections of highly automated compared to manual driving. In addition, drivers avoided task engagement prior to predictable take-over situations. These results indicate that self-regulatory behavior, as reported for manual driving, also takes place in the context of highly automated driving. Study 2 specifically addressed the impact of NDR-tasks' stimulus and response modalities on take-over performance. Results showed that particularly visual-manual tasks with high motoric load (including the need to get rid of a handheld object) had detrimental effects. However, drivers seemed to be aware of task specific distraction in take-over situations and strictly canceled visual-manual tasks compared to a low impairing auditory-vocal task. Study 3 revealed that also the mental demand of NDR-tasks should be considered for drivers' take-over performance. Finally, different human-machine-interfaces were developed and evaluated in Simulator Study 4. Concepts including an explicit pre-alert ("notification") clearly supported drivers' self-regulation and achieved high usability and acceptance ratings. Overall, this thesis indicates that the architecture of multiple resource theory provides a useful framework for research in this field. Practical implications arise regarding the potential legal regulation of NDR-tasks as well as the design of elaborated human-machine-interfaces.}, subject = {Autonomes Fahrzeug}, language = {en} } @phdthesis{Sapozhnikova2018, author = {Sapozhnikova, Kateryna}, title = {Robust Stability of Differential Equations with Maximum}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-173945}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {In this thesis stability and robustness properties of systems of functional differential equations which dynamics depends on the maximum of a solution over a prehistory time interval is studied. Max-operator is analyzed and it is proved that due to its presence such kind of systems are particular case of state dependent delay differential equations with piecewise continuous delay function. They are nonlinear, infinite-dimensional and may reduce to one-dimensional along its solution. Stability analysis with respect to input is accomplished by trajectory estimate and via averaging method. Numerical method is proposed.}, subject = {Differentialgleichung}, language = {en} } @phdthesis{Schreiber2018, author = {Schreiber, Benjamin}, title = {Selective and enhanced fluorescence by biocompatible nanocoatings to monitor G-protein-coupled receptor dynamics}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-173923}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Fluorescence microscopy has become one of the most important techniques for the imaging of biological cells and tissue, since the technique allows for selective labeling with fluorescent molecules and is highly suitable for low-light applications down to the single molecule regime. The methodological requirements are well-defined for studying membrane receptors within a highly localized nanometer-thin membrane. For example, G-protein-coupled receptors (GPCRs) are an extensively studied class of membrane receptors that represent one of the most important pharmaceutical targets. Ligand binding and GPCR activation dynamics are suspected to take place at the millisecond scale and may even be far faster. Thus, techniques that are fast, selective, and live-cell compatible are required to monitor GPCR dynamics. Fluorescence resonance energy transfer (FRET) and total internal reflection fluorescence microscopy (TIRF-M) are methods of choice to monitor the dynamics of GPCRs selectively within the cell membrane. Despite the remarkable success of these modalities, there are limitations. Most importantly, inhomogeneous illumination can induce imaging artifacts, rendering spectroscopic evaluation difficult. Background signal due to scattering processes or imperfect labeling can hamper the signal-to-noise, thus limiting image contrast and acquisition speed. Careful consideration of the internal physiology is required for FRET sensor design, so that ligand binding and cell compatibility are well-preserved despite the fluorescence labeling procedures. This limitation of labeling positions leads to very low signal changes in FRET-based GPCR analysis. In addition, microscopy of these systems becomes even more challenging in single molecule or low-light applications where the accuracy and temporal resolution may become dramatically low. Fluorescent labels should therefore be brighter, protected from photobleaching, and as small as possible to avoid interference with the binding kinetics. The development of new fluorescent molecules and labeling methods is an ongoing process. However, a complete characterization of new labels and sensors takes time. So far, the perfect dye system for GPCR studies has not been found, even though there is high demand. Thus, this thesis explores and applies a different approach based on improved illumination schemes for TIRF-M as well as metal-coated coverslips to enhance fluorescence and FRET efficiency. First, it is demonstrated that a 360° illumination scheme reduces typical TIRF artifacts and produces a much more homogenously illuminated field of view. Second, membrane imaging and FRET spectroscopy are improved by metal coatings that are used to modulate the fluorescent properties of common fluorescent dyes. Computer simulation methods are used to understand the underlying photophysics and to design the coatings. Third, this thesis explores the operational regime and limitations of plasmonic approaches with high sectioning capabilities. The findings are summarized by three publications that are presented in the results section of this work. In addition, the theory of fluorescence and FRET is explained, with particular attention to its emission modulations in the vicinity of metal-dielectric layers. Details of the instrumentation, computer simulations, and cell culture are described in the method section. The work concludes with a discussion of the findings within the framework of recent technological developments as well as perspectives and suggestions for future approaches complete the presented work.}, subject = {G-Protein gekoppelte Rezeptoren}, language = {en} } @phdthesis{Semeniak2018, author = {Semeniak, Daniela}, title = {Role of bone marrow extracellular matrix proteins on platelet biogenesis and function}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-155857}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Platelets, small anucleated blood cells responsible for hemostasis, interact at sights of injury with several exposed extracellular matrix (ECM) proteins through specific receptors. Ligand binding leads to activation, adhesion and aggregation of platelets. Already megakaryocytes (MKs), the immediate precursor cells in bone marrow (BM), are in constant contact to these ECM proteins (ECMP). The interaction of ECMP with MKs is, in contrast to platelets, less well understood. It is therefore important to study how MKs interact with sinusoids via the underlying ECMP. This thesis addresses three major topics to elucidate these interactions and their role in platelet biogenesis. First, we studied the topology of ECMP within BM and their impact on proplatelet formation (PPF) in vitro. By establishing a four-color immunofluorescence microscopy we localized collagens and other ECMP and determined their degree of contact towards vessels and megakaryocytes (MKs). In in vitro assays we could demonstrate that Col I mediates increased MK adhesion, but inhibits PPF by collagen receptor GPVI. By immunoblot analyses we identified that the signaling events underyling this inhibition are different from those in platelet activation at the Src family kinase level. Second, we determined the degree of MK-ECM interaction in situ using confocal laser scanning microscopy of four-color IF-stained femora and spleen sections. In transgenic mouse models lacking either of the two major collagen receptors we could show that these mice have an impaired association of MKs to collagens in the BM, while the MK count in spleen increased threefold. This might contribute to the overall unaltered platelet counts in collagen receptor-deficient mice. In a third approach, we studied how the equilibrium of ECMP within BM is altered after irradiation. Collagen type IV and laminin-α5 subunits were selectively degraded at the sinusoids, while the matrix degrading protease MMP9 was upregulated in MKs. Platelet numbers decreased and platelets became hyporesponsive towards agonists, especially those for GPVI activation. Taken together, the results indicate that MK-ECM interaction differs substantially from the well-known platelet-ECM signaling. Future work should further elucidate how ECMP can be targeted to ameliorate the platelet production and function defects, especially in patients after BM irradiation.}, subject = {Knochenmark}, language = {en} } @phdthesis{Kauk2018, author = {Kauk, Michael}, title = {Investigating the Molecular Mechanism of Receptor Activation at Muscarinic Receptors by Means of Pathway-Specific Dualsteric Ligands and Partial Agonists}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-173729}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {G protein-coupled receptors (GPCRs) form the biggest receptor family that is encoded in the human genome and represent the most druggable target structure for modern therapeutics respectively future drug development. Belonging to aminergic class A GPCRs muscarinic Acetylcholine receptors (mAChRs) are already now of clinical relevance and are also seen as promising future drug targets for treating neurodegenerative diseases like Alzheimer or Parkinson. The mAChR family consist of five subtypes showing high sequence identity for the endogenous ligand binding region and thus it is challenging until now to selectively activate a single receptor subtype. A well accepted method to study ligand binding, dynamic receptor activation and downstream signaling is the fluorescence resonance energy transfer (FRET) application. Here, there relative distance between two fluorophores in close proximity (<10 nm) can be monitored in a dynamic manner. The perquisite for that is the spectral overlap of the emission spectrum of the first fluorophore with the excitation spectrum of the second fluorophore. By inserting two fluorophores into the molecular receptor structure receptor FRET sensors can serve as a powerful tool to study dynamic receptor pharmacology. Dualsteric Ligands consist of two different pharmacophoric entities and are regarded as a promising ligand design for future drug development. The orthosteric part interacts with high affinity with the endogenous ligand binding region whereas the allosteric part binds to a different receptor region mostly located in the extracellular vestibule. Both moieties are covalently linked. Dualsteric ligands exhibit a dynamic ligand binding. The dualsteric binding position is characterized by a simultaneous binding of the orthosteric and allosteric moiety to the receptor and thus by receptor activation. In the purely allosteric binding position no receptor activation can be monitored. In the present work the first receptor FRET sensor for the muscarinic subtype 1 (M1) was generated and characterized. The M1-I3N-CFP sensor showed an unaltered physiological behavior as well as ligand and concentration dependent responses. The sensor was used to characterize different sets of dualsteric ligands concerning their pharmacological properties like receptor activation. It was shown that the hybrids consisting of the synthetic full agonist iperoxo and the positive allosteric modulator of BQCA type is very promising. Furthermore, it was shown for orthosteric as well as dualsteric ligands that the degree of receptor activation is highly dependent on the length of and the chemical properties of the linker moiety. For dualsteric ligands a bell-shaped activation characteristic was reported for the first time, suggesting that there is an optimal linker length for dualsteric ligands. The gained knowledge about hybrid design was then used to generate and characterize the first photo-switchable dualsteric ligand. The resulting hybrids were characterized with the M1-I3N-CFP sensor and were described as photo-inactivatable and dimmable. In addition to the ligand characterization the ligand application methodology was further developed and improved. Thus, a fragment-based screening approach for dualsteric ligands was reported in this study for the first time. With this approach it is possible to investigate dualsteric ligands in greater detail by applying either single ligand fragments alone or in a mixture of building blocks. These studies revealed the insights that the effect of dualsteric ligands on a GPCR can be rebuild by applying the single building blocks simultaneously. The fragment-based screening provides high potential for the molecular understanding of dualsteric ligands and for future screening approaches. Next, a further development of the standard procedure for measuring FRET by sensitized emission was performed. Under normal conditions single cell FRET is measured on glass coverslips. After coating the coverslips surface with a 20 nm thick gold layer an increased FRET efficiency up to 60 \% could be reported. This finding was validated in different approaches und in different configurations. This FRET enhancement by plasmonic surfaces was until yet unreported in the literature for physiological systems and make FRET for future projects even more powerful.}, subject = {G-Protein gekoppelte Rezeptoren}, language = {en} } @phdthesis{Schramm2018, author = {Schramm, Simon}, title = {Synthesis of Dualsteric Muscarinic M\(_1\) Acetylcholine Receptor Ligands and Neuroprotective Esters of Silibinin}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-173592}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Alzheimer's disease is a complex network of several pathological hallmarks. These characteristics always occur concomitantly and cannot be taken as distinct features of the disease. While there are hypotheses trying to explain the origin and progression of the illness, none of them is able to pinpoint a definitive cause. This fact challenges researchers not to focus on one individual hallmark but, bearing in mind the big picture, target two or more indications at once. This work, therefore, addresses two of the major characteristics of AD: the cholinergic hypothesis and neurotoxic oxidative stress. The former was achieved by targeting the postsynaptic muscarinic M1 acetylcholine receptor to further investigate its pharmacology, and the latter with the synthesis of neuroprotective natural antioxidant hybrids. The first aim was the design and synthesis of dualsteric agonists of the muscarinic M1 acetylcholine receptor. Activation of this receptor was previously shown to improve AD pathologies like the formation of Aβ and NFTs and protect against oxidative stress and caspase activation. Selectively targeting the M1 receptor is difficult as subtypes M1 - M5 of the muscarinic AChRs largely share the same orthosteric binding pocket. Orthosteric ligands are thus unsuitable for selective activation of one specific subtype. Secondary, allosteric binding sites are more diverse between subtypes. Allosteric ligands are, however, in most cases dependent on an orthosteric ligand to cause downstream signals. Dualsteric ligands thus utilize the characteristics of both orthosteric and allosteric ligands in form of a message-address concept. Bridged by an alkylene-linker, the allosteric part ensures selectivity, whereas the orthosteric moiety initiates receptor activation. Two sets of compounds were synthesised in this sense. In both cases, the orthosteric ligand carbachol is connected to an allosteric ligand via linkers of different chain length. The first set utilizes the selective allosteric M1 agonist TBPB, the second set employs the selective M1 positive allosteric modulator BQCA. Six compounds were obtained in twelve-step syntheses each. For each one, a reference compound lacking the carbachol moiety was synthesised. The dualsteric ligands 1a-c and 2a c were tested in the IP1 assay. The assay revealed that the TBPB-dualsterics 1 are not able to activate the receptor, whereas the respective TBPB-alkyl reference compounds 27 gave signals depending on the length of the alkylene-linker, suggesting allosteric partial agonism of alkyl compounds 27 and no dualsteric binding of the putatively dualsteric compounds 1. The dualsteric BQCA molecules 2, however, activated the receptor as expected. Efficacy of the C5 linked compound 2b was the highest, yet C3 and C8 compounds (2a and 2c) also showed partial agonism. In this case, the reference compounds 31 showed no receptor activation, implying the intended dualsteric binding mode of the BQCA-carbachol compounds 2. Further investigations will be conducted by the working group of Dr. Christian Tr{\"a}nkle at the Department of Pharmacology at the University of Bonn to confirm binding modes and determine affinities as well as selectivity of the synthesised dualsteric compounds. The second project dealt with the design, synthesis and biological evaluation of neuroprotective esters of the flavonolignan silibinin. While silibinin is already a potent antioxidant, it has been observed that the 7-OH group has a pro-oxidative character, making this position attractive for functionalisation. In order to obtain more potent antioxidants, the pro-oxidative position was esterified with other antioxidant moieties like ferulic acid 35 and derivatives thereof. Seventeen esters of silibinin 32, including pure diastereomers of 7 O feruloylsilibinin (43a and 43b) and a cinnamic acid ester of 2,3-dehydrosilibinin 46, were synthesised by regioselective esterification using acyl chlorides under basic conditions. The physicochemical antioxidant properties were assessed in the FRAP assay. This assay revealed no improvement of the antioxidant properties except for 7-O-dihydrosinapinoylsilibinin 39b. These results, however, do not correlate with the neuroprotective properties determined in the HT-22 hippocampal neuronal cell model. The assay showed overadditive neuroprotective effects of the esters exceeding those of its components and equimolar mixtures with the most potent compounds being 7-O-cinnamoylsilibinin 37a, 7-O-feruloylsilibinin 38a and the acetonide-protected caffeic acid ester 40a. These potent Michael system bearing compounds may be considered as "PAINS", but the assays used to assess antioxidant and neuroprotective activities were carefully chosen to avoid false positive readouts. The most potent compounds 37a and 38a, as well as the diastereomers 43a and 43b, were further studied in assays related to AD. In vitro ischemia, inhibition of microglial activation, PC12 cell differentiation and inhibition of Aβ42 and τ protein aggregation assays showed similar results in terms of overadditive effects of the synthesised esters. Moreover, the diastereomers 43a and 43b showed differences in their activities against oxytosis (glutamate-induced apoptosis), inhibition of Aβ42 and τ protein aggregation, and PC12 cell differentiation. The stereospecific effect or mode of action against Aβ42 and τ protein aggregation is more pronounced than that of silybin A (32a) and silybin B (32b) reported in literature and needs to be elucidated in future work. Stability measurements in cell culture medium revealed that the esters do not only get hydrolysed but are partially oxidised to their respective 2,3-dehydrosilibinin esters. Because dehydrosilibinin 45 itself is described as a more potent antioxidant than silibinin 32, 7 O cinnamoyl-2,3-dehydrosilibinin 46 was expected to be even more potent than its un-oxidised counterpart 37a in terms of neuroprotection. The oxytosis assay, however, showed that the neurotoxicity of 46 is much more pronounced, especially at higher concentrations, reducing its neuroprotective potential. Dehydrosilibinin esters are therefore inferior to the silibinin esters for application as neuroprotectants, because of the difficulty of their synthesis and their increased neurotoxicity. A synergistic effect of both species (silibinin and the oxidised form) might, however, be possible or even necessary for the pronounced neuroprotective effects of silibinin esters. As the dehydro-species show distinct neuroprotective properties at low concentrations, their continuous formation over time might make an essential contribution to the overall neuroprotection of the synthesised esters. Due to solubility issues for some of the ester compounds, 7-O-cinnamoylsilibinin 37a was converted into a highly soluble hemisuccinate. The vastly improved solubility of 7 O cinnamoyl-23-O-succinylsilibinin 48 was confirmed in shake-flask experiments. Contrary to expectation, stability examinations showed that the succinyl compound 48 is not cleaved to form 7-O-cinnamoylsilibinin 37a. Neuroprotection assays confirmed that 48 is not a prodrug of the corresponding ester. It was determined that the main site of hydrolysis is the 7-position, cleaving 37 to silibinin 32 and cinnamic acid thus reducing the compound's neuroprotective effects. Nevertheless, the compound still showed neuroprotection at a concentration of 25 µM. The improved solubility might be more beneficial than the higher neuroprotection of the poorly soluble parent compound 37a in vivo. 7 O Cinnamoylsilibinin 37a was further investigated to reduce Aβ25 35 induced learning impairment in mice. While tendencies of improved short-term and long-term memory in the animals were observed, the effects are not yet statistically significant in both Y-maze and passive avoidance tests. A greater number of test subjects is necessary to ensure correctness of the preliminary results presented in this work. However, an effect of ester 37a is observable in vivo, showing blood-brain barrier penetration. The esters synthesised are a novel approach for the treatment of AD as they show strong neuroprotective effects and their hydrolysis products or metabolites are only non-toxic natural products.}, subject = {Organische Synthese}, language = {en} } @phdthesis{Fleszar2018, author = {Fleszar, Krzysztof}, title = {Network-Design Problems in Graphs and on the Plane}, edition = {1. Auflage}, publisher = {W{\"u}rzburg University Press}, address = {W{\"u}rzburg}, isbn = {978-3-95826-076-4 (Print)}, doi = {10.25972/WUP-978-3-95826-077-1}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-154904}, school = {W{\"u}rzburg University Press}, pages = {xi, 204}, year = {2018}, abstract = {A network design problem defines an infinite set whose elements, called instances, describe relationships and network constraints. It asks for an algorithm that, given an instance of this set, designs a network that respects the given constraints and at the same time optimizes some given criterion. In my thesis, I develop algorithms whose solutions are optimum or close to an optimum value within some guaranteed bound. I also examine the computational complexity of these problems. Problems from two vast areas are considered: graphs and the Euclidean plane. In the Maximum Edge Disjoint Paths problem, we are given a graph and a subset of vertex pairs that are called terminal pairs. We are asked for a set of paths where the endpoints of each path form a terminal pair. The constraint is that any two paths share at most one inner vertex. The optimization criterion is to maximize the cardinality of the set. In the hard-capacitated k-Facility Location problem, we are given an integer k and a complete graph where the distances obey a given metric and where each node has two numerical values: a capacity and an opening cost. We are asked for a subset of k nodes, called facilities, and an assignment of all the nodes, called clients, to the facilities. The constraint is that the number of clients assigned to a facility cannot exceed the facility's capacity value. The optimization criterion is to minimize the total cost which consists of the total opening cost of the facilities and the total distance between the clients and the facilities they are assigned to. In the Stabbing problem, we are given a set of axis-aligned rectangles in the plane. We are asked for a set of horizontal line segments such that, for every rectangle, there is a line segment crossing its left and right edge. The optimization criterion is to minimize the total length of the line segments. In the k-Colored Non-Crossing Euclidean Steiner Forest problem, we are given an integer k and a finite set of points in the plane where each point has one of k colors. For every color, we are asked for a drawing that connects all the points of the same color. The constraint is that drawings of different colors are not allowed to cross each other. The optimization criterion is to minimize the total length of the drawings. In the Minimum Rectilinear Polygon for Given Angle Sequence problem, we are given an angle sequence of left (+90°) turns and right (-90°) turns. We are asked for an axis-parallel simple polygon where the angles of the vertices yield the given sequence when walking around the polygon in counter-clockwise manner. The optimization criteria considered are to minimize the perimeter, the area, and the size of the axis-parallel bounding box of the polygon.}, subject = {Euklidische Ebene}, language = {en} } @phdthesis{Nuernberger2018, author = {N{\"u}rnberger, Fabian}, title = {Timing of colony phenology and foraging activity in honey bees}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-155105}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {I. Timing is a crucial feature in organisms that live within a variable and changing environment. Complex mechanisms to measure time are wide-spread and were shown to exist in many taxa. These mechanisms are expected to provide fitness benefits by enabling organisms to anticipate environmental changes and adapt accordingly. However, very few studies have addressed the adaptive value of proper timing. The objective of this PhD-project was to investigate mechanisms and fitness consequences of timing decisions concerning colony phenology and foraging activity in the honey bee (Apis mellifera), a social insect species with a high degree of social organization and one of the most important pollinators of wild plants and crops. In chapter II, a study is presented that aimed to identify the consequences of disrupted synchrony between colony phenology and the local environment by manipulating the timing of brood onset after hibernation. In a follow-up experiment, the importance of environmental factors for the timing of brood onset was investigated to assess the potential of climate change to disrupt synchronization of colony phenology (Chapter III). Chapter IV aimed to prove for the first time that honey bees can use interval time-place learning to improve foraging activity in a variable environment. Chapter V investigates the fitness benefits of information exchange between nest mates via waggle dance communication about a resource environment that is heterogeneous in space and time. II. In the study presented in chapter II, the importance of the timing of brood onset after hibernation as critical point in honey bee colony phenology in temperate zones was investigated. Honey bee colonies were overwintered at two climatically different sites. By translocating colonies from each site to the other in late winter, timing of brood onset was manipulated and consequently colony phenology was desynchronized with the local environment. Delaying colony phenology in respect to the local environment decreased the capability of colonies to exploit the abundant spring bloom. Early brood onset, on the other hand, increased the loads of the brood parasite Varroa destructor later in the season with negative impact on colony worker population size. This indicates a timing related trade-off and illustrates the importance of investigating effects of climate change on complex multi-trophic systems. It can be concluded that timing of brood onset in honey bees is an important fitness relevant step for colony phenology that is highly sensitive to climatic conditions in late winter. Further, phenology shifts and mismatches driven by climate change can have severe fitness consequences. III. In chapter III, I assess the importance of the environmental factors ambient temperature and photoperiod as well as elapsed time on the timing of brood onset. Twenty-four hibernating honey bee colonies were placed into environmental chambers and allocated to different combinations of two temperature regimes and three different light regimes. Brood onset was identified non-invasively by tracking comb temperature within the winter cluster. The experiment revealed that ambient temperature plays a major role in the timing of brood onset, but the response of honey bee colonies to temperature increases is modified by photoperiod. Further, the data indicate the involvement of an internal clock. I conclude that the timing of brood onset is complex but probably highly susceptible to climate change and especially spells of warm weather in winter. IV. In chapter IV, it was examined if honey bees are capable of interval time-place learning and if this ability improves foraging efficiency in a dynamic resource environment. In a field experiment with artificial feeders, foragers were able to learn time intervals and use this ability to anticipate time periods during which feeders were active. Further, interval time-place learning enabled foragers to increase nectar uptake rates. It was concluded that interval time-place learning can help honey bee foragers to adapt to the complex and variable temporal patterns of floral resource environments. V. The study presented in chapter V identified the importance of the honey bee waggle dance communication for the spatiotemporal coordination of honey bee foraging activity in resource environments that can vary from day to day. Consequences of disrupting the instructional component of honey bee dance communication were investigated in eight temperate zone landscapes with different levels of spatiotemporal complexity. While nectar uptake of colonies was not affected, waggle dance communication significantly benefitted pollen harvest irrespective of landscape complexity. I suggest that this is explained by the fact that honey bees prefer to forage pollen in semi-natural habitats, which provide diverse resource species but are sparse and presumably hard to find in intensively managed agricultural landscapes. I conclude that waggle dance communication helps to ensure a sufficient and diverse pollen diet which is crucial for honey bee colony health. VI. In my PhD-project, I could show that honey bee colonies are able to adapt their activities to a seasonally and daily changing environment, which affects resource uptake, colony development, colony health and ultimately colony fitness. Ongoing global change, however, puts timing in honey bee colonies at risk. Climate change has the potential to cause mismatches with the local resource environment. Intensivation of agricultural management with decreased resource diversity and short resource peaks in spring followed by distinctive gaps increases the probability of mismatches. Even the highly efficient foraging system of honey bees might not ensure a sufficiently diverse and healthy diet in such an environment. The global introduction of the parasitic mite V. destructor and the increased exposure to pesticides in intensively managed landscapes further degrades honey bee colony health. This might lead to reduced cognitive capabilities in workers and impact the communication and social organization in colonies, thereby undermining the ability of honey bee colonies to adapt to their environment.}, subject = {Biene}, language = {en} } @phdthesis{Wedel2018, author = {Wedel, Carolin}, title = {The impact of DNA sequence and chromatin on transcription in \(Trypanosoma\) \(brucei\)}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-173438}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {For cellular viability, transcription is a fundamental process. Hereby, the DNA plays the most elemental and highly versatile role. It has long been known that promoters contain conserved and often well-defined motifs, which dictate the site of transcription initiation by providing binding sites for regulatory proteins. However, research within the last decade revealed that it is promoters lacking conserved promoter motifs and transcribing constitutively expressed genes that constitute the majority of promoters in eukaryotes. While the process of transcription initiation is well studied, whether defined DNA sequence motifs are required for the transcription of constitutively expressed genes in eukaryotes remains unknown. In the highly divergent protozoan parasite Trypanosoma brucei, most of the proteincoding genes are organized in large polycistronic transcription units. The genes within one polycistronic transcription unit are generally unrelated and transcribed by a common transcription start site for which no RNA polymerase II promoter motifs have been identified so far. Thus, it is assumed that transcription initiation is not regulated but how transcription is initiated in T. brucei is not known. This study aimed to investigate the requirement of DNA sequence motifs and chromatin structures for transcription initiation in an organism lacking transcriptional regulation. To this end, I performed a systematic analysis to investigate the dependence of transcription initiation on the DNA sequence. I was able to identify GT-rich promoter elements required for directional transcription initiation and targeted deposition of the histone variant H2A.Z, a conserved component during transcription initiation. Furthermore, nucleosome positioning data in this work provide evidence that sites of transcription initiation are rather characterized by broad regions of open and more accessible chromatin than narrow nucleosome depleted regions as it is the case in other eukaryotes. These findings highlight the importance of chromatin during transcription initiation. Polycistronic RNA in T. brucei is separated by adding an independently transcribed miniexon during trans-splicing. The data in this work suggest that nucleosome occupancy plays an important role during RNA maturation by slowing down the progressing polymerase and thereby facilitating the choice of the proper splice site during trans-splicing. Overall, this work investigated the role of the DNA sequence during transcription initiation and nucleosome positioning in a highly divergent eukaryote. Furthermore, the findings shed light on the conservation of the requirement of DNA motifs during transcription initiation and the regulatory potential of chromatin during RNA maturation. The findings improve the understanding of gene expression regulation in T. brucei, a eukaryotic parasite lacking transcriptional Regulation.}, subject = {Transkription}, language = {en} } @phdthesis{Bacmeister2018, author = {Bacmeister, Lucas}, title = {Effect of Cadherin-13 inactivation on different GABAergic interneuron populations of the mouse hippocampus}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-172693}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Cadherin-13 (CDH13) is an atypical member of the cadherin superfamily, a group of membrane proteins mediating calcium-dependent cellular adhesion. Although CDH13 shows the classical extracellular cadherin structure, the typical transmembrane and cytoplasmic domains are absent. Instead, CDH13 is attached to the cell membrane via a glycosylphosphatidylinositol (GPI) anchor. These findings and many studies from different fields suggest that CDH13 also plays a role as a cellular receptor. Interestingly, many genome-wide association studies (GWAS) have found CDH13 as a risk gene for attention-deficit/hyperactivity disorder (ADHD) and other neurodevelopmental disorders. In previous work from our research group, strong expression of Cdh13 mRNA in interneurons of the hippocampal stratum oriens (SO) was detected. Therefore, double-immunofluorescence studies were used to evaluate the degree of co-expression of CDH13 with seven markers of GABAergic interneuron subtypes. For this purpose, murine brains were double stained against CDH13 and the respective marker and the degree of colocalization in the SO of the hippocampus was assessed. Based on the result of this immunofluorescence study, quantitative differences in interneuron subtypes of the SO between Cdh13 knockout (ko), heterozygote (het) and wildtype (wt) mice were investigated in this dissertation using stereological methods. In addition, genotype- dependent differences in the expression of genes involved in GABAergic and glutamatergic neurotransmission were analyzed by quantitative real-time PCR (qRT-PCR). Primers targeting different GABA receptor subunits, vesicular GABA and glutamate transporter, GABA synthesizing enzymes and their interaction partners were used for this purpose. The results of the stereological quantification of the interneuron subtypes show no significant differences in cell number, cell density or volume of the SO between Cdh13 ko, het and wt mice. On the other hand, qRT-PCR results indicate significant differences in the expression of tropomyosin-related kinase B gene (TrkB), which encodes the receptor of brain-derived neurotrophic factor (BDNF), a regulator of GABAergic neurons. This finding supports a role for CDH13 in the regulation of BDNF signaling in the hippocampus.}, subject = {Cadherine}, language = {en} } @phdthesis{Feineis2018, author = {Feineis, Susanne}, title = {Thioether-poly(glycidol) as multifunctional coating system for gold nanoparticles}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-172902}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {The aim of this thesis was the development of a multifunctional coating system for AuNPs based on thioether polymers, providing both excellent colloidal stability and a variable possibility to introduce functionalities for biological applications. First, two thioether-polymer systems were synthesised as a systematic investigation into colloidal stabilisation efficacy. Besides commonly used monovalent poly(ethylene glycol) (PEG-SR), its structural analogue linear poly(glycidol) (PG-SR) bearing multiple statistically distributed thioether moieties along the backbone was synthesised. Additionally, respective thiol analogues (PEG-SH and PG-SH) were produced and applied as reference. Successive modification of varyingly large AuNPs with aforementioned thiol- and thioether-polymers was performed via ligand exchange reaction on citrate stabilised AuNPs. An increased stabilisation efficacy of both thioether-polymers against biological and physiological conditions, as well as against freeze-drying compared to thiol analogues was determined. Based on the excellent colloidal stabilisation efficacy and multi-functionalisability of thioether-PG, a plethora of functional groups, such as charged groups, hydrophilic/hydrophobic chains, as well as bio-active moieties namely diazirine and biotin was introduced to the AuNP surface. Moreover, the generic and covalent binding of diazirine-modified PG-SR with biomolecules including peptides and proteins was thoroughly demonstrated. Lastly, diverse applicability and bioactivity of aforementioned modified particles in various studies was displayed, once more verifying the introduction of functionalities. On the one hand the electrostatic interaction of charged AuNPs with hydrogels based on hyaluronic acid was applied to tune the release kinetics of particles from three-dimensional scaffolds. On the other hand the strong complexation of siRNA onto two positively charged AuNPs was proven. The amount of siRNA payload was tuneable by varying the surface charge, ionic strength of the surrounding medium and the N/P ratio. Moreover, the biological activity and selectivity of the biotin-streptavidin conjugation was verified with respectively functionalised particles in controlled agglomeration test and in laser-triggered cell elimination experiments. In the latter, streptavidin-functionalised AuNPs resulted in excellent depletion of biotinylated cells whereas unfunctionalised control particles failed, excluding unspecific binding of these particles to the cell surface.}, subject = {Nanopartikel}, language = {en} } @phdthesis{Munz2018, author = {Munz, Eberhard}, title = {Physiological and metabolical high-resolution MRI of plants}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-172518}, school = {Universit{\"a}t W{\"u}rzburg}, pages = {177}, year = {2018}, abstract = {The noninvasive magnetic resonance imaging technique allows for the investigation of functional processes in the living plant. For this purpose during this work, different NMR imaging methods were further developed and applied. For the localisation of the intrusion of water into the germinating rape seed with the simultaneous depiction of the lipid-rich tissue via a 3D rendering, in Chap. 5 the technique of interleaved chemical selective acquisition of water and lipid was used in the germinating seed. The utilization of high-resolution MR images of germinated seeds enabled the localization of a predetermined water gap in the lipid-rich aleurone layer, which resides directly under the seed coat. The for a long time in biology prevalent discussion, whether such a gap exists or the seed soaks up the water from all sides, rather like a sponge, could hereby, at least for the rapeseed seed, be answered clearly. Furthermore, the segmentation and 3D visualization of the vascular tissue in the rapeseed seeds was enabled by the high-resolution datasets, a multiply branched structure preconstructed in the seed could be shown. The water is directed by the vascular tissue and thus awakens the seed gradually to life. This re-awakening could as well be tracked by means of invasive imaging via an oxygen sensor. In the re-awakened seeds, the lipid degradation starts, other than expected, not in the lipid-rich cotyledons but in the residual endosperm remaining from seed development and in the aleurone layer which previously protected the embryo. Within this layer, the degradation could be verified in the high-resolution MR datasets. The method presented in Chap. 6 provides a further characteristic trait for phenotyping of seeds and lipid containing plants in general. The visualization of the compounds of fatty acids in plant seeds and fruits could be achieved by the distinct utilization of chemical shift-selective imaging techniques. Via the application of a CSI sequence the fatty acid compounds in an olive were localized in a 2D slice. In conjunction with an individually adjusted CHESS presaturation module Haa85 the high-resolution 3D visualization of saturated and unsaturated fatty acid compounds in different seeds was achieved. The ratio maps calculated from these datasets allow to draw conclusions from the developmental stage or the type of seed. Furthermore, it could be shown that the storage condition of two soybean seeds with different storage time durations lead to no degradation of the fatty acid content. Additional structural information from inside of dry seeds are now accessible via MRI. In this work the imaging of cereal seeds could be significantly improved by the application of the UTE sequence. The hitherto existing depictions of the lipid distribution, acquired with the spin echo sequence, were always sufficient for examinations of the lipid content, yet defects in the starchy endosperm or differences in the starch concentration within the seed remained constantly unseen with this technique. In a direct comparison of the datasets acquired with the previous imaging technique (spin echo) and with UTE imaging, the advantage of data acquisition with UTE could be shown. By investigating the potential seed compounds (starch, proteins, sugar) in pure form, the constituent parts contributing to the signal could be identified as bound water (residual moisture) and starch. The application of a bi-exponential fit on the datasets of the barley seed enabled the separate mapping of magnetization and of relaxation time of two components contributing to the NMR signal. The direct comparison with histological stainings verified the previous results, thus this technique can be used for the selective imaging of starch in dry seeds. Conclusions on the translocation characteristics in plants can be drawn by the technique proposed in Chap. 8. The associated translocation velocities can now, even in the range of several um/h, be determined in the living plant. Based on calculated concentrations of an MR contrast agent, which was taken up by the plant, these translocation velocities were estimated both in longitudinal direction, thus along the vascular bundle, and in horizontal direction, thus out of the bundle. The latter velocity is located below the contrast agent's velocity value of free diffusion. By adjusting a dynamic contrast-enhancing imaging technique (DCE-Imaging, Tof91) the acquisition duration of a T1-map was significantly reduced. By means of these maps, local concentrations of the contrast agent in plant stems and the siliques of the rapeseed plant could be determined. Numerous questions in plant science can only be answered by non-invasive techniques such as MRI. For this reason, besides the experimental results achieved in this work, further NMR methods were tested and provided for the investigation of plants. As an example, the study on the imaging of magnetic exchange processes are mentioned, which provided the groundwork for a possible transfer of CEST experiments (Chemical Exchange Saturation Transfer) to the plant. The results are presented in the bachelor thesis of A. J{\"a}ger Jae17, which was performed under my supervision, they find great interest under biologists. The development of new technologies, which extend the possibilities for the investigation of living organisms, is of great importance. For this reason, I have contributed to the development of the currently unpublished method RACETE (Refocused Acquisition of Chemical Exchange Transferred Excitations [Jak17, Reu17, Gut18a]). By rephasing the transferred magnetization the utilization of properties which have not been available in chemical "`exchange"' experiments is enabled. With this method a positive contrast is generated, thus a reference experiment is not mandatory. Furthermore, the image phase, which in classical experiments contains no information about the exchanged protons, can be used for the distinct identification of multiple substances which have been excited simultaneously. This recently at the Department of Experimental Physics V developed method can be used in particular for the identification of lipids and for the localization of sugars and amino acids, thus it can serve the enhancement and improvement of non-invasive analytical methods.}, subject = {Kernspintomografie}, language = {en} } @phdthesis{Boeck2018, author = {B{\"o}ck, Thomas}, title = {Multifunctional Hyaluronic Acid / Poly(glycidol) Hydrogels for Cartilage Regeneration Using Mesenchymal Stromal Cells}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-155345}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Improved treatment options for the degenerative joint disease osteoarthritis (OA) are of major interest, since OA is one of the main sources of disability, pain, and socioeconomic burden worldwide [202]. According to epidemiological data, already 27 million people suffer from OA in the US [23]. Moreover, the WHO expects OA to be the fourth most common cause of disability in 2020 [203], illustrating the need for effective and long-lasting therapy options of severe cartilage defects. Despite numerous clinically available products for the treatment of cartilage defects [62], the development of more cartilage-specific materials is still at the beginning. Hyaluronic acid (HA) is a major component of the cartilaginous extracellular matrix (ECM) and inherently creates a cell-friendly niche by providing cell attachment and migration sites. Furthermore, it is known that the functional groups of HA are well suited for chemical modification. These characteristics render HA an attractive material for hydrogel-based tissue engineering approaches. Poly(glycidol) (PG) as chemical crosslinker basically features similar chemical characteristics as the widely used poly(ethylene glycol) (PEG), but provides additional side groups at each repeating unit that can be further chemically functionalized. With the introduction of PG as multifunctional crosslinker for HA gels, a higher cross-linking density and, accordingly, a greater potential for biomimetic functionalization may be achieved. However, despite the mentioned potential benefits, PG has not been used for cartilage regeneration approaches so far. The initial aim of the study was to set up and optimize a HA-based hydrogel for the chondrogenic differentiation of mesenchymal stromal cells (MSCs), using different amounts and variations of cross-linkers. Therefore, the hydrogel composition was optimized by the utilization of different PEG diacrylate (PEGDA) concentrations to cross-link thiol-modified HA (Glycosil, HA-SH) via Michael addition. We aimed to generate volumestable scaffolds that simultaneously enable a maximum of ECM deposition. Histological and biochemical analysis showed 0.4\% PEGDA as the most suitable concentration for these requirements (Section 5.1.2). In order to evaluate the impact of a differently designed cross-linker on MSC chondrogenesis, HA-SH was cross-linked with PEGTA (0.6\%) and compared to PEGDA (0.4\%) in a next step. Following this, acrylated PG (PG-Acr) as multifunctional cross-linker alternative to acrylated PEG was evaluated. It provides around five times more functional groups when utilized in PG-Acr (0.6\%) HA-SH hydrogels compared to PEGTA (0.6\%) HA-SH hydrogels, thus enabling higher degrees of biomimetic functionalization. Determination of cartilage-specific ECM components showed no substantial differences between both cross-linkers while the deposition of cartilaginous matrix appeared more homogeneous in HA-SH PG-Acr gels. Taken together, we were able to successfully increase the possibilities for biomimetic functionalization in the developed HA-SH hydrogel system by the introduction of PG-Acr as cross-linker without negatively affecting MSC chondrogenesis (Section 5.1.3). The next part of this thesis focused extensively on the biomimetic functionalization of PG-Acr (0.6\%) cross-linked HA-SH hydrogels. Here, either biomimetic peptides or a chondrogenic growth factor were covalently bound into the hydrogels. Interestingly, the incorporation of a N-cadherin mimetic (HAV), a collagen type II binding (KLER), or a cell adhesion-mediating peptide (RGD) yielded no improvement of MSC chondrogenesis. For instance, the covalent binding of 2.5mM HAV changed morphology of cell nuclei and reduced GAG production while the incorporation of 1.0mM RGD impaired collagen production. These findings may be attributed to the already supportive conditions of the employed HA-based hydrogels for chondrogenic differentiation. Most of the previous studies reporting positive peptide effects on chondrogenesis have been carried out in less supportive PEG hydrogels or in significantly stiffer MeHA-based hydrogels [99, 101, 160]. Thus, the incorporation of peptides may be more important under unfavorable conditions while inert gel systems may be useful for studying single peptide effects (Section 5.2.1). The chondrogenic factor transforming growth factor beta 1 (TGF-b1) served as an example for growth factor binding to PG-Acr. The utilization of covalently bound TGF-b1 may thereby help overcome the need for repeated administration of TGF-b1 in in vivo applications, which may be an advantage for potential clinical application. Thus, the effect of covalently incorporated TGF-b1 was compared to the effect of the same amount of TGF-b1 without covalent binding (100nM TGF-b1) on MSC chondrogenesis. It was successfully demonstrated that covalent incorporation of TGF-b1 had a significant positive effect in a dose-dependent manner. Chondrogenesis of MSCs in hydrogels with covalently bound TGF-b1 showed enhanced levels of chondrogenesis compared to hydrogels into which TGF-b1 was merely mixed, as shown by stronger staining for GAGs, total collagen, aggrecan and collagen type II. Biochemical evaluation of GAG and collagen amounts, as well as Western blot analysis confirmed the histological results. Furthermore, the positive effect of covalently bound TGF-b1 was shown by increased expression of chondrogenic marker genes COL2A1, ACAN and SOX9. In summary, covalent growth factor incorporation utilizing PG-Acr as cross-linker demonstrated significant positive effects on chondrogenic differentiation of MSCs (Section 5.2.2). In general, PG-Acr cross-linked HA hydrogels generated by Michael addition represent a versatile hydrogel platform due to their high degree of acrylate functionality. These hydrogels may further offer the opportunity to combine several biological modifications, such as the incorporation of biomimetic peptides together with growth factors, within one cell carrier. A proof-of-principle experiment demonstrated the suitability of pure PG gels for studying single peptide effects. Here, the hydrogels were generated by the utilization of thiol-ene-click reaction. In this setting, without the supportive background of hyaluronic acid, MSCs showed enhanced chondrogenic differentiation in response to the incorporation of 1.0mM HAV. This was demonstrated by staining for GAGs, the cartilage-specific ECM molecules aggrecan and type II collagen, and by increased GAG and total collagen amounts shown by biochemical analysis. Thus, pure PG gels exhibit the potential to study the effects and interplay of peptides and growth factors in a highly modifiable, bioinert hydrogel environment. The last section of the thesis was carried out as part of the EU project HydroZONES that aims to develop and generate zonal constructs. The importance of zonal organization has attracted increased attention in the last years [127, 128], however, it is still underrepresented in tissue engineering approaches so far. Thus, the feasibility of zonal distribution of cells in a scaffold combining two differently composed hydrogels was investigated. A HA-SH(FMZ) containing bottom layer was generated and a pure PG top layer was subsequently cast on top of it, utilizing both times thiol-ene-click reaction. Indeed, stable, hierarchical constructs were generated that allowed encapsulated MSCs to differentiate chondrogenically in both zones as shown by staining for GAGs and collagen type II, and by quantification of GAG amount. Thus, the feasibility of differently composed zonal hydrogels utilizing PG as a main component was successfully demonstrated (Section 5.4). With the first-time utilization and evaluation of PG-Acr as versatile multifunctional cross-linker for the preparation of Michael addition-generated HA-SH hydrogels in the context of cartilage tissue engineering, a highly modifiable HA-based hydrogel system was introduced. It may be used in future studies as an easily applicable and versatile toolbox for the generation of biomimetically functionalized hydrogels for cell-based cartilage regeneration. The introduction of reinforcement structures to enhance mechanical resistance may thereby further increase the potential of this system for clinical applications. Additionally, it was also demonstrated that thiol-ene clickable hydrogels can be used for the generation of cell-laden, pure PG gels or for the generation of more complex, coherent zonal constructs. Furthermore, thiol-ene clickable PG hydrogels have already been further modified and successfully been used in 3D bioprinting experiments [204]. 3D bioprinting, as part of the evolving biofabrication field [205], offers the possibilities to generate complex and hierarchical structures, and to exactly position defined layers, yet at the same time alters the requirements for the utilized hydrogels [159, 206-209]. Since a robust chondrogenesis of MSCs was demonstrated in the thiol-ene clickable hydrogel systems, they may serve as a basis for the development of hydrogels as so called bioinks which may be utilized in more sophisticated biofabrication processes.}, subject = {Hyalurons{\"a}ure}, language = {en} } @phdthesis{Behets2018, author = {Behets, Jean Nicolas}, title = {Biomimetic calcium phosphate modification of 3D-printed tissue engineering scaffolds using reactive star-shaped macromers}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-171728}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Biomimetic calcium phosphate (CaP) coatings imitate the trabecular bones surface structure and have shown to promote osteogenic differentiation in multipotent cells. The work of this thesis focused on the problem of former CaP coatings cracking and flaking off when being put on a bendable core structure like a 3D-printed poly (ε-caprolactone) (PCL) scaffold. The aim was to provide a chemical linkage between PCL and CaP using a star-shaped polymer (sPEG) and a phosphonate, 2-aminoethylphosphonic acid (2-AEP). First, a published CaP coating protocol was revised and investigated in terms of etching parameters for the PCL scaffold. Results presented reproducible thick coatings for all groups. The protocol was then broadened to include subsequent scaffold incubation in sPEG and 2-AEP solutions. Homogenous CaP coatings of decreased thickness presented themselves, proving feasibility. However, as is often found with physical CaP coating depositions, there were some irregular outcomes even during the same experimental group. A lower consumption of the chemical 2-AEP, for economic reasons, meant that the protocol was altered to simultaneously incubate scaffolds with sPEG and 2-AEP including preceding calculations for molar ratios. For ratios 1:1, 1:2 and 1:3, again a homogenous CaP coating was produced on most of the samples, although reproducibility issues maintained. However, the mechanical bending to induce surface cracking showed that the CaP did strongly bond to the sPEG/2-AEP, while the control CaP coating flaked off the surface in large pieces. This research demonstrates that chemically-bound CaP coatings resist flaking off the fiber surface. Future investigations should focus on the mechanisms of CaP crystallization, to improve reproducibility.}, subject = {Tissue engineering}, language = {en} } @phdthesis{Gerlach2018, author = {Gerlach, Jennifer}, title = {Influence of Myc-interacting proteins on transcription and development}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-154917}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {The transcription factor Myc interacts with several co-factors to regulate growth and proliferationand thereby enables normal animal development. Deregulation of Myc is associated witha wide range of human tumors. Myc binds to DNA together with its dimerization partner Max, preferentially to canonical E-box motifs, but this sequence-specific interaction is probably not sufficient for Myc's binding to target genes. In this work, the PAF1 complex was characterized as a novel co-factor of Myc in Drosophila melanogaster. All components of the complex are required for Myc's recruitment to chromatin, but the subunit Atu has the strongest effect on Myc's binding to target genes through ist direct physical interaction with Myc. Unexpectedly, the impact of Atu depletion on the Expression of Myc target genes was weak compared to its effect on Myc binding. However, the influence of Atu becomes more prominent in situations of elevated Myc levels in vivo . Mycrepressed as well as Myc-activated targets are affected, consistent with the notion that Myc recruitment is impaired. An independent set of analyses revealed that Myc retains substantial activity even in the complete absence of Max. The overexpression of Myc in Max0 mutants specifically blocks their pupariation without affecting their survival, which raised the possibility that Myc might affect ecdysone biosynthesis. This connection was studied in the second part of this Thesis which showed that Myc inhibits the expression of ecdysteroidogenic genes and thereby the production of ecdysone. Myc most likely affects the signaling pathways (PTTH and insulin signaling) upstream of the PG, the organ where ecdysone is produced. By combining existing ChIPseq, RNAseq and electronic annotation data, we identified five potential Maxindependent Myc targets and provided experimental data that they might be involved in Myc's effect on Max mutant animals. Together our data confirm that some Myc functions are Max-independent and they raise the possibility that this effect might play a role during replication.}, subject = {Taufliege}, language = {en} } @phdthesis{Schaefer2018, author = {Sch{\"a}fer, Julian}, title = {Synthesis and Photophysical Investigation of Donor-Acceptor-Substituted meta- and para-Benzene Derivatives}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-155007}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Im ersten Teil dieser Arbeit wurde die erfolgreiche Synthese einer Serie von bisTriarylamin (bisTAA) Verbindungen vorgestellt. Zum einen wurde das Substitutionmuster an der Benzol Br{\"u}ckeneinheit in Form einer meta- bzw. para-St{\"a}ndigkeit der Redoxzentren (pX bzw. mX), und zum anderen die energetische Lage der Br{\"u}ckeneinheit durch zwei elektronen-schiebende oder ziehende Substituenten X (mit X = OMe, Me, Cl, CN, NO2) in 2,5-Position variiert. Im Falle der meta-Serie wurden auch einige in 4,6-Position substituierte Verbinungen hergestellt (mX46). Die neutral Verbindungen wurden bez{\"u}glich ihrer elektrochemischen und photophysikalischen Eigenschaften untersucht. Durch Oxidation konnten die gemischt valenten (MV), kationischen bisTAA-Verbindungen erzeugt werden. Der thermisch induzierte Lochtransfer (HT) wurde durch temperatur-abh{\"a}ngige ESR-Spektroskopie untersucht. W{\"a}hrend die HT-Rate k und HT-Barriere ΔG in mX unbeeinflusst von den Substituenten X sind, steigen gleichzeitig k und ΔG in der pX-Serie mit zunehmenden Elektonenschub von X an. Diese zun{\"a}chst widerspr{\"u}chliche Beobachtung konnte durch einen ansteigenden Einfluss von L{\"o}sungsmitteleffekten und dadurch resultierend, einer zus{\"a}tzlichen effektiven Barriere erkl{\"a}rt werden. Der optisch induzierte Lochtransfer wurde mittels UV/Vis/NIR-Spektroskopie untersucht. Die pX-Serie zeigte eine Zuhname der elektronischen Kopplung V und dementsprechende eine Abnahme von ΔG, mit Anstieg des elektonenschiebenden Charakters von X. F{\"u}r mX war eine spektroskopische Bestimmung dieser Parameter nicht m{\"o}glich. Die mX46-Serie zeigte ein intermedi{\"a}res Verhalten, wobei MV-Verbindungen mit stark elektronenschiebenden X eine {\"a}hnliche hohe Kopplungen wie pX aufwiesen, was mit Hilfe von DFT-Rechnungen bez{\"u}glich der Molek{\"u}lorbitale erkl{\"a}rt werden konnte. Im zweiten Teil dieser Arbeit wurde die Synthese einer Serie von Verbindungen mit Triarylamin (TAA) als Donor und Naphthalindiimid (NDI) als Akzeptor vorgestellt. Auch hier wurde zum einen das Substitutionmuster an der Benzol-Br{\"u}ckeneinheit in Form einer meta- bzw. para-St{\"a}ndigkeit der Redoxzentren (pXNDI bzw. mXNDI) variieiet und die energetische Lage der durch X (mit X = OMe, Me, Cl, CN, NO2) in 2,5-Position variiert. Außerdem wurde die in 4,6-Position substituierte Verbinungen mOMe46NDI hergestellt. Alle Verbindungen wurden bez{\"u}glich ihrer elektochemischen und photophysikalischen Eigenschaften untersucht. Die Elektronentransferprozesse der Ladungsseparierung (CS) und Ladungsrekombination (CR) dieser Verbindungen sollten mittels transienter Absorptionsspektroskopie (TA) in Toluol untersucht werden. F{\"u}r die Nitroverbindungen p-/mNO2NDI war dies nicht m{\"o}glich, da sich diese unter Bestrahung zersetzten. Die CR von pXNDI waren nicht im ns-Bereich detektierbar, weshalb sich auf die mXNDI-Serie (mit X = OMe-CN) konzentriert wurde. Die CS wurde mittels fs-TA untersucht. Nach optischer Anregung konnte die Bildung eines CS-Zustandes detektiert werden, dessen Bildungsgeschwindigkeit hin zu elektronen-ziehenden Substituenten X steigt. Die CR wurde mit ns-TA untersucht. Sie findet in der Marcus invertierten Region statt und zeichnet sich wird durch ein biexponentialles Abklingverhaten, was durch ein Singulet-Triplett Gleichgewicht im CS-Zustand zustande kommt, aus. Durch Anlegen eines externen Magnetfeldes ließ sich das Abklingverhalten entscheidend ver{\"a}ndern und es konnte eine Singulett-Triplett Aufspaltung nachgewiesen werden. Dieser Befund konnte weiterhin durch Simulation der Abklingkurven best{\"a}tigt werden. In beiden Teilen dieser Arbeit konnte ein entscheidender Einfluss der Benzolbr{\"u}cke auf die auftretenden Ladungstransferprozesse gezeigt werden. F{\"u}r den HT in Grundzustand der MV bisTAA Verbindungen, sowie der ET im angeregten Zustand der Donor-Akzeptor-Verbindungen, wurden die h{\"o}chsten ET-Raten f{\"u}r die para-Serien pX und pXNDI gefunden, w{\"a}hrend die meta-Serien mX und mXNDI deutlch kleine Transferraten aufwiesen. In beiden Studien zeigten die meta46-Verbindungen mX46 und mOMeNDI46 ein intermedi{\"a}res Verhalten, zwischen denen der para- und meta-Verbindungen.}, subject = {Synthese}, language = {en} } @phdthesis{CabelloGonzalez2018, author = {Cabello Gonz{\´a}lez, Victoria}, title = {From behavioral to neurobiological characterization of Rsk2 knockout mice as an animal model for Coffin-Lowry syndrome}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-171275}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Coffin-Lowry syndrome is a rare syndromic form of X-linked mental retardation caused by heterogeneous loss-of-function mutations in the gene RPS6KA3 that encodes the RSK2 protein. Clinical features are delayed motor development, small height, progressive skeletal malformations and mental retardation. Rsk2 deficiency affects behavioral, cellular and molecular functions. To characterize and investigate how this deficiency affects these functions, we made a series of experiments using Rsk2-deficient mice as the animal model for Coffin-Lowry syndrome. We applied a battery of behavioral tests and included the use of the IntelliCage for the first time as a behavioral paradigm to study anxiety-like behavior and depression-like behavior in Rsk2-deficient mice. Results from the conventional behavioral tests and from the IntelliCage indicate that Rsk2-deficient mice may have an anti-anxiety and anti-depressive phenotype. We evaluated in Rsk2 deficient mice the relative gene expression of a set of genes coding for proteins related to RSK2 which are involved in fear memory, synaptic plasticity, neurogenesis, learning, emotional behavior and stress. We found gene expression alterations in the prefrontal cortex and striatum. These results suggest that RSK2 may be involved in the expression of the genes. RSK2 is known to be related to monoamine neurotransmitter function. We measured the levels of dopamine, serotonin and noradrenaline/norepinephrine and their metabolites in different brain regions of Rsk2-deficient mice. We found differences in the dopaminergic and noradrenergic systems suggesting an increased or decreased activity of these neurotransmission systems as a result of Rsk2 deficiency. Adult neurogenesis is a form of neuronal plasticity and a multi-step process of cell development. We explored if this form of neuronal plasticity was affected by Rsk2-deficiency. Our results indicate that adult hippocampal neurogenesis is not influenced by lifelong Rsk2 deficiency. It would be worth to analyze in the future other aspects of neuroplasticity. We have confirmed, that behavioral characteristics of Rsk2-deficient mice make them an interesting model to study the Coffin-Lowry syndrome by extending the behavioral characterization on the emotional level. Furthermore, we have extended the characterization of the model on a molecular level, opening new opportunities to study and understand the pathophysiological basis of the Coffin-Lowry syndrome.}, subject = {Knockout }, language = {en} } @phdthesis{Kunz2018, author = {Kunz, Valentin}, title = {Supramolecular Approaches for Water Oxidation Catalysis with Ruthenium Complexes}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-154820}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {The catalytic splitting of water into its elements is an important reaction to establish hydrogen as a solar fuel. The bottle-neck of this process is considered to be the oxidative half reaction generating oxygen, and good catalysts are required to handle the complicated redox chemistry involved. As can be learned from nature, the incorporation of the catalytically active species into an appropriate matrix can help to improve the overall performance. Thus, the aim of the present thesis was to establish novel supramolecular approaches to improve water oxidation catalysis using the catalytically active {Ru(bda)} fragment as key motive (bda = 2,2'-bipyridine-6,6'-dicarboxylate). First, the synthesis of ruthenium catalysts gathering three {Ru(bda)} water oxidation subunits in a macrocyclic fashion is described. By using bridging bipyridine ligands of different lengths, metallosupramolecular macrocycles with distinct sizes have been obtained. Interestingly, an intermediate ring size has been proven to be optimal for the catalytic water oxidation. Detailed kinetic, spectroscopic, and theoretical studies helped to identify the reaction mechanism and to rationalize the different catalytic activities. Furthermore, solubilizing side chains have been introduced for the most active derivative to achieve full water solubility. Secondly, the {Ru(bda)} fragment was embedded into supramolecular aggregates to generate more stable catalytic systems compared to a homogeneous reference complex. Therefore, the catalyst fragment was equipped with axial perylene bisimide (PBI) ligands, which facilitate self-assembly. Moreover, the influence of the different accessible aggregate morphologies on the catalytic performance has been investigated.}, subject = {Ruthenium Komplexe}, language = {en} } @phdthesis{Rehman2018, author = {Rehman, Saba}, title = {Identification of accessible and closed substrate binding sites in the outward open cleft of rat Organic Cation Transporter 1 (rOCT1)}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-169992}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {The present study was conducted on the rOCT1, a member of SLC22 family. Structurally, it consists of 12 membrane spanning α-helices with both N- and C-termini intracellular. Studies done so far, through tracer uptake and inhibition, reconstitution of rOCT1 in nanodiscs and proteoliposomes and voltage-clamp fluorometry, have identified the main amino acids in the cleft of rOCT1 that interact in a critical manner with the substrates/inhibitors either directly or indirectly. Homology modeling studies have also supported these observations. In the present study we aimed at measuring the binding of substrates MPP+ and TEA+ to rOCT1 at 0oC in order to establish the amino acids in the cleft region that interact with the substrate when the transporter is frozen in the outward-open conformation. Previously identified crucial amino acids (Asp475, Phe160, Leu447, Arg440, Trp218 and Tyr222) were selected for the study. rOCT1 wild-type and its mutants were stably expressed in HEK293 cells and these cells were used for the binding measurements with the radioactive substrate (MPP+ or TEA+) at 0°C in Mg-Ca-PBS buffer as described in "Materials and Methods" section in detail. rOCT1 wild-type revealed for MPP+-binding a KD which was not significantly different from the corresponding Km value. Also, after addition of 10 nM non-radioactive MPP+, an initial increase of about 20\% in bound MPP+ was observed. The results indicate that the Km for transport is dependent on the binding of MPP+ to the outward-open conformation and hints at the possibility of allosteric interaction between the binding sites. Mutations at position Trp218, Phe160 and Asp475 resulted in a change in the KD value. Trp218 mutations also showed an allosteric increase similar to the rOCT1 wild-type. This study suggests that these amino acids are located at a critical position in the outward-open conformation for MPP+ transport. TEA+-binding could not be observed in rOCT1 wild-type, indicating that the binding site is perhaps inaccessible for TEA+ in frozen outward-open state. The mutants D475E, F160A, L447F, R440K and Y222F showed a very low affinity binding with a very high KD value as compared to the corresponding Km values indicating that the transporter might have different affinities for extra-cellular binding alone and for the complete transport process especially if temperature is the limiting factor. Substrate inhibition studies done using both MPP+ and TEA+ have confirmed the existence of overlapping binding sites for these two ligands. This study has confirmed the direct interaction of Trp218, Phe160, Asp475 with MPP+ and Phe160, Asp475, Leu447, Arg440 and Tyr222 with TEA+ in the outward-open conformation.}, subject = {Kation}, language = {en} } @phdthesis{Chowdhury2018, author = {Chowdhury, Suvagata Roy}, title = {The Role of MicroRNAs in \(Chlamydia\) Infection}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-155866}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {The obligate intracellular pathogen Chlamydia trachomatis is the causative agent of trachoma related blindness and the sexually transmitted pelvic inflammatory disease. Being an obligate intracellular pathogen, C. trachomatis has an intricate dependency on the survival of the host cell. This relationship is indispensible owing to the fact that the pathogen spends a considerable fraction of its biphasic lifecycle within a cytoplasmic vacuole inside the host cell, the so-called chlamydial inclusion. The cellular apoptotic-signalling network is governed by several finely tuned regulatory cascades composed of pro- and anti-apoptotic proteins that respond to changes in the cellular homeostasis. In order to facilitate its intracellular survival, Chlamydia has been known to inhibit the premature apoptosis of the host cell via the stabilization of several host anti-apoptotic proteins such as cIAP2 and Mcl-1. While the pro- and anti-apoptotic proteins are the major regulators of the host apoptotic signalling network, a class of the small non-coding RNAs called microRNAs (miRNAs) has increasingly gained focus as a new level of regulatory control over apoptosis. This work investigates the changes in the host miRNA expression profile post Chlamydia infection using a high throughput miRNA deep sequencing approach. Several miRNAs previously associated with the modulation for apoptotic signalling were differentially expressed upon Chlamydia infection in human endothelial cells. Of the differentially regulated miRNAs, miR-30c-5p was of particular interest since it had been previously shown to target the tumor suppressor protein p53. Our lab and others have previously demonstrated that Chlamydia can downregulate the levels of p53 by promoting its proteasomal degradation. This work demonstrates that Chlamydia infection promotes p53 downregulation by increasing the abundance of miR-30c-5p and a successful infection cycle is hindered by a loss of miR-30c-5p. Over the last decade, dedicated research aimed towards a better understanding of apoptotic stimuli has greatly improved our grasp on the subject. While extrinsic stress, deprivation of survival signals and DNA damage are regarded as major proponents of apoptotic induction, a significant responsibility lies with the mitochondrial network of the cell. Mitochondrial function and dynamics are crucial to cell fate determination and dysregulation of either is decisive for cell survival and pathogenesis of several diseases. The ability of the mitochondrial network to perform its essential tasks that include ATP synthesis, anti-oxidant defense, and calcium homeostasis amongst numerous other processes critical to cellular equilibrium is tied closely to the fission and fusion of individual mitochondrial fragments. It is, thus, 8 unsurprising that mitochondrial dynamics is closely linked to apoptosis. In fact, many of the proteins involved regulation of mitochondrial dynamics are also involved in apoptotic signalling. The mitochondrial fission regulator, Drp1 has previously been shown to be transcriptionally regulated by p53 and is negatively affected by a miR- 30c mediated inhibition of p53. Our investigation reveals a significant alteration in the mitochondrial dynamics of Chlamydia infected cells affected by the loss of Drp1. We show that loss of Drp1 upon chlamydial infection is mediated by the miR-30c-5p induced depletion of p53 and results in a hyper-fused architecture of the mitochondrial network. While it is widely accepted that Chlamydia depends on the host cell metabolism for its intracellular growth and development, the role of mitochondria in an infected cell, particularly with respect to its dynamic nature, has not been thoroughly investigated. This work attempts to illustrate the dependence of Chlamydia on miR-30c-5p induced changes in the mitochondrial architecture and highlight the importance of these modulations for chlamydial growth and development.}, subject = {Chlamydienkrankheit}, language = {en} } @phdthesis{Sieck2018, author = {Sieck, Carolin}, title = {Synthesis and Photophysical Properties of Luminescent Rhodacyclopentadienes and Rhodium 2,2'-Biphenyl Complexes}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-154844}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {The photochemistry and photophysics of transition metal complexes are of great interest, since such materials can be exploited for a wide range of applications such as in photocatalysis, sensing and imaging, multiphoton-absorption materials and the fabrication of OLEDs. A full understanding of the excited state behavior of transition metal compounds is therefore important for the design of new materials for the applications mentioned above. In principle, the luminescence properties of this class of compounds can be tuned by changing the metal or subtle changes in the ligand environment. Furthermore, transition-metal complexes continue to play a major role in modern synthetic chemistry. In particular, they can realize selective transformations that would either be difficult or impossible by conventional organic chemistry. For example, they enable the efficient and selective formation of carbon-carbon bonds. One famous example of these types of transformations are metal-catalyzed cyclization reactions. Herein, metallacyclopentadiene complexes are considered as key intermediates in a number of metal-mediated or -catalyzed cyclization reactions, i.e. the [2+2+2] cyclotrimerization of alkynes. Recent research has focused on the synthesis and characterization of these metallacyclic intermediates such as MC4 ring systems. Metallacyclopentadienes are structurally related to main group EC4 systems such as boroles, siloles, thiophenes and phospholes. Overall, this group of compounds (EC4 analogues) is well known and has attracted significant attention due to their electron-transport and optical properties. Unlike transition metal analogues, however, these EC4 systems show no phosphorescence, which is due to inefficient SOC compared to 2nd and 3rd row transition metals, which promoted us to explore the phosphorescence potential of metallacyclopentadienes. In 2001, Marder et al. developed a one-pot high-yield synthesis of luminescent 2,5 bis(arylethynyl)rhodacyclopentadienes by reductive coupling of 1,4-diarylbuta-1,3-diynes at a suitable rhodium(I) precursor. Over the past years, a variety of ligands (e.g. TMSA, S,S' diethyldithiocarbamate, etc.) and 1,4-bis(p-R-phenyl)-1,3-butadiynes or linked , bis(p-R-arylethynyl)alkanes (R = electron withdrawing or donating groups) were investigated and always provided a selective formation of 2,5 bis(arylethynyl)rhodacyclopentadienes, which were reported to be fluorescent despite presence of the heavy atom. To examine the influence of the ligand sphere around the rhodium center on the intersystem-crossing (ISC) processes in the above-mentioned fluorescent rhodacyclopentadienes and to increase the metal character in the frontier orbitals by destabilizing the Rh filled d-orbitals, a -electron donating group was introduced, namely acetylacetonato (acac). Interestingly, in 2010 Tay reacted [Rh(κ2-O,O-acac)(PMe3)2] with ,-bis(p-R-arylbutadiynyl)alkanes and observed not only the fluorescent 2,5 bis(arylethynyl)rhodacyclopentadienes, but also rhodium 2,2'-bph complexes as products, which were reported to be phosphorescent in preliminary photophysical studies. In this work, the reaction behavior of [Rh(κ2-O,O-acac)(L)2] (L = PMe3, P(p-tolyl)3) with different ,-bis(p-R-arylbutadiynyl)alkanes was established. Furthermore, the separation of the two isomers 2,5-bis(arylethynyl)rhodacyclopentadienes (A) and rhodium 2,2'-bph complexes (B), and the photophysical properties of those were explored in order to clarify their fundamentally different excited state behaviors. Reactions of [Rh(κ2-O,O-acac)(P(p-tolyl3)2)] with ,-bis(arylbutadiynyl)alkanes gives exclusively weakly fluorescent 2,5-bis(arylethynyl)rhodacyclopentadienes. Changing the phosphine ligands to PMe3, reactions of [Rh(κ2-O,O-acac)(PMe3)2] and , bis(arylbutadiynyl)alkanes afford two isomeric types of MC4 metallacycles with very different photophysical properties, as mentioned before. As a result of a normal [2+2] reductive coupling at rhodium, 2,5 bis(arylethynyl)rhodacyclopentadienes (A) are formed, which display intense fluorescence. Rhodium 2,2'-bph complexes (B), which show phosphorescence, have been isolated as a second isomer originating from an unusual [4+2] cycloaddition reaction and a subsequent -H-shift. Control of the isomer distribution, of 2,5-bis(arylethynyl)rhodacyclopentadienes (A) and rhodium biphenyl complexes (B), is achieved by modification of the linked , bis(arylbutadiynyl)alkane. Changing the linker length from four CH2 to three CH2 groups, dramatically favors the formation of the rhodium biphenyl isomer B, providing a fundamentally new route to access photoactive metal biphenyl compounds in good yields. This is very exciting as the photophysical properties of only a limited number of bph complexes of Ir, Pd and Pt had been explored. The lack of photophysical reports in the literature is presumably due to the limited synthetic access to various substituted 2,2'-bph transition metal complexes. On the other hand, as the reaction of [Rh(κ2-O,O-acac)(P(p-tolyl)3)2] with , bis(arylbutadiynyl)alkanes provides a selective reaction to give weakly fluorescent 2,5 bis(arylethynyl)rhodacyclopentadiene complexes with P(p-tolyl)3 as phosphine ligands, a different synthetic access to 2,5-bis(arylethynyl)rhodacyclopentadiene complexes with PMe3 as phosphine ligands was developed, preventing the time-consuming separation of the isomers. The weak rhodium-phosphorus bonds of 2,5-bis(arylethynyl)rhodacyclopentadiene complexes bearing P(p tolyl)3 as phosphine ligands, relative to those of related PMe3 complexes, allowed for facile ligand exchange reactions. In the presence of an excess of PMe3, a stepwise reaction was observed, giving first the mono-substituted, mixed-phosphine rhodacyclopentadiene intermediates and, subsequently, full conversion to the highly fluorescent 2,5 bis(arylethynyl)-rhodacyclopentadienes bearing only PMe3 ligands (by increasing the reaction temperature). With spectroscopically pure 2,5-bis(arylethynyl)rhodacyclopentadiene complexes A (bearing PMe3 as phosphine ligands) and rhodium 2,2-bph complexes B in hand, photophysical studies were conducted. The 2,5-bis(arylethynyl)rhodacyclopentadienes (A) are highly fluorescent with high quantum yields up to 54\% and very short lifetimes (τ = 0.2 - 2.5 ns) in solution at room temperature. Even at 77 K in glass matrices, no additional phosphorescence is observed which is in line with previous observations made by Steffen et al., who showed that SOC mediated by the heavy metal atom in 2,5-bis(arylethynyl)rhodacyclopentadienes and 2,5 bis(arylethynyl)iridacyclopentadienes is negligible. The origin of this fluorescence lies in the pure intra-ligand (IL) nature of the excited states S1 and T1. The HOMO and the LUMO are nearly pure  and * ligand orbitals, respectively, and the HOMO is energetically well separated from the filled rhodium d orbitals. The absence of phosphorescence in transition metal complexes due to mainly IL character of the excited states is not unusual, even for heavier homologues than rhodium with greater SOC, resulting in residual S1 emission (fluorescence) despite ISC S1→Tn being sufficiently fast for population of T1 states. However, there are very few complexes that exhibit fluorescence with the efficiency displayed by our rhodacyclopentadienes, which involves exceptionally slow S1→Tn ISC on the timescale of nanoseconds rather than a few picoseconds or faster. In stark contrast, the 2,2'-bph rhodium complexes B are exclusively phosphorescent, as expected for 2nd-row transition metal complexes, and show long-lived (hundreds of s) phosphorescence (Ф = 0.01 - 0.33) at room temperature in solution. As no fluorescence is detected even at low temperature, it can be assumed that S1→Tn ISC must be faster than both fluorescence and non-radiative decay from the S1 state. This contrasts with the behavior of the isomeric 2,5-bis(arylethynyl)rhodacyclopentadienes for which unusually slow ISC occurs on a timescale that is competitive with fluorescence (vide supra). The very small values for the radiative rate constants, however, indicate that the nature of the T1 state is purely 3IL with weak SOC mediated by the Rh atom. The phosphorescence efficiency of these complexes in solution at room temperature is even more impressive, as non-radiative coupling of the excited state with the ground state typically inhibits phosphorescence. Instead, the rigidity of the organic -system allows the ligand-based excited triplet state to exist in solution for up to 646 s and to emit with high quantum yields for biphenyl complexes. The exceptionally long lifetimes and small radiative rate constants of the rhodium biphenyl complexes are presumably a result of the large conjugated -system of the organic ligand. According to TD DFT studies, the T1 state involves charge-transfer from the biphenyl ligand into the arylethynyl moiety away from the rhodium atom. This reduces the SOC of the metal center that would be necessary for fast phosphorescence. These results show that the π-chromophoric ligand can gain control over the photophysical excited state behavior to such an extent that even heavy transition metal atoms like rhodium participate in increasing the fluorescence such as main-group analogues do. Furthermore, in the 2,2'-bph rhodium complexes, the rigidity of the organic -system allows the ligand-based excited triplet state to exist in solution for up to hundreds of s and to emit with exceptional quantum yields. Therefore, investigations of the influence of the ligand sphere around the rhodium center have been made to modify the photophysical properties and furthermore to explore the reaction behavior of these rhodium complexes. Bearing in mind that the P(p-tolyl)3 ligands can easily be replaced by the stronger -donating PMe3 ligands, ligand exchange reactions with N heterocyclic carbenes (NHCs) as even stronger -donors was investigated. Addition of two equivalents of NHCs at room temperature led to the release of one equivalent of P(p-tolyl3) and formation of the mono-substituted NHC rhodium complex. The reaction of isolated mono-NHC complex with another equivalent of NHC at room temperature did not result in the exchange of the second phosphine ligand. Moderate heating of the reaction to 60 °C, however, resulted in the formation of tetra-substituted NHC rhodium complex [Rh(nPr2Im)4]+[acac]-. To circumvent the loss of the other ligands in the experiments described above, a different approach was investigated to access rhodacyclopentadienes with NHC instead of phosphine ligands. Reaction of the bis-NHC complex [Rh(κ2-O,O-acac)(nPr2Im)2] with , bis(arylbutadiynyl)alkanes at room temperature resulted 2,5-bis(arylethynyl)-rhodacyclopentadienes with the NHC ligands being cis or trans to each other as indicated by NMR spectroscopic measurements and single-crystal X-ray diffraction analysis. Isolation of clean material and a fundamental photophysical study could not be finished for reasons of time within the scope of this work. Furthermore, shortening of the well conjugated -system of the chromophoric ligand (changing from tetraynes to diynes) was another strategy to examine the reaction behavior of theses ligands with rhodium(I) complexes and to modify the excited state behavior of the formed rhodacyclopentadienes. The reaction of [Rh(κ2-O,O-acac)(PMe3)2] with 1,7 diaryl 1,6-heptadiynes (diynes) leads to the selective formation of 2,5 bis(aryl)rhodacyclopentadienes. These compounds, however, are very weakly fluorescent with quantum yields ФPL < 1, and very short emission lifetimes in toluene at room temperature. Presumably, vibrational modes of the bis(phenyl)butadiene backbone leads to a higher rate constant for non-radiative decay and is thus responsible for the low quantum yields compared to their corresponding PMe3 complexes with the bis(phenylethynyl)butadiene backbone at room temperature. No additional phosphorescence, even at 77 K in the glass matrix is observed. Chancing the phosphine ligands to P(p-tolyl)3, reactions of [Rh(κ2-O,O-acac)(P(p-tolyl3)2)] with 1,7-diaryl-1,6-heptadiynes, however, resulted in a metal-mediated or -catalyzed cycloaddition reaction of alkynes and leads to full conversion to dimerization and trimerization products and recovery of the rhodium(I) starting material. This is intuitive, considering that P(Ar)3 (Ar = aryl) ligands are considered weaker -donor ligands and therefore have a higher tendency to dissociate. Therefore, rhodium(I) complexes with aryl phosphines as ligands have an increasing tendency to promote catalytic reactions, while the stronger -donating ligands (PMe3 or NHCs) promote the formation of stable rhodium complexes. Finally, in Chapter 4, the findings of the work conducted on N-heterocyclic carbenes (NHCs) and cyclic (alkyl)(amino)carbenes (CAACs) is presented. These compounds have unique electronic and steric properties and are therefore of great interest as ligands and organo-catalysts. In this work, studies of substitution reactions involving novel carbonyl complexes of rhodium and nickel are reported. For characterization and comparison of CAACmethyl with the large amount of data available for NHC and sterically more demanding CAAC ligands, an overview on physicochemical data (electronics, sterics and bond strength) is provided. The reaction of [Rh(-Cl)(CO)2]2 with 2 equivalents of CAACmethyl at low temperature afforded the mononuclear complex cis-[(RhCl(CO)2(CAACmethyl)]. However, reacting [Rh( Cl)(CO)2]2 with CAACmethyl at room temperature afforded a mixture of complexes. The mononuclear complex [(RhCl(CO)(CAACmethyl)2], the chloro-bridged complexes [(Rh2( Cl)2(CO)3(CAACmethyl)], [Rh(-Cl)(CO)(CAACmethyl)]2 and a carbon monoxide activation product were formed. The carbon monoxide activation product is presumably formed via the reaction of two equivalents of the CAAC with CO to give the bis-carbene adduct of CO, and subsequent rearrangement via migration of the Dipp moiety. While classical N-heterocyclic carbenes are not electrophilic enough to react with CO, related diamidocarbenes and alkyl(amino)carbenes undergo addition reactions with CO to give the corresponding ketenes. Consequently, to obtain the CAAC-disubstituted mononuclear complex selectively, 8 equivalents of CAACmethyl were reacted with 1 equivalent of [Rh(-Cl)(CO)2]2. For the evaluation of TEP values, [Ni(CO)3(CAAC)] was synthesized in collaboration with the group of Radius. With the complexes [(RhCl(CO)(CAACmethyl)2] and [Ni(CO)3(CAAC)] in hand, it was furthermore possible to examine the electronic and steric parameters of CAACmethyl. Like its bulkier congeners CAACmenthyl and CAACcy, the methyl-substituted CAAC is proposed to be a notably stronger -donor than common NHCs. While it has a very similar TEP value of 2046 cm-1, it additionally possess superior -acceptor properties (P = 67.2 ppm of phosphinidene adduct). CAACs appear to be very effective in the isolation of a variety of otherwise unstable main group and transition metal diamagnetic and paramagnetic species. This is due to their low-lying LUMO and the small singlet-triplet gap. These electronic properties also allow free CAACs to activate small molecules with strong bonds. They also bind strongly to transition metal centers, which enables their use under harsh conditions. One recent development is the use of CAACs as ligands in transition metal complexes, which previously were only postulated as short-lived catalytic intermediates.[292,345] The availability of these reactive species allows for a better understanding of known catalytic reactions and the design of new catalysts and, moreover, new applications. For example Radius et al.[320] prepared a CAAC complex of cobalt as a precursor for thin-film deposition and Steffen et al.[346] reported a CAAC complex of copper with very high photoluminescent properties, which could be used in LED devices. With the development of cheap and facile synthetic methods for the preparation of CAACs and their corresponding transition metals complexes, as well as the knowledge of their electronic properties, it is safe to predict that applications in and around this field of chemistry will continue to increase.}, subject = {{\"U}bergangsmetallkomplexe}, language = {en} } @phdthesis{Hofmann2018, author = {Hofmann, Lukas}, title = {The α-galactosidase A deficient mouse as a model for Fabry disease and the effect of Gb3 depositions on peripheral nociceptive ion channel function}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-158513}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Fabry disease (FD) is an X-linked lysosomal storage disorder with intracellular accumulation of globotriaosylceramide (Gb3) due to α-galactosidase A deficiency. We studied α-galactosidase A knockout mice (GLA KO) as a model for sensory disturbance and pain in FD. Pain associated behavior of young (3 months) and old (≥18 months) GLA KO mice and wildtype (WT) littermates in an inflammatory and a neuropathic pain model was investigated. Furthermore, affective and cognitive behavior was assessed in the na{\"i}ve state and in an inflammatory pain model. Gene and protein expression of pain associated ion channels and Gb3 accumulation in dorsal root ganglion (DRG) neurons was determined. We also performed patch clamp analysis on cultivated DRG neurons and human embryonic kidney 293 (HEK) cells expressing voltage-gated-sodium channel 1.7 (Nav1.7) as an in vitro model of FD. Intracellular Gb3 deposits were modulated using shRNA silencing of α-galactosidase A. After intraplantar injection of complete Freund`s adjuvant (CFA) and chronic constriction injury (CCI) of the right sciatic nerve, old GLA KO mice did not develop heat and mechanical hypersensitivity in contrast to young GLA KO and old WT mice. Additionally, we found no relevant differences between genotypes and age-groups in affective and cognitive behavior in the na{\"i}ve state and after CFA injection. Gene and protein expression analysis provided no explanation for the observed sensory impairment. However, cultured DRG neurons of old GLA KO mice revealed a marked decrease of sodium and Ih-currents compared to young GLA KO and old WT mice. DRG neurons of old GLA KO mice displayed substantial intracellular accumulation of Gb3 compared to young GLA KO and old WT mice. Similar to cultured neurons, sodium currents were also decreased in HEK cells treated with shRNA and consecutively increased intracellular Gb3 deposits compared to the control condition, but could be rescued by treatment with agalsidase-alpha. Our study unveils that, similar to patients with FD, GLA KO mice display age-dependent sensory deficits. However, contrary to patients, GLA KO mice are also protected from hypersensitivity induced by inflammation and nerve lesion due to Gb3-dependent and reversible reduction of neuronal sodium- and Ih-currents. Our data provide evidence for direct Gb3-dependent ion channel impairment in sensory DRG neurons as a potential contributor to sensory dysfunction and pain in FD.}, subject = {Fabry-Krankheit}, language = {en} } @phdthesis{Aulbach2018, author = {Aulbach, Julian}, title = {Gold-Induced Atomic Wires on Terraced Silicon Surfaces: Formation and Interactions of Silicon Spin Chains}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-169347}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Atomic nanowires formed by self-assembled growth on semiconducting surfaces represent a feasible physical realization of quasi-1D electron systems and can be used to study fascinating 1D quantum phenomena. The system in the focus of this thesis, Si(553)-Au, is generated by Au adsorption onto a stepped silicon surface. It features two different chain types, interspersed with each other: A Au chain on the terrace, and a honeycomb chain of graphitic silicon located at the step edge. The silicon atoms at the exposed edges of the latter are predicted to be spin-polarized and charge-ordered [1], leading to an ordered array of local magnetic moments referred to as ``spin chains''. The present thesis puts this spin chain proposal to an experimental test. A detailed scanning tunneling microscopy (STM) and scanning tunneling spectroscopy (STS) scrutiny reveals a distinct unoccupied density of states (DOS) feature localized at every third Si step-edge atom, which aligns perfectly with the density functional theory (DFT) prediction. This finding provides strong evidence for the formation of spin chains at the Si(553)-Au step edges, and simultaneously rules out the interpretation of previous studies which attributed the x3 step-edge superstructure to a Peierls instability. To study the formation of spin chains in further detail, an additional member of the so-called Si(hhk)-Au family -- Si(775)-Au -- is analyzed. Based on DFT modeling (performed by S.C. Erwin, Naval Research Laboratory, USA) and detailed STM and STS experiments, a new structure model for this surface is developed, and the absence of spin chains at the Si(775)-Au step edges is demonstrated. The different step-edge charge distributions of all known Si(hhk)-Au surfaces are traced back to an electron transfer between the terrace and the step edge. Accordingly, an unintentional structure defect should create a localized spin at the Si(775)-Au step edge. This prediction is verified experimentally, and suggest that surface chemistry can be used to create and destroy Si spin chains. Having clarified why spin chains form on some Si(hhk)-Au surfaces but not on others, various interaction effects of the Si(553)-Au spin chains are inspected. A collaborative analysis by SPA-LEED (M. Horn-von Hoegen group, University of Duisburg-Essen, Germany), DFT (S.C. Erwin), and STM reveals strong lateral coupling between adjacent spin chains, bearing interesting implications for their magnetic ordering. The centered geometry uncovered leads to magnetic frustration, and may stabilize a 2D quantum spin liquid. Moreover, a complex interplay between neighboring Au and Si chains is detected. Specifically, the interaction is found effectively ``one-way'', i.e., the Si step edges respond to the Au chains but not vice versa. This unidirectional effect breaks the parity of the Si chains, and creates two different configurations of step edges with opposite directionality. In addition to the static properties of the Si(553)-Au surface mentioned above, the occurrence of solitons in both wire types is witnessed in real space by means of high-resolution STM imaging. The solitons are found to interact with one another such that both move in a coupled fashion along the chains. Likewise, STM experiments as a function of the tunneling current suggest an excitation of solitons along the step edge by the STM tunneling tip. Solitons are also found to play an essential role in the temperature-dependent behavior of the Si(553)-Au step edges. It is an accepted fact that the distinct x3 superstructure of the Si(553)-Au step edges vanishes upon heating to room temperature. As a first step in exploring this transition in detail over a large temperature range, a previously undetected, occupied electronic state associated with the localized step-edge spins is identified by means of angle-resolved photoemission spectroscopy (ARPES). A tracking of this state as a function of temperature reveals an order-disorder-type transition. Complementary STM experiments attribute the origin of this transition to local, thermally activated spin site hops, which correspond to soliton-anitsoliton pairs. Finally, a manipulation of the Si(553)-Au atomic wire array is achieved by the stepwise adsorption of potassium atoms. This does not only increase the filling of the Au-induced surface bands culminating in a metal-insulator transition (MIT), but also modifies the Si step-edge charge distribution, as indicated by STM and ARPES experiments. [1] S. C. Erwin and F. Himpsel, Intrinsic magnetism at silicon surfaces, Nat. Commun. 1, 58 (2010).}, subject = {Rastertunnelmikroskopie}, language = {en} } @phdthesis{Klotzky2018, author = {Klotzky, Jens}, title = {Well-posedness of a fluid-particle interaction model}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-169009}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {This thesis considers a model of a scalar partial differential equation in the presence of a singular source term, modeling the interaction between an inviscid fluid represented by the Burgers equation and an arbitrary, finite amount of particles moving inside the fluid, each one acting as a point-wise drag force with a particle related friction constant. \begin{align*} \partial_t u + \partial_x (u^2/2) \&= \sum_{i \in N(t)} \lambda_i \Big(h_i'(t)-u(t,h_i(t)\Big)\delta(x-h_i(t)) \end{align*} The model was introduced for the case of a single particle by Lagouti{\`e}re, Seguin and Takahashi, is a first step towards a better understanding of interaction between fluids and solids on the level of partial differential equations and has the unique property of considering entropy admissible solutions and the interaction with shockwaves. The model is extended to an arbitrary, finite number of particles and interactions like merging, splitting and crossing of particle paths are considered. The theory of entropy admissibility is revisited for the cases of interfaces and discontinuous flux conservation laws, existing results are summarized and compared, and adapted for regions of particle interactions. To this goal, the theory of germs introduced by Andreianov, Karlsen and Risebro is extended to this case of non-conservative interface coupling. Exact solutions for the Riemann Problem of particles drifting apart are computed and analysis on the behavior of entropy solutions across the particle related interfaces is used to determine physically relevant and consistent behavior for merging and splitting of particles. Well-posedness of entropy solutions to the Cauchy problem is proven, using an explicit construction method, L-infinity bounds, an approximation of the particle paths and compactness arguments to obtain existence of entropy solutions. Uniqueness is shown in the class of weak entropy solutions using almost classical Kruzkov-type analysis and the notion of L1-dissipative germs. Necessary fundamentals of hyperbolic conservation laws, including weak solutions, shocks and rarefaction waves and the Rankine-Hugoniot condition are briefly recapitulated.}, subject = {Hyperbolische Differentialgleichung}, language = {en} } @phdthesis{NguyenNgoc2018, author = {Nguyen-Ngoc, Anh}, title = {On Performance Assessment of Control Mechanisms and Virtual Components in SDN-based Networks}, issn = {1432-8801}, doi = {10.25972/OPUS-16932}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-169328}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {This dissertation focuses on the performance evaluation of all components of Software Defined Networking (SDN) networks and covers whole their architecture. First, the isolation between virtual networks sharing the same physical resources is investigated with SDN switches of several vendors. Then, influence factors on the isolation are identified and evaluated. Second, the impact of control mechanisms on the performance of the data plane is examined through the flow rule installation time of SDN switches with different controllers. It is shown that both hardware-specific and controller instance have a specific influence on the installation time. Finally, several traffic flow monitoring methods of an SDN controller are investigated and a new monitoring approach is developed and evaluated. It is confirmed that the proposed method allows monitoring of particular flows as well as consumes fewer resources than the standard approach. Based on findings in this thesis, on the one hand, controller developers can refer to the work related to the control plane, such as flow monitoring or flow rule installation, to improve the performance of their applications. On the other hand, network administrators can apply the presented methods to select a suitable combination of controller and switches in their SDN networks, based on their performance requirements}, subject = {Leistungsbewertung}, language = {en} } @phdthesis{Hetterich2018, author = {Hetterich, Daniel Marcus}, title = {Localization within disordered systems of star-like topology}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-169318}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {This Thesis investigates the interplay of a central degree of freedom with an environment. Thereby, the environment is prepared in a localized phase of matter. The long-term aim of this setup is to store quantum information on the central degree of freedom while exploiting the advantages of localized systems. These many-body localized systems fail to equilibrate under the description of thermodynamics, mostly due to disorder. Doing so, they form the most prominent phase of matter that violates the eigenstate thermalization hypothesis. Thus, many-body localized systems preserve information about an initial state until infinite times without the necessity to isolate the system. This unique feature clearly suggests to store quantum information within localized environments, whenever isolation is impracticable. After an introduction to the relevant concepts, this Thesis examines to which extent a localized phase of matter may exist at all if a central degree of freedom dismantles the notion of locality in the first place. To this end, a central spin is coupled to the disordered Heisenberg spin chain, which shows many-body localization. Furthermore, a noninteracting analog describing free fermions is discussed. Therein, an impurity is coupled to an Anderson localized environment. It is found that in both cases, the presence of the central degree of freedom manifests in many properties of the localized environment. However, for a sufficiently weak coupling, quantum chaos, and thus, thermalization is absent. In fact, it is shown that the critical disorder, at which the metal-insulator transition of its environment occurs in the absence of the central degree of freedom, is modified by the coupling strength of the central degree of freedom. To demonstrate this, a phase diagram is derived. Within the localized phase, logarithmic growth of entanglement entropy, a typical signature of many-body localized systems, is increased by the coupling to the central spin. This property is traced back to resonantly coupling spins within the localized Heisenberg chain and analytically derived in the absence of interactions. Thus, the studied model of free fermions is the first model without interactions that mimics the logarithmic spreading of entanglement entropy known from many-body localized systems. Eventually, it is demonstrated that observables regarding the central spin significantly break the eigenstate thermalization hypothesis within the localized phase. Therefore, it is demonstrated how a central spin can be employed as a detector of many-body localization.}, subject = {Quanteninformatik}, language = {en} } @phdthesis{Muehlemann2018, author = {M{\"u}hlemann, Markus}, title = {Intestinal stem cells and the Na\(^+\)-D-Glucose Transporter SGLT1: potential targets regarding future therapeutic strategies for diabetes}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-169266}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {The pancreas and the small intestine are pivotal organs acting in close synergism to regulate glucose metabolism. After absorption and processing of dietary glucose within the small intestine, insulin and glucagon are released from pancreatic islet cells to maintain blood glucose homeostasis. Malfunctions affecting either individual, organ-specific functions or the sophisticated interplay of both organs can result in massive complications and pathologic conditions. One of the most serious metabolic diseases of our society is diabetes mellitus (DM) that is hallmarked by a disturbance of blood glucose homeostasis. Type 1 (T1DM) and type 2 (T2DM) are the main forms of the disease and both are characterized by chronic hyperglycemia, a condition that evokes severe comorbidities in the long-term. In the past, several standard treatment options allowed a more or less adequate therapy for diabetic patients. Albeit there is much effort to develop new therapeutic interventions to treat diabetic patients in a more efficient way, no cure is available so far. In view of the urgent need for alternative treatment options, a more systemic look on whole organ systems, their biological relation and complex interplay is needed when developing new therapeutic strategies for DM. T1DM is hallmarked by an autoimmune-mediated destruction of the pancreatic β-cell mass resulting in a complete lack of insulin that is in most patients restored by applying a life-long recombinant insulin therapy. Therefore, novel regenerative medicine-based concepts focus on the derivation of bioartificial β-like cells from diverse stem cell sources in vitro that survive and sustain to secrete insulin after implantation in vivo. In this context, the first part of this thesis analyzed multipotent intestinal stem cells (ISCs) as alternative cell source to derive bioartificial, pancreatic β-like cells in vitro. From a translational perspective, intestinal stem cells pose a particularly attractive cell source since intestinal donor tissues could be obtained via minimal invasive endoscopy in an autologous way. Furthermore, intestinal and pancreatic cells both derive from the same developmental origin, the endodermal gut tube, favoring the differentiation process towards functional β-like cells. In this study, pancreas-specific differentiation of ISCs was induced by the ectopic expression of the pancreatic transcription factor 1 alpha (Ptf1a), a pioneer transcriptional regulator of pancreatic fate. Furthermore, pancreatic lineage-specific culture media were applied to support the differentiation process. In general, ISCs grow in vitro in a 3D Matrigel®-based environment. Therefore, a 2D culture platform for ISCs was established to allow delivery and ectopic expression of Ptf1a with high efficiency. Next, several molecular tools were applied and compared with each other to identify the most suitable technology for Ptf1a delivery and expression within ISCs as well as their survival under the new established 2D conditions. Success of differentiation was investigated by monitoring changes in cellular morphology and induction of pancreatic differentiation-specific gene expression profiles. In summary, the data of this project part suggest that Ptf1a harbors the potential to induce pancreatic differentiation of ISCs when applying an adequate differentiation media. However, gene expression analysis indicated rather an acinar lineage-determination than a pancreatic β-cell-like specification. Nevertheless, this study proved ISCs not only as interesting stem cell source for the generation of pancreatic cell types with a potential use in the treatment of T1DM but alsoPtf1a as pioneer factor for pancreatic differentiation of ISCs in general. Compared to T1DM, T2DM patients suffer from hyperglycemia due to insulin resistance. In T2DM management, the maintenance of blood glucose homeostasis has highest priority and can be achieved by drugs affecting the stabilization of blood glucose levels. Recent therapeutic concepts are aiming at the inhibition of the intestinal glucose transporter Na+-D-Glucose cotransporter 1 (SGLT1). Pharmacological inhibition of SGLT1 results in reduced postprandial blood glucose levels combined with a sustained and increased Glucagon-like peptide 1 (GLP-1) secretion. So far, systemic side effects of this medication have not been addressed in detail. Of note, besides intestinal localization, SGLT1 is also expressed in various other tissues including the pancreas. In context of having a closer look also on the interplay of organs when developing new therapeutic approaches for DM, the second part of this thesis addressed the effects on pancreatic islet integrity after loss of SGLT1. The analyses comprised the investigation of pancreatic islet size, cytomorphology and function by the use of a global SGLT1 knockout (SGLT1-/-) mouse model. As SGLT1-/- mice develop the glucose-galactose malabsorption syndrome when fed a standard laboratory chow, these animals derived a glucose-deficient, fat-enriched (GDFE) diet. Wildtype mice on either standard chow (WTSC) or GDFE (WTDC) allowed the discrimination between diet- and knockout-dependent effects. Notably, GDFE fed mice showed decreased expression and function of intestinal SGLT1, while pancreatic SGLT1 mRNA levels were unaffected. Further, the findings revealed increased isled sizes, reduced proliferation- and apoptosis rates as well as an increased α-cell and reduced β-cell proportion accompanied by a disturbed cytomorphology in islets when SGLT1 function is lost or impaired. In addition, pancreatic islets were dysfunctional in terms of insulin- and glucagon-secretion. Moreover, the release of intestinal GLP-1, an incretin hormone that stimulates insulin-secretion in the islet, was abnormal after glucose stimulatory conditions. In summary, these data show that intestinal SGLT1 expression and function is nutrient dependent. The data obtained from the islet studies revealed an additional and new role of SGLT1 for maintaining pancreatic islet integrity in the context of structural, cytomorphological and functional aspects. With special emphasis on SGLT1 inhibition in diabetic patients, the data of this project indicate an urgent need for analyzing systemic side effects in other relevant organs to prove pharmacological SGLT1 inhibition as beneficial and safe. Altogether, the findings of both project parts of this thesis demonstrate that focusing on the molecular and cellular relationship and interplay of the small intestine and the pancreas could be of high importance in context of developing new therapeutic strategies for future applications in DM patients.}, subject = {Stammzelle}, language = {en} } @phdthesis{Glogger2018, author = {Glogger, Marius}, title = {Single-molecule fluorescence microscopy in live \(Trypanosoma\) \(brucei\) and model membranes}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-169222}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Der eukaryotische Parasit Trypanosoma brucei hat komplexe Strategien entwickelt um der Immunantwort eines Wirtes zu entkommen und eine persistente Infektion innerhalb dessen aufrechtzuerhalten. Ein zentrales Element seiner Verteidigungsstrategie st{\"u}tzt sich auf die Schutzfunktion seines Proteinmantels auf der Zelloberfl{\"a}che. Dieser Mantel besteht aus einer dichten Schicht aus identischen, Glykosylphosphatidylinositol (GPI)-verankerten variablen Oberfl{\"a}chenglykoproteinen (VSG). Der VSG Mantel verhindert die Erkennung der darunterliegenden, invarianten Epitope durch das Immunsystem. Obwohl es notwendig ist die Funktionsweise des VSG Mantels zu verstehen, vor allem um ihn als m{\"o}gliches Angriffsziel gegen den Parasiten zu verwenden, sind seine biophysikalischen Eigenschaften bisher nur unzureichend verstanden. Dies ist vor allem der Tatsache geschuldet, dass die hohe Motilit{\"a}t der Parasiten mikroskopische Studien in lebenden Zellen bisher weitestgehend verhinderten. In der vorliegenden Arbeit wird nun hochmoderne Einzelmolek{\"u}l-Fluoreszenzmikroskopie (EMFM) als M{\"o}glichkeit f{\"u}r mikroskopische Untersuchungen im Forschungsbereich der Trypanosomen vorgestellt. Die Arbeit umfasst Untersuchungen der VSG Dynamik unter definierten Bedingungen k{\"u}nstlicher Membransysteme. Es wurde zuerst der Einfluss der lateralen Proteindichte auf die VSG Diffusion untersucht. Experimente mittels Fluoreszenz- Wiederkehr nach irreversiblem Photobleichen und komplement{\"a}re Einzelmolek{\"u}l- Verfolgungs Experimente offenbarten, dass ein molekularer Diffusionsschwellenwert existiert. {\"U}ber diesem Schwellenwert wurde eine dichteabh{\"a}nige Reduzierung des Diffusionskoeffizienten gemessen. Eine relative Quantifizierung der rekonstituierten VSGs verdeutlichte, dass der Oberfl{\"a}chenmantel der Trypanosomen sehr nahe an diesem Schwellenwert agiert. Der VSG Mantel ist optimiert um eine hohe Proteindichte bei gleichzeitiger hoher Mobilit{\"a}t der VSGs zu gew{\"a}hrleisten. Des Weiteren wurde der Einfluss der VSG N-Glykosylierung auf die Diffusion des Proteins quantitativ untersucht. Die Messungen ergaben, dass die N-Glykosylierung dazu beitr{\"a}gt eine hohe Mobilit{\"a}t bei hohen Proteindichten aufrechtzuerhalten. Eine detaillierte Analyse von VSG Trajektorien offenbarte, dass zwei unterschiedliche Populationen frei diffundierender VSGs in der k{\"u}nstlichen Membran vorlagen. K{\"u}rzlich wurde entdeckt, dass VSGs zwei strukturell unterschiedliche Konformationen annehmen k{\"o}nnen. Die Messungen in der Arbeit stimmen mit diesen Beschreibungen {\"u}berein. Die Ergebnisse der EMFM in k{\"u}nstlichen Membranen wurden durch VSG Einzelmolek{\"u}l- Verfolgungs Experimente auf lebenden Zellen erg{\"a}nzt. Es wurde eine hohe Mobilit{\"a}t und Dynamik einzelner VSGs gemessen, was die allgemein dynamische Natur des VSG Mantels verdeutlicht. Dies f{\"u}hrte zu der Schlussfolgerung, dass der VSG Mantel auf lebenden Trypanosomen ein dichter und dennoch dynamischer Schutzmantel ist. Die F{\"a}higkeit der VSGs ihre Konformation flexibel anzupassen, unterst{\"u}tzt das Erhalten der Fluidit{\"a}t bei variablen Dichten. Diese Eigenschaften des VSG Mantels sind elementar f{\"u}r die Aufrechterhaltung einer presistenden Infektion eines Wirtes. In dieser Arbeit werden des Weiteren verschiedene, auf Hydrogel basierende Einbettungsmethoden vorgestellt. Diese erm{\"o}glichten die Zellimmobilisierung und erlaubten EMFM in lebenden Trypanosomen. Die Hydrogele wiesen eine hohe Zytokompatibilit{\"a}t auf. Die Zellen {\"u}berlebten in den Gelen f{\"u}r eine Stunde nach Beginn der Immobilisierung. Die Hydrogele erf{\"u}llten die Anforderungen der Superresolution Mikroskopie (SRM) da sie eine geringe Autofluoreszenz im Spektralbereich der verwendeten Fluorophore besaßen. Mittels SRM konnte nachgewiesen werden, dass die Hydrogele die Zellen effizient immobilisierten. Als erstes Anwendungsbeispiel der Methode wurde die Organisation der Plasmamembran in lebenden Trypanosomen untersucht. Die Untersuchung eines fluoreszenten Tracers in der inneren Membranschicht ergab, dass dessen Verteilung nicht homogen war. Es wurden spezifische Membrandom{\"a}nen gefunden, in denen das Molek{\"u}l entweder vermehrt oder vermindert auftrat. Dies f{\"u}hrte zu der Schlussfolgerung, dass diese Verteilung durch eine Interaktion des Tracers mit Proteinen des zellul{\"a}ren Zytoskeletts zustande kam. Die in dieser Arbeit pr{\"a}sentierten Ergebnisse zeigen, dass EMFM erfolgreich f{\"u}r verschiedene biologische Untersuchungen im Forschungsfeld der Trypanosomen angewendet werden kann. Dies gilt zum Beispiel f{\"u}r die Untersuchung von der VSG Dynamik in k{\"u}nstlichen Membransystemen, aber auch f{\"u}r Studien in lebenden Zellen unter Verwendung der auf Hydrogelen basierenden Zelleinbettung.}, subject = {Trypanosoma brucei}, language = {en} } @phdthesis{Mao2018, author = {Mao, Lujia}, title = {Transition Metal-Catalyzed Construction of Benzyl/Allyl sp\(^3\) and Vinyl/Allenyl sp\(^2\) C-B Bonds}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-154022}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Organoboron compounds, such as benzyl-, allyl-, allenyl-, vinyl-, and 2-boryl allyl-boronates, have been synthesized via metal-catalyzed borylations of sp3 C-O and C-H bonds. Thus, Cu-catalyzed borylations of alcohols and their derivatives provide benzyl-, allyl-, allenyl-, vinyl-, and 2-boryl allyl-boronates via nucleophilic substitution. The employment of Ti(OiPr)4 turns the OH moiety into a good leaving group ('OTi'). The products of Pd-catalyzed oxidative borylations of allylic C-H bonds of alkenes were isolated and purified, and their application in the one-pot synthesis of stereodefined homoallyl alcohols was also investigated. Chapter 2 presents a copper-catalyzed synthesis of benzyl-, allyl-, and allenyl-boronates from benzylic, allylic, and propargylic alcohols, respectively, employing a commercially available catalyst precursor, [Cu(CH3CN)4]2+[BF4-]2, and Xantphos as the ligand. The borylation of benzylic alcohols was carried out at 100 oC with 5-10 mol \% [Cu(CH3CN)4]2+[BF4-]2, which afforded benzylic boronates in 32\%-95\% yields. With 10 mol \% [Cu(CH3CN)4]2+[BF4-]2, allylic boronates were provided in 53\%-89\% yields from the borylation of allylic alcohols at 60 or 100 oC. Secondary allylboronates were prepared in 72\%-84\% yields from the borylation of primary allylic alcohols, which also suggests that a nucleophilic substitution pathway is involved in this reaction. Allenylboronates were also synthesized in 72\%-89\% yields from the borylation of propargylic alcohols at 40 or 60 oC. This methodology can be extended to borylation of benzylic and allylic acetates. This protocol exhibits broad reaction scope (40 examples) and high efficiency (up to 95\% yield) under mild conditions, including the preparation of secondary allylic boronates. Preliminary mechanistic studies suggest that nucleophilic substitution is involved in this reaction. Chapter 3 reports an efficient methodology for the synthesis of vinyl-, allyl-, and (E)-2-boryl allylboronates from propargylic alcohols via copper-catalyzed borylation reactions under mild conditions. In the presence of a commercially available catalyst precursor (Cu(OAc)2 or Cu(acac)2) and ligand (Xantphos), the reaction affords the desired products in up to 92\% yield with a broad substrate scope (43 examples). Vinylboronates were synthesized in 50\%-83\% yields via Cu-catalyzed hydroboration of mono-substituted propargylic alcohols. With 1,1-disubstituted propargylic alcohols as the starting materials and Cu(OAc)2 as the catalyst precursor, a variety of allylboronates were synthesized in 44\%-83\% yields. The (E)-2-boryl allylboronates were synthesized in 54\%-92\% yields via the Cu-catalyzed diboration of propargylic alcohols. The stereoselectivity is different from the Pd(dba)2-catalyzed diboration of allenes that provided (Z)-2-boryl allylboronates predominantly. The isolation of an allenyl boronate as the reaction intermediate suggests that an SN2'-type reaction, followed by borylcupration, is involved in the mechanism of the diboration of propargylic alcohols. In chapter 4, a Pd-catalyzed allylic C-H borylation of alkenes is reported. The transformation exhibits high regioselectivity with a variety of linear alkenes, employing a Pd-pincer complex as the catalyst precursor, and the allylic boronate products were isolated and purified. This protocol can also be extended to one-pot carbonyl allylation reactions to provide homoallyl alcohols efficiently. An interesting mechanistic feature is that the reaction proceeds via a Pd(II)/Pd(IV) catalytic cycle. Formation of the Pd(IV) intermediate occurs by a unique combination of an NCNpincer complex and application of F-TEDA-BF4 as the oxidant. An important novelty of the present C-H borylation reaction is that all allyl-Bpin products can be isolated with usually high yields. This is probably a consequence of the application of the NCN-pincer complex as catalyst, which selectively catalyzes C-B bond formation avoiding subsequent C-B bond cleavage based side-reactions}, subject = {{\"U}bergangsmetall}, language = {en} } @phdthesis{DinhXuan2018, author = {Dinh-Xuan, Lam}, title = {Quality of Experience Assessment of Cloud Applications and Performance Evaluation of VNF-Based QoE Monitoring}, issn = {1432-8801}, doi = {10.25972/OPUS-16918}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-169182}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {In this thesis various aspects of Quality of Experience (QoE) research are examined. The work is divided into three major blocks: QoE Assessment, QoE Monitoring, and VNF Performance Evaluation. First, prominent cloud applications such as Google Docs and a cloud-based photo album are explored. The QoE is characterized and the influence of packet loss and delay is studied. Afterwards, objective QoE monitoring for HTTP Adaptive Video Streaming (HAS) in the cloud is investigated. Additionally, by using a Virtual Network Function (VNF) for QoE monitoring in the cloud, the feasibility of an interworking of Network Function Virtualization (NFV) and cloud paradigm is evaluated. To this end, a VNF that exploits deep packet inspection technique was used to parse the video traffic. An algorithm is then designed accordingly to estimate video quality and QoE based on network and application layer parameters. To assess the accuracy of the estimation, the VNF is measured in different scenarios under different network QoS and the virtual environment of the cloud architecture. The insights show that the different geographical deployments of the VNF influence the accuracy of the video quality and QoE estimation. Various Service Function Chain (SFC) placement algorithms have been proposed and compared in the context of edge cloud networks. On the one hand, this research is aimed at cloud service providers by providing methods for evaluating QoE for cloud applications. On the other hand, network operators can learn the pitfalls and disadvantages of using the NFV paradigm for such a QoE monitoring mechanism.}, subject = {Quality of Experience}, language = {en} } @phdthesis{Poerner2018, author = {P{\"o}rner, Frank}, title = {Regularization Methods for Ill-Posed Optimal Control Problems}, edition = {1. Auflage}, publisher = {W{\"u}rzburg University Press}, address = {W{\"u}rzburg}, isbn = {978-3-95826-086-3 (Print)}, doi = {10.25972/WUP-978-3-95826-087-0}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-163153}, school = {W{\"u}rzburg University Press}, pages = {xiii, 166}, year = {2018}, abstract = {This thesis deals with the construction and analysis of solution methods for a class of ill-posed optimal control problems involving elliptic partial differential equations as well as inequality constraints for the control and state variables. The objective functional is of tracking type, without any additional \(L^2\)-regularization terms. This makes the problem ill-posed and numerically challenging. We split this thesis in two parts. The first part deals with linear elliptic partial differential equations. In this case, the resulting solution operator of the partial differential equation is linear, making the objective functional linear-quadratic. To cope with additional control constraints we introduce and analyse an iterative regularization method based on Bregman distances. This method reduces to the proximal point method for a specific choice of the regularization functional. It turns out that this is an efficient method for the solution of ill-posed optimal control problems. We derive regularization error estimates under a regularity assumption which is a combination of a source condition and a structural assumption on the active sets. If additional state constraints are present we combine an augmented Lagrange approach with a Tikhonov regularization scheme to solve this problem. The second part deals with non-linear elliptic partial differential equations. This significantly increases the complexity of the optimal control as the associated solution operator of the partial differential equation is now non-linear. In order to regularize and solve this problem we apply a Tikhonov regularization method and analyse this problem with the help of a suitable second order condition. Regularization error estimates are again derived under a regularity assumption. These results are then extended to a sparsity promoting objective functional.}, subject = {Optimale Steuerung}, language = {en} } @phdthesis{MeiningergebChrist2018, author = {Meininger [geb. Christ], Susanne}, title = {Processing of calcium and magnesium phosphate cements for bone substitution}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-169126}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {The main focus of this thesis was the processing of different calcium and magnesium phosphate cements together with an optimization of mechanical and biological properties. Therefore, different manufacturing techniques like 3D powder printing and centrifugally casting were employed for the fabrication of reinforced or biomedically improved implants. One of the main problems during 3D powder printing is the low green strength of many materials, especially when they are only physically bonded and do not undergo a setting reaction. Such materials need post-treatments like sintering to exhibit their full mechanical performance. However, the green bodies have to be removed from the printer requiring a certain stability. With the help of fiber reinforcement, the green strength of printed gypsum samples could be increased by the addition of polymeric and glass fibers within the printing process. The results showed that fiber reinforcement during 3D powder printing is possible and opens up diverse opportunities to enhance the damage tolerance of green bodies as well as directly printed samples. The transfer to biomedically relevant materials like calcium and magnesium phosphate cements and biocompatible fibers would be the next step towards reinforced patient-specific implants. In a second approach, centrifugally casting derived from construction industries was established for the fabrication of hollow bioceramic cylinders. The aim was the replacement of the diaphysis of long bones, which exhibit a tubular structure with a high density of cortical bone on the fringe. By centrifugation, cement slurries with and without additives could be fabricated to tubes. As a first establishment, the processing parameters regarding the material (e.g. cement composition) as well as the set-up (e.g. rotation times) had to be optimized for each system. In respect of mechanics, such tubes can keep up with 3D powder printed tubes, although the mechanical performance of 3D printed tubes is strongly dependent on printing directions. Additionally, some material compositions like dual setting systems cannot be fabricated by 3D powder printing. Therefore, a transfer of such techniques to centrifugally casting enabled the fabrication of tubular structures with an extremely high damage tolerance due to high deformation ability. A similar effect was achieved by fiber (mesh) addition, as already shown for 3D powder printing. Another possibility of centrifugally casting is the combination of different materials resulting in graded structures to adjust implant degradation or bone formation. This became especially apparent for the incorporation of the antibiotic vancomycin, which is used for the treatment of bacterial implant infections. A long-term release could be achieved by the entrapment of the drug between magnesium phosphate cement layers. Therefore, the release of the drug could be regulated by the degradation of the outer shell, which supports the release into an acidic bacterial environment. The centrifugally casting technique exhibited to be a versatile tool for numerous materials and applications including the fabrication of non-centrosymmetric patient-specific implants for the reconstruction of human long bones. The third project aimed to manufacture strontium-substituted magnesium phosphate implants with improved biological behavior by 3D powder printing. As the promoting effect of strontium on bone formation and the inhibitory impact on bone resorption is already well investigated, the incorporation of strontium into a degradable magnesium phosphate cement promised a fast integration and replacement of the implant. Porous structures were obtained with a high pore interconnectivity that is favorable for cell invasion and bone ingrowth. Despite the porosity, the mechanical performance was comparable to pure magnesium phosphate cement with a high reliability of the printed samples as quantitatively determined by Weibull statistics. However, the biological testing was impeded by the high degradation rate and the relating ion release. The high release of phosphate ions into surrounding media and the detachment of cement particles from the surface inhibited osteoblast growth and activity. To distinguish those two effects, a direct and indirect cell seeding is always required for degradable materials. Furthermore, the high phosphate release compared to the strontium release has to be managed during degradation such that the adverse effect of phosphate ions does not overwhelm the bone promoting effect of the strontium ions. The manufacturing techniques presented in this thesis together with the material property improvement offer a diverse tool box for the fabrication of patient-specific implants. This includes not just the individual implant shape but also the application like bone growth promotion, damage tolerance and local drug delivery. Therefore, this can act as the basis for further research on specific medical indications.}, subject = {Calciumphosphate}, language = {en} } @phdthesis{Braun2018, author = {Braun, Alexandra Carolin}, title = {Bioresponsive delivery of anticatabolic and anabolic agents for muscle regeneration using bioinspired strategies}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-169047}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Progressive loss of skeletal muscle mass, strength and function poses a major threat to independence and quality of life, particularly in the elderly. To date, sarcopenia therapy consists of resistance exercise training in combination with protein supplementation due to the limited efficacy of available pharmacological options in counteracting the effects of muscle wasting. Therapeutic intervention with growth factors including insulin-like growth factor I (IGF-I) or inhibitors of myostatin  a potent suppressor of myogenesis  hold potential to rebalance the altered activity of anabolic and catabolic cytokines. However, dosing limitations due to acute side effects and disruptions of the homeostasis have so far precluded clinical application. Intending to provide a therapy with a superior safety and efficacy profile by directing drug release to inflamed tissue and minimizing off-target activity, we designed bioresponsive delivery systems for an anti-catabolic peptide and anabolic IGF-I responding to local flares of muscle wasting. In Chapter I, current concepts for bioorthogonal conjugation methods are discussed and evaluated based on various drug delivery applications. With a focus on protein delivery, challenges and potential pitfalls of each chemical and enzymatic conjugation strategy are analyzed and opportunities regarding their use for coupling of biomolecules are given. Based on various studies conjugating proteins to polymers, particles and biomaterials using different site-directed approaches, the chapter summarizes available strategies and highlights certain aspects requiring particular consideration when applied to biomolecules. Finally, a decision process for selection of an optimum conjugation strategy is exemplarily presented. Three of these bioorthogonal coupling reactions are applied in Chapter II detailing the potential of site-directed conjugation in the development of novel, homogenous drug delivery systems. The chapter describes the design of a delivery system of a myostatin inhibitor (MI) for controlled and local release counteracting myositis flares. MI release from the carrier is driven by increased matrix metalloproteinase (MMP) levels in compromised muscle tissues cleaving the interposed linker, thereby releasing the peptide inhibitor from the particulate carrier. Release experiments were performed to assess the response towards various MMP isoforms (MMP-1, -8, -9 and -13) - as upregulated during skeletal muscle myopathies - and the release pattern of the MI in case of disease progression was analyzed. By selection of the protease-sensitive linker (PSL) showing variable susceptibilities to proteases, release rates of the MI can be controlled and adapted. Immobilized MI as well as released MI as response to MMP upregulation was able to antagonize the effects of myostatin on cell signalling and myoblast differentiation. The approach of designing bioresponsive protein delivery systems was also applied to the anabolic growth factor IGF-I, as described in Chapter III. Numerous studies of PEGylated proteins or peptides reveal, that successful therapy is challenged by safety and efficacy issues, as polymer attachment considerably alters the properties of the biologic, thereby jeopardizing clinical efficacy. To this end, a novel promising approach is presented, intending to exploit beneficial effects of PEGylation on pharmacokinetics, but addressing the pharmacodynamic challenges by releasing the protein upon entering the target tissue. This was realized by integration of a PSL between the PEG moiety and the protein. The soluble polymer conjugate was produced by site-directed, enzymatic conjugation of IGF-I to the PSL, followed by attachment of a 30 kDa-PEG using Strain-promoted azide-alkyne cycloaddition (SPAAC). This strategy illustrates the potential of bioorthogonal conjugation (as described in Chapter I) for generation of homogenous protein-polymer conjugates with reproducible outcome, but also emphasizes the altered protein properties resulting from permanent polymer conjugation. As compared to wild type IGF-I, the PEGylated protein showed considerable changes in pharmacologic effects - such as impaired insulin-like growth factor binding protein (IGFBPs) interactions, submaximal proliferative activity and altered endocytosis patterns. In contrast, IGF-I characteristics were fully restored upon local disintegration of the conjugate triggered by MMP upregulation and release of the natural growth factor. For successful formulation development for the proteins and conjugates, the careful selection of suitable excipients is crucial for a safe and reliable therapy. Chapter IV addresses one aspect by highlighting the chemical heterogeneity of excipients and associated differences in performance. Polysorbate 80 (PS80) is a surfactant frequently used in protein formulations to prevent aggregation and surface adsorption. Despite being widely deployed as a standard excipient, heterogeneous composition and performance entails the risk of eliciting degradation and adverse effects on protein stability. Based on a comprehensive study using different batches of various suppliers, the PS80 products were characterized regarding chemical composition and physicochemical properties, facilitating the assessment of excipient performance in a formulation. Noticeable deviations were recorded between different suppliers as well as between batches of the same suppliers. Correlation of all parameters revealed, that functionality related characteristics (FRCs) could be reliably predicted based on chemical composition alone or by a combination of chemical and physicochemical properties, respectively. In summary, this thesis describes and evaluates novel strategies for the targeted delivery and controlled release of biologics intended to counteract the imbalance of anabolic and catabolic proteins observed during aging and musculoskeletal diseases. Two delivery platforms were developed and characterized in vitro - (i) using anti-catabolic peptides immobilized on a carrier for local delivery and (ii) using soluble IGF-I polymer conjugates for systemic application. Both approaches were implemented by bioorthogonal coupling strategies, which were carefully selected in consideration of limitations, side reactions and efficiency aspects. Bioresponsive release of the active biomolecules following increased protease activity could be successfully realized. The therapeutic potential of these approaches was demonstrated using various cell-based potency assays. The systems allow targeted and controlled release of the growth factor IGF-I and anti-catabolic peptides thereby overcoming safety concerns of current growth factor therapy and thus positively impacting the benefit-risk profile of potent therapeutics. Taking potential heterogeneity and by-product concerns into account, comprehensive excipient characterization was performed and a predictive algorithm for FRCs developed, in order to facilitate formulation design and guarantee a safe and efficient therapy from start to finish.}, subject = {Muskelatrophie}, language = {en} } @phdthesis{Heinrichs2018, author = {Heinrichs, Susanne Margarete}, title = {Myocardial B-cell infiltration following occlusion of the left anterior descending artery in mice is driven by CXCL13}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-168554}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Myocardial B-cell infiltration after LAD occlusion in mice is driven by CXCL13 After myocardial infarction, the immune system is activated and regulates wound healing and remodeling processes in the heart. While the role of T cells has been elucidated already, the function of B cells in myocardial infarction remained relatively unclear until now. It is, however, already known that B cells are of importance in healing processes in other tissues, for example in the skin. Our studies therefore addressed the role and function of B cells in healing and early remodeling processes in the myocardium after infarction. Under physiological conditions, only few B cells can be found in the heart. After myocardial infarction, however, which we modelled with a permanent ligation of the left anterior descending artery (LAD) in C57BL/6J mice, we could demonstrate that B lymphocytes accumulate in the early phase after tissue injury (days one to seven) in the myocardium. To detect B cells, we performed immunofluorescence stainings on cryosections of infarcted hearts using an anti-B220 antibody. Quantitative analysis of tissue infiltration revealed that B cells peaked at day seven. In flow cytometry, we further characterized the B cells infiltrating infarcted tissue. We found that most of them were mature B cells (IgM+, IgD+). Next, we wanted to outline a potential mechanism responsible for B-cell infiltration to the site of tissue injury. We therefore performed ELISA experiments revealing that CXCL13 was upregulated in scar tissue. Antibody-mediated neutralization of CXCL13 verifiably attenuated B-cell infiltration. Treated mice also showed - in the tendency - smaller infarct sizes and an improved survival. In conclusion, we could show that B lymphocytes infiltrate the myocardium after MI in mice following a local CXCL13 gradient and that it is, most likely, beneficial to inhibit this process.}, subject = {Maus}, language = {en} } @phdthesis{Botrel2018, author = {Botrel, Loic}, title = {Brain-computer interfaces (BCIs) based on sensorimotor rhythms - Evaluating practical interventions to improve their performance and reduce BCI inefficiency}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-168110}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Brain computer interfaces based on sensorimotor rhythms modulation (SMR-BCIs) allow people to emit commands to an interface by imagining right hand, left hand or feet movements. The neurophysiological activation associated with those specific mental imageries can be measured by electroencephalography and detected by machine learning algorithms. Improvements for SMR-BCI accuracy in the last 30 years seem to have reached a limit. The currrent main issue with SMR-BCIs is that between 15\% to 30\% cannot use the BCI, called the "BCI inefficiency" issue. Alternatively to hardware and software improvements, investigating the individual characteristics of the BCI users has became an interesting approach to overcome BCI inefficiency. In this dissertation, I reviewed existing literature concerning the individual sources of variation in SMR-BCI accuracy and identified generic individual characteristics. In the empirical investigation, attention and motor dexterity predictors for SMR-BCI performance were implemented into a trainings that would manipulate those predictors and lead to higher SMR-BCI accuracy. Those predictors were identified by Hammer et al. (2012) as the ability to concentrate (associated with relaxation levels) and "mean error duration" in a two-hand visuo-motor coordination task (VMC). Prior to a SMR-BCI session, a total of n=154 participants in two locations took part of 23 min sessions of either Jacobson's Progressive Muscle Relaxation session (PMR), a VMC session, or a control group (CG). No effect of PMR or VMC manipulation was found, but the manipulation checks did not consistently confirm whether PMR had an effect of relaxation levels and VMC on "mean error duration". In this first study, correlations between relaxation levels or "mean error duration" and accuracy were found but not in both locations. A second study, involving n=39 participants intensified the training in four sessions on four consecutive days or either PMR, VMC or CG. The effect or manipulation was assessed for in terms of a causal relationship by using a PRE-POST study design. The manipulation checks of this second study validated the positive effect of training on both relaxation and "mean error duration". But the manipulation did not yield a specific effect on BCI accuracy. The predictors were not found again, displaying the instability of relaxation levels and "mean error duration" in being associated with BCI performance. An effect of time on BCI accuracy was found, and a correlation between State Mindfulness Scale and accuracy were reported. Results indicated that a short training of PMR or VMC were insufficient in increasing SMR-BCI accuracy. This study contrasted with studies succeeding in increasing SMR-BCI accuracy Tan et al. (2009, 2014), by the shortness of its training and the relaxation training that did not include mindfulness. It also contrasted by its manipulation checks and its comprehensive experimental approach that attempted to replicate existing predictors or correlates for SMR-BCI accuracy. The prediction of BCI accuracy by individual characteristics is receiving increased attention, but requires replication studies and a comprehensive approach, to contribute to the growing base of evidence of predictors for SMR-BCI accuracy. While short PMR and VMC trainings could not yield an effect on BCI performance, mindfulness meditation training might be beneficial for SMR-BCI accuracy. Moreover, it could be implemented for people in the locked-in-syndrome, allowing to reach the end-users that are the most in need for improvements in BCI performance.}, subject = {Gehirn-Computer-Schnittstelle}, language = {en} } @phdthesis{Becker2018, author = {Becker, Nils}, title = {Mechanisms and consequences of environmentally and behaviorally induced synaptic plasticity in the honey bee brain}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-138466}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {The brain is the central organ of an animal controlling its behavior. It integrates internal information from the body and external stimuli from the surrounding environment to mediate an appropriate behavioral response. Since the environment is constantly changing, a flexible adjustment of the brain to new conditions is crucial for the animals' fitness. The ability of the nervous system to adapt to new challenges is defined as plasticity. Over the last few decades great advances have been made in understanding the cellular and molecular mechanisms underlying neuronal plasticity. Plasticity may refer to structural changes physically remodeling the neuronal circuit, or to functional adaptations which are manifested in modified synaptic transmission, and in altered response and firing properties of single neurons. These structural and functional modifications are mediated by a complex interplay of environmental stimuli, intracellular signal transduction cascades, protein modifications, gene translation and transcription, and epigenetic gene regulatory mechanisms. However, especially the molecular mechanisms of environmentally-induced structural neuronal plasticity are still poorly understood. In this thesis the honey bee was used as an innovative model organism to investigate this issue. The honey bee with its rich behavioral repertoire, highly sophisticated and plastic neuronal system, sequenced genome and full epigenetic machinery is well suited for studying the molecular underpinnings of environmentally-induced neuronal plasticity. Adult honey bees progress through a series of tasks within the dark hive until after about three weeks they start with foraging activities in the external world. The transition from in-hive to outside tasks is associated with remarkable structural neuronal plasticity. Subdivisions of the mushroom body, a brain region related to higher cognitive functions, are increased in volume. The volume expansion is mediated by a remarkable outgrowth of the dendritic network of mushroom body intrinsic neurons, so called Kenyon cells. In parallel, prominent synaptic structures, referred to as microglomeruli, are pruned. Most interestingly for this thesis, the pruning of microglomeruli and the dendritic expansion in Kenyon cells can be induced by a simple light exposure paradigm. In the first chapter of the present thesis I used this paradigm to induce synaptic plasticity in the mushroom bodies under controlled lab conditions to search for correlating molecular changes which possibly mediate the observed plasticity. I compared the brain transcriptome of light-exposed and dark-kept control bees by whole transcriptome sequencing. This revealed a list of differentially expressed genes (DEGs). The list contains conserved genes which have reported functions in neuronal plasticity, thereby introducing them as candidate genes for plasticity in the honey bee brain. Furthermore, with this transcriptomic approach I discovered many candidate genes with unknown functions or functions so far unrelated to neuronal plasticity suggesting that these novel genes may have yet unrecognized roles in neuronal plasticity. A number of DEGs are known to be methylated or to exert epigenetic modifications on themselves speaking for a strong impact of epigenetic mechanisms in light-induced structural plasticity in the honey bee brain. This notion is supported by a differential methylation pattern of one examined DEG between light-exposed and dark-kept bees as shown in this thesis. Also a plasticity-related microRNA, which is predicted to target genes associated with cytoskeleton formation, was found to be upregulated in light-exposed bees. This speaks for a translation regulatory mechanism in structural plasticity in the honey bee. Another interesting outcome of this study is the age-dependent expression of DEGs. For some plasticity-related DEGs, the amplitude of light-induced expression differs between one- and seven-day-old bees, and also the basal expression level of many DEGs in naive dark-kept control bees significantly varies between the two age groups. This suggests that the responsiveness of plasticity-related genes to environmental stimuli is also under developmental (age-dependent) control, which may be important for normal maturation and for the regulation of age-related changes in behavior. Indeed, I was able to demonstrate in phototaxis experiments that one- and seven-day-old bees show different behaviors in response to light exposure and thus the correlating age-dependent transcriptional differences may serve as mechanisms promoting age-related changes in behavior. Together the results of the transcriptomic study demonstrate the successfulness of my approach to identify candidate molecular mechanisms for environmentally-induced structural plasticity in the honey bee brain. Furthermore, the thesis provides seminal evidence for the implication of DNA methylation in this process. To better understand the role of DNA methylation for neuronal and behavioral plasticity in the honey bee, the second chapter of the thesis aims at characterizing this molecular process under more natural conditions. Therefore, I examined the expression of the DNA methyltransferase 3 (DNMT3) and of Ten-eleven translocation methylcytosine dioxygenase (TET) between in-hive bees and foragers. DNMT3 is responsible for DNA de novo methylation, whereas TET promotes DNA demethylation by converting methylcytosine (5mC) to hydroxymethylcytosine (5hmC). The data suggest that age and experience determine the expression of these two epigenetic key genes. Additionally, in this context, two examined DEGs are shown to be differentially methylated between nurses and foragers. One of these two DEGs, the plasticity related gene bubblegum (bgm), also exhibits an altered DNA methylation pattern in response to light exposure. Hence, these results of my thesis provide additional evidence for the importance of DNA methylation in behavioral and neuronal plasticity. Results from the second chapter of this thesis also suggest additional functions of DNMT3 and TET to their traditional roles in DNA methylation/demethylation. I show that TET is far more expressed in the honey bee brain than DNMT3. This stands in contrast to the relative scarcity of 5hmC compared to 5mC and points at extra functions of this gene like RNA modifications as reported for Drosophila. Antibody staining against the DNMT3 gene product revealed an unexpected rare localization of the enzyme in the nucleus, but a surprisingly high abundance in the cytoplasm. The role of cytoplasmic DNMT3 is unknown. One possibility for the high abundance in the cytoplasm is a regulatory mechanism for DNA methylation by cytoplasmic-nuclear trafficking, or an additional function of DNMT3 in RNA modification, similar to TET. Altogether, this thesis points at future research directions for neuronal plasticity by providing promising evidence for the involvement of epigenetic mechanisms and of a number of new candidate genes in environmentally induced structural plasticity in the honey bee brain. Furthermore, I present data suggesting so far unrecognized functions of DNMT3 which certainly need to be experimentally addressed in the future to fully understand the role of this enzyme.}, subject = {Neuronale Plastizit{\"a}t}, language = {en} } @phdthesis{Bendias2018, author = {Bendias, Michel Kalle}, title = {Quantum Spin Hall Effect - A new generation of microstructures}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-168214}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {The presented thesis summarizes the results from four and a half years of intense lithography development on (Cd,Hg)Te/HgTe/(Cd,Hg)Te quantum well structures. The effort was motivated by the unique properties of this topological insulator. Previous work from Molenkamp at al.\ has proven that the transport through such a 2D TI is carried by electrons with opposite spin, counter-propagating in 1D channels along the sample edge. However, up to this thesis, the length of quantized spin Hall channels has never been reported to exceed 4 µm. Therefore, the main focus was put on a reproducible and easy-to-handle fabrication process that reveals the intrinsic material parameters. Every single lithography step in macro as well as microscopic sample fabrication has been re-evaluated. In the Development, the process changes have been presented along SEM pictures, microgaphs and, whenever possible, measurement responses. We have proven the conventional ion milling etch method to damage the remaining mesa and result in drastically lower electron mobilities in samples of microscopic size. The novel KI:I2:HBr wet etch method for macro and microstructure mesa fabrication has been shown to leave the crystalline structure intact and result in unprecedented mobilities, as high as in macroscopic characterization Hall bars. Difficulties, such as an irregular etch start and slower etching of the conductive QW have been overcome by concentration, design and etch flow adaptations. In consideration of the diffusive regime, a frame around the EBL write field electrically decouples the structure mesa from the outside wafer. As the smallest structure, the frame is etched first and guarantees a non-different etching of the conductive layer during the redox reaction. A tube-pump method assures reproducible etch results with mesa heights below 300 nm. The PMMA etch mask is easy to strip and leaves a clean mesa with no redeposition. From the very first attempts, to the final etch process, the reader has been provided with the characteristics and design requirements necessary to enable the fabrication of nearly any mesa shape within an EBL write field of 200 µm. Magneto resistance measurement of feed-back samples have been presented along the development chronology of wet etch method and subsequent lithography steps. With increasing feature quality, more and more physics has been revealed enabling detailed evaluation of smallest disturbances. The following lithography improvements have been implemented. They represent a tool-box for high quality macro and microstructure fabrication on (CdHg)Te/HgTe of almost any kind. The optical positive resist ECI 3027 can be used as wet and as dry etch mask for structure sizes larger than 1 µm. It serves to etch mesa structures larger than the EBL write field. The double layer PMMA is used for ohmic contact fabrication within the EBL write field. Its thickness allows to first dry etch the (Cd,Hg)Te cap layer and then evaporate the AuGe contact, in situ and self-aligned. Because of an undercut, up to 300 nm can be metalized without any sidewalls after the lift-off. An edge channel mismatch within the contact leads can be avoided, if the ohmic contacts are designed to reach close to the sample and beneath the later gate electrode. The MIBK cleaning step prior to the gate application removes PMMA residuals and thereby improves gate and potential homogeneity. The novel low HfO2-ALD process enables insulator growth into optical and EBL lift-off masks of any resolvable shape. Directly metalized after the insulator growth, the self-aligned method results in thin and homogeneous gate electrode reproducibly withholding gate voltages to +-10 V. The optical negative resist ARN 4340 exhibits an undercut when developed. Usable as dry etch mask and lift-off resist, it enables an in-situ application of ohmic contacts first etching close to the QW, then metalizing AuGe. Up to 500 nm thickness, the undercut guarantees an a clean lift-off with no sidewalls. The undertaken efforts have led to micro Hall bar measurements with Hall plateaus and SdH-oszillations in up to now unseen levels of detail. The gap resistance of several micro Hall bars with a clear QSH signal have been presented in Quantum Spin Hall. The first to exhibit longitudinal resistances close to the expected h/2e2 since years, they reveal unprecedented details in features and characteristics. It has been shown that their protection against backscattering through time reversal symmetry is not as rigid as previously claimed. Values below and above 12.9 kΩ been explained, introducing backscattering within the Landauer-B{\"u}ttiker formalism of edge channel transport. Possible reasons have been discussed. Kondo, interaction and Rashba-backscattering arising from density inhomogeneities close to the edge are most plausible to explain features on and deviations from a quantized value. Interaction, tunneling and dephasing mechanisms as well as puddle size, density of states and Rashba Fields are gate voltage dependent. Therefore, features in the QSH signal are fingerprints of the characteristic potential landscape. Stable up to 11 K, two distinct but clear power laws have been found in the higher temperature dependence of the QSH in two samples. However, with ΔR = Tα, α = ¼ in one (QC0285) and α = 2 in the other (Q2745), none of the predicted dependencies could be confirmed. Whereas, the gap resistances of QC0285 remains QSH channel dominated up to 3.9 T and thereby confirmed the calculated lifting of the band inversion in magnetic field. The gate-dependent oscillating features in the QSH signal of Q2745 immediately increase in magnetic field. The distinct field dependencies allowed the assumption of two different dominant backscattering mechanisms. Resulting in undisturbed magneto transport and unprecedented QSH measurements The Novel Micro Hall Bar Process has proven to enable the fabrication of a new generation of microstructures.}, subject = {Quecksilbertellurid}, language = {en} } @phdthesis{Technau2018, author = {Technau, Marc}, title = {On Beatty sets and some generalisations thereof}, edition = {1. Auflage}, publisher = {W{\"u}rzburg University Press}, address = {W{\"u}rzburg}, isbn = {978-3-95826-088-7 (Print)}, doi = {10.25972/WUP-978-3-95826-089-4}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-163303}, school = {W{\"u}rzburg University Press}, pages = {xv, 88}, year = {2018}, abstract = {Beatty sets (also called Beatty sequences) have appeared as early as 1772 in the astronomical studies of Johann III Bernoulli as a tool for easing manual calculations and - as Elwin Bruno Christoffel pointed out in 1888 - lend themselves to exposing intricate properties of the real irrationals. Since then, numerous researchers have explored a multitude of arithmetic properties of Beatty sets; the interrelation between Beatty sets and modular inversion, as well as Beatty sets and the set of rational primes, being the central topic of this book. The inquiry into the relation to rational primes is complemented by considering a natural generalisation to imaginary quadratic number fields.}, subject = {Zahlentheorie}, language = {en} } @phdthesis{Maas2018, author = {Maas, Daniel Peter}, title = {Currency Areas, Monetary Policy, and the Macroeconomy}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-168037}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Hauptgegenstand der Dissertation ist die Analyse der makro{\"o}konomischen Auswirkungen der Gr{\"u}ndung der Eurozone auf die Mitgliedsstaaten. Diese Analyse umfasst zwei Studien, die sich der Fragestellung aus verschiedenen Perspektiven n{\"a}hern. Die erste Studie unternimmt einen Vergleich der Geldpolitik von EZB und von ausgew{\"a}hlten Zentralbanken des Europ{\"a}ischen W{\"a}hrungssystems (EWS). Es wird untersucht, inwiefern sich bei makro{\"o}konomischen Nachfrage- und Angebotsschocks die systematischen Reaktionen der EZB von denen der vier wichtigsten nationalen Zentralbanken des EWS (Deutschland, Frankreich, Italien und Spanien) unterscheiden. In der zweiten Studie werden die Ursachen f{\"u}r den Aufbau interner und externer Ungleichgewichte in Spanien, d.h. auf dem Immobilienmarkt und in der Leistungsbilanz, im Vorfeld der Finanzkrise 2007/08 analysiert. Dabei wird zwischen Spanien-spezifischen und Eurozonen-spezifischen Ursachen unterschieden und deren Erkl{\"a}rungsgehalt empirisch quantifiziert. In der dritten und letzten Studie der Dissertation wird ein preistheoretisches Kreditangebotsmodell entwickelt und empirisch gesch{\"a}tzt. Als Basis f{\"u}r die empirische Sch{\"a}tzung werden Daten des Kreditmarktes f{\"u}r deutsche Unternehmen verwendet. Die methodische Vorgehensweise beinhaltet in allen Studien zeitreihen{\"o}konometrische Ans{\"a}tze wie beispielsweise (Mehrl{\"a}nder-)Vektorautoregressionen (VARs) und Zeitreihenregressionen.}, subject = {Geldpolitik}, language = {en} } @phdthesis{Toepfer2018, author = {Toepfer, Franziska Helene}, title = {Component selectivity and multistability in a \(Drosophila\) orientation paradigm using incoherent motion stimuli}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-153346}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Visual information is essential for Drosophila to navigate its environment. The visual system of the fly has been studied for many decades and has yielded many insights about vision in general. However, visual information can be ambiguous and the system processing it needs to be able to cope with that. In this study, the visual orientation behavior of Drosophila is challenged by panoramic incoherent motion stimuli to which the fly can respond in three different, equally adaptive ways. The study is conducted in a well-established setup, the so-called flight simulator (Heisenberg and Wolf, 1993), where the fly can control its visual surroundings in stationary flight with its yaw torque, which is simultaneously recorded. The fly can either use one of two incoherently moving panorama patterns or the integrated motion of both as its reference for straight flight. It is observed that flies use all three of these behavioral alternatives for orientation. Previous models of fly motion vision do not predict a bimodal tuning to incoherent wide-field motion stimuli (Joesch et al., 2008, Borst et al., 1995), however, a recent study on blowflies could suggests that they show component selectivity to the individual moving gratings in a compound plaid stimulus (Saleem et al., 2012). Here, it can be shown that the same bimodal tuning manifests in Drosophila, although the stimuli used are different and most of the experiments are conducted in closed loop. It is found that the extent to which the Drosophila expresses this component selectivity in its orientation behavior, i.e. how often it stabilizes a single panorama pattern instead of the integrated motion of both, depends on two properties of the panorama stimuli, pattern contrast and horizontal pattern element distance. Single pattern stabilization decreases with increasing contrast and increasing pattern element distance. In the latter case, it increases again when there are very few horizontal pattern elements, although that appears to be the result of a lack of rivalry between the patterns due to the low number of pattern elements. Both increased pattern contrast and pattern element distance increase the salience of the single pattern elements. A single element in a compound visual stimulus, like a dot within a dot pattern, can be interpreted as a standalone figure or a part of a bigger unit. Previous studies on Drosophila vision have concentrated on how the fly discriminates a figure from the background (Heisenberg and Wolf, 1984, Bahl et al., 2013, Aptekar et al., 2012), but have hardly touched the question of what qualifies a figure or a background (i.e. a panorama) stimulus as such. In the present study, it is observed that, when exposed to incoherent panoramic motion stimuli, the flies prefer to orient themselves towards the average of the two motions when the panorama stimuli possess strong figure features and towards the single patterns when they do not and single pattern elements are therefore less salient. The above-mentioned plaid stimuli are a well-known multistable percept in human psychophysics. Multistability is a property of higher visual systems and considered an indicator of endogenous activity in vision. As Drosophila expresses behavioral multistability in the IPMP, it is evaluated in this respect. The results show several parallels to human multistable perception. For one, the frequency and duration with which a behavior occurs, can be influenced, but the occurrence of the behaviors is non-deterministic and not coupled to the stimulus. It can also be shown that the switches between behaviors do not stem from a rivalry of the two visual hemispheres of the fly, although monocularity does also influence the likelihood with which the behaviors occur. Secondly, like in human perceptual rivalry, individual flies exhibit strong idiosyncrasies regarding the overall durations they spend with the different behaviors and the frequencies with which they switch between them. Finally, the distribution of the durations between the behavioral switches can be fit to the same function as the distribution of percept durations in human multistable perception, the gamma function, although it has a different shape and therefore also differing parameters. The Drosophila mutant radish, which has been shown to have attention-like deficits (van Swinderen and Brembs, 2010, Koenig et al., 2016a), does also express an altered behavior in the IPMP compared to wildtype flies. As these behavioral alterations resemble effects on multistable perception found in humans suffering from ADHD (Amador-Campos et al., 2015) and perceptual multistability is generally considered to be closely related to attention (Leopold and Logothetis, 1999), attentional processes are also very likely to play a role in the flies' behavior in the IPMP. In conclusion, the visual system of Drosophila is capable disentangle incoherent motion stimuli even if they overlap and cover the entire visual field, i.e. it shows component selectivity of wide-field motion. Whether it uses a single wide-field motion component or the average of two as its reference for straight flight depends on pattern contrast and horizontal pattern element density, which indicates an involvement of a figure-background rivalry. This rivalry and the one between the two wide-field motion components elicit a multistability in the orientation behavior of the fly the temporal dynamics of which partially resemble the temporal dynamics of human multistable perception and which also suggests the involvement of attentional processes.}, subject = {Drosophila}, language = {en} } @phdthesis{Jones2018, author = {Jones, Gabriel}, title = {Bioinspired FGF-2 delivery for pharmaceutical application}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-153179}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {In resent years the rate of biologics (proteins, cytokines and growth-factors) as newly registered drugs has steadily risen. The greatest challenge for pharmaceutical biologics poses its arrival at the desired target location due to e.g. proteolytic and pH dependent degradation, plasma protein binding, insolubility etc. Therefore, advanced drug delivery systems, where biologics are site directed immobilized to carriers mimicking endogenous storage sites such as the extra cellular matrix can enormously assist the application and consequently the release of exogenous administered pharmaceutical biologics. We have resorted to the fibroblast growth factor 2/ heparansulfate/ fibroblast growth factor bindingprotein 1 system as a model. Phase I deals with the selection and subcloning of a wild type murine FGF-2 construct into the bacterial pHis-Trx vector system for high yields of expression and fast, feasible purification measurements. This first step enables the provision of mFGF-2, which plays a pivotal part as a growth factor in the wound healing process as well as the vascularization of tumors, for future investigations. Therefore, the correct expression of mFGF-2 was monitored via MALDI-MS and SDS-PAGE, whereas the proper folding of the tertiary beta-trefoil structure was assessed by fluorescence spectroscopy. The MTT assay allowed us to ensure that the bioactivity was comparable to sourced FGF-2. In the last step, the purity; a requirement for future binding- and protein-protein interaction assays was monitored chromatographically (RP-HPLC). In addition, a formulation for freeze-drying was developed to ensure protein stability and integrity over a period of 60 days. Altogether, the bacterial expression and purification proved to be suitable, leading to bioactive and stable production of mFGF-2. In Phase II the expression, purification and characterization of FGFBP1, as the other key partner in the FGF-2/ HS/ FGFBP1 system is detailed. As FGFBP1 exhibits a complex tertiary structure, comprised of five highly conserved disulfide bonds and presumably multiple glycosylation sites, a eukaryotic expression was used. Human embryonic kidney cells (HEK 293F) as suspension cells were transiently transfected with DNA-PEI complexes, leading to expression of Fc-tagged murine FGFBP1. Different PEI to DNA ratios and expression durations were investigated for optimal expression yields, which were confirmed by western blot analysis and SDS-PAGE. LC-MS/MS analysis of trypsin and elastase digested FGFBP1 gave first insights of the three O-glycosylation sites. Furthermore, the binding protein was modified by inserting a His6-tag between the Fc-tag (for purification) and the binding protein itself to enable later complexation with radioactive 99mTc as radio ligand to track bio distribution of administered FGFBP1 in mice. Overall, expression, purification and characterization of mFGFBP1 variants were successful with a minor draw back of instability of the tag free binding protein. Combining the insights and results of expressed FGF-2 as well as FGFBP1 directed us to the investigation of the interaction of each partner in the FGF-2/ HS/ FGFBP1 system as Phase III. Thermodynamic behavior of FGF-2 and low molecular weight heparin (enoxaparin), as a surrogate for HS, under physiological conditions (pH 7.4) and pathophysiological conditions, similar to hypoxic, tumorous conditions (acidic pH) were monitored by means of isothermal titration calorimetry. Buffer types, as well as the pH influences binding parameters such as stoichiometry (n), enthalpy (ΔH) and to some extent the dissociation constant (KD). These findings paved the way for kinetic binding investigations, which were performed by surface plasmon resonance assays. For the first time the KD of full length FGFBP1 and FGF-2 was measured. Furthermore the binding behavior of FGF-2 to FGFBP1 in the presence of various heparin concentrations suggest a kinetic driven release of bound FGF-2 by its chaperone FGFBP1. Having gathered multiple data on the FGF-2 /HS /FGFBP1 system mainly in solution, our next step in Phase IV was the development of a test system for immobilized proteins. With the necessity to better understand and monitor the cellular effects of immobilized growth factors, we decorated glass slides in a site-specific manner with an RGD-peptide for adhesion of cells and via the copper(I)-catalyzed-azide-alkyne cycloaddition (CuAAC) a fluorescent dye (a precursor for modified proteins for click chemistry). Human osteosarcoma cells were able to grow an the slides and the fluorescence dye was immobilized in a biocompatible way allowing future thorough bioactivity assay such as MTT-assays and phospho-ERK-assays of immobilized growth factors.}, subject = {Fibroblastenwachstumsfaktor}, language = {en} } @phdthesis{Skaf2018, author = {Skaf, Joseph}, title = {Antileishmanial and antitrypanosomal compounds from \(Achillea\) \(fragrantissima\)}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-167841}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {This PhD thesis is dealing with the bioassay-guided fractionation of a dichloromethane extract of the aerial parts of Achillea fragrantissima with the aim of isolation and structure isolation of the antileishmanial and/or antitrypanosomal principles in the plant.}, subject = {Schafgarbe }, language = {en} } @phdthesis{Sidiropoulou2018, author = {Sidiropoulou, Ourania}, title = {Characterization of the ATLAS-type Micromegas Detectors}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-167323}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Micromegas are parallel-plate gaseous detectors with micro-pattern readout structures that are able to measure precisely and efficiently at high particle rates. Their difference with respect to other gaseous detectors is that the space in which particles ionise the gas and create electrons is separated from the region in which these electrons are multiplied (or amplified) by a thin metallic mesh. In the ionisation region, typically a few mm thick, a moderate field of a few hundred V/cm is applied. The amplification region with a homogeneous electrical field of 40--50~kV/cm is only 100--150~\$\upmu\$m thick. The latter guarantees that the positive ions produced in the amplification process are rapidly evacuated and the possibility to build up space charge at high rate is reduced. Critical in micromegas detectors are sparks in the thin amplification region in the presence of the high electrical field. This problem was solved in 2011 by introducing a spark protection scheme. It consists of a layer of resistive strips on top of the readout strips, separated from the latter by a thin insulation layer. Micromegas with the spark protection scheme were selected as instrumentation of the first ATLAS forward muon station (NSW) in the upgrade of the ATLAS detector for the operation of the Large Hadron Collider (LHC) at high luminosity (HL-LHC), expected for 2026. The main subjects of this thesis are: the characterisation of the first micromegas quadruplet prototypes for the NSW detectors; the characterisation of the materials used in the spark-protection system; and the study of the influence of the mesh distance holders (pillars) on the detector performance. The thesis starts with a brief introduction into the LHC and ATLAS projects, followed by a chapter that explains the reason for the upgrade of the ATLAS muon system and shows the layout of the NSW. The first of the three main chapters covers the construction and the characterisation of the first two prototypes for the NSW detectors. These detectors comprise four detection layers and have the same mechanical structure as the NSW detectors. The mechanical precision as well as the homogeneity of the detector response are discussed. The latter has been measured using X-rays and cosmic rays. The spatial resolution that can be achieved with these detectors precision has been measured at the MAMI accelerator at Mainz with low-energy electrons. The chapter is completed by a section that describes the successful integration of a data acquisition system (DAQ) into the official ATLAS DAQ system that was required for an initially planned installation of one of the prototypes on the existing Small Wheel. The next chapter presents a study of the influence of temperature and humidity changes on the resistive strips used in the spark protection system. In addition the long-term stability of the resistive material has been measured accumulating charge equivalent to 100 years of operation in the HL-LHC and exposing the samples to intense gamma irradiation equivalent to 10 years of HL-LHC operation. The third part covers the impact of the mesh distance holders (pillars) on the performance of the detector. This study has been performed with a 10 x 10 cm\$^2\$ bulk-micromegas with two different pillar shapes. Both 5.9 keV gammas from a \$^{55}\$Fe and 8 keV X-rays from a Cu target were used. In this context also the electrostatic charge-up of the detector is discussed. In the Appendices one finds a summary of the fundamental physics relevant for gaseous detectors as well as some supporting material for the topics covered in the main part of the thesis.}, subject = {ATLAS }, language = {en} } @phdthesis{vonderMuehlen2018, author = {von der M{\"u}hlen, Sarah}, title = {Fostering Students' Epistemic Competences when Dealing with Scientific Literature}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-167343}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {The abilities to comprehend and critically evaluate scientific texts and the various arguments stated in these texts are an important aspect of scientific literacy, but these competences are usually not formally taught to students. Previous research indicates that, although undergraduate students evaluate the claims and evidence they find in scientific documents to some extent, these evaluations usually fail to meet normative standards. In addition, students' use of source information for evaluation is often insufficient. The rise of the internet and the increased accessibility of information have yielded some additional challenges that highlight the importance of adequate training and instruction.The aim of the present work was to further examine introductory students' competences to systematically and heuristically evaluate scientific information, to identify relevant strategies that are involved in a successful evaluation, and to use this knowledge to design appropriate interventions for fostering epistemic competences in university students.To this end, a number of computer-based studies, including both quantitative and qualitative data as well as experimental designs, were developed. The first two studies were designed to specify educational needs and to reveal helpful processing strategies that are required in different tasks and situations. Two expert-novice comparisons were developed, whereby the performance of German students of psychology (novices) was compared to the performance of scientists from the domain of psychology (experts) in a number of different tasks, such as systematic plausibility evaluations of informal arguments (Study 1) or heuristic evaluations of the credibility of multiple scientific documents (Study 2). A think-aloud procedure was used to identify specific strategies that were applied in both groups during task completion, and that possibly mediated performance differences between students and scientists. In addition, relationships between different strategies and between strategy use and relevant conceptual knowledge was examined. Based on the results of the expert-novice comparisons, an intervention study, consisting of two training experiments, was constructed to foster some competences that proved to be particularly deficient in the comparisons (Study 3). Study 1 examined introductory students' abilities to accurately judge the plausibility of informal arguments according to normative standards, to recognise common argumentation fallacies, and to identify different structural components of arguments. The results from Study 1 indicate that many students, compared to scientists, lack relevant knowledge about the structure of arguments, and that normatively accurate evaluations of their plausibility seem to be challenging in this group. Often, common argumentation fallacies were not identified correctly. Importantly, these deficits were partly mediated by differences in strategy use: It was especially difficult for students to pay sufficient attention to the relationship between argument components when forming their judgements. Moreover, they frequently relied on their intuition or opinion as a criterion for evaluation, whereas scientists predominantly determined quality of arguments based on their internal consistency. In addition to students' evaluation of the plausibility of informal arguments, Study 2 examined introductory students' competences to evaluate the credibility of multiple scientific texts, and to use source characteristics for evaluation. The results show that students struggled not only to judge the plausibility of arguments correctly, but also to heuristically judge the credibility of science texts, and these deficits were fully mediated by their insufficient use of source information. In contrast, scientists were able to apply different strategies in a flexible manner. When the conditions for evaluation did not allow systematic processing (i.e. time limit), they primarily used source characteristics for their evaluations. However, when systematic evaluations were possible (i.e. no time limit), they used more sophisticated normative criteria for their evaluations, such as paying attention to the internal consistency of arguments (cf. Study 1). Results also showed that students, in contrast to experts, lacked relevant knowledge about different publication types, and this was related to their ability to correctly determine document credibility. The results from the expert-novice comparisons also suggest that the competences assessed in both tasks might develop as a result of a more fundamental form of scientific literacy and discipline expertise. Performances in all tasks were positively related. On the basis of these results, two training experiments were developed that aimed at fostering university students' competences to understand and evaluate informal arguments (Study 3). Experiment 1 describes an intervention approach in which students were familiarised with the formal structure of arguments based on Toulmin's (1958) argumentation model. The performance of the experimental group to identify the structural components of this model was compared to the performance of a control group in which speed reading skills were practiced, using a pre-post-follow-up design. Results show that the training was successful for improving the comprehension of more complex arguments and relational aspects between key components in the posttest, compared to the control group. Moreover, an interaction effect was found with study performance. High achieving students with above average grades profited the most from the training intervention. Experiment 2 showed that training in plausibility, normative criteria of argument evaluation, and argumentation fallacies improved students' abilities to evaluate the plausibility of arguments and, in addition, their competences to recognise structural components of arguments, compared to a speed-reading control group. These results have important implications for education and practice, which will be discussed in detail in this dissertation.}, subject = {Textverstehen}, language = {en} } @phdthesis{Eichhorn2018, author = {Eichhorn, Antonius}, title = {Copper(I) catalyzed borylation and cross-coupling reactions}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-167332}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {The present thesis comprises synthesis and stoichiometric model reactions of well-defined NHC-stabilized copper(I) complexes (NHC = N-heterocyclic carbene) in order to understand their basic reactivity in borylation and cross-coupling reactions. This also includes the investigations of the reactivity of the ligands used (NHCs and CaaCs = cyclic alkyl(amino)carbenes) with the substrates, i.e. diboron(4) esters and arylboronates, which are addressed in the second part of the thesis.}, subject = {Copper}, language = {en} } @phdthesis{Huang2018, author = {Huang, Hua}, title = {Comparative investigation of the chemical composition and the water permeability of fruit and leaf cuticles}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-152948}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {The plant cuticle is a continuous extracellular protective layer covering the outermost surfaces of higher plants that are in contact with the surrounding atmosphere. The primary function of the cuticular lipid membrane, which is mainly composed of biopolymer cutin and cuticular waxes, is to protect the plant organs against uncontrolled water loss. The chemical composition and the biophysical properties of cuticular waxes affect the rate of water diffusion across the cuticle. Fruit transpiration plays an important role in the development and the maintenance of fruit quality. The fruit has been suggested to present better dehydration stress tolerance than the leaf. However, the differences in transpiration and the chemical composition of cuticular waxes between fruit and leaf have yet to be comprehensively investigated. The present study aims to investigate the water permeability and cuticular wax composition of fruit and leaf cuticles of a wide range of plant species and to elucidate the different roles of the cuticular wax components in the transpiration barrier. To address these objectives, fruit and leaf samples from 17 species were investigated. The cuticular transpiration of intact fruits and astomatous adaxial leaf surfaces and the minimum leaf conductance obtained by leaf drying curves for intact leaves were gravimetrically determined for a variety of plant species. The chemical composition of cuticular waxes of fruits and leaves was thoroughly analysed by gas chromatography with flame ionization and mass spectrometry. The water permeability of fruits ranged from 3.7 x 10-5 m s-1 (Prunus domestica subsp. syriaca) to 37.4 x 10-5 m s-1 (Coffea arabica), whereas permeability for leaves varied between 1.6 x 10-5 m s-1 (Cornus officinalis) and 4.5 x 10-5 m s-1 (Prunus domestica subsp. syriaca (L.)). The interspecies range of water permeability of fruits was significantly higher than that of leaves. Chemical analyses of the cuticular waxes demonstrated that fatty acids, primary alcohols, n-alkanes, aldehydes and alkyl esters were the predominant very-long-chain aliphatic compound classes of fruit and leaf surfaces. Sterols, such as β-sitosterol and campesterol, and triterpenoids, such as oleanolic acid, ursolic acid, α-amyrin and ß-amyrin, were the major cyclic compound classes in the cuticular wax membrane. The amount and composition of cuticular waxes of both fruits and leaves varied at an intraspecific level. There were no significant correlations between the total cuticular wax load or the individual cuticular wax composition and the water permeability of fruits or leaves independently or together. After combining the fruit and leaf data set, a significant correlation between the average chain length of very-long-chain aliphatic compounds and permeabilities was detected, i.e. the longer the average chain length, the lower the water permeability. Interestingly, n-Nonacosane (C29) was abundantly detected in fruit waxes of Rosaceae species. These fruits exhibited a relatively low transpiration level, which was very close to their leaf cuticular permeability. The present study suggests that the lower cuticular permeability of leaves, in comparison to that of fruits, may be attributed to the longer average chain length of aliphatic compounds. The accumulation of total wax, triterpenoids and aliphatic compounds may not contribute to the transpiration barrier directly. The present results are highly consistent with the previous model assumptions for the cuticular structure and transport barrier. Furthermore, this comparative study on leaf and fruit cuticles provides further insights linking the cuticular wax chemistry to the physiological properties of the plant cuticle.}, subject = {Cuticle}, language = {en} } @phdthesis{Koellner2018, author = {K{\"o}llner, Sebastian}, title = {Essays on trade, inequality, and redistribution}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-152471}, school = {Universit{\"a}t W{\"u}rzburg}, pages = {203}, year = {2018}, abstract = {Die vorliegende Dissertation besch{\"a}ftigt sich mit den Auswirkungen der Globalisierung auf den Arbeitsmarkt sowie der Analyse der Determinanten staatlicher Umverteilung. Im Mittelpunkt steht dabei die empirische Auseinandersetzung mit diesen beiden Aspekten. Die in den letzten Jahrzehnten zu beobachtende {\"O}ffnung der M{\"a}rkte und die damit einhergehende steigende internationale Verflechtung wird in der Literatur neben dem technischen Fortschritt als Haupttreiber der wirtschaftlichen Entwicklung gesehen. In letzter Zeit jedoch ist die Globalisierung zunehmend in den Ruf geraten, verst{\"a}rkt negative Konsequenzen mit sich zu bringen, z.B. in Form h{\"o}herer Ungleichheit bzw. einer h{\"o}heren Volatilit{\"a}t der Besch{\"a}ftigung. Das zweite Kapitel untersucht den Einfluss der zunehmenden Importpenetration (in Form steigender importierter Vorprodukte) auf die Besch{\"a}ftigung im verarbeitenden Gewerbe in 12 OECD-Staaten. Die Ergebnisse deuten auf einen insgesamt leicht positiven Besch{\"a}ftigungseffekt der zunehmenden internationalen Verflechtung, wobei auf eine Vielzahl an zus{\"a}tzlichen Einflusskan{\"a}len, verschiedene Modellspezifikationen sowie unterschiedliche Maße der Importpenetration kontrolliert wird. In Abh{\"a}ngigkeit vom Ursprungsland der importierten Vorprodukte differieren die Arbeitsmarkteffekte jedoch deutlich. W{\"a}hrend Importe aus den alten EU-Mitgliedsstaaten komplement{\"a}r zur Industriebesch{\"a}ftigung in den beobachteten OECD-L{\"a}ndern wirken, kann eine substitutive Beziehung f{\"u}r importierte Vorprodukte aus China und den neuen EU-Mitgliedsstaaten beobachtet werden. Die Resultate unterscheiden sich f{\"u}r die einzelnen Volkswirtschaften zum Teil sp{\"u}rbar. Dar{\"u}ber hinaus wird deutlich, dass die hierarchische Struktur der Daten nur eine untergeordnete Rolle spielt, w{\"a}hrend die Ber{\"u}cksichtigung von Endogenit{\"a}tsproblemen die Ergebnisse unber{\"u}hrt l{\"a}sst. Die ambivalenten Folgen der Globalisierung auf die Besch{\"a}ftigung verst{\"a}rken die Nachfrage nach dem Sozialstaat. Das folgende Kapitel analysiert daher die Bestimmungsgr{\"u}nde staatlicher Umverteilung f{\"u}r ein breites L{\"a}ndersample. Dabei geht es um die Frage, an welchen Faktoren sich staatliche Entscheidungstr{\"a}ger orientieren, wenn sie umverteilende Maßnahmen durchf{\"u}hren. Die Meltzer-Richard-Hypothese kann empirisch best{\"a}tigt werden, wobei der Einfluss abh{\"a}ngig vom Entwicklungsstand der L{\"a}nder ist. In reichen Nationen mit ausgepr{\"a}gten politischen Rechten ist der Zusammenhang zwischen Ungleichheit und Umverteilung sehr robust, wohingegen dies f{\"u}r {\"a}rmere L{\"a}nder mit weniger entwickelten politischen Rechten in weitaus geringerem Maße gilt. Dar{\"u}ber hinaus ist auch die Form der Einkommensverteilung entscheidend f{\"u}r die H{\"o}he der staatlichen Umverteilung. W{\"a}hrend die Mittelschicht ein Mehr an Umverteilungsmaßnahmen bef{\"u}rwortet, {\"u}ben Top-Einkommensbezieher ebenfalls einen signifikanten, jedoch negativen Einfluss auf die H{\"o}he der staatlichen Umverteilung aus. Niedrigeinkommensbezieher als eigentliche Hauptprofiteure von Umverteilungsmaßnahmen spielen hingegen keine zentrale Rolle im Entscheidungskalk{\"u}l der Politiker. Die Ergebnisse weisen zudem darauf hin, dass die H{\"o}he der gef{\"u}hlten Ungleichheit der Individuen f{\"u}r die Nachfrage nach Umverteilung wichtiger ist als die tats{\"a}chliche H{\"o}he der Ungleichheit. Im n{\"a}chsten Kapitel wird der im vorangegangenen Kapitel aufgestellte Untersuchungsrahmen um kulturelle Aspekte erweitert. Hintergrund ist der in den letzten Jahren zu beobachtende Anstieg von Migrationsstr{\"o}men und dessen m{\"o}gliche Auswirkungen auf die Sozialstaaten in den Aufnahmel{\"a}ndern. Dieses Kapitel analysiert die Auswirkungen von Kultur und ethnischer, religi{\"o}ser sowie kultureller Diversit{\"a}t auf die H{\"o}he der staatlichen Umverteilung f{\"u}r ein breites L{\"a}ndersample. Ausgangspunkt f{\"u}r die Messung von Kultur sind die Kulturdimensionen nach Hofstede, die um zus{\"a}tzliche kulturelle Indikatoren sowie verschiedene Maße von Diversit{\"a}t erweitert werden. Um kulturelle Charakteristika von institutionellen Gegebenheiten zu trennen, werden sowohl regionale als auch externe Instrumente verwendet. Die Ergebnisse deuten auf einen ambivalenten Einfluss von Kultur auf die H{\"o}he staatlicher Umverteilung. W{\"a}hrend in L{\"a}ndern mit einem hohen Maß an Individualismus und gegenseitigem Vertrauen sowie geringen famili{\"a}ren Bindungen mehr umverteilt wird, kann das Gegenteil f{\"u}r L{\"a}nder mit hoher Machtdistanz und der Vorstellung, dass pers{\"o}nlicher Erfolg das Ergebnis harter Arbeit ist, beobachtet werden. Die empirischen Befunde weisen zudem auf einen negativen, jedoch nicht-linearen Zusammenhang zwischen Umverteilung und Diversit{\"a}t.}, subject = {Globalisierung}, language = {en} } @phdthesis{Heidenreich2018, author = {Heidenreich, Julius Frederik}, title = {Characterization of the widely used Rac1-inhibitors NSC23766 and EHT1864 in mouse platelets}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-165453}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Platelet activation and aggregation at sites of vascular injury is critical to prevent excessive blood loss, but may also lead to life-threatening ischemic diseases, such as myocardial infarction and stroke. Extracellular agonists induce platelet activation by stimulation of platelet membrane receptors. Signal transduction results in reorganization of the cytoskeleton, shape change, platelet adhesion and aggregation, cumulating in thrombus formation. Several Rho GTPases, including Rac1, Cdc42 and RhoA, are essential mediators of subsequent intracellular transduction of ITAM- and GPCR-signaling. Therefore, inhibition or knockout can result in severely defective platelet signaling. Mice with platelet specific Rac1-deficiency are protected from arterial thrombosis. This benefit highlights further investigation of Rac1-specific functions and its potential as a new pharmacological target for prevention of cardiovascular diseases. Two newly developed synthetic compounds, NSC23766 and EHT1864, were proposed to provide highly specific inhibition of Rac1 activity, but both drugs have never been tested in Rac1-deficient cell systems to rule out potential Rac1-independent effects. This study revealed significant off-target effects of NSC23766 and EHT1864 that occurred in a dose-dependent fashion in both wild-type and Rac1-deficient platelets. Both inhibitors individually affected resting platelets after treatment, either by altering membrane protein expression (NSC23766) or by a marked decrease of platelet viability (EHT1864). Platelet apoptosis could be confirmed by enhanced levels of phosphatidylserine exposure and decreased mitochondrial membrane potential. Phosphorylation studies of the major effector proteins of Rac1 revealed that NSC23766 and EHT1864 abolish PAK1/PAK2 activation independently of Rac1 in wild-type and knockout platelets, which may contribute to the observed off-target effects. Additionally, this study demonstrated the involvement of Rac1 in G protein-coupled receptor-mediated platelet activation and GPIb-induced signaling. Furthermore, the data revealed that Rac1 is dispensable in the process of integrin IIb 3-mediated clot retraction. This study unveiled that new pharmacological approaches in antithrombotic therapy with Rac1 as molecular target have to be designed carefully in order to obtain high specificity and minimize potential off-target effects.}, subject = {Thrombozyt}, language = {en} } @phdthesis{Razinskas2018, author = {Razinskas, Gary}, title = {Functional plasmonic nanocircuitry}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-166917}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {In this work, functional plasmonic nanocircuitry is examined as a key of revolutionizing state-of-the-art electronic and photonic circuitry in terms of integration density and transmission bandwidth. In this context, numerical simulations enable the design of dedicated devices, which allow fundamental control of photon flow at the nanometer scale via single or multiple plasmonic eigenmodes. The deterministic synthesis and in situ analysis of these eigenmodes is demonstrated and constitutes an indispensable requirement for the practical use of any device. By exploiting the existence of multiple eigenmodes and coherence - both not accessible in classical electronics - a nanoscale directional coupler for the ultrafast spatial and spatiotemporal coherent control of plasmon propagation is conceived. Future widespread application of plasmonic nanocircuitry in quantum technologies is boosted by the promising demonstrations of spin-optical and quantum plasmonic nanocircuitry.}, subject = {Nanooptik}, language = {en} } @phdthesis{Auerhammer2018, author = {Auerhammer, Nina A.}, title = {Energy Transfer and Excitonic Interactions in Conjugated Chromophore Arrangements of Bodipys and Pyrenes and Squaraines}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-166721}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {In this work the energy transfer and excitonic coupling in different chromophore arrangements were investigated. A difference in the coupling strength was introduced by varring the connecting unit and the spacial orientation relative to each other. The synthesis of the 2,7-substituted pyrene compounds could be optimised and good yields of HAB 1 and HAB 2 and small amounts of HAB 2 could be achieved by cobalt-catalysed trimerisation or Diels Alder reaction in the end. Absorption and fluorescence spectra reveal strong intramolecular interactions between the pyrene molecules in the HAB 1. Excitation spectra recorded at the high and low energy fluorescence suggest the contribution of two components to the spectra. One being similar to the ground state aggregate and a second species similar to undisturbed pyrene. All these feature can be accounted to two different fluorescent states which are due to electronical decoupling in the excited state. Due to the strong intramolecular coupling already in the ground state of the molecule, no energy transfer could be studied, as the six pyrene units cannot be seen as separate spectroscopic entities between which energy could be transferred. In the second part of this thesis dye conjugates of different size and alignment were synthesised to study the interaction of the transition-dipole moments. Therefore a systematic investigation of Sonogashira conditions was performed in order to obtain good yields of the desired compounds and keep dehalogenation at a minimum level. Nevertheless only the symmetrical triads could be purified as the asymmeric triads and pentades proved to decompose during purification. The pyrene containing triads Py2B and Py2SQB show small interactions already in the ground state represented by red shifts of the spectra and a broadening of the bands. Nevertheless, these interactions are in the weak coupling regime and energy transfer between the constituents is possible. On the contrary in the TA spectra it is obvious that always the whole triad, at least to some extend is excited. To question if the excitation of the high energy state is deactivated by energy transfer or rather IC in a superchromophore could not be distinguished in the course of this work. At present additional time-dependent calculations of the dynamics are in progress to get a deeper understanding of the photophysical processes taking place in the triads. The dye conjugates B2SQB-3 and (SQB)2B-4 can be assigned to the strong interaction range and hence are describable by exciton theory. The transition-dipole moments proved to be more than additive and increase for both compounds from absorption to fluorescence. This can be explained by an enhancement of the coupling in the relaxed excited state compared to the absorption into the Franck-Condon state due to a more steep potential energy surface in the excited state and hence smaller fluctuations. In the last part of this thesis the influence of disrupting electronical communication by implementing a rigid non-conjugated bridge in a bichromophoric trans-squaraine system was tested. While the flexible linked squaraines show complex spectra due to different conformers the SQA2Anth compound is rigified and no rotation is possible. This change in flexibility is represented in the steady-state spectra where just one main absorption and fluorescence band is present due to a single allowed excitonic state. The system proves to own an excited state that is completely delocalised over the whole molecule.}, subject = {Chromophor}, language = {en} } @phdthesis{Halboth2018, author = {Halboth, Florian}, title = {Building behavior and nest climate control in leaf-cutting ants: How environmental cues affect the building responses of workers of \(Atta\) \(vollenweideri\)}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-161701}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {The present work investigates the influence of environmental stimuli on the building behavior of workers of the leaf-cutting ant Atta vollenweideri. It focuses on cues related to the airflow-driven ventilation of their giant underground nests, i.e., air movements and their direction, carbon dioxide concentrations and humidity levels of the nest air. First, it is shown that workers are able to use airflow and its direction as learned orientation cue by performing learning experiments with individual foragers using a classical conditioning paradigm. This ability is expected to allow workers to also navigate inside the nest tunnels using the prevailing airflow directions for orientation, for example during tasks related to nest construction and climate control. Furthermore, the influence of carbon dioxide on the digging behavior of workers is investigated. While elevated CO2 levels hardly affect the digging rate of the ants, workers prefer to excavate at locations with lower concentrations and avoid higher CO2 levels when given a choice. Under natural conditions, shifting their digging activity to soil layers containing lower carbon dioxide levels might help colonies to excavate new or to broaden existing nest openings, if the CO2 concentration in the underground rises. It is also shown that workers preferably transport excavated soil along tunnels containing high CO2 concentrations, when carbon dioxide levels in the underground are elevated as well. In addition, workers prefer to carry soil pellets along outflow tunnels instead of inflow tunnels, at least for high humidity levels of the air. The material transported along tunnels providing outflow of CO2-rich air might be used by workers for the construction of ventilation turrets on top of the nest mound, which is expected to promote the wind-induced ventilation and the removal of carbon dioxide from the underground. The climatic conditions inside the nest tunnels also influence the structural features of the turrets constructed by workers on top the nest. While airflow and humidity have no effect on turret structure, outflow of CO2-rich air from the nest causes workers to construct turrets with additional openings and increased aperture, potentially enhancing the airflow-driven gas exchanges within the nest. Finally, the effect of airflow and ventilation turrets on the gas exchanges in Atta vollenweideri nests is tested experimentally on a physical model of a small nest consisting of a single chamber and two nest tunnels. The carbon dioxide clearance rate from the underground was measured depending on both the presence of airflow in the nest and the structural features of the built turrets. Carbon dioxide is removed faster from the physical nest model when air moves through the nest, confirming the contribution of wind-induced flow inside the nest tunnels to the ventilation of Atta vollenweideri nests. In addition, turrets placed on top of one of the tunnel openings of the nest further enhance the CO2 clearance rate and the effect is positively correlated with turret aperture. Taken together, climatic variables like airflow, carbon dioxide and humidity levels strongly affect the building responses of Atta vollenweideri leaf-cutting ants. Workers use these environmental stimuli as orientation cue in the nest during tasks related to excavation, soil transport and turret construction. Although the effects of these building responses on the microclimatic conditions inside the nest remain elusive so far, the described behaviors are expected to allow ant colonies to restore and maintain a proper nest climate in the underground.}, subject = {Verhalten}, language = {en} } @phdthesis{Bischler2018, author = {Bischler, Thorsten David}, title = {Data mining and software development for RNA-seq-based approaches in bacteria}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-166108}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {RNA sequencing (RNA-seq) has in recent years become the preferred method for gene expression analysis and whole transcriptome annotation. While initial RNA-seq experiments focused on eukaryotic messenger RNAs (mRNAs), which can be purified from the cellular ribonucleic acid (RNA) pool with relative ease, more advanced protocols had to be developed for sequencing of microbial transcriptomes. The resulting RNA-seq data revealed an unexpected complexity of bacterial transcriptomes and the requirement for specific analysis methods, which in many cases is not covered by tools developed for processing of eukaryotic data. The aim of this thesis was the development and application of specific data analysis methods for different RNA-seq-based approaches used to gain insights into transcription and gene regulatory processes in prokaryotes. The differential RNA sequencing (dRNA-seq) approach allows for transcriptional start site (TSS) annotation by differentiating between primary transcripts with a 5'-triphosphate (5'-PPP) and processed transcripts with a 5'-monophosphate (5'-P). This method was applied in combination with an automated TSS annotation tool to generate global trancriptome maps for Escherichia coli (E. coli) and Helicobacter pylori (H. pylori). In the E. coli study we conducted different downstream analyses to gain a deeper understanding of the nature and properties of transcripts in our TSS map. Here, we focused especially on putative antisense RNAs (asRNAs), an RNA class transcribed from the opposite strand of known protein-coding genes with the potential to regulate corresponding sense transcripts. Besides providing a set of putative asRNAs and experimental validation of candidates via Northern analysis, we analyzed and discussed different sources of variation in RNA-seq data. The aim of the H. pylori study was to provide a detailed description of the dRNA-seq approach and its application to a bacterial model organism. It includes information on experimental protocols and requirements for data analysis to generate a genome-wide TSS map. We show how the included TSS can be used to identify and analyze transcriptome and regulatory features and discuss challenges in terms oflibrary preparation protocols, sequencing platforms, and data analysis including manual and automated TSS annotation. The TSS maps and associated transcriptome data from both H. pylori and E. coli were made available for visualization in an easily accessible online browser. Furthermore, a modified version of dRNA-seq was used to identify transcriptome targets of the RNA pyrophosphohydrolase (RppH) in H. pylori. RppH initiates 5'-end-dependent degradation of transcripts by converting the 5'-PPP of primary transcripts to a 5'-P. I developed an analysis method, which uses data from complementary DNA (cDNA) libraries specific for transcripts carrying a 5'-PPP, 5'-P or both, to specifically identify transcripts modified by RppH. For this, the method assessed the 5'-phosphorylation state and cellular concentration of transcripts in rppH deletion in comparison to strains with the intact gene. Several of the identified potential RppH targets were further validated via half-life measurements and quantification of their 5'-phosphorylation state in wild-type and mutant cells. Our findings suggest an important role for RppH in post-transcriptional gene regulationin H. pylori and related organisms. In addition, we applied two RNA-seq -based approaches, RNA immunoprecipitation followed by sequencing (RIP-seq) and cross-linking immunoprecipitation followed by sequencing (CLIP-seq), to identify transcripts bound by Hfq and CsrA, two RNA-binding proteins (RBPs) with an important role in post-transcriptional regulation. For RIP-seq -based identification of CsrA binding regions in Campylobacter jejuni(C. jejuni), we used annotation-based analysis and, in addition, a self-developed peak calling method based on a sliding window approach. Both methods revealed flaA mRNA, encoding the major flagellin, as the main target and functional analysis of identified targets showed a significant enrichment of genes involved in flagella biosynthesis. Further experimental analysis revealed the role of flaA mRNA in post-transcriptional regulation. In comparison to RIP-seq, CLIP-seq allows mapping of RBP binding sites with a higher resolution. To identify these sites an approach called "block-based peak calling" was developed and resulting peaks were used to identify sequence and structural constraints required for interaction of Hfq and CsrA with Salmonella transcripts. Overall, the different RNA-seq-based approaches described in this thesis together with their associated analyis pipelines extended our knowledge on the transcriptional repertoire and modes of post-transcriptional regulation in bacteria. The global TSS maps, including further characterized asRNA candidates, putative RppH targets, and identified RBP interactomes will likely trigger similar global studies in the same or different organisms or will be used as a resource for closer examination of these features.}, subject = {Bakterien}, language = {en} } @phdthesis{MielichSuess2018, author = {Mielich-S{\"u}ß, Benjamin}, title = {Elucidating structural and functional aspects of prokaryotic membrane microdomains}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-162037}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Bacterial functional membrane microdomains (FMMs) are membrane platforms that resemble lipid rafts of eukaryotic cells in certain functional and structural aspects. Lipid rafts are nanometer-sized, dynamic clusters of proteins and lipids in eukaryotic cell membranes that serve as signaling hubs and assembling platforms. Yet, studying these structures can often be hampered by the complexity of a eukaryotic cell. Thus, the analogous structures of prokaryotes are an attractive model to study molecular traits of this type of membrane organization. Similar to eukaryotic lipid rafts, the bacterial FMMs are comprised of polyisoprenoid lipids, scaffold proteins and a distinct set of membrane proteins, involved in signaling or secretion. Investigating bacterial FMMs not only contributes to the understanding of the physiological importance of FMMs in bacteria, but also helps to elucidate general principles of rafts beyond prokaryotes. In this work, a bacterial model organism was used to investigate effects of synthetic overproduction of the raft scaffolding proteins on bacterial physiology. This overexpression causes an unusual stabilization of the FMM-harbored protease FtsH and therefore the proteolytic targets of FtsH are not correctly regulated. Developmental defects and aberrances in shape are the consequence, which in turn negatively affects cell physiology. These findings may be adapted to better understand lipid raft processes in humans, where flotillin upregulation is detected along with development of neurological diseases. Moreover, it was aimed at understanding the FMM-proteome of the human pathogen Staphylococcus aureus. An in-depth quantitative mass-spectrometry analysis reveals adaption of the protein cargo during different conditions, while maintaining a distinct set of core FMM proteins. As a case study, the assembly of the type VII secretion system was shown to be dependent on FMM integrity and more specifically on the activity of the FMM-scaffold flotillin. This secretion system is important for the virulence of this pathogen and its secretion efficiency can be targeted by small molecules that inhibit flotillin activity. This opens new venues for non-conventional antimicrobial compounds to treat staphylococcal infections.}, subject = {Staphylococcus aureus}, language = {en} } @phdthesis{Raab2018, author = {Raab, Annette}, title = {The role of Rgs2 in animal models of affective disorders}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-152550}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Anxiety and depressive disorders result from a complex interplay of genetic and environmental factors and are common mutual comorbidities. On the level of cellular signaling, regulator of G protein signaling 2 (Rgs2) has been implicated in human and rodent anxiety as well as rodent depression. Rgs2 negatively regulates G protein-coupled receptor (GPCR) signaling by acting as a GTPase accelerating protein towards the Gα subunit. The present study investigates, whether mice with a homozygous Rgs2 deletion (Rgs2-/-) show behavioral alterations as well as an increased susceptibility to stressful life events related to human anxiety and depressive disorders and tries to elucidate molecular underlying's of these changes. To this end, Rgs2-/- mice were characterized in an aversive-associative learning paradigm to evaluate learned fear as a model for the etiology of human anxiety disorders. Spatial learning and reward motivated spatial learning were evaluated to control for learning in non-aversive paradigms. Rgs2 deletion enhanced learning in all three paradigms, rendering increased learning upon deletion of Rgs2 not specific for aversive learning. These data support reports indicating increased long-term potentiation in Rgs2-/- mice and may predict treatment response to conditioning based behavior therapy in patients with polymorphisms associated with reduced RGS2 expression. Previous reports of increased innate anxiety were corroborated in three tests based on the approach-avoidance conflict. Interestingly, Rgs2-/- mice showed novelty-induced hypo-locomotion suggesting neophobia, which may translate to the clinical picture of agoraphobia in humans and reduced RGS2 expression in humans was associated with a higher incidence of panic disorder with agoraphobia. Depression-like behavior was more distinctive in female Rgs2-/- mice. Stress resilience, tested in an acute and a chronic stress paradigm, was also more distinctive in female Rgs2-/- mice, suggesting Rgs2 to contribute to sex specific effects of anxiety disorders and depression. Rgs2 deletion was associated with GPCR expression changes of the adrenergic, serotonergic, dopaminergic and neuropeptide Y systems in the brain and heart as well as reduced monoaminergic neurotransmitter levels. Furthermore, the expression of two stress-related microRNAs was increased upon Rgs2 deletion. The aversive-associative learning paradigm induced a dynamic Rgs2 expression change. The observed molecular changes may contribute to the anxious and depressed phenotype as well as promote altered stress reactivity, while reflecting an alter basal stress level and a disrupted sympathetic tone. Dynamic Rgs2 expression may mediate changes in GPCR signaling duration during memory formation. Taken together, Rgs2 deletion promotes increased anxiety-like and depression-like behavior, altered stress reactivity as well as increased cognitive function.}, subject = {Angst}, language = {en} } @phdthesis{Langhammer2018, author = {Langhammer, Romy}, title = {Metabolomic Imaging for Human Prostate Cancer Detection using MR Spectroscopy at 7T}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-165772}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {BACKGROUND. Prostate cancer (PCa) remains a major health concern in men of the Western World. However, we still lack effective diagnostic tools a) for an effective screening with both high sensitivity and specificity, b) to guide biopsies and avoid histology sampling errors and c) to predict tumor aggressiveness in order to avoid overtreatment. Therefore, a more reliable, highly cancer-specific and ideally in vivo approach is needed. The present study has been designed in order to further develop and test the method of "metabolomic imaging" using magnetic resonance spectroscopy (MRS) at 7T to address those challenges. METHODS. Thirty whole prostates with biopsy-proven PCa were in vitro analyzed with a 7T human MR scanner. A voxel grid containing the spectral information was overlaid with the MR image of the middle transverse cross-sectional plane of each case. Subsequent histopathological evaluation of the prostate specimen followed. After the spectral output was processed, all voxels were compared with a metabolomic PCa profile, which had been established within a preliminary study, in order to create a metabolomic map indicating MRS cancer-suspicious regions. Those regions were compared with the histologically identified tumor lesions regarding location. RESULTS. Sixty-one percent of the histological cancer lesions were detected by metabolomic imaging. Among the cases with PCa on the examined slice, 75\% were identified as cancerous. None of the tested features significantly differed between detected and undetected cancer lesions. A defined "Malignancy Index" (MI) significantly differentiated between MRS-suspicious lesions corresponding with a histological cancer lesion and benign lesions (p = 0.006) with an overall accuracy of 70\%. The MI furthermore showed a positive correlation with the Gleason grade (p = 0.021). CONCLUSION. A new approach within PCa diagnostics was developed with spectral analysis including the whole measureable metabolome - referred to as "metabolomics" - rather than focusing on single metabolites. The MI facilitates precise tumor detection and may additionally serve as a marker for tumor aggressiveness. Metabolomic imaging might contribute to a highly cancer-specific in vivo diagnostic protocol for PCa.}, subject = {Prostatakrebs}, language = {en} } @phdthesis{PradaSalcedo2018, author = {Prada Salcedo, Juan Pablo}, title = {Image Processing and other bioinformatic tools for Neurobiology}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-157721}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Neurobiology is widely supported by bioinformatics. Due to the big amount of data generated from the biological side a computational approach is required. This thesis presents four different cases of bioinformatic tools applied to the service of Neurobiology. The first two tools presented belong to the field of image processing. In the first case, we make use of an algorithm based on the wavelet transformation to assess calcium activity events in cultured neurons. We designed an open source tool to assist neurobiology researchers in the analysis of calcium imaging videos. Such analysis is usually done manually which is time consuming and highly subjective. Our tool speeds up the work and offers the possibility of an unbiased detection of the calcium events. Even more important is that our algorithm not only detects the neuron spiking activity but also local spontaneous activity which is normally discarded because it is considered irrelevant. We showed that this activity is determinant in the calcium dynamics in neurons and it is involved in important functions like signal modulation and memory and learning. The second project is a segmentation task. In our case we are interested in segmenting the neuron nuclei in electron microscopy images of c.elegans. Marking these structures is necessary in order to reconstruct the connectome of the organism. C.elegans is a great study case due to the simplicity of its nervous system (only 502 neurons). This worm, despite its simplicity has taught us a lot about neuronal mechanisms. There is still a lot of information we can extract from the c.elegans, therein lies the importance of reconstructing its connectome. There is a current version of the c.elegans connectome but it was done by hand and on a single subject which leaves a big room for errors. By automatizing the segmentation of the electron microscopy images we guarantee an unbiased approach and we will be able to verify the connectome on several subjects. For the third project we moved from image processing applications to biological modeling. Because of the high complexity of even small biological systems it is necessary to analyze them with the help of computational tools. The term in silico was coined to refer to such computational models of biological systems. We designed an in silico model of the TNF (Tumor necrosis factor) ligand and its two principal receptors. This biological system is of high relevance because it is involved in the inflammation process. Inflammation is of most importance as protection mechanism but it can also lead to complicated diseases (e.g. cancer). Chronic inflammation processes can be particularly dangerous in the brain. In order to better understand the dynamics that govern the TNF system we created a model using the BioNetGen language. This is a rule based language that allows one to simulate systems where multiple agents are governed by a single rule. Using our model we characterized the TNF system and hypothesized about the relation of the ligand with each of the two receptors. Our hypotheses can be later used to define drug targets in the system or possible treatments for chronic inflammation or lack of the inflammatory response. The final project deals with the protein folding problem. In our organism proteins are folded all the time, because only in their folded conformation are proteins capable of doing their job (with some very few exceptions). This folding process presents a great challenge for science because it has been shown to be an NP problem. NP means non deterministic Polynomial time problem. This basically means that this kind of problems cannot be efficiently solved. Nevertheless, somehow the body is capable of folding a protein in just milliseconds. This phenomenon puzzles not only biologists but also mathematicians. In mathematics NP problems have been studied for a long time and it is known that given the solution to one NP problem we could solve many of them (i.e. NP-complete problems). If we manage to understand how nature solves the protein folding problem then we might be able to apply this solution to many other problems. Our research intends to contribute to this discussion. Unfortunately, not to explain how nature solves the protein folding problem, but to explain that it does not solve the problem at all. This seems contradictory since I just mentioned that the body folds proteins all the time, but our hypothesis is that the organisms have learned to solve a simplified version of the NP problem. Nature does not solve the protein folding problem in its full complexity. It simply solves a small instance of the problem. An instance which is as simple as a convex optimization problem. We formulate the protein folding problem as an optimization problem to illustrate our claim and present some toy examples to illustrate the formulation. If our hypothesis is true, it means that protein folding is a simple problem. So we just need to understand and model the conditions of the vicinity inside the cell at the moment the folding process occurs. Once we understand this starting conformation and its influence in the folding process we will be able to design treatments for amyloid diseases such as Alzheimer's and Parkinson's. In summary this thesis project contributes to the neurobiology research field from four different fronts. Two are practical contributions with immediate benefits, such as the calcium imaging video analysis tool and the TNF in silico model. The neuron nuclei segmentation is a contribution for the near future. A step towards the full annotation of the c.elegans connectome and later for the reconstruction of the connectome of other species. And finally, the protein folding project is a first impulse to change the way we conceive the protein folding process in nature. We try to point future research in a novel direction, where the amino code is not the most relevant characteristic of the process but the conditions within the cell.}, subject = {Bildverarbeitung}, language = {en} } @phdthesis{Huegel2018, author = {H{\"u}gel, Markus}, title = {The control of nanomorphology in star-shaped mesogens}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-165321}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Stilbene-based star-shaped mesogens have been synthesized with and without fullerene guests. Thermotropic properties and the mechanism of space-filling in the mesophases of these systems have been examined.}, subject = {Fl{\"u}ssigkristall}, language = {en} } @phdthesis{Herbst2018, author = {Herbst, Nikolas Roman}, title = {Methods and Benchmarks for Auto-Scaling Mechanisms in Elastic Cloud Environments}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-164314}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {A key functionality of cloud systems are automated resource management mechanisms at the infrastructure level. As part of this, elastic scaling of allocated resources is realized by so-called auto-scalers that are supposed to match the current demand in a way that the performance remains stable while resources are efficiently used. The process of rating cloud infrastructure offerings in terms of the quality of their achieved elastic scaling remains undefined. Clear guidance for the selection and configuration of an auto-scaler for a given context is not available. Thus, existing operating solutions are optimized in a highly application specific way and usually kept undisclosed. The common state of practice is the use of simplistic threshold-based approaches. Due to their reactive nature they incur performance degradation during the minutes of provisioning delays. In the literature, a high-number of auto-scalers has been proposed trying to overcome the limitations of reactive mechanisms by employing proactive prediction methods. In this thesis, we identify potentials in automated cloud system resource management and its evaluation methodology. Specifically, we make the following contributions: We propose a descriptive load profile modeling framework together with automated model extraction from recorded traces to enable reproducible workload generation with realistic load intensity variations. The proposed Descartes Load Intensity Model (DLIM) with its Limbo framework provides key functionality to stress and benchmark resource management approaches in a representative and fair manner. We propose a set of intuitive metrics for quantifying timing, stability and accuracy aspects of elasticity. Based on these metrics, we propose a novel approach for benchmarking the elasticity of Infrastructure-as-a-Service (IaaS) cloud platforms independent of the performance exhibited by the provisioned underlying resources. We tackle the challenge of reducing the risk of relying on a single proactive auto-scaler by proposing a new self-aware auto-scaling mechanism, called Chameleon, combining multiple different proactive methods coupled with a reactive fallback mechanism. Chameleon employs on-demand, automated time series-based forecasting methods to predict the arriving load intensity in combination with run-time service demand estimation techniques to calculate the required resource consumption per work unit without the need for a detailed application instrumentation. It can also leverage application knowledge by solving product-form queueing networks used to derive optimized scaling actions. The Chameleon approach is first in resolving conflicts between reactive and proactive scaling decisions in an intelligent way. We are confident that the contributions of this thesis will have a long-term impact on the way cloud resource management approaches are assessed. While this could result in an improved quality of autonomic management algorithms, we see and discuss arising challenges for future research in cloud resource management and its assessment methods: The adoption of containerization on top of virtual machine instances introduces another level of indirection. As a result, the nesting of virtual resources increases resource fragmentation and causes unreliable provisioning delays. Furthermore, virtualized compute resources tend to become more and more inhomogeneous associated with various priorities and trade-offs. Due to DevOps practices, cloud hosted service updates are released with a higher frequency which impacts the dynamics in user behavior.}, subject = {Cloud Computing}, language = {en} } @phdthesis{Lorenz2018, author = {Lorenz, Viola}, title = {Cellular regulation of the hemITAM-coupled platelet receptor C-type lectin-like receptor 2 (CLEC-2): In vitro and in vivo studies in mice}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-116724}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Platelet aggregation at sites of vascular injury is essential to limit posttraumatic blood loss, but may also cause acute ischemic disease states such as myocardial infarction or stroke. Stable thrombus formation requires a series of molecular events involving platelet receptors and intracellular signal transduction, which contribute to adhesion, activation and aggregation of platelets. In this thesis, the cellular regulation of platelet surface receptors and their involvement in thrombus formation was investigated using genetically modified mice. In the first part of the study, the functional relevance of the immunoreceptor tyrosine-based activation motif (ITAM)-coupled collagen receptor GPVI and of the recently identified hemITAM-bearing C-type lectin-like receptor 2 (CLEC-2) for in vivo thrombus formation was analyzed. Megakaryocyte/ platelet-specific CLEC-2 knock out mice displayed a defective lymphatic development and were protected from occlusive arterial thrombus formation. These phenotypes were more pronounced in mice with a GPVI/CLEC-2 double deficiency. Hemostasis was not compromised in CLEC-2 or GPVI single-deficient animals, as they showed only mildly prolonged tail bleeding times. Combined depletion of both receptors resulted in markedly prolonged bleeding times revealing an unexpected redundant function of the two receptors in hemostasis as well as thrombosis. These findings might have important implications for the development of anti-CLEC-2/ anti-GPVI agents as therapeutics. In the second part, mechanisms underlying the cellular regulation of CLEC-2 were studied. Previous studies have shown that injection of the anti-CLEC-2 antibody INU1 results in complete immunodepletion of platelet CLEC-2 in mice, which is preceded by a severe transient thrombocytopenia thereby limiting its potential therapeutic use. It is demonstrated that INU1-induced CLEC-2 immunodepletion occurs through Src family kinase (SFK)-dependent receptor internalization in vitro and in vivo, presumably followed by intracellular degradation. In mice with spleen tyrosine kinase (Syk) deficiency, INU1-induced CLEC-2 internalization/ degradation was fully preserved, whereas the associated thrombocytopenia was largely prevented. These results show that CLEC-2 can be downregulated from the platelet surface through internalization in vitro and in vivo and that this can be mechanistically uncoupled from the associated antibody-induced thrombocytopenia. Since INU1 IgG induced a pronounced thrombocytopenia, the in vivo effects of monovalent INU1 F(ab) fragments were analyzed. Very unexpectedly, injection of the F(ab) fragments resulted in widespread thrombus formation leading to persistent neurological deficits of the animals. This intravascular thrombus formation is the result of CLEC-2-dependent platelet activation and aggregation. The mechanism underlying the thrombus formation is still unknown and depends potentially on binding of a yet unidentified ligand to F(ab)-opsonized CLEC-2 on platelets.}, subject = {Thrombozytenaggregation}, language = {en} } @phdthesis{Paul2018, author = {Paul, Ursula Sofia D{\´e}sir{\´e}e}, title = {Studies on the Reactivity of Iridium Bis(phosphinite) Pincer Complexes towards Phosphines, Boranes and their Lewis Adducts and on the Reactivity of Cyclic (Alkyl)(Amino) Carbenes and Nickel Complexes thereof}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-151963}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {The first part of the present work provides an insight into the chemistry of iridium complexes bearing the bis(phosphinite) pincer ligand tBuPOCOP (k3-C6H3-1,3-(OPtBu2)2) towards primary boranes and phosphines as well as phosphine-borane Lewis adducts. It furthermore encloses some more detailed studies on their application as catalyst for the dehydrogenative coupling of the latter compounds. The results presented herein can be divided into three sections: I. synthesis and characterization of aryl dihydroborate ligated iridium(III) complexes II. and aryl phosphine coordinated iridium(I) and dihydrido iridium(III) complexes, III. as well as studies on the reactivity of the parent iridium pincer complexes towards BH3 adducts of primary phosphines, which led to first results in the homogeneous catalytic dehydrocoupling of P-aryl substituted phosphine boranes mediated by such iridium pincer complexes. The second part of the present work provides an insight into the chemistry of cyclic (alkyl)(amino) carbene-stabilized nickel complexes as well as it encloses some more detailed studies on the properties and reactivity of the free carbenes itself. The results presented herein can be divided into four sections: I. synthesis and characterization of cyclic (alkyl)(amino) carbene-stabilized nickel carbonyl complexes, II. which allow the evaluation and quantification of the steric and electronic properties of these cyclic (alkyl)(amino) carbenes, III. first studies on the reactivity of these novel nickel complexes, and IV. investigations on C-F and C-H bond activation at the carbene center of cyclic (alkyl)(amino) carbenes.}, subject = {Iridiumkomplexe}, language = {en} } @phdthesis{Knauer2018, author = {Knauer, Kim}, title = {Vegetation Dynamics in West Africa - Spatio-temporal Data Fusion for the Monitoring of Agricultural Expansion}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-164776}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {West Africa is one of the fastest growing regions in the world with annual population growth rates of more than three percent for several countries. Since the 1950s, West Africa experienced a fivefold increase of inhabitants, from 71 to 353 million people in 2015 and it is expected that the region's population will continue to grow to almost 800 million people by the year 2050. This strong trend has and will have serious consequences for food security since agricultural productivity is still on a comparatively low level in most countries of West Africa. In order to compensate for this low productivity, an expansion of agricultural areas is rapidly progressing. The mapping and monitoring of agricultural areas in West Africa is a difficult task even on the basis of remote sensing. The small scale extensive farming practices with a low level of agricultural inputs and mechanization make the delineation of cultivated land from other land cover and land use (LULC) types highly challenging. In addition, the frequent cloud coverage in the region considerably decreases the availability of earth observation datasets. For the accurate mapping of agricultural area in West Africa, high temporal as well as spatial resolution is necessary to delineate the small-sized fields and to obtain data from periods where different LULC types are distinguishable. However, such consistent time series are currently not available for West Africa. Thus, a spatio-temporal data fusion framework was developed in this thesis for the generation of high spatial and temporal resolution time series. Data fusion algorithms such as the Enhanced Spatial and Temporal Adaptive Reflectance Fusion Model (ESTARFM) enjoyed increasing popularity during recent years but they have hardly been used for the application on larger scales. In order to make it applicable for this purpose and to increase the input data availability, especially in cloud-prone areas such as West Africa, the ESTARFM framework was developed in this thesis introducing several enhancements. An automatic filling of cloud gaps was included in the framework in order to use even partly cloud-covered Landsat images for the fusion without producing gaps on the output images. In addition, the ESTARFM algorithm was improved to automatically account for regional differences in the heterogeneity of the study region. Further improvements comprise the automation of the time series generation as well as the significant acceleration of the processing speed through parallelization. The performance of the developed ESTARFM framework was tested by fusing an 8-day NDVI time series from Landsat and MODIS data for a focus area of 98,000 km² in the border region between Burkina Faso and Ghana. The results of this test show the capability of the ESTARFM framework to accurately produce high temporal resolution time series while maintaining the spatial detail, even in such a heterogeneous and cloud-prone region. The successfully tested framework was subsequently applied to generate consistent time series as the basis for the mapping of agricultural area in Burkina Faso for the years 2001, 2007, and 2014. In a first step, high temporal (8-day) and high spatial (30 m) resolution NDVI time series for the entire country and the three years were derived with the ESTARFM framework. More than 500 Landsat scenes and 3000 MODIS scenes were automatically processed for this purpose. From the fused ESTARFM NDVI time series, phenological metrics were extracted and together with the single time steps of NDVI served as input for the delineation of rainfed agricultural areas, irrigated agricultural areas and plantations. The classification was conducted with the random forest algorithm at a 30 m spatial resolution for entire Burkina Faso and the three years 2001, 2007, and 2014. For the training and validation of the classifier, a randomly sampled reference dataset was generated from Google Earth images based on expert knowledge of the region. The overall classification accuracies of 92\% (2001), 91\% (2007), and 91\% (2014) indicate the well-functioning of the developed methodology. The resulting maps show an expansion of agricultural area of 91\% from about 61,000 km² in 2001 to 116,900 km² in 2014. While rainfed agricultural areas account for the major part of this increase, irrigated areas and plantations also spread considerably. Especially the expansion of irrigation systems and plantation area can be explained by the promotion through various national and international development projects. The increase of agricultural areas goes in line with the rapid population growth in most of Burkina Faso's provinces which still had available land resources for an expansion of agricultural area. An analysis of the development of agricultural areas in the vicinity of protected areas highlighted the increased human pressure on these reserves. The protection of the remnant habitats for flora and fauna while at the same time improving food security for a rapidly growing population, are the major challenges for the region in the future. The developed ESTARFM framework showed great potential beyond its utilization for the mapping of agricultural area. Other large-scale research that requires a sufficiently high temporal and spatial resolution such as the monitoring of land degradation or the investigation of land surface phenology could greatly benefit from the application of this framework.}, subject = {Fernerkundung}, language = {en} } @phdthesis{Pirner2018, author = {Pirner, Marlies}, title = {Kinetic modelling of gas mixtures}, edition = {1. Auflage}, publisher = {W{\"u}rzburg University Press}, address = {W{\"u}rzburg}, isbn = {978-3-95826-080-1 (Print)}, doi = {10.25972/WUP-978-3-95826-081-8}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-161077}, school = {W{\"u}rzburg University Press}, pages = {xi, 222}, year = {2018}, abstract = {This book deals with the kinetic modelling of gas mixtures. It extends the existing literature in mathematics for one species of gas to the case of gasmixtures. This is more realistic in applications. Thepresentedmodel for gas mixtures is proven to be consistentmeaning it satisfies theconservation laws, it admitsanentropy and an equilibriumstate. Furthermore, we can guarantee the existence, uniqueness and positivity of solutions. Moreover, the model is used for different applications, for example inplasma physics, for fluids with a small deviation from equilibrium and in the case of polyatomic gases.}, subject = {Polyatomare Verbindungen}, language = {en} } @phdthesis{Pedrotti2018, author = {Pedrotti, Lorenzo}, title = {The SnRK1-C/S1-bZIPs network: a signaling hub in Arabidopsis energy metabolism regulation}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-116080}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {The control of energy homeostasis is of pivotal importance for all living organisms. In the last years emerged the idea that many stress responses that are apparently unrelated, are actually united by a common increase of the cellular energy demand. Therefore, the so called energy signaling is activated by many kind of stresses and is responsible for the activation of the general stress response. In Arabidopsis thaliana the protein family SnF1- related protein kinases (SnRK1) is involved in the regulation of many physiological processes but is more known for its involvement in the regulation of the energy homeostasis in response to various stresses. To the SnRK1 protein family belong SnRK1.1 (also known as KIN10), SnRK1.2 (KIN11), and SnRK1.3 (KIN12). SnRK1 exerts its function regulating directly the activity of metabolic enzymes or those of key transcription factors (TFs). The only TFs regulated by SnRK1 identified so far is the basic leucine zipper (bZIP) 63. bZIP63 belongs to the C group of bZIPs (C-bZIPs) protein family together with bZIP9, bZIP10, and bZIP25. SnRK1.1 phosphorylates bZIP63 on three amino acids residues, serine (S) 29, S294, and S300. The phosphorylation of tbZIP63 is strongly related to the energy status of the plant, shifting from almost absent during the normal growth to strongly phosphorylated when the plant is exposed to extended dark. bZIPs normally bind the DNA as dimer in order to regulate the expression of their target genes. C-bZIPs preferentially form dimers with S1-bZIPs, constituting the so called C/S1- bZIPs network. The SnRk1 dependent phosphorylation of bZIP63 regulates its activation potential and its dimerization properties. In particular bZIP63 shift its dimerization preferences according to its phosphorylation status. The non-phosphorylated form of bZIP63 dimerize bZIP1, the phosphorylates ones, instead, forms dimer with bZIP1, bZIP11, and bZIP63 its self. Together with bZIP63, S1-bZIPs are important mediator of part of the huge transcriptional reprogramming induced by SnRK1 in response to extended dark. S1-bZIPs regulate, indeed, the expression of 4'000 of the 10'000 SnRK1-regulated genes in response to energy deprivation. In particular S1-bZIPs are very important for the regulation of many genes encoding for enzymes involved in the amino acid metabolism and for their use as alternative energy source. After the exposition for some hours to extended dark, indeed, the plant make use of every energy substrate and amino acids are considered an important energy source together with lipids and proteins. Interestingly, S1- bZIPs regulate the expression of ETFQO. ETFQO is a unique protein that convoglia the electrons provenienti from the branch chain amino acids catabolism into the mitochondrial electron transport chain. The dimer formed between bZIP63 and bZIP2 recruits SnRK1.1 directly on the chromatin of ETFQO promoter. The recruitment of SnRK1 on ETFQO promoter is associated with its acetylation on the lysine 14 of the histone protein 3 (K14H3). This chromatin modification is normally asociated with an euchromatic status of the DNA and therefore with its transcriptional activation. Beside the particular case of the regulation of ETFQO gene, S1-bZIPs are involved in the regulation of many other genes activated in response of different stresses. bZIP1 is for example an important mediator of the salt stress response. In particular bZIP1 regulates the primary C- and N-metabolism. The expression of bZIP1, in response of both salt ans energy stress seems to be regulated by SnRK1, as it is the expression of bZIP53 and bZIP63. Beside its involvement in the regulation of the energy stress response and salt response, SnRK1 is the primary activators of the lipids metabolism during see germination. SnRK1, indeed, controls the expression of CALEOSINs and OLEOSINs. Those proteins are very important for lipids remobilization from oil droplets. Without their expression seed germination and subsequent establishment do not take place because of the absence of fuel to sustain these highly energy costly processes, which entirely depend on the catabolism of seed storages.}, subject = {Ackerschmalwand}, language = {en} } @phdthesis{Koenig2018, author = {K{\"o}nig, Julia Maria}, title = {Fungal grass endophytes and their dependence on land-use intensity}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-163890}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Plant-associated fungi can affect the plants' interaction with herbivores and other microorganisms. For example, many common forage grasses are infected with Epichlo{\"e} endophytes. The endophytes systemically colonize the aerial parts of the plants. They produce bioprotective alkaloids that can negatively affect insects and livestock feeding on the grasses, and interact with other fungal species which living from the plants' nutrients. Environmental conditions strongly influence Epichlo{\"e} endophytes. Endophyte-mediated effects on herbivores are more pronounced under increased temperatures and the endophytes may benefit from land use in managed grasslands. Under the framework of the large-scale German project "Biodiversity Exploratories", I investigated whether infection rates and alkaloid concentrations of Epichlo{\"e} festucae var. lolii in Lolium perenne (Chapter I) and Epichlo{\"e} endophytes (E. uncinata, E. siegelii) in Festuca pratensis (Chapter II) depend on land use and season. Further I analysed, whether foliar fungal assemblages of L. perenne are affected by the presence of Epichlo{\"e} endophytes (Chapter IV).}, subject = {Endophytische Pilze}, language = {en} } @phdthesis{Koch2018, author = {Koch, Rainer}, title = {Sensor Fusion for Precise Mapping of Transparent and Specular Reflective Objects}, isbn = {978-3-945459-25-6}, doi = {10.25972/OPUS-16346}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-163462}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Almost once a week broadcasts about earthquakes, hurricanes, tsunamis, or forest fires are filling the news. While oneself feels it is hard to watch such news, it is even harder for rescue troops to enter such areas. They need some skills to get a quick overview of the devastated area and find victims. Time is ticking, since the chance for survival shrinks the longer it takes till help is available. To coordinate the teams efficiently, all information needs to be collected at the command center. Therefore, teams investigate the destroyed houses and hollow spaces for victims. Doing so, they never can be sure that the building will not fully collapse while they are inside. Here, rescue robots are welcome helpers, as they are replaceable and make work more secure. Unfortunately, rescue robots are not usable off-the-shelf, yet. There is no doubt, that such a robot has to fulfil essential requirements to successfully accomplish a rescue mission. Apart from the mechanical requirements it has to be able to build a 3D map of the environment. This is essential to navigate through rough terrain and fulfil manipulation tasks (e.g. open doors). To build a map and gather environmental information, robots are equipped with multiple sensors. Since laser scanners produce precise measurements and support a wide scanning range, they are common visual sensors utilized for mapping. Unfortunately, they produce erroneous measurements when scanning transparent (e.g. glass, transparent plastic) or specular reflective objects (e.g. mirror, shiny metal). It is understood that such objects can be everywhere and a pre-manipulation to prevent their influences is impossible. Using additional sensors also bear risks. The problem is that these objects are occasionally visible, based on the incident angle of the laser beam, the surface, and the type of object. Hence, for transparent objects, measurements might result from the object surface or objects behind it. For specular reflective objects, measurements might result from the object surface or a mirrored object. These mirrored objects are illustrated behind the surface which is wrong. To obtain a precise map, the surfaces need to be recognised and mapped reliably. Otherwise, the robot navigates into it and crashes. Further, points behind the surface should be identified and treated based on the object type. Points behind a transparent surface should remain as they represent real objects. In contrast, Points behind a specular reflective surface should be erased. To do so, the object type needs to be classified. Unfortunately, none of the current approaches is capable to fulfil these requirements. Therefore, the following thesis addresses this problem to detect transparent and specular reflective objects and to identify their influences. To give the reader a start up, the first chapters describe: the theoretical background concerning propagation of light; sensor systems applied for range measurements; mapping approaches used in this work; and the state-of-the-art concerning detection and identification of transparent and specular reflective objects. Afterwards, the Reflection-Identification-Approach, which is the core of subject thesis is presented. It describes 2D and a 3D implementation to detect and classify such objects. Both are available as ROS-nodes. In the next chapter, various experiments demonstrate the applicability and reliability of these nodes. It proves that transparent and specular reflective objects can be detected and classified. Therefore, a Pre- and Post-Filter module is required in 2D. In 3D, classification is possible solely with the Pre-Filter. This is due to the higher amount of measurements. An example shows that an updatable mapping module allows the robot navigation to rely on refined maps. Otherwise, two individual maps are build which require a fusion afterwards. Finally, the last chapter summarizes the results and proposes suggestions for future work.}, subject = {laserscanner}, language = {en} } @phdthesis{Kropf2018, author = {Kropf, Jan}, title = {The Dual Olfactory Pathway in the Honeybee Brain: Sensory Supply and Electrophysiological Properties}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-108369}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {The olfactory sense is of utmost importance for honeybees, Apis mellifera. Honeybees use olfaction for communication within the hive, for the identification of nest mates and non-nest mates, the localization of food sources, and in case of drones (males), for the detection of the queen and mating. Honeybees, therefore, can serve as excellent model systems for an integrative analysis of an elaborated olfactory system. To efficiently filter odorants out of the air with their antennae, honeybees possess a multitude of sensilla that contain the olfactory sensory neurons (OSN). Three types of olfactory sensilla are known from honeybee worker antennae: Sensilla trichoidea, Sensilla basiconica and Sensilla placodea. In the sensilla, odorant receptors that are located in the dendritic arborizations of the OSNs transduce the odorant information into electrical information. Approximately 60.000 OSN axons project in two parallel bundles along the antenna into the brain. Before they enter the primary olfactory brain center, the antennal lobe (AL), they diverge into four distinct tracts (T1-T4). OSNs relay onto ~3.000-4.000 local interneurons (LN) and ~900 projection neurons (PN), the output neurons of the AL. The axons of the OSNs together with neurites from LNs and PNs form spheroidal neuropil units, the so-called glomeruli. OSN axons from the four AL input tracts (T1-T4) project into four glomerular clusters. LNs interconnect the AL glomeruli, whereas PNs relay the information to the next brain centers, the mushroom body (MB) - associated with sensory integration, learning and memory - and the lateral horn (LH). In honeybees, PNs project to the MBs and the LH via two separate tracts, the medial and the lateral antennal-lobe tract (m/lALT) which run in parallel in opposing directions. The mALT runs first to the MB and then to the LH, the lALT runs first to the LH and then to the MB. This dual olfactory pathway represents a feature unique to Hymenoptera. Interestingly, both tracts were shown to process information about similar sets of odorants by extracting different features. Individual mALT PNs are more odor specific than lALT PNs. On the other hand, lALT PNs have higher spontaneous and higher odor response action potential (AP) frequencies than mALT PNs. In the MBs, PNs form synapses with ~184.000 Kenyon cells (KC), which are the MB intrinsic neurons. KCs, in contrast to PNs, show almost no spontaneous activity and employ a spatially and temporally sparse code for odor coding. In manuscript I of my thesis, I investigated whether the differences in specificity of odor responses between m- and lALT are due to differences in the synaptic input. Therefore, I investigated the axonal projection patterns of OSNs housed in S. basiconica in honeybee workers and compared them with S. trichoidea and S. placodea using selective anterograde labeling with fluorescent tracers and confocal- microscopy analyses of axonal projections in AL glomeruli. Axons of S. basiconica-associated OSNs preferentially projected into the T3 input-tract cluster in the AL, whereas the two other types of sensilla did not show a preference for a specific glomerular cluster. T3- associated glomeruli had previously been shown to be innervated by mALT PNs. Interestingly, S. basiconica as well as a number of T3 glomeruli lack in drones. Therefore I set out to determine whether this was associated with the reduction of glomeruli innervated by mALT PNs. Retrograde tracing of mALT PNs in drones and counting of innervated glomeruli showed that the number of mALT-associated glomeruli was strongly reduced in drones compared to workers. The preferential projections of S. basiconica-associated OSNs into T3 glomeruli in female workers together with the reduction of mALT-associated glomeruli in drones support the presence of a female-specific olfactory subsystem that is partly innervated by OSNs from S. basiconica and is associated with mALT projection neurons. As mALT PNs were shown to be more odor specific, I suppose that already the OSNs in this subsystem are more odor specific than lALT associated OSNs. I conclude that this female-specific subsystem allows the worker honeybees to respond adequately to the enormous variety of odorants they experience during their lifetime. In manuscript II, I investigated the ion channel composition of mALT and lALT PNs and KCs in situ. This approach represents the first study dealing with the honeybee PN and KC ion channel composition under standard conditions in an intact brain preparation. With these recordings I set out to investigate the potential impact of intrinsic neuronal properties on the differences between m- and lALT PNs and on the sparse odor coding properties of KCs. In PNs, I identified a set of Na+ currents and diverse K+ currents depending on voltage and Na+ or Ca2+ that support relatively high spontaneous and odor response AP frequencies. This set of currents did not significantly differ between mALT and lALT PNs, but targets for potential modulation of currents leading to differences in AP frequencies were found between both types of PNs. In contrast to PNs, KCs have very prominent K+ currents, which are likely to contribute to the sparse response fashion observed in KCs. Furthermore, Ca2+ dependent K+ currents were found, which may be of importance for coincidence detection, learning and memory formation. Finally, I conclude that the differences in odor specificity between m- and lALT PNs are due to their synaptic input from different sets of OSNs and potential processing by LNs. The differences in spontaneous activity between the two tracts may be caused by different neuronal modulation or, in addition, also by interaction with LNs. The temporally sparse representation of odors in KCs is very likely based on the intrinsic KC properties, whereas general excitability and spatial sparseness are likely to be regulated through GABAergic feedback neurons.}, subject = {Voltage-Clamp-Methode}, language = {en} } @phdthesis{Collenburg2018, author = {Collenburg, Lena}, title = {The Role of Ceramides and Sphingomyelinases for Dynamic Membrane Processes in T Cells}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-151161}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Previous work of our group has established a role of sphingomyelinases in the regulation of T cell responses to TCR or pathogen stimulation, and this became particularly evident at the level of actin cytoskeletal dynamics. The formation of lipid membrane microdomains is crucial for receptor clustering and signal induction, and therefore, ceramide accumulation by membrane sphingomyelin breakdown is needed for signalling- complex-assembly. Pathogen-induced overshooting of SMase activation substantially impacted the formation of membrane protrusions, with T cell spreading as well as a front/rear polarisation upon CD3/CD28 co-stimulation [103]. On the other hand, NSM activation is part of the physiological TCR signal [67], indicating that a spatiotemporally balanced NSM activation is crucial for its physiological function. It involves actin cytoskeletal reorganisation and T cell polarisation. These two functions are also of central importance in directional T cell migration and motility in tissues. This thesis aims on defining the role of NSM in compartmentalisation of the T cell membrane in polarisation and migration. Therefore, functional studies on the impact of NSM activity in these processes had to be complemented by the development of tools to study ceramide compartmentalisation in living T cells.}, subject = {Ceramides}, language = {en} } @phdthesis{Bury2018, author = {Bury, Susanne}, title = {Molekularbiologische Untersuchungen der antagonistischen Effekte des probiotischen \(Escherichia\) \(coli\) Stamms Nissle 1917 auf Shiga-Toxin produzierende \(Escherichia\) \(coli\) St{\"a}mme}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-163401}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Shiga toxin produzierende E. coli (STEC) stellen mit einer Infektionsdosis von gerade einmal 100 Bakterien ein großes Risiko f{\"u}r unsere Gesundheit dar. Betroffene Patienten k{\"o}nnen milde Krankheitssymptome wie w{\"a}ssrigen Durchfall aufweisen, welcher sich allerdings zu blutigem Durchfall oder dem h{\"a}molytisch ur{\"a}mischen Syndrom (HUS) weiterentwickeln kann. Die Ursache f{\"u}r das Krankheitsbild ist das zytotoxische Protein Shiga-Toxin (Stx), welches von STEC St{\"a}mmen produziert wird, eukaryotischen Zellen angreift und den apoptotischen Zelltod induziert. Es konnte gezeigt werden, dass infizierte Patienten in ihrem Krankheitsverlauf stark variieren, was unter anderem auf die Zusammensetzung ihrer Mikrobiota zur{\"u}ckzuf{\"u}hren sein k{\"o}nnte. Diesbez{\"u}glich k{\"o}nnen zum Beispiel einige Bakterien bereits die Darmbesiedlung von STEC St{\"a}mmen unterbinden, wohingegen andere die Toxin Produktion der pathogenen St{\"a}mme beeinflussen und wieder andere von den stx tragenden Phagen infiziert werden k{\"o}nnen und daraufhin selbst zu Toxin produzierenden St{\"a}mmen werden. Da die genetischen Informationen f{\"u}r das Toxin auf einem Prophagen im Genom der STEC St{\"a}mme kodiert ist, f{\"u}hrt eine Antibiotika Behandlung von infizierten Patienten zwar zum Tod der Bakterien, hat allerdings auch einen Wechsel vom lysogenen zum lytischen Phagen Zyklus und damit einen enormen Anstieg an freigesetztem Stx zur Folge. In den letzten Jahrzehnten kam es immer wieder zu Epidemien mit STEC St{\"a}mmen, welche auch einige Todesopfer forderten. Die Behandlung von Patienten erfolgt auf Grund von mangelnden Behandlungsm{\"o}glichkeiten meist nur symptomatisch, weswegen neue Strategien f{\"u}r die Behandlung einer STEC Infektion dringend ben{\"o}tigt werden. Der probiotische E. coli Stamm Nissle 1917 (EcN) z{\"a}hlt bereits seit mehr als 100 Jahren als Medikament f{\"u}r Behandlungen von Darmentz{\"u}ndungen. In vitro und in vivo Studien mit dem probiotischen Stamm und STEC St{\"a}mmen konnten zeigen, dass EcN die Produktion von Stx unterdr{\"u}ckt und gleichzeitig die STEC Zellzahl reduziert. Diese Ergebnisse waren der Anlass f{\"u}r diese Studie in der die Auswirkungen von EcN auf STEC St{\"a}mme genauer untersucht wurden, um eine m{\"o}gliche Behandlung von STEC Infektionen mit dem Probiotikum zu gew{\"a}hrleisten. Eines der Hauptziele dieser Studie war es, herauszufinden, ob EcN von stx-Phagen infiziert werden kann und damit selbst zu einem Toxin Produzenten wird. In diesem Falle w{\"a}re eine Behandlung mit dem E. coli Stamm ausgeschlossen, da es den Krankheitsverlauf verschlimmern k{\"o}nnte. Verschiedene experimentelle Ans{\"a}tze in denen versucht wurde den YaeT stx-Phagen Rezeptor tragenden Stamm zu infizieren schlugen fehl. Weder mittels PCR Analysen, Phagen Plaque Assays oder der Phagen Anreicherung konnte eine Lyse oder eine Prophagen Integration nachgewiesen werden. Transkriptom Analysen konnten zeigen, dass Gene eines lambdoiden Prophagen in EcN in Anwesenheit von stx-Phagen stark reguliert sind. Auch andere E. coli St{\"a}mme, welche sich ebenfalls durch eine Resistenz gegen{\"u}ber einer stx-Phagen Infektion auswiesen, wurden positiv auf lambdoide Prophagen untersucht. Einzig dem stx-Phagen sensitiven K-12 Stamm MG1655 fehlt ein kompletter lambdoider Prophage, weswegen die Vermutung nahe liegt, dass ein intakter lambdoider Prophage vor der Superinfektion mit stx-Phagen sch{\"u}tzten kann. In weiteren Experimenten wurde der Einfluss der Mikrozin-negativen EcN Mutante SK22D auf STEC St{\"a}mme untersucht. Es konnte gezeigt werden, dass SK22D nicht nur die Produktion des zytotoxischen Proteins unterdr{\"u}ckt, sondern auch mit der Produktion der stx-Phagen von allen getesteten STEC St{\"a}mmen interferiert (O157:H7, O26:H11, O145:H25, O103:H2, O111:H- und zwei O104:H4 Isolate vom STEC Ausbruch in Deutschland im Jahr 2011). Transwell Studien konnten zeigen, dass der Faktor, welcher die Transkription des Prophagen unterdr{\"u}ckt, von SK22D sekretiert wird. Die Ergebnisse lassen vermuten, dass die Pr{\"a}senz von SK22D den lysogenen Zustand des Prophagen st{\"u}tzt und somit den lytischen Zyklus unterdr{\"u}ckt. Da stx-Phagen eine große Gefahr darstellen andere E. coli St{\"a}mme zu infizieren, haben wir uns in weiteren Studien dem Einfluss von EcN auf isolierte Phagen gewidmet. Die Kultivierungsexperimente von EcN mit Phagen zeigten, dass der probiotische Stamm in der Lage war die stx-Phagen in ihrer Effizienz der Lyse des K 12 Stammes MG1655 von~ 1e7 pfus/ml auf 0 pfus/ml nach einer 44 st{\"u}ndigen Inkubation zu inaktivieren. Diese Inaktivierung konnte auf die Aktivit{\"a}t eines hitzestabilen Proteins, welches in der station{\"a}ren Wachstumsphase synthetisiert wird, zur{\"u}ckgef{\"u}hrt werden. Studien welche einen Anstieg der Biofilmmasse zur Folge hatten zeigten eine gesteigerte Effizienz in der Phagen Inaktivierung, weswegen Komponenten des Biofilms m{\"o}glicherweise die Phagen Inaktivierung herbeif{\"u}hren. Neben dem direkten Einfluss auf die Phagen wurde auch ein Schutzeffekt von SK22D gegen{\"u}ber dem stx-Phagen empf{\"a}nglichen K 12 St{\"a}mmen untersucht. Lysogene K 12 St{\"a}mme zeichneten sich durch eine enorme Stx und stx-Phagen Produktion aus. Die Pr{\"a}senz von SK22D konnte den K 12 vermittelten Anstieg der pathogenen Faktoren unterbinden. Transwell Ergebnisse und Kinetik Studien lassen vermuten, dass SK22D eher die Phagen Infektion von K-12 St{\"a}mmen unterbindet als die Lyse von lysogenen K-12 St{\"a}mmen zu st{\"o}ren. Eine m{\"o}gliche Erkl{\"a}rung f{\"u}r den Schutz der K-12 St{\"a}mme vor einer stx-Phagen Infektion k{\"o}nnte darin liegen, dass die K-12 St{\"a}mme innerhalb der SK22D Kultur wachsen und dadurch von den infekti{\"o}sen Phagen abgeschirmt werden. Zusammenfassend konnte in dieser Studie gezeigt werden, dass der probiotische Stamm EcN sowohl die Lyse von STEC St{\"a}mmen unterdr{\"u}ckt als auch die infekti{\"o}sen stx-Phagen inaktiviert und sensitive E. coli St{\"a}mme vor der Phagen Infektion sch{\"u}tzen kann. Diese Ergebnisse sollten als Grundlage f{\"u}r in vivo Studien herangezogen werden, um eine m{\"o}gliche Behandlung von STEC infizierten Patienten mit dem Probiotikum zu gew{\"a}hrleisten.}, subject = {EHEC}, language = {en} } @phdthesis{Balasubramanian2018, author = {Balasubramanian, Srikkanth}, title = {Novel anti-infectives against pathogenic bacteria}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-163882}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Marine sponge-associated actinomycetes are reservoirs of diverse natural products with novel biological activities. Their antibiotic potential has been well explored against a range of Gram positive and negative bacteria. However, not much is known about their anti-infective or anti-virulence potential against human pathogens. This Ph.D. project aimed to investigate the anti-infective (anti-Shiga toxin and anti-biofilm) potential of sponge-derived actinobacteria through identification and isolation of their bioactive metabolites produced and characterizing their mechanism of action by transcriptomics. This thesis is divided into three studies with the overall objective of exploring the anti-infective efficacy of actinomycetes-derived extracts and compound(s) that could possibly be used as future therapeutics. The first study deals with investigation on the anti-Shiga toxin effects of sponge-associated actinomycetes. Diarrheal infections pose a huge burden in several developing and developed countries. Diarrheal outbreaks caused by Enterohemorrhagic Escherichia coli (EHEC) could lead to life-threatening complications like gastroenteritis and haemolytic uremic syndrome (HUS) if left untreated. Shiga toxin (Stx) produced by EHEC is a major virulence factor that negatively affects the human cells, leading them to death via apoptosis. Antibiotics are not prescribed against EHEC infections since they may enhance the risk of development of HUS by inducing the production and release of Stx from disintegrating bacteria and thereby, worsening the complications. Therefore, an effective drug that blocks the Stx production without affecting the growth needs to be urgently developed. In this study, the inhibitory effects of 194 extracts and several compounds originating from a collection of marine sponge-derived actinomycetes were evaluated against the Stx production in EHEC strain EDL933 with the aid of Ridascreen® Verotoxin ELISA assay kit. It was found that treatment with the extracts did not lead to significant reduction in Stx production. However, strepthonium A isolated from the culture of Streptomyces sp. SBT345 (previously cultivated from the Mediterranean sponge Agelas oroides) reduced the Stx production (at 80 μM concentration) in EHEC strain EDL933 without affecting the bacterial growth. The structure of strepthonium A was resolved by spectroscopic analyses including 1D and 2D-NMR, as well as ESI-HRMS and ESI-HRMS2 experiments. This demonstrated the possible application of strepthonium A in restraining EHEC infections. VI In the second study, the effect of marine sponge-associated actinomycetes on biofilm formation of staphylococci was assessed. Medical devices such as contact lenses, metallic implants, catheters, pacemakers etc. are ideal ecological niches for formation of bacterial biofilms, which thereby lead to device-related infections. Bacteria in biofilms are multiple fold more tolerant to the host immune responses and conventional antibiotics, and hence are hard-to-treat. Here, the anti-biofilm potential of an organic extract derived from liquid fermentation of Streptomyces sp. SBT343 (previously cultivated from the Mediterranean sponge Petrosia ficiformis) was reported. Results obtained in vitro demonstrated its anti-biofilm (against staphylococci) and non-toxic nature (against mouse macrophage (J774.1), fibroblast (NIH/3T3) and human corneal epithelial cell lines). Interestingly, SBT343 extract could inhibit staphylococcal biofilm formation on polystyrene, glass and contact lens surfaces without affecting the bacterial growth. High Resolution Fourier Transform Mass Spectrometry (HR-MS) analysis indicated the complexity and the chemical diversity of components present in the extract. Preliminary physio-chemical characterization unmasked the heat stable and non-proteinaceous nature of the active component(s) in the extract. Finally, fractionation experiments revealed that the biological activity was due to synergistic effects of multiple components present in the extract. In the third study, anti-biofilm screening of 50 organic extracts generated from solid and liquid fermentation of 25 different previously characterized sponge-derived actinomycetes was carried out. This led to identification of the anti-biofilm organic extract derived from the solid culture of Streptomyces sp. SBT348 (previously cultivated from the Mediterranean sponge Petrosia ficiformis). Bioassay-guided fractionation was employed to identify the active fraction Fr 7 in the SBT348 crude extract. Further purification with semi-preparative HPLC led to isolation of the bioactive SKC1, SKC2, SKC3, SKC4 and SKC5 sub-fractions. The most active sub-fraction SKC3 was found to be a pure compound having BIC90 and MIC values of 3.95 μg/ml and 31.25 μg/ml against S. epidermidis RP62A. SKC3 had no apparent toxicity in vitro on cell lines and in vivo on the greater wax moth Galleria melonella larvae. SKC3 was stable to heat and enzymatic treatments indicating its non-proteinaceous nature. HR-MS analysis revealed the mass of SKC3 to be 1258.3 Da. Structure elucidation of SKC3 with the aid of 1D and 2D-NMR data is currently under investigation. Further, to obtain insights into the mode of action of SKC3 on S. epidermidis RP62A, RNA sequencing was done. Transcriptome data revealed that SKC3 was recognized by RP62A at 20 min and SKC3 negatively interfered with the central metabolism of staphylococci at 3 h. Taken VII together, these findings suggest that SKC3 could be a lead structure for development of new anti-staphylococcal drugs. Overall, the results obtained from this work underscore the anti-infective attributes of actinomycetes consortia associated with marine sponges, and their applications in natural product drug discovery programs.}, subject = {Marine sponges}, language = {en} } @phdthesis{Becker2018, author = {Becker, Martin}, title = {Understanding Human Navigation using Bayesian Hypothesis Comparison}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-163522}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Understanding human navigation behavior has implications for a wide range of application scenarios. For example, insights into geo-spatial navigation in urban areas can impact city planning or public transport. Similarly, knowledge about navigation on the web can help to improve web site structures or service experience. In this work, we focus on a hypothesis-driven approach to address the task of understanding human navigation: We aim to formulate and compare ideas — for example stemming from existing theory, literature, intuition, or previous experiments — based on a given set of navigational observations. For example, we may compare whether tourists exploring a city walk "short distances" before taking their next photo vs. they tend to "travel long distances between points of interest", or whether users browsing Wikipedia "navigate semantically" vs. "click randomly". For this, the Bayesian method HypTrails has recently been proposed. However, while HypTrails is a straightforward and flexible approach, several major challenges remain: i) HypTrails does not account for heterogeneity (e.g., incorporating differently behaving user groups such as tourists and locals is not possible), ii) HypTrails does not support the user in conceiving novel hypotheses when confronted with a large set of possibly relevant background information or influence factors, e.g., points of interest, popularity of locations, time of the day, or user properties, and finally iii) formulating hypotheses can be technically challenging depending on the application scenario (e.g., due to continuous observations or temporal constraints). In this thesis, we address these limitations by introducing various novel methods and tools and explore a wide range of case studies. In particular, our main contributions are the methods MixedTrails and SubTrails which specifically address the first two limitations: MixedTrails is an approach for hypothesis comparison that extends the previously proposed HypTrails method to allow formulating and comparing heterogeneous hypotheses (e.g., incorporating differently behaving user groups). SubTrails is a method that supports hypothesis conception by automatically discovering interpretable subgroups with exceptional navigation behavior. In addition, our methodological contributions also include several tools consisting of a distributed implementation of HypTrails, a web application for visualizing geo-spatial human navigation in the context of background information, as well as a system for collecting, analyzing, and visualizing mobile participatory sensing data. Furthermore, we conduct case studies in many application domains, which encompass — among others — geo-spatial navigation based on photos from the photo-sharing platform Flickr, browsing behavior on the social tagging system BibSonomy, and task choosing behavior on a commercial crowdsourcing platform. In the process, we develop approaches to cope with application specific subtleties (like continuous observations and temporal constraints). The corresponding studies illustrate the variety of domains and facets in which navigation behavior can be studied and, thus, showcase the expressiveness, applicability, and flexibility of our methods. Using these methods, we present new aspects of navigational phenomena which ultimately help to better understand the multi-faceted characteristics of human navigation behavior.}, subject = {Bayes-Verfahren}, language = {en} } @phdthesis{Jung2018, author = {Jung, Jamin}, title = {Precise timing of the trypanosome cell division cycle}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-114932}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {African trypanosomes are the causative agents of fatal diseases in humans and livestock. Trypanosomes show a complex lifecycle and shuttle between the transmitting vector, the tsetse (Glossina spec.), and the mammalian host. As a result of this the parasite undergoes tremendous changes in morphology and metabolism to adapt to the different living environments. The two best-studied lifecycle stages are the procyclic forms (PCF) that live in the tsetse fly and the proliferative bloodstream form (BSF) that resides in the mammalian blood. The most conspicuous weapon that trypanosomes use to evade the host immune attack is a dense layer of a single protein type, the variant surface glycoprotein (VSG), which shields the entire cell surface. Immune evasion required high rates of surface membrane turnover and surface coat recycling. Trypanosomes show highly polarised cell architecture with all major eukaryotic organelles (endoplasmic reticulum, Golgi apparatus, endosomal apparatus, lysosome, mitochondrion and peroxisome-like glycosomes) generally present in single copy. Furthermore, trypanosomes possess a single flagellum, which is important not only for cellular motility but also for cell division. How the duplication of all these cellular components is coordinated in order to progresss through the cell division cycle is poorly understood. We used trypanosomes as a model organism due to the relative simplicity and the polarised nature of their cell architecture and determined the duplication of all their compartments. This was only possible due to a new synchronisation approach developed during this project. In the first part of the thesis a precise temporal map of the cell division cycle of the BSF T. brucei cell division cycle was generated. By the use of well-described morphological markers (K/N status, new flagellum outgrowth and DNA synthesis) the position of individual cells was determined with high temporal resolution; this allowed us for the first time to synchronise a cell population in silico without affecting the naturally asynchronous growth. In the second part of the thesis we used this tool to follow duplication events of the Major organelles during progression through the cell division cycle. We precisely determined the time points of organelle duplication and found that it is ordered in trypanosomes. Furthermore we found that BSF T. brucei cells do not grow continuously, cell size start to increase rapidly, during a short period of time, late in the cell division cycle. We speculate that the initiation of cell volume increase is temporally separated from the formation of all secretory organelles in order to ensure maintenance of the protective coat, which must remain intact at all times in order for BSF trypanosomes to be able to evade the host immune response.}, subject = {Zellteilung}, language = {en} } @phdthesis{Bargul2018, author = {Bargul, Joel Ltilitan}, title = {Characterization of motility and erythrocyte adherence as virulence factors in African trypanosomes}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-115053}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Pathogens causing African animal trypanosomiasis (AAT), the major livestock disease in sub-Saharan Africa, belong to the salivarian group of the African trypanosomes, which are transmitted by the bite of the tsetse fly (Glossina spec.). T. vivax, T. congolense and T. brucei brucei are major pathogens of cattle in particular, causing nagana, with dramatic socio-economic consequences for the affected regions. The parasites additionally have a huge reservoir of other livestock and wild animal hosts. T. brucei, the species which also includes the subspecies pathogenic to humans causing sleeping sickness, has been extensively studied as the cultivatable model trypanosome. But less is known about the other salivarian species, which are not routinely held in culture, if at all possible. A hallmark of trypanosomal lifestyle is the protozoan flagellates incessant motility, which enables them to populate an enormous range of habitats in very diverse hosts. We were now able to characterize, for the first time with high spatiotemporal resolution microscopy, the swimming behaviour and mechanism of the most relevant salivarian species isolated directly from blood. We show the influence of viscosity on the motility of bloodstream form (BSF) cells and simulate their movement between erythrocytes, giving a clear picture of how all analyzed species move under varying environmental conditions. We show that although the basic mechanism of flagellar motility applies to all analyzed species, there are clear morphological differences that produce different reactions to the physical environment. We could define specific conditions for highly increased swimming persistence and speed for compared to the behaviour in standard culture. These results have important implications for the parasites survival strategies in the host, e.g. regarding the capacity for antibody clearance. Although we show all species to effectively remove antibodies from the cell surface, T. congolense differed markedly in its motility behaviour, which gives rise to interesting questions about this species behaviour in the bloodstream. Most of the T. congolense parasites (and to a lesser extent T. vivax) adhere to sheep erythrocytes. Further in vitro studies showed that T. congolense and T. vivax adhered to rabbit, goat, pig and cattle erythrocytes- but binding behaviour was absent in murine blood. Notably, both T. brucei and T. evansi lacked adherence to all studied host erythrocytes. Generally, attachment to blood cells caused reduction of swimming velocities. Judging from its cell architecture, as well as the motility studies in higher media viscosity and in micropillar arrays, T. congolense is not adapted to swim at high speeds in the mammalian bloodstream. Low swimming speeds could allow these purely intravascular parasites to remain bound to the host erythrocytes.}, subject = {Motili{\"a}t}, language = {en} } @phdthesis{Wohlfart2018, author = {Wohlfart, Christian}, title = {The Yellow River Basin in Transition - Multi-faceted Land Cover Change Analysis in the Yellow River Basin in the Context of Global Change Using Multi-sensor Remote Sensing Imagery}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-163724}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {As a cradle of ancient Chinese civilization, the Yellow River Basin has a very long human-environment interrelationship, where early anthropogenic activities re- sulted in large scale landscape modifications. Today, the impact of this relationship has intensified further as the basin plays a vital role for China's continued economic development. It is one of the most densely-populated, fastest growing, and most dynamic regions of China with abundant natural and environmental resources providing a livelihood for almost 190 million people. Triggered by fundamental economic reforms, the basin has witnessed a spectacular economic boom during the last decades and can be considered as an exemplary blueprint region for contemporary dynamic Global Change processes occurring throughout the country, which is currently transitioning from an agrarian-dominated economy into a modern urbanized society. However, this resourcesdemanding growth has led to profound land use changes with adverse effects on the Yellow River social-ecological systems, where complex challenges arise threatening a long-term sustainable development. Consistent and continuous remote sensing-based monitoring of recent and past land cover and land use change is a fundamental requirement to mitigate the adverse impacts of Global Change processes. Nowadays, technical advancement and the multitude of available satellite sensors, in combination with the opening of data archives, allow the creation of new research perspectives in regional land cover applications over heterogeneous landscapes at large spatial scales. Despite the urgent need to better understand the prevailing dynamics and underlying factors influencing the current processes, detailed regional specific land cover data and change information are surprisingly absent for this region. In view of the noted research gaps and contemporary developments, three major objectives are defined in this thesis. First (i), the current and most pressing social-ecological challenges are elaborated and policy and management instruments towards more sustainability are discussed. Second (ii), this thesis provides new and improved insights on the current land cover state and dynamics of the entire Yellow River Basin. Finally (iii), the most dominant processes related to mining, agriculture, forest, and urban dynamics are determined on finer spatial and temporal scales. The complex and manifold problems and challenges that result from long-term abuse of the water and land resources in the basin have been underpinned by policy choices, cultural attitude, and institutions that have evolved over centuries in China. The tremendous economic growth that has been mainly achieved by extracting water and exploiting land resources in a rigorous, but unsustainable manner, might not only offset the economic benefits, but could also foster social unrest. Since the early emergence of the first Chinese dynasties, flooding was considered historically as a primary issue in river management and major achievements have been made to tame the wild nature of the Yellow River. Whereas flooding is therefore largely now under control, new environmental and social problems have evolved, including soil and water pollution, ecological degradation, biodiversity decline, and food security, all being further aggravated by anthropogenic climate change. To resolve the contemporary and complex challenges, many individual environmental laws and regulations have been enacted by various Chinese ministries. However, these policies often pursue different, often contradictory goals, are too general to tackle specific problems and are usually implemented by a strong top-down approach. Recently, more flexible economic and market-based incentives (pricing, tradable permits, investments) have been successfully adopted, which are specifically tailored to the respective needs, shifting now away from the pure command and regulating instruments. One way towards a more holistic and integrated river basin management could be the establishment of a common platform (e.g. a Geographical Information System) for data handling and sharing, possibly operated by the Yellow River Basin Conservancy Commission (YRCC), where available spatial data, statistical information and in-situ measures are coalesced, on which sustainable decision-making could be based. So far, the collected data is hardly accessible, fragmented, inconsistent, or outdated. The first step to address the absence and lack of consistent and spatially up-to-date information for the entire basin capturing the heterogeneous landscape conditions was taken up in this thesis. Land cover characteristics and dynamics were derived from the last decade for the years 2003 and 2013, based on optical medium-resolution hightemporal MODIS Normalized Differenced Vegetation Index (NDVI) time series at 250 m. To minimize the inherent influence of atmospheric and geometric interferences found in raw high temporal data, the applied adaptive Savitzky-Golay filter successfully smoothed the time series and substantially reduced noise. Based on the smoothed time series data, a large variety of intra-annual phenology metrics as well as spectral and multispectral annual statistics were derived, which served as input variables for random forest (RF) classifiers. High quality reference data sets were derived from very high resolution imagery for each year independently of which 70 \% trained the RF models. The accuracy assessments for all regionally specific defined thematic classes were based on the remaining 30 \% reference data split and yielded overall accuracies of 87 \% and 84 \% for 2003 and 2013, respectively. The first regional adapted Yellow River Land Cover Products (YRB LC) depict the detail spatial extent and distribution of the current land cover status and dynamics. The novel products overall differentiate overall 18 land cover and use classes, including classes of natural vegetation (terrestrial and aquatic), cultivated classes, mosaic classes, non-vegetated, and artificial classes, which are not presented in previous land cover studies so far. Building on this, an extended multi-faceted land cover analysis on the most prominent land cover change types at finer spatial and temporal scales provides a better and more detailed picture of the Yellow River Basin dynamics. Precise spatio-temporal products about mining, agriculture, forest, and urban areas were examined from long-trem Landsat satellite time series monitored at annual scales to capture the rapid rate of change in four selected focus regions. All archived Landsat images between 2000 and 2015 were used to derive spatially continuous spectral-temporal, multi-spectral, and textural metrics. For each thematic region and year RF models were built, trained and tested based on a stablepixels reference data set. The automated adaptive signature (AASG) algorithm identifies those pixels that did not change between the investigated time periods to generate a mono-temporal reference stable-pixels data set to keep manual sampling requirements to a minimum level. Derived results gained high accuracies ranging from 88 \% to 98 \%. Throughout the basin, afforestation on the Central Loess Plateau and urban sprawl are identified as most prominent drivers of land cover change, whereas agricultural land remained stable, only showing local small-scale dynamics. Mining operations started in 2004 on the Qinghai-Tibet Plateau, which resulted in a substantial loss of pristine alpine meadows and wetlands. In this thesis, a novel and unique regional specific view of current and past land cover characteristics in a complex and heterogeneous landscape was presented by using a multi-source remote sensing approach. The delineated products hold great potential for various model and management applications. They could serve as valuable components for effective and sustainable land and water management to adapt and mitigate the predicted consequences of Global Change processes.}, subject = {Fernerkundung}, language = {en} } @phdthesis{Candemir2018, author = {Candemir, Esin}, title = {Involvement of neuronal nitric oxide synthase (NOS-I) PDZ interactions in neuropsychiatric disorders}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-151194}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Neuronal nitric oxide (NO) synthase (NOS-I) and its adaptor protein (NOS1AP) have been repeatedly and consistently associated with neuropsychiatric disorders in several genetic association and linkage studies, as well as functional studies. NOS-I has an extended PDZ domain which enables it to interact with postsynaptic density protein 95 (PSD-95) bringing NOS-I in close proximity to NMDA receptors. This interaction allows NMDA receptor activity dependent calcium-influx to activate NOS-I, linking NO synthesis to regulation of glutamatergic signaling pathways. NOS1AP is a PDZ-domain ligand of NOS-I and has been proposed to compete with PSD-95 for NOS-I interaction. Studies performed on post-mortem brain tissues have shown increased expression of NOS1AP in patients with schizophrenia and bipolar disorder, suggesting that increased NOS-I/NOS1AP interactions might be involved in neuropsychiatric disorders possibly through disruption of NOS-I PDZ interactions. Therefore, I have investigated the involvement of NOS-I in different endophenotypes of neuropsychiatric disorders by targeting its specific PDZ interactions in vitro and in vivo. To this end, I used recombinant adeno-associated virus (rAAV) vectors expressing NOS1AP isoforms/domains (NOS1AP-L: full length NOS1AP; NOS1AP-LC20: the last 20 amino acids of NOS1AP-L, containing the PDZ interaction motif suggested to stabilize interaction with NOS-I; NOS1AP-LΔC20: NOS1AP-L lacking the last 20 amino acids; NOS1AP-S: the short isoform of NOS1AP), residues 396-503 of NOS1AP-L (NOS1AP396-503) encoding the full NOS-I interaction domain, and N-terminal 133 amino acids of NOS-I (NOS-I1-133) encoding for the extended PDZ-domain. Neuropsychiatric disorders involve morphological brain changes including altered dendritic development and spine plasticity. Hence, I have examined dendritic morphology in primary cultured hippocampal and cortical neurons upon overexpression of constructed rAAV vectors. Sholl analysis revealed that overexpression of NOS1AP-L and NOS1AP-LΔC20 mildly reduced dendritic length/branching. Moreover, overexpression of all NOS1AP isoforms/domains resulted in highly altered spine plasticity including significant reduction in the number of mature spines and increased growth of filopodia. These findings suggest that NOS1AP affects dendritic growth and development of dendritic spines, which may involve both, increased NOS-I/NOS1AP interaction as well as interaction of NOS1AP with proteins other than NOS-I. Interestingly, the observed alterations in dendritic morphology were reminiscent of those observed in post-mortem brains of patients with neuropsychiatric disorders. Given the dendritic alterations in vitro, I have examined, whether disruption of NOS-I PDZ interaction would also result in behavioral deficits associated with neuropsychiatric disorders. To this end, rAAV vectors expressing NOS1AP-L, NOS1AP396-503, NOS-I1-133, and mCherry were stereotaxically delivered to the dorsal hippocampus of 6-week-old male C57Bl/6J mice. One week after surgery, mice were randomly separated into two groups. One of those groups underwent three weeks of chronic mild stress (CMS). Afterwards all mice were subjected to a comprehensive behavioral analysis. The findings revealed that overexpression of the constructs did not result in phenotypes related to anxiety or depression, though CMS had an anxiolytic effect independent of the injected construct. Mice overexpressing NOS-I1-133, previously shown to disrupt NOS-I/PSD-95 interaction, showed impaired spatial memory, sensorimotor gating, social interaction, and increased locomotor activity. NOS1AP overexpressing mice showed mild impairments in sensorimotor gating and spatial working memory and severely impaired social interaction. NOS1AP396-503 overexpressing mice also showed impaired social interaction but enhanced sensorimotor gating and reduced locomotor activity. Taken together, these behavioral findings indicate an involvement of NOS-I PDZ interactions in phenotypes associated with positive symptoms and cognitive deficits of psychotic disorders. In summary, this study revealed an important contribution of NOS-I protein interactions in the development of endophenotypic traits of neuropsychiatric disorders, in particular schizophrenia, at morphological and behavioral levels. These findings might eventually aid to a better understanding of NOS-I-dependent psychopathogenesis, and to develop pharmacologically relevant treatment strategies.}, subject = {Stickstoffmonoxid-Synthase}, language = {en} } @phdthesis{Schaefer2018, author = {Sch{\"a}fer, Carmen}, title = {Influence of interleukin-6-type cytokine oncostatin M on murine aortic vascular smooth muscle cells}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-135527}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Oncostatin M (OSM) is a cytokine of the interleukin-6 family and released in the early phase of inflammation by neutrophils, activated macrophages, dendritic cells, and T lymphocytes. Its roles in physiology and disease are not entirely understood yet. It has been shown recently that substantial amounts of OSM are found in atherosclerotic plaques. The first part of this thesis addresses the effects of OSM on vascular smooth muscle cells (VSMCs). This cell type is known to contribute to atherogenesis and expresses the type I and type II OSM receptor complexes. This study revealed that OSM is a strong inducer of an array of genes which have recently been shown to play important roles in atherosclerosis. Investigation of VSMCs isolated from OSMRbeta-deficient (Osmr-/-) mice proved that the regulation of these target genes is entirely dependent on the activation of the type II OSMR complex. In addition to OSM, other cytokines expressed by T lymphocytes were found to contribute to plaque development. According to earlier publications, the influence of IL-4, IL-13, and IL-17 on the progression of plaques were discussed controversially. Nevertheless, for the regulation of investigated atherosclerotic target genes and receptor complexes in VSMCs, they seemed to play a minor role compared to OSM. Only the expression of the decoy receptor IL-13Ralpha2 - a negative feedback mechanism for IL-13-mediated signalling - was strongly induced after treatment with all mentioned cytokines, especially when VSMCs were primed with OSM before stimulation. The second part of this thesis focuses on the role of OSM during the progression of atherosclerosis in vivo. Therefore, Ldlr-/-Osmr-/- mice were generated by crossing Ldlr-/- mice - a typical mouse model for atherosclerosis - with Osmr-/- mice. These double-deficient mice together with Ldlr-/-Osmr+/+ mice were set on cholesterol rich diet (Western diet, WD) for 12 weeks before they were sacrificed. Determination of body and organ weight, staining of aortas and aortic roots as well as gene expression profiling strongly suggested that Ldlr-/-Osmr-/- mice are less susceptible for plaque development and weight gain compared to Ldlr-/-Osmr+/+ mice. However, further experiments and additional controls (C57Bl/6 and Osmr-/- mice) on WD are necessary to clarify the underlying molecular mechanisms. Taken together, the interleukin-6-type cytokine OSM is a strong inducer of an array of target genes involved in de-differentiation and proliferation of VSMCs, a process known to contribute substantially to atherogenesis. Further in vivo studies will help to clarify the role of OSM in atherosclerosis.}, subject = {Arteriosklerose}, language = {en} } @phdthesis{Monjezi2018, author = {Monjezi, Razieh}, title = {Engineering of chimeric antigen receptor T cells with enhanced therapeutic index in cancer immunotherapy using non-viral gene transfer and genome editing}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-152521}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {The advances in genetic engineering have enabled us to confer T cells new desired functions or delete their specific undesired endogenous properties for improving their antitumor function. Due to their efficient gene delivery, viral vectors have been successfully used in T-cell engineering to provide gene transfer medicinal products for the treatment of human disease. One example is adoptive cell therapy with T cells that were genetically modified with gamma-retroviral and lentiviral (LV) delivery vectors to express a CD19-specific chimeric antigen receptor (CAR) for cancer treatment. This therapeutic approach has shown remarkable results against B-cell malignancies in pilot clinical trials. Consequently, there is a strong desire to make CAR T cell therapy scalable and globally available to patients. However, there are persistent concerns and limitations with the use of viral vectors for CAR T cell generation with regard to safety, cost and scale of vector production. In order to address these concerns, we aimed to improve non-viral gene transfer and genome editing tools as an effective, safe and broadly applicable alternative to viral delivery methods for T-cell engineering. In the first part of the study, we engineered CAR T cells through non-viral Sleeping Beauty (SB) transposition of CAR genes from minimalistic DNA vectors called minicircles rather than conventional SB plasmids. This novel approach dramatically increased stable gene transfer rate and cell viability and resulted in higher yield of CAR+ T cells without the need of long ex vivo expansion to generate therapeutic doses of CAR+ T cells. Importantly, CD19-CAR T cells modified by MC-based SB transposition were equally effective as LV transduced CD19-CAR T cells in vitro and in a murine xenograft model (NSG/Raji-ffLuc), where a single administration of CD8+ and CD4+ CAR T cells led to complete eradication of lymphoma and memory formation of CAR T cells after lymphoma clearance. To characterize the biosafety profile of the CAR T cell products, we did the most comprehensive genomic insertion site analysis performed so far in T cells modified with SB. The data showed a close-to-random integration profile of the SB transposon with a higher number of insertions in genomic safe harbors compared to LV integrants. We developed a droplet digital PCR assay that enables rapid determination of CAR copy numbers for clinical applications. In the second part of the study, we ablated expression of PD-1, a checkpoint and negative regulator of T cell function to improve the therapeutic index of CAR T cells. This was accomplished using non-viral CRISPR/Cas9 via pre-assemble Cas9 protein and in vitro-transcribed sgRNA (Cas9 RNP). Finally, we combined our developed Cas9 RNP tool with CAR transposition from MC vectors into a single-step protocol and successfully generated PD-1 knockout CAR+ T cells. Based on the promising results achieved from antibody-mediated PD-1 blockade in the treatment of hematological and solid tumors, we are confident that PD-1 knockout CAR T cells enhance the potency of CAR T cell therapies for treatment of cancers without the side effects of antibody-based therapies. In conclusion, we provide a novel platform for virus-free genetic engineering of CAR T cells that can be broadly applied in T-cell cancer therapy. The high level of gene transfer rate and efficient genome editing, superior safety profile as well as ease-of-handling and production of non-viral MC vectors and Cas9 RNP position our developed non-viral strategies to become preferred approaches in advanced cellular and gene-therapy.}, subject = {Krebs }, language = {en} } @phdthesis{Dolles2018, author = {Dolles, Dominik}, title = {Development of Hybrid GPCR Ligands: Photochromic and Butyrylcholinesterase Inhibiting Human Cannabinoid Receptor 2 Agonists}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-163445}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {While life expectancy increases worldwide, treatment of neurodegenerative diseases such as AD becomes a major task for industrial and academic research. Currently, a treatment of AD is only symptomatical and limited to an early stage of the disease by inhibiting AChE. A cure for AD might even seem far away. A rethinking of other possible targets is therefore necessary. Addressing targets that can influence AD even at later stages might be the key. Even if it is not possible to find a cure for AD, it is of great value for AD patients by providing an effective medication. The suffering of patients and their families might be relieved and remaining years may be spent with less symptoms and restrictions. It was shown that a combination of hCB2R agonist and BChE inhibitor might exactly be a promising approach to combat AD. In the previous chapters, a first investigation of dual-acting compounds that address both hCB2R and BChE was illustrated (figure 6.1). A set of over 30 compounds was obtained by applying SARs from BChE inhibitors to a hCB2R selective agonist developed by AstraZeneca. In a first in vitro evaluation compounds showed selectivity over hCB1R and AChE. Further investigations could also prove agonism and showed that unwanted off-target affinity to hMOP receptor could be designed out. The development of a homology model for hCB2R (based on a novel hCB1R crystal) could further elucidate the mode of action of the ligand binding. Lastly, first in vivo studies showed a beneficial effect of selected dual-acting compounds regarding memory and cognition. Since these first in vivo studies mainly aim for an inhibition of the BChE, it should be the aim of upcoming projects to proof the relevance of hCB2R agonism in vivo as well. In addition, pharmacokinetic as well as solubility studies may help to complete the overall picture. Currently, hybrid-based dual-acting hCB2R agonists and selective BChE inhibitors are under investigation in our lab. First in vitro evaluations showed improved BChE inhibition and selectivity over AChE compared to tacrine.78 Future in vitro and in vivo studies will clarify their usage as drug molecules with regard to hepatotoxicity and blood-brain barrier penetration. Since the role of hCB2R is not yet completely elucidated, the use of photochromic toolcompounds becomes an area of interest. These tool-compounds (and their biological effect) can be triggered upon irradiation with light and thus help to investigate time scales and ligand binding. A set of 5-azobenzene benzimidazoles was developed and synthesized. In radioligand binding studies, affinity towards hCB2R could be increased upon irradiation with UV-light (figure 6.2). This makes the investigated compounds the first GPCR ligands that can be activated upon irradiation (not vice versa). The aim of upcoming research will be the triggering of a certain intrinsic activity by an "efficacy-switch". For this purpose, several attempts are currently under investigation: an introduction of an azobenzene moiety at the 2-position of the benzimidazole core already led to a slight difference in efficacy upon irradiation with UV light. Another approach going on in our lab is the development of hCB1R switches based on the selective hCB1R inverse agonist rimonabant. First in vitro results are not yet available (figure 6.3).}, subject = {Ligand }, language = {en} } @phdthesis{KraehenbuehlAmstalden2018, author = {Kr{\"a}henb{\"u}hl Amstalden, Maria Cecilia}, title = {Development of a bacterial responsive antibiotic release system}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-163386}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {A major problem regarding public health is the emergence of antibiotic resistant bacterial strains, especially methicillin resistant Staphylococcus aureus (MRSA). This is mainly attributed to the unnecessary overuse of antimicrobial drugs by patients; however, one aspect that is often neglected is their untargeted mechanism of action, affecting not only the infection itself but also commensal bacteria which are often opportunistic pathogens causing many diseases as well. Therefore, our goal was to develop a bioresponsive antibiotic delivery system triggered by virulence factors. The designed system is comprised of a polymer to enhance its pharmacokinetic profile, a peptide cleavable linker, and the antibiotic agent itself. The bacterial protease aureolysin which is expressed by S. aureus during infections would cleave the linker and partially release the antibiotic which would be still attached to a remaining tetrapeptide. These would be cleaved by a group of proteases naturally present in plasma called aminopeptidases, finally releasing the compound. In the first part of this project, we searched for a suitable sequence to serve as a cleavable linker. It should be sensitive towards the target bacterial protease but not be cleaved by any human enzymes to guarantee the specificity of the system. Therefore, we synthesized three peptide sequences via Solid Phase Peptide Synthesis and incubated them with aureolysin as well as with many human matrix Metalloproteases. The analysis and quantification of enzymatic activity was monitored chromatographically (RP-HPLC). The plasminogen originated sequence was chosen since it was not sensitive towards MMPs, but cleaved by aureolysin. In the second part, we tried to incorporate the chosen peptide sequences as crosslinkers in hydrogel formulations. The purpose was to physically incorporate the antibiotic within the hydrogel, which would be released by the cleavage of those sequences and the consequent loosening the hydrogel net. For that purpose we used a commercially available hydrogel kit with a PVA matrix modified with maleimide, which allows a conjugation reaction with thiol functionalized crosslinkers. Three fluorophores were chosen to serve as antibiotic models and a diffusion assay was performed. Only the glomerular structured Green Fluorescent Protein (GFP) presented a low diffusion rate, thus the aureolysin release assays were performed only using this prototype. Assays showed that with a low hydrogel polymer concentration, the fluorophore either quickly diffused into the medium or was not released at all. The physical incorporation of the antibiotic within the hydrogel pores was therefore abolished as a suitable release approach. For a second attempt, we covalently bound a fluorophore to the linker, which was conjugated to the hydrogel matrix. The incubation with aureolysin and subsequent RP-HPLC analysis showed a peak with the same retention time correspondent to the fragment product after cleavage of the free linker. This is a proof that the concept of linking the peptide sequence to the antibiotic is a promising strategy for its bioresponsive release. Within the third part of this study, we analyzed the degradation of the resulted fragment after aureolysin activity and subsequent full release of the antibiotic by human aminopeptidases. We determined the concentration of those enzymes in human plasma and synthesized the fragment by conjugating the tetrapeptide sequence to aminofluorescein via EDC/NHS reaction. By incubating the construct with the lowest aminopeptidase concentration measured in plasma, the fluorophore was completely released within two hours, showing the efficacy of these enzymes as bioresponsive agents. The last part was the construction of the PEGylated linker-antibiotic. For this purpose we chose the tetracycline like antibiotic chelocardin (CHD) as our prototype. The conjugation of the linker- CHD to the polymer was performed by copper free click chemistry. The cleavage rate of the linker by aureolysin was very similar to the one obtained for the free peptide, indicating that the PEGylation does not interfere on the enzymatic activity. However, by trying to increase the loading ratio of chelocardin onto the polymer, we observed a very low cleavage rate for the system, indicating the formation of aggregates by those constructs. The designed system has proved to be a smart strategy for the delivery on demand of antibiotics in which the drug is only released by the presence of S. aureus during their virulent state.}, subject = {Arzneimittelforschung}, language = {en} } @phdthesis{SchuesslergebHecht2018, author = {Sch{\"u}ßler [geb. Hecht], Nina Kristin Petra}, title = {Novel formulation principles for bioavailability enhancement of poorly water-soluble and poorly permeable drugs}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-162766}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Since four decades, high-throughput screenings have been conducted in drug discovery, fuelling the identification of potential new drug candidates. This approach, however, often promotes the detection of compounds with undesired physico-chemical properties like poor aqueous solubility or low membrane permeability. Indeed, dissolution and absorption of a drug are prerequisites for systemic exposure and therapeutic effects. Therefore, innovative strategies to optimize unfavourable performance of new drug candidates are in great demand in order to increase drug concentrations at the site of action whilst simultaneously reducing drug variability. In chapter I of this research work, hydrophobic ion pairing (HIP) is discussed as a promising strategy to improve the bioavailability of BCS class III compounds, which have high aqueous solubility and low permeability. The review points out the limitations of poorly absorbable drugs and details the approach of pairing these APIs with hydrophobic counterions. Apart from the motivation to tailor physico-chemical, biopharmaceutical and toxicological properties of BCS class III compounds, the hydrophobic ion pairing facilitates their formulation into drug delivery systems. Besides advantageous effects, disadvantages of the ion pair formation, such as the decreased aqueous solubility of the ions pair, are critically outlined. Finally, the review covers an overview of non-invasive administration routes permitted after ion pair formation, including oral/enteral, buccal, nasal, ocular and transdermal drug administration. Overall, the HIP approach offers substantial benefits regarding the bioavailability enhancement of BCS class III compounds. Chapter II concerns GHQ168 developed by Holzgrabe et al., a BCS class II compound characterized by low aqueous solubility and high permeability. GHQ168 was developed for the treatment of human African trypanosomiasis (HAT), a tropical disease for which novel active compounds are urgently needed. This lead compound was found to be very active against trypanosoma brucei brucei and trypanosoma brucei rhodesiense in cell culture assays, however, the low aqueous solubility prevented further preclinical development. To target this drawback, two different approaches were selected, including (I) the chemical modification and (II) the spray drying of GHQ168. The newly synthesized set of derivatives as well as the spray dried GHQ168 were subjected to a physico-chemical and microbiological characterization. It turned out that both approaches successfully improved aqueous solubility, however, for the derivatives of GHQ168 at the expense of activity. Furthermore, the pharmacokinetic parameters of GHQ168 and of the most active derivatives, GHQ242 and GHQ243, were evaluated. Elimination half-lives between 1.5 to 3.5 h after intraperitoneal administration and modest to strong serum albumin binding for GHQ243 (45\%) and GHQ168 (80\%) and very high binding (> 99\%) for GHQ242 were detected. The spray dried formulation of GHQ168, as well as GHQ242 and GHQ243 were investigated in two in vivo studies in mice infected with t. b. rhodesiense (STIB900), referred to as (I) stringent model and (II) early-treatment model. In the stringent model (2 applications/day on day 3-6 after infection) the mean survival duration (MSD) of mice treated with spray dried GHQ168 exceeded the MSD of the untreated control group (17 days versus 9 days), a difference that was statistically significant. In contrast, no statistical difference was observed for GHQ242 (14 days) and GHQ243 (12 days). GHQ168 was further assessed in the early-treatment model (2 applications/day on day 1-4 after infection) and again a statistically significant improvement of MSD (32 days (end of observation period) versus 7 days) was observed. Finally, exciting antitrypanosomal efficacy for the spray dried formulation of GHQ168 was demonstrated. NADPH oxidases (NOX) were found to be the main source of endothelial reactive oxygen species (ROS) formation. Chapter III reports on the formulation studies on triazolopyrimidine derivatives from the VAS library, a set of NADPH oxidase inhibitors. These were developed for the treatment of elevated ROS levels, which contribute to the development of cardiovascular diseases. Although in vitro results from numerous studies indicated promising efficacy and selectivity for the VAS-compounds, the low water solubility impeded the in vivo translation and further preclinical development. For this reason, three derivatives, VAS2870, VAS3947, and VAS4024 were physico-chemically characterized and VAS3947, the most soluble compound, was selected for further formulation studies. These approaches included (I) spray drying, (II) microemulsification and (III) complexation with cyclodextrins in order to develop formulations for oral and parenteral application. Solubility improvement of VAS3947 was successfully demonstrated for all preparations as expressed by supersaturation ratios in comparison to the solubility of the unformulated compound. For seven spray dried formulations, the ratio ranged from 3-9, and the ratio for four microemulsions was 8-19 after 120 min, respectively. The six cyclodextrin formulations achieved the highest supersaturation ratio between 3 and 174 after 20 hours. NMR measurements elucidated the inclusion of VAS3947 within the CD's cavity as well as the interaction with its outer surface. Ultimately, NOX inhibitors were opened for oral and parenteral administration for the first time. After successful solubility improvement of VAS3947, further investigations towards in vivo studies were conducted including stability studies with a focus on stability in solution and in plasma as presented in chapter IV. Furthermore, permeability and cytotoxicity assays were performed for the first time. It turned out that VAS3947 was instable in buffer and when exposed to light. Moreover, the compound showed decomposition in the presence of mouse microsomes and in human plasma. The VAS compounds contain an oxazol moiety linked to the triazolopyrimidine skeleton via a thioether. This structural element is responsible for the efficacy of the compound class, however it is susceptible to hydrolysis and to further degradation reactions. Moreover, VAS3947 harmed membrane integrity in the cell permeability assays and cytotoxicity investigations in HEK-293 and HEP-G2 cells revealed IC50 values in the same concentration range as reported for efficacy assays. Summarized, it was demonstrated that substances from the VAS library were no appropriate model compounds for ROS investigations nor suitable candidates for further preclinical development.}, subject = {L{\"o}slichkeit}, language = {en} } @phdthesis{Krishna2018, author = {Krishna, Anand}, title = {Regulatory Focus Theory and Information Processing - A Series of Exploratory Studies}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-163365}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Regulatory focus (RF) theory (Higgins, 1997) states that individuals follow different strategic concerns when focusing on gains (promotion) rather than losses (prevention). Applying the Reflective-Impulsive Model (RIM, Strack \& Deutsch, 2004), this dissertation investigates RF's influence on basic information processing, specifically semantic processing (Study 1), semantic (Study 2) and affective (Study 3) associative priming, and basic reflective operations (Studies 4-7). Study 1 showed no effect of RF on pre-activation of RF-related semantic concepts in a lexical decision task (LDT). Study 2 indicated that primes fitting a promotion focus improve performance in a LDT for chronically promotion-focused individuals, but not chronically prevention-focused individuals. However, the latter performed better when targets fit their focus. Stronger affect and arousal after processing valent words fitting an RF may explain this pattern. Study 3 showed some evidence for stronger priming effects for negative primes in a bona-fide pipeline task (Fazio et al., 1995) for chronically prevention-focused participants, while also providing evidence that situational prevention focus insulates individuals from misattributing the valence of simple primes. Studies 4-7 showed that a strong chronic prevention focus leads to greater negation effects for valent primes in an Affect Misattribution Procedure (Payne et al., 2005), especially when it fits the situation. Furthermore, Study 6 showed that these effects result from stronger weighting of negated valence rather than greater ease in negation. Study 7 showed that the increased negation effect is independent of time pressure. Broad implications are discussed, including how RF effects on basic processing may explain higher-order RF effects.}, subject = {Motivation}, language = {en} } @phdthesis{Lichtenstein2018, author = {Lichtenstein, Leonie}, title = {Color vision and retinal development of the compound eye in bees}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-150997}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {The superfamiliy of bees, Apiformes, comprises more than 20,000 species. Within the group, the eusocial species like honeybees and bumblebees are receiving increased attention due to their outstanding importance for pollination of many crop and wild plants, their exceptional eusocial lifestyle and complex behavioral repertoire, which makes them an interesting invertebrate model to study mechanisms of sensory perception, learning and memory. In bees and most animals, vision is one of the major senses since almost every living organism and many biological processes depend on light energy. Bees show various forms of vision, e.g. color vision, achromatic vision or polarized vision in order to orientate in space, recognize mating partners, detect suitable nest sites and search for rewarding food sources. To catch photons and convert light energy into electric signals, bees possess compound eyes which consists of thousands of single ommatidia comprising a fixed number of photoreceptors; they are characterized by a specific opsin protein with distinct spectral sensitivity. Different visual demands, e.g. the detection of a single virgin queen by a drone, or the identification and discrimination of flowers during foraging bouts by workers, gave rise to the exceptional sex-specific morphology and physiology of male and female compound eyes in honeybees. Since Karl von Frisch first demonstrated color vision in honeybees more than 100 years ago, much effort has been devoted to gain insight into the molecular, morphological and physiological characteristics of (sex-specific) bee compound eyes and the corresponding photoreceptors. However, to date, almost nothing is known about the underlying mechanisms during pupal development which pattern the retina and give rise to the distinct photoreceptor distribution. Hence, in Chapter 2 and 3 I aimed to better understand the retinal development and photoreceptor determination in the honeybee eye. In a first step, the intrinsic temporal expression pattern of opsins within the retina was evaluated by quantifying opsin mRNA expression levels during the pupal phase of honeybee workers and drones. First results revealed that honeybee workers and drones express three different opsin genes, UVop, BLop and Lop1 during pupal development which give rise to an ultraviolet, blue, and green-light sensitive photoreceptor. Moreover, opsin expression patterns differed between both sexes and the onset of a particular opsin occurred at different time points during retinal development. Immunostainings of the developing honeybee retina in Chapter 2 showed that at the beginning of pupation the retina consist only of a thin hypodermis. However, at this stage all retinal structures are already present. From about mid of pupation, opsin expression levels increase and goes hand in hand with the differentiation of the rhabdoms, suggesting a two-step process in photoreceptor development and differentiation in the honeybee compound eye. In a first step the photoreceptor cells meet its fate during late pupation; in a second step, the quantity of opsin expression in each photoreceptor strongly increase up to the 25-fold shortly after eclosion. To date, the underlying mechanisms leading to different photoreceptor types have been intensively studied in the fruit fly, Drosophila melanogaster, and to some extend in butterflies. Interestingly, the molecular mechanisms seemed to be conserved within insects and e.g. the two transcription factors, spalt and spineless, which have been shown to be essential for photoreceptor determination in flies and butterflies, have been also identified in the honeybee. In chapter 3, I investigated the expression patterns of both transcription factors during pupal development of honeybee workers and showed that spalt is mainly expressed during the first few pupal stages which might correlate with the onset of BLop expression. Further, spineless showed a prominent peak at mid of pupation which might initiates the expression of Lop1. However, whether spalt and spineless are also essential for photoreceptor determination in the honeybee has still to be investigated, e.g. by a knockdown/out of the respective transcription factor during retinal development which leads to a spectral phenotype, e.g. a dichromatic eye. Such spectral phenotypes can then be tested in behavioral experiments in order to test the function of specific photoreceptors for color perception and the entrainment of the circadian clock. In order to evaluate the color discrimination capabilities of bees and the quality of color perception, a reliable behavioral experiment under controlled conditions is a prerequisite. Hence, in chapter 4, I aimed to establish the visual PER paradigm as a suitable method for behaviorally testing color vision in bees. Since PER color vision has considered to be difficult in bees and was not successful in Western honeybees without ablating the bee's antennae or presenting color stimuli in combination with other cues for several decades, the experimental setup was first established in bumblebees which have been shown to be robust and reliable, e.g. during electrophysiological recordings. Workers and drones of the bufftailed bumblebee, Bombus terrestris were able to associate different monochromatic light stimuli with a sugar reward and succeeded in discriminating a rewarded color stimulus from an unrewarded color stimulus. They were also able to retrieve the learned stimulus after two hours, and workers successfully transferred the learned information to a new behavioral context. In the next step, the experimental setup was adapted to honeybees. In chapter 5, I tested the setup in two medium-sized honeybees, the Eastern honeybee, Apis cerana and the Western honeybee, Apis mellifera. Both honeybee species were able to associate and discriminate between two monochromatic light stimuli, blue and green light, with peak sensitivities of 435 nm and 528 nm. Eastern and Western honeybees also successfully retrieve the learned stimulus after two hours, similar to the bumblebees. Visual conditioning setups and training protocols in my study significantly differed from previous studies using PER conditioning. A crucial feature found to be important for a successful visual PER conditioning is the duration of the conditioned stimulus presentation. In chapter 6, I systematically tested different length of stimuli presentations, since visual PER conditioning in earlier studies tended to be only successful when the conditioned stimulus is presented for more than 10 seconds. In this thesis, intact honeybee workers could successfully discriminate two monochromatic lights when the stimulus was presented 10 s before reward was offered, but failed, when the duration of stimulus presentation was shorter than 4 s. In order to allow a more comparable conditioning, I developed a new setup which includes a shutter, driven by a PC based software program. The revised setup allows a more precise and automatized visual PER conditioning, facilitating performance levels comparable to olfactory conditioning and providing now an excellent method to evaluate visual perception and cognition of bees under constant and controlled conditions in future studies.}, subject = {Biene}, language = {en} } @phdthesis{Weidner2018, author = {Weidner, Magdalena Theodora}, title = {Brain serotonin throughout development - for better and for worse}, publisher = {Magdalena T. Weidner}, address = {Maastricht, the Netherlands}, isbn = {978-94-6233-940-8}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-163345}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {The work presented in this thesis covers the effects of early-life adversity in the context of altered serotonin (5-HT; 5-hydroxytryptamine) system functioning in mice. The main body is focussing on a screening approach identifying molecular processes, potentially involved in distinct behavioural manifestations that emerge from or are concomitant with early adversity and, with regard to some behavioural manifestations, dependent on the functioning of the 5-HT system.}, subject = {Gehirn}, language = {en} } @phdthesis{Ries2018, author = {Ries, Mathias}, title = {The Role of the Central Bank, Banks and the Bond Market in the Paradigm of Monetary Analysis}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-162997}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Als Folge der Finanzkrise 2008/09 sind unter einigen {\"O}konomen Zweifel an der Ad{\"a}quanz der theoretischen Modelle aufgekommen, insbesondere {\"u}ber diejenigen, die den Anspruch erheben, Finanzm{\"a}rkte und Banken zu modellieren. Aufgrund dieser Zweifel folgen einige {\"O}konomen einer neuen Str{\"o}mung, indem sie versuchen, ein neues Paradigma zu entwickeln, das auf einer geldwirtschaftlichen anstatt auf einer g{\"u}terwirtschaftlichen Theorie beruht. Der Hauptunterschied zwischen diesen beiden Sichtweisen ist, dass in einer G{\"u}terwirtschaft Geld keine essentielle Rolle spielt, wohingegen bei einer Geldwirtschaft jede Transaktion mit Geld abgewickelt wird. Grundlegend ist es deshalb wichtig zu kl{\"a}ren, ob eine Theorie, die Geld miteinschließt, zu anderen Schlussfolgerungen kommt als eine Theorie, die Geld außen vor l{\"a}sst. Ausgehend von dieser Problemstellung stelle ich im zweiten Kapitel die Schlussfolgerungen aus der g{\"u}terwirtschaftlichen Logik des Finanzsystems - modelliert durch die Loanable Funds-Theorie - der geldwirtschaftlichen Logik gegen{\"u}ber. Im Anschluss an die {\"U}berpr{\"u}fung der Schlussfolgerungen beschreibe ich drei Theorien {\"u}ber Banken. Hierbei beschreibt die sog. endogene Geldsch{\"o}fpungstheorie, in der die Zentralbanken die Kreditvergabe der Banken durch Preise steuern, unsere Welt am besten. Die endogene Geldsch{\"o}pfungstheorie ist die Basis f{\"u}r das theoretische Modell im dritten Kapitel. In diesem Modell handeln die Banken nach einem Gewinnmaximierungskalk{\"u}l, wobei die Ertr{\"a}ge aus dem Kreditgesch{\"a}ft erzielt werden und Kosten des Kreditausfallrisikos sowie Kosten durch die Refinanzierung (inklusive regulatorischer Vorschriften) enstehen. Hieraus leitet sich das Kreditangebot ab, das auf dem Kreditmarkt auf die Kreditnachfrage trifft. Die Kreditnachfrage wird durch die Kreditnehmer bestimmt, die f{\"u}r Konsumzwecke bzw. Investitionen Kredite bei Banken aufnehmen. Aus dem Zusammenspiel von Kreditangebot und Kreditnachfrage ergibt sich der gleichgewichtige Kreditzins sowie das gleichgewichtige Kreditvolumen, das Banken an Nichtbanken vergeben. Die Angebots- und Nachfrageseite, die auf dem Kreditmarkt miteinander interagieren, werden ausgehend vom theoretischen Modell empirisch f{\"u}r Deutschland im Zeitraum von 1999-2014 mit Hilfe eines Ungleichgewichtsmodells gesch{\"a}tzt, wobei sich zeigt, dass die Determinanten aus dem theoretischen Modell statistisch signifikant sind. Aufbauend auf dem theoretischen Bankenmodell wird das Modell im vierten Kapitel um den Bondmarkt erweitert. Der Bankenkredit- und der Bondmarkt sind im Gegensatz zur Beschreibung in der g{\"u}terwirtschaftlichen Analyse fundamental unterschiedlich. Zum Einen schaffen Banken Geld gem{\"a}ß der endogenen Geldsch{\"o}pfungstheorie. Sobald das Geld im Umlauf ist, k{\"o}nnen Nichtbanken dieses Geld umverteilen, indem sie es entweder f{\"u}r den G{\"u}terkauf verwenden oder l{\"a}ngerfristig ausleihen. Aufgrund des Fokusses auf das Finanzsystem in dieser Dissertation wird der Fall betrachtet, in dem Geld l{\"a}ngerfristig ausgeliehen wird. Das Motiv der Anbieter auf dem Bondmarkt, d.h. derjenigen, die Geld verleihen m{\"o}chten, ist {\"a}hnlich wie bei Banken getrieben von der Gewinnmaximierung. Ertr{\"a}ge k{\"o}nnen die Anbieter durch die Zinsen auf Bonds erwirtschaften. Kosten entstehen durch die Opportunit{\"a}tskosten der Geldhaltung als Depositen, den Kreditausfall des Schuldners sowie Kursverluste aufgrund von Zinsver{\"a}nderungen. Die geschilderte Logik basiert auf der Idee, dass Banken Geld schaffen, d.h. Originatoren von Geld sind, und das Geld auf dem Bondmarkt umverteilt wird und somit mehrfache Verwendung findet. Die beiden M{\"a}rkte sind sowohl angebots- als auch nachfrageseitig miteinander verkn{\"u}pft. Zum Einen refinanzieren sich Banken auf dem Bondmarkt, um die Fristentransformation, die durch die Kreditvergabe ensteht, zu reduzieren. Des Weiteren haben Kreditnachfrager die M{\"o}glichkeit, entweder Bankkredite oder Kredite auf dem Bondmarkt nachzufragen. Nach der theoretischen Darstellung des Finanzsystems bestehend aus dem Banken- und Bondmarkt folgt im f{\"u}nften Kapitel die Anwendung des Modells bei Quantitative Easing. Hier ist festzustellen, dass Quantitative Easing bereits bei der Ank{\"u}ndigung der Zentralbank das Verhalten der Marktakteure beeinflusst. Die vier großen Zentralbanken (Bank of Japan, Bank of England, Federal Reserve Bank und Europ{\"a}ische Zentralbank) haben aufgrund der anhaltenden Rezession und der bereits niedrigen kurzfristigen Zinsen das unkonventionelle Instrument des Aufkaufs von Anleihen angewandt. Im theoretischen Modell beeinflusst die Zentralbank bereits durch die Ank{\"u}ndigung die Akteuere auf dem Bondmarkt, sodass es zu sinkenden Risikopr{\"a}mien, da die Zentralbank als sog. 'lender of confidence' auftritt, zu (zumindest kurzfristig) sinkenden Zinserwartungen sowie insgesamt zu sinkenden langfristigen Zinsen kommt. Diese drei Hypothesen werden anhand empirischer Methoden f{\"u}r die Eurozone {\"u}berpr{\"u}ft.}, language = {en} } @phdthesis{TawkTaouk2018, author = {Tawk [Taouk], Caroline S.}, title = {The role of host-stress in the infection by the bacterial pathogen \(Shigella\) \(flexneri\)}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-151107}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {The human-bacterial pathogen interaction is a complex process that results from a prolonged evolutionary arms race in the struggle for survival. The pathogen employs virulence strategies to achieve host colonization, and the latter counteracts using defense programs. The encounter of both organisms results in drastic physiological changes leading to stress, which is an ancient response accompanying infection. Recent evidence suggests that the stress response in the host converges with the innate immune pathways and influences the outcome of infection. However, the contribution of stress and the exact mechanism(s) of its involvement in host defense remain to be elucidated. Using the model bacterial pathogen Shigella flexneri, and comparing it with the closely related pathogen Salmonella Typhimurium, this study investigated the role of host stress in the outcome of infection. Shigella infection is characterized by a pronounced pro-inflammatory response that causes intense stress in host tissues, particularly the intestinal epithelium, which constitutes the first barrier against Shigella colonization. In this study, inflammatory stress was simulated in epithelial cells by inducing oxidative stress, hypoxia, and cytokine stimulation. Shigella infection of epithelial cells exposed to such stresses was strongly inhibited at the adhesion/binding stage. This resulted from the depletion of sphingolipidrafts in the plasma membrane by the stress-activated sphingomyelinases. Interestingly, Salmonella adhesion was not affected, by virtue of its flagellar motility, which allowed the gathering of bacteria at remaining membrane rafts. Moreover, the intracellular replication of Shigella lead to a similar sphingolipid-raft depletion in the membrane across adjacent cells inhibiting extracellular bacterial invasion. Additionally, this study shows that Shigella infection interferes with the host stress granule-formation in response to stress. Interestingly, infected cells exhibited a nuclear depletion of the global RNA-binding stress-granule associated proteins TIAR and TIA-1 and their accumulation in the cytoplasm. Overall, this work investigated different aspects of the host stress-response in the defense against bacterial infection. The findings shed light on the importance of the host stress-pathways during infection, and improve the understanding of different strategies in host-pathogen interaction.}, subject = {Shigella flexneri}, language = {en} } @phdthesis{Gruendler2018, author = {Gr{\"u}ndler, Klaus}, title = {A Contribution to the Empirics of Economic Development - The Role of Technology, Inequality, and the State}, edition = {1. Auflage}, publisher = {W{\"u}rzburg University Press}, address = {W{\"u}rzburg}, isbn = {978-3-95826-072-6 (Print)}, doi = {10.25972/WUP-978-3-95826-073-3}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-141520}, school = {W{\"u}rzburg University Press}, pages = {300}, year = {2018}, abstract = {This dissertation contributes to the empirical analysis of economic development. The continuing poverty in many Sub-Saharan-African countries as well as the declining trend in growth in the advanced economies that was initiated around the turn of the millennium raises a number of new questions which have received little attention in recent empirical studies. Is culture a decisive factor for economic development? Do larger financial markets trigger positive stimuli with regard to incomes, or is the recent increase in their size in advanced economies detrimental to economic growth? What causes secular stagnation, i.e. the reduction in growth rates of the advanced economies observable over the past 20 years? What is the role of inequality in the growth process, and how do governmental attempts to equalize the income distribution affect economic development? And finally: Is the process of democratization accompanied by an increase in living standards? These are the central questions of this doctoral thesis. To facilitate the empirical analysis of the determinants of economic growth, this dissertation introduces a new method to compute classifications in the field of social sciences. The approach is based on mathematical algorithms of machine learning and pattern recognition. Whereas the construction of indices typically relies on arbitrary assumptions regarding the aggregation strategy of the underlying attributes, utilization of Support Vector Machines transfers the question of how to aggregate the individual components into a non-linear optimization problem. Following a brief overview of the theoretical models of economic growth provided in the first chapter, the second chapter illustrates the importance of culture in explaining the differences in incomes across the globe. In particular, if inhabitants have a lower average degree of risk-aversion, the implementation of new technology proceeds much faster compared with countries with a lower tendency towards risk. However, this effect depends on the legal and political framework of the countries, their average level of education, and their stage of development. The initial wealth of individuals is often not sufficient to cover the cost of investments in both education and new technologies. By providing loans, a developed financial sector may help to overcome this shortage. However, the investigations in the third chapter show that this mechanism is dependent on the development levels of the economies. In poor countries, growth of the financial sector leads to better education and higher investment levels. This effect diminishes along the development process, as intermediary activity is increasingly replaced by speculative transactions. Particularly in times of low technological innovation, an increasing financial sector has a negative impact on economic development. In fact, the world economy is currently in a phase of this kind. Since the turn of the millennium, growth rates in the advanced economies have experienced a multi-national decline, leading to an intense debate about "secular stagnation" initiated at the beginning of 2015. The fourth chapter deals with this phenomenon and shows that the growth potentials of new technologies have been gradually declining since the beginning of the 2000s. If incomes are unequally distributed, some individuals can invest less in education and technological innovations, which is why the fifth chapter identifies an overall negative effect of inequality on growth. This influence, however, depends on the development level of countries. While the negative effect is strongly pronounced in poor economies with a low degree of equality of opportunity, this influence disappears during the development process. Accordingly, redistributive polices of governments exert a growth-promoting effect in developing countries, while in advanced economies, the fostering of equal opportunities is much more decisive. The sixth chapter analyzes the growth effect of the political environment and shows that the ambiguity of earlier studies is mainly due to unsophisticated measurement of the degree of democratization. To solve this problem, the chapter introduces a new method based on mathematical algorithms of machine learning and pattern recognition. While the approach can be used for various classification problems in the field of social sciences, in this dissertation it is applied for the problem of democracy measurement. Based on different country examples, the chapter shows that the resulting SVMDI is superior to other indices in modeling the level of democracy. The subsequent empirical analysis emphasizes a significantly positive growth effect of democracy measured via SVMDI.}, subject = {Wirtschaftsentwicklung}, language = {en} } @phdthesis{Popp2018, author = {Popp, Michael}, title = {Mechanisms of platelet activation and receptor regulation in genetically modified mice}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-135494}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {This work summarizes the results of studies on several major aspects of platelet activation and platelet receptor regulation. Therefore, this thesis is divided into four parts. Platelet activation and aggregation at sites of vascular injury is critical to prevent excessive blood loss, but may also lead to life-threatening ischemic disease states, such as myocardial infarction and stroke. Agonist-induced elevation in cytosolic Ca2+ concentrations is essential for platelet activation in hemostasis and thrombosis. The principal route of Ca2+ influx in platelets is store-operated calcium entry (SOCE). The calcium sensor molecule stromal interaction molecule 1 (STIM1) regulates SOCE by activating the membrane calcium channel protein Orai1, but the exact mechanisms of this interaction are not fully understood. Using affinity chromatography to screen for STIM1 interacting proteins in platelets, bridging integrator 2 (BIN2), an adapter protein belonging to the family of BAR proteins that is mainly expressed in the hematopoietic system, was identified. Newly generated BIN2 KO mice were viable and fertile but their platelets displayed markedly impaired SOCE in response to thapsigargin (TG) as well as agonists acting on immunoreceptor tyrosine-based activation motif (ITAM) or G protein-coupled receptors. This SOCE defect resulted in impaired (hem)ITAM induced platelet activation, aggregate formation under flow and procoagulant activity. As a consequence, mice lacking BIN2 in platelets were protected from occlusive arterial thrombus formation and thrombo-inflammatory cerebral infarct progression in a model of experimental stroke. These results identify BIN2 as a critical regulator of platelet SOCE in thrombosis and thrombo-inflammatory disease. Integrin αIIbβ3 plays a central role in the adhesion and aggregation of platelets. Integrin activation requires the transmission of a signal from the small cytoplasmic tails of the α or β subunit to the large extracellular domains resulting in conformational changes of the extracellular domains to enable ligand binding. It was hypothesized that Hic-5 is a novel regulator of integrin αIIbβ3 activation in mice. As demonstrated in the second part of this thesis, lack of Hic-5 had no detectable effect on platelet integrin activation and function in vitro and in vivo under all tested conditions. These results indicate that Hic-5 is dispensable for integrin αIIbβ3 activation and consequently for arterial thrombosis and hemostasis in mice. The Rho GTPase family members RhoA and Rac1 play major roles in platelet activation at sites of vascular injury. Little is known about possible redundant functions of these Rho GTPases in regulating platelet function. To investigate functional redundancies of RhoA and Rac1 in platelet production and function, mice with MK- and platelet-specific double- deficiencies in RhoA and Rac1 were generated. RhoA/Rac1 double-deficiency phenocopied the respective single knockouts without any additional effects in the double-knockout animals, demonstrating for the first time a functional non-redundancy of RhoA and Rac1 in platelet function. Antibodies against platelet glycoproteins (GP) trigger platelet destruction in immune thrombocytopenia (ITP) by binding to Fcγ receptors (FcγRs) on immune cells. However, antibodies against the platelet collagen receptor GPVI exert powerful anti-thrombotic action in vivo by inducing ectodomain shedding of the receptor associated with a transient thrombocytopenia. As shown in the final part of this thesis, blockade or deficiency of the inhibitory FcγRIIB abolished sequestration of anti-GPVI opsonized platelets in the hepatic vasculature and GPVI shedding. This process was mediated by liver sinusoidal endothelial cells (LSEC), the major FcγRIIB expressing cell type in the body. Furthermore, LSEC FcγRIIB mediated hepatic platelet sequestration and contributed to thrombocytopenia in mice treated with antibodies against αIIbβ3, the major target antigen in human ITP. These results reveal a novel and unexpected function of hepatic FcγRIIB in the processing of antibody-opsonized platelets.}, subject = {H{\"a}mostase}, language = {en} } @phdthesis{Schartner2018, author = {Schartner, Christoph}, title = {The regulation of corticotropin releasing hormone receptor 1 gene expression and its role in panic disorder}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-150586}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Panic Disorder (PD) is characterized by unexpected, recurrent panic attacks, which are not restricted to certain situations, medication or stimuli. Like other anxiety disorders, PD is a multifactorial disorder and develops through the interaction of genetic and environmental risk factors. Despite an estimated heritability of up to 48\%, no distinct genetic mechanism could be revealed yet. A dysregulation of the stress response has been shown in patients with PD and several studies could find an association of components of the corticotropin-releasing factor (CRF) system with PD. The corticotropin releasing hormone receptor 1 (CRHR1) is the main receptor of CRF in the brain and thus a crucial regulator of cerebral CRF signaling. Recent genetic studies found an association of certain CRHR1 single nucleotide polymorphisms (SNPs) with PD and other anxiety disorders. Among the associated CRHR1 SNPs, rs17689918 showed further evidence in a multilevel study regulating CRHR1 gene expression in panic-relevant brain regions and affecting brain activation in fMRI experiments, as well as flight behavior in a behavioral avoidance task (Weber et al, 2015). Here, we aimed to investigate the underlying neurogenetic and neurobiological mechanisms, by which the rs17689918 risk allele affects CRHR1 gene expression and receptor function, and its putative function in the pathophysiology of PD. Due to its intronic position and the predicted change of splicing regulatory elements by the risk allele of rs17689918, the expression of alternative spliced CRHR1 isoforms was investigated using quantitative real-time PCR (qPCR) in a human post-mortem brain tissue sample. Of eight known CRHR1 isoforms, expression of three CRHR1 isoforms and the CRHR1-IT1-CRHR1 readthrough transcript variant 5 - all expressing the seven transmembrane domains needed for functional receptors - was analyzed. Subsequently, electrophysiological assays were developed to measure the receptor activity of differentially expressed CRHR1 isoforms via co-expressed Kir2.3 potassium channels in vitro. In a second approach, possible epigenetic regulation of CRHR1 expression by rs17689918 was investigated by analyses of DNA methylation patterns of a CpG Island within the CRHR1 promoter region, firstly in a case-control sample for PD and secondly in a healthy control sample, separated in high and low anxious individuals. To investigate a possible gene × epigene × environment interaction, the impact of early life stress by means of childhood trauma was evaluated via the childhood trauma questionnaire (CTQ). Finally, consequences of differential DNA methylation of the CRHR1 promoter region on gene expression were investigated by luciferase-based reporter gene assays in vitro. The expression of CRHR1β was significantly decreased in amygdalae and midbrains of risk allele carriers. The expression of CRHR1-IT1-CRHR1 readthrough transcript variant 5 was significantly increased in forebrains and midbrains of risk allele carriers. All other analyzed isoforms showed no differences in expression between non-risk and risk allele carriers of rs17689918. The electrophysiological recordings of membrane potential showed an activation of Kir2.3 channels by CRHR1β in contrast to an inconsistent mix of activation and inhibition of Kir2.3 by the main isoform CRHR1α. DNA methylation of the CRHR1 promoter region was significantly reduced in panic disorder patients, as well as in high anxious individuals of an independent healthy control sample, but no direct relation to the rs17689918 risk allele could be discerned. However, the combination of carrying the risk allele, low DNA methylation and high CTQ scores lead to increased sum scores in the Beck Anxiety Inventory (BAI) in healthy individuals. Functional analyses revealed an activation of gene expression by decreased DNA methylation of the promoter region in vitro. Our results revealed that rs17689918 regulates CRHR1 function by increasing the expression of alternative transcript variants with altered function. Our analyses of DNA methylation revealed decreased methylation as a new risk factor for panic disorder and high anxious behavior, which in combination with other risk factors like childhood trauma and the rs17689918 risk allele might further increase cognitive and somatic anxiety symptoms. This supports the role of CRHR1 as a plasticity gene of anxiety behavior, i.e. a gene that is highly regulated by epigenetic or post-transcriptional mechanisms in response to environmental stressors. By its role in CRF signaling, the dysregulation of CRHR1 might extensively affect the stress response and contribute to the pathophysiology of stress-related disorders like PD. The understanding of the underlying mechanisms, especially the genetic and epigenetic regulation, would however enhance CRHR1 as a target of improved future therapeutics for PD and other anxiety disorders.}, subject = {Corticoliberin}, language = {en} } @phdthesis{Confalonieri2018, author = {Confalonieri, Davide}, title = {Development and characterization of a bone marrow stem cell niche model}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-163128}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Kritische Knochendefekte stellen heutzutage ein ungel{\"o}stes Problem in der klinischen Praxis dar, da die verf{\"u}gbaren prothetischen Optionen oft die mechanische Anpassung an das Gewebe nicht gew{\"a}hrleisten oder zu wichtigen immunologischen und Implantat-bedingten Komplikationen f{\"u}hren. In diesem Kontext erm{\"o}glichen Tissue Engineering-Ans{\"a}tze neue Strategien, um in vitro Zell-Material Interaktionen zu untersuchen und so die Implantatmaterialien zu optimieren. In dieser Arbeit habe ich Zell-Material Interaktionen eines neuen Kollagen-basierten Scaffolds untersucht, das langfristig als Tr{\"a}gerstruktur f{\"u}r eine zellbasierte Therapie f{\"u}r kritische Knochendefekte entwickelt werden soll. Im Rahmen der Dissertation konnte ich belegen, dass die Kollagen-basierten makropor{\"o}se Mikrocarrier f{\"u}r die Zellvermehrung humaner mesenchymaler Stammzellen (MSC) und deren osteogene Differenzierung unter GMP Bedingungen verwendet werden k{\"o}nnen. Außerdem habe ich die die Kokultur von h{\"a}matopoietischen Stammzellen des Knochenmarks und multiplen Myelomzellen funktionell charakterisiert. Ich konnte erstmals Kulturbedingungen etablieren, die die Langzeitkultur ohne die Verwendung von Zytokinen erm{\"o}glicht. Mittels dieser Kokultur konnte ich ein Knochenmarknischen-Modell etablieren und die Untersuchung der Expression von zentralen Signalkaskaden der Hom{\"o}ostase dieser Nische untersuchen. Ich konnte die Expression von zwei verschiedenen Isoformen von Osteopontin nachweisen, die in Tiermodellen nicht gefunden werden. Diese Isoformen des Osteopontins habe ich kloniert und die rekombinanten Isoformen exprimiert und ihre Rollen in der Hom{\"o}ostase der Knochenmarknische untersucht. Critical size bone defects represent nowadays an unresolved problem in the clinical practice, where the available prosthetic options often lack adequate mechanical matching to the host tissue or lead to important immunological and implant-related complications. In this context, Tissue Engineering approaches promise more effective strategies to study cell-material interactions in vitro and consequently optimize implant materials. In this work, I investigated the cell-scaffold interactions of a new collagen-based scaffold for a putative cell-based therapy for critical size defects to be developed. In the context of this thesis, I could demonstrate that the collagen-based macroporous microcarriers could be employed for the expansion and osteogenic differentiation of human mesenchymal stromal cells (MSCs) under GMP-compliant conditions. Moreover, I functionally characterized the co-culture of bone marrow hematopoietic stem cells and multiple myeloma cells. I was for the first time able to establish culture conditions allowing their long-term culture in absence of externally supplemented cytokines. Using this co-culture, I was able to establish a bone marrow niche model to investigate the expression of key signaling pathways involved in the niche´s homeostasis. I was able to demonstrate the expression of two different isoforms of Osteopontin, that could not previously be detected in animal models. Finally, I cloned these Osteopontin isoforms, expressed recombinant versions of the isoforms, and investigated their roles in the homeostasis of the bone marrow niche.}, subject = {bone marrow niche}, language = {en} } @phdthesis{Kleffel2018, author = {Kleffel, Sonja Beate}, title = {The role of cancer cell-expressed PD-1 in tumorigenesis and tumor immune evasion}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-151205}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {Melanoma and Merkel cell carcinoma (MCC) are highly aggressive cancers of the skin that frequently escape immune recognition and acquire resistance to chemotherapeutic agents, which poses a major obstacle to successful cancer treatment. Recently, a new class of therapeutics targeting the programmed cell death-1 (PD-1) immune checkpoint receptor has shown remarkable efficacy in the treatment of both cancers. Blockade of PD-1 on T cells activates cancer-specific immune responses that can mediate tumor regression. The data presented in this Ph.D. thesis demonstrates that PD-1 is also expressed by subsets of cancer cells in melanoma and MCC. Moreover, this work identifies PD-1 as a novel tumor cell-intrinsic growth receptor, even in the absence of T cell immunity. PD-1 is expressed by tumorigenic cell subsets in melanoma patient samples and established human and murine cell lines that also co-express ABCB5, a marker of immunoregulatory tumor- initiating cells in melanoma. Consistently, melanoma-expressed PD-1 downmodulates T effector cell functions and increases the intratumoral frequency of tolerogenic myeloid- derived suppressor cells. PD-1 inhibition on melanoma cells by RNA interference, blocking antibodies, or mutagenesis of melanoma-PD-1 signaling motifs suppresses tumor growth in immunocompetent, immunocompromised, and PD-1-deficient tumor graft recipient mice. Conversely, melanoma-specific PD-1 overexpression enhances tumorigenicity, including in mice lacking adaptive immunity. Engagement of melanoma- PD-1 by its ligand PD-L1 promotes tumor growth, whereas melanoma-PD-L1 inhibition or knockout of host-PD-L1 attenuates growth of PD-1-positive melanomas. Mechanistically, the melanoma-PD-1 receptor activates mTOR signaling mediators, including ribosomal protein S6. In a proof-of-concept study, tumoral expression of phospho-S6 in pretreatment tumor biopsies correlated with clinical responses to anti-PD-1 therapy in melanoma patients. In MCC, PD-1 is similarly co-expressed by ABCB5+ cancer cell subsets in clinical tumor specimens and established human cell lines. ABCB5 renders MCC cells resistant to the standard-of-care chemotherapeutic agents, carboplatin and etoposide. Antibody-mediated ABCB5 blockade reverses chemotherapy resistance and inhibits tumor xenograft growth by enhancing chemotherapy-induced tumor cell killing. Furthermore, engagement of MCC-expressed PD-1 by its ligands, PD-L1 and PD-L2, promotes proliferation and activates MCC-intrinsic mTOR signaling. Consistently, antibody- mediated PD-1 blockade inhibits MCC tumor xenograft growth and phosphorylation of mTOR effectors in immunocompromised mice. In summary, these findings identify cancer cell-intrinsic functions of the PD-1 pathway in tumorigenesis and suggest that blocking melanoma- and MCC-expressed PD-1 might contribute to the striking clinical efficacy of anti-PD-1 therapy. Additionally, these results establish ABCB5 as a previously unrecognized chemoresistance mechanism in MCC.}, subject = {Melanom}, language = {en} } @phdthesis{Slawig2018, author = {Slawig, Anne}, title = {Reconstruction methods for the frequency-modulated balanced steady-state free precession MRI-sequence}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-162871}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {This work considered the frequency-modulated balanced steady-state free precession (fm-bSSFP) sequence as a tool to provide banding free bSSFP MR images. The sequence was implemented and successfully applied to suppress bandings in various in vitro and in vivo examples. In combination with a radial trajectory it is a promising alternative for standard bSSFP applications. First, two specialized applications were shown to establish the benefits of the acquisition strategy in itself. In real time cardiac imaging, it was shown that the continuous shift in frequency causes a movement of the bandings across the FOV. Thus, no anatomical region is constantly impaired, and a suitable timeframe can be found to examine all important structures. Furthermore, a combination of images with different artifact positions, similar to phase-cycled acquisitions is possible. In this way, fast, banding-free imaging of the moving heart was realized. Second, acquisitions with long TR were shown. While standard bSSFP suffers from increasing incidence of bandings with higher TR values, the frequency-modulated approach provided banding free images, regardless of the TR. A huge disadvantage of fm-bSSFP, in combination with the radial trajectory, is the decrease in signal intensity. In this work a specialized reconstruction method, the multifrequency reconstruction for frequency-modulated bSSFP (Muffm), was established, which successfully compensated that phenomena. The application of Muffm to several anatomical sites, such as inner ear, legs and cardiac acquisitions, proofed the advantageous SNR of the reconstruction. Furthermore, fm-bSSFP was applied to the clinically highly relevant task of water-fat separation. Former approaches of a phase-sensitive separation procedure in combination with standard bSSFP showed promising results but failed in cases of high inhomogeneity or high field strengths where banding artifacts become a major issue. The novel approach of using the fm-bSSFP acquisition strategy with the separation approach provided robust, reliable images of high quality. Again, losses in signal intensity could be regained by Muffm, as both approaches are completely compatible. Opposed to conventional banding suppression techniques, like frequency-scouts or phase-cycling, all reconstruction methods established in this work rely on a single radial acquisition, with scan times similar to standard bSSFP scans. No prolonged measurement times occur and patient time in the scanner is kept as short as possible, improving patient comfort, susceptibility to motion or physiological noise and cost of one scan. All in all, the frequency-modulated acquisition in combination with specializes reconstruction methods, leads to a completely new quality of images with short acquisition times.}, subject = {Kernspintomografie}, language = {en} } @phdthesis{Wiedenmann2018, author = {Wiedenmann, Jonas}, title = {Induced topological superconductivity in HgTe based nanostructures}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-162782}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {This thesis describes the studies of topological superconductivity, which is predicted to emerge when pair correlations are induced into the surface states of 2D and 3D topolog- ical insulators (TIs). In this regard, experiments have been designed to investigate the theoretical ideas first pioneered by Fu and Kane that in such system Majorana bound states occur at vortices or edges of the system [Phys. Rev. Lett. 100, 096407 (2008), Phys. Rev. B 79, 161408 (2009)]. These states are of great interest as they constitute a new quasiparticle which is its own antiparticle and can be used as building blocks for fault tolerant topological quantum computing. After an introduction in chapter 1, chapter 2 of the thesis lays the foundation for the understanding of the field of topology in the context of condensed matter physics with a focus on topological band insulators and topological superconductors. Starting from a Chern insulator, the concepts of topological band theory and the bulk boundary corre- spondence are explained. It is then shown that the low energy Hamiltonian of mercury telluride (HgTe) quantum wells of an appropriate thickness can be written as two time reversal symmetric copies of a Chern insulator. This leads to the quantum spin Hall effect. In such a system, spin-polarized one dimensional conducting states form at the edges of the material, while the bulk is insulating. This concept is extended to 3D topological insulators with conducting 2D surface states. As a preliminary step to treating topological superconductivity, a short review of the microscopic theory of superconductivity, i.e. the theory of Bardeen, Cooper, and Shrieffer (BCS theory) is presented. The presence of Majorana end modes in a one dimensional superconducting chain is explained using the Kitaev model. Finally, topological band insulators and conventional superconductivity are combined to effectively engineer p-wave superconductivity. One way to investigate these states is by measuring the periodicity of the phase of the Josephson supercurrent in a topological Josephson junction. The signature is a 4π-periodicity compared to the 2π-periodicity in conventional Josephson junctions. The proof of the presence of this effect in HgTe based Josephson junction is the main goal of this thesis and is discussed in chapters 3 to 6. Chapter 3 describes in detail the transport of a 3D topological insulator based weak link under radio-frequency radiation. The chapter starts with a review of the state of research of (i) strained HgTe as 3D topological insulator and (ii) the progress of induc- ing superconducting correlations into the topological surface states and the theoretical predictions of 3D TI based Josephson junctions. Josephson junctions based on strained HgTe are successfully fabricated. Before studying the ac driven Josephson junctions, the dc transport of the devices is analysed. The critical current as a function of temperature is measured and it is possible to determine the induced superconducting gap. Under rf illumination Shapiro steps form in the current voltage characteristic. A missing first step at low frequencies and low powers is found in our devices. This is a signature of a 4π-periodic supercurrent. By studying the device in a wide parameter range - as a 147148 SUMMARY function of frequency, power, device geometry and magnetic field - it is shown that the results are in agreement with the presence of a single gapless Andreev doublet and several conventional modes. Chapter 4 gives results of the numerical modelling of the I -V dynamics in a Josephson junction where both a 2π- and a 4π-periodic supercurrents are present. This is done in the framework of an equivalent circuit representation, namely the resistively shunted Josephson junction model (RSJ-model). The numerical modelling is in agreement with the experimental results in chapter 3. First, the missing of odd Shapiro steps can be understood by a small 4π-periodic supercurrent contribution and a large number of modes which have a conventional 2π-periodicity. Second, the missing of odd Shapiro steps occurs at low frequency and low rf power. Third, it is shown that stochastic processes like Landau Zener tunnelling are most probably not responsible for the 4π contribution. In a next step the periodicity of Josephson junctions based on quantum spin Hall insulators using are investigated in chapter 5. A fabrication process of Josephson junctions based on inverted HgTe quantum wells was successfully developed. In order to achieve a good proximity effect the barrier material was removed and the superconductor deposited without exposing the structure to air. In a next step a gate electrode was fabricated which allows the chemical potential of the quantum well to be tuned. The measurement of the diffraction pattern of the critical current Ic due to a magnetic field applied perpendicular to the sample plane was conducted. In the vicinity to the expected quantum spin Hall phase, the pattern resembles that of a superconducting quantum interference device (SQUID). This shows that the current flows predominantly on the edges of the mesa. This observation is taken as a proof of the presence of edge currents. By irradiating the sample with rf, missing odd Shapiro steps up to step index n = 9 have been observed. This evidences the presence of a 4π-periodic contribution to the supercurrent. The experiment is repeated using a weak link based on a non-inverted HgTe quantum well. This material is expected to be a normal band insulator without helical edge channels. In this device, all the expected Shapiro steps are observed even at low frequencies and over the whole gate voltage range. This shows that the observed phenomena are directly connected to the topological band structure. Both features, namely the missing of odd Shapiro steps and the SQUID like diffraction pattern, appear strongest towards the quantum spin Hall regime, and thus provide evidence for induced topological superconductivity in the helical edge states. A more direct way to probe the periodicity of the Josephson supercurrent than using Shapiro steps is the measurement of the emitted radiation of a weak link. This experiment is presented in chapter 6. A conventional Josephson junction converts a dc bias V to an ac current with a characteristic Josephson frequency fJ = eV /h. In a topological Josephson junction a frequency at half the Josephson frequency fJ /2 is expected. A new measurement setup was developed in order to measure the emitted spectrum of a single Josephson junction. With this setup the spectrum of a HgTe quantum well based Josephson junction was measured and the emission at half the Josephson frequency fJ /2 was detected. In addition, fJ emission is also detected depending on the gate voltage and detection frequency. The spectrum is again dominated by half the Josephson emission at low voltages while the conventional emission is determines the spectrum at high voltages. A non-inverted quantum well shows only conventional emission over the whole gateSUMMARY 149 voltage and frequency range. The linewidth of the detected frequencies gives a measure on the lifetime of the bound states: From there, a coherence time of 0.3-4ns for the fJ /2 line has been deduced. This is generally shorter than for the fJ line (3-4ns). The last part of the thesis, chapter 7, reports on the induced superconducting state in a strained HgTe layer investigated by point-contact Andreev reflection spectroscopy. For the experiment, a HgTe mesa was fabricated with a small constriction. The diameter of the orifice was chosen to be smaller than the mean free path estimated from magne- totransport measurements. Thus one gets a ballistic point-contact which allows energy resolved spectroscopy. One part of the mesa is covered with a superconductor which induces superconducting correlations into the surface states of the topological insulator. This experiment therefore probes a single superconductor normal interface. In contrast to the Josephson junctions studied previously, the geometry allows the acquisition of energy resolved information of the induced superconducting state through the measurement of the differential conductance dI/dV as a function of applied dc bias for various gate voltages, temperatures and magnetic fields. An induced superconducting order parame- ter of about 70µeV was extracted but also signatures of the niobium gap at the expected value around Δ Nb ≈ 1.1meV have been found. Simulations using the theory developed by Blonder, Tinkham and Klapwijk and an extended model taking the topological surface states into account were used to fit the data. The simulations are in agreement with a small barrier at the topological insulator-induced topological superconductor interface and a high barrier at the Nb to topological insulator interface. To understand the full con- ductance curve as a function of applied voltage, a non-equilibrium driven transformation is suggested. The induced superconductivity is suppressed at a certain bias value due to local electron population. In accordance with this suppression, the relevant scattering regions change spatially as a function of applied bias. To conclude, it is emphasized that the experiments conducted in this thesis found clear signatures of induced topological superconductivity in HgTe based quantum well and bulk devices and opens up the avenue to many experiments. It would be interesting to apply the developed concepts to other topological matter-superconductor hybrid systems. The direct spectroscopy and manipulation of the Andreev bound states using circuit quantum electrodynamic techniques should be the next steps for HgTe based samples. This was already achieved in superconducting atomic break junctions by the group in Saclay [Science 2015, 349, 1199-1202 (2015)]. Another possible development would be the on-chip detection of the emitted spectrum as a function of the phase φ through the junction. In this connection, the topological junction needs to be shunted by a parallel ancillary junction. Such a setup would allow the current phase relation I(φ) directly and the lifetime of the bound states to be measured directly. By coupling this system to a spectrometer, which can be another Josephson junction, the energy dependence of the Andreev bound states E(φ) could be obtained. The experiments on the Andreev reflection spectroscopy described in this thesis could easily be extended to two dimensional topological insulators and to more complex geometries, like a phase bias loop or a tunable barrier at the point-contact. This work might also be useful for answering the question how and why Majorana bound states can be localized in quantum spin Hall systems.}, subject = {Quecksilbertellurid}, language = {en} }