@phdthesis{Zhang2014, author = {Zhang, Yi}, title = {Regulation of Agrobacterial Oncogene Expression in Host Plants}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-102578}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2014}, abstract = {Virulent Agrobacterium tumefaciens strains transfer and integrate a DNA region of the tumor-inducing (Ti) plasmid, the T-DNA, into the plant genome and thereby cause crown gall disease. The most essential genes required for crown gall development are the T-DNA-encoded oncogenes, IaaH (indole-3-acetamide hydrolase), IaaM (tryptophan monooxygenase) for auxin, and Ipt (isopentenyl transferase) for cytokinin biosynthesis. When these oncogenes are expressed in the host cell, the levels of auxin and cytokinin increase and cause cell proliferation. The aim of this study was to unravel the molecular mechanisms, which regulate expression of the agrobacterial oncogenes in plant cells. Transcripts of the three oncogenes were expressed in Arabidopsis thaliana crown galls induced by A. tumefaciens strain C58 and the intergenic regions (IGRs) between their coding sequences (CDS) were proven to have promoter activity in plant cells. These promoters possess eukaryotic sequence structures and contain cis-regulatory elements for the binding of plant transcription factors. The high-throughput protoplast transactivation (PTA) system was used and identified the Arabidopsis thaliana transcription factors WRKY18, WRKY40, WRKY60 and ARF5 to activate the Ipt oncogene promoter. No transcription factor promoted the activity of the IaaH and IaaM promoters, despite the fact that the sequences contained binding elements for type B ARR transcription factors. Likewise, the treatment of Arabidopsis mesophyll protoplasts with cytokinin (trans-zeatin) and auxin (1-NAA) exerted no positive effect on IaaH and IaaM promoter activity. In contrast, the Ipt promoter strongly responded to a treatment with auxin and only modestly to cytokinin. The three Arabidopsis WRKYs play a role in crown gall development as the wrky mutants developed smaller crown galls than wild-type plants. The WRKY40 and WRKY60 genes responded very quickly to pathogen infection, two and four hours post infection, respectively. Transcription of the WRKY18 gene was induced upon buffer infiltration, which implicates a response to wounding. The three WRKY proteins interacted with ARF5 and with each other in the plant nucleus, but only WRKY40 together with ARF5 increased activation of the Ipt promoter. Moreover, ARF5 activated the Ipt promoter in an auxin-dependent manner. The severe developmental phenotype of the arf5 mutant prevented studies on crown gall development, nevertheless, the reduced crown gall growth on the transport inhibitor response 1 (TIR1) tir1 mutant, lacking the auxin sensor, suggested that auxin signaling is required for optimal crown gall development. In conclusion, A. tumefaciens recruits the pathogen defense related WRKY40 pathway to activate Ipt expression in T-DNA-transformed plant cells. IaaH and IaaM gene expression seems not to be controlled by transcriptional activators, but the increasing auxin levels are signaled via ARF5. The auxin-depended activation of ARF5 boosts expression of the Ipt gene in combination with WRKY40 to increase cytokinin levels and induce crown gall development.}, subject = {Agrobacterium tumefaciens}, language = {en} } @phdthesis{Dindar2014, author = {Dindar, G{\"u}lcin}, title = {Molecular basis for product-specificity of DOT1 methyltransferases in Trypanosoma brucei}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-102524}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2014}, abstract = {Post-translational histone modifications (PTMs) such as methylation of lysine residues influence chromatin structure and function. PTMs are involved in different cellular processes such as DNA replication, transcription and cell differentiation. Deregulations of PTM patterns are responsible for a variety of human diseases including acute leukemia. DOT1 enzymes are highly conserved histone methyltransferases that are responsible for methylation of lysine 79 on histone H3 (H3K79). Most eukaryotes contain one single DOT1 enzyme, whereas African trypanosomes have two homologues, DOT1A and DOT1B, which methylate H3K76 (H3K76 is homologous to H3K79 in other organisms). DOT1A is essential and mediates mono- and di-methylations, whereas DOT1B additionally catalyzes tri-methylation of H3K76. However, a mechanistic understanding how these different enzymatic activities are achieved is lacking. This thesis exploits the fact that trypanosomes possess two DOT1 enzymes with different catalytic properties to understand the molecular basis for the differential product-specificity of DOT1 enzymes. A trypanosomal nucleosome reconstitution system was established to analyze methyltransferase activity under defined in vitro conditions. Homology modeling allowed the identification of critical residues within and outside the catalytic center that modulate product-specificity. Exchange of these residues transferred the product-specificity from one enzyme to the other and revealed regulatory domains adjacent to the catalytic center. This work provides the first evidence that few specific residues in DOT1 enzymes are crucial to catalyze methyl-state-specific reactions. These results have also consequences for the functional understanding of homologous enzymes in other eukaryotes.}, subject = {Histon-Methyltransferase}, language = {en} } @phdthesis{Sailer2014, author = {Sailer, Rudolf}, title = {Stability and Stabilization of Large-Scale Digital Networks}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-101509}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2014}, abstract = {Several aspects of the control of large-scale systems communicating over digital channels are considered. In particular, the issue of delay, quantization, and packet loss is addressed with the help of dynamic quantization. New small-gain results suitable for networked control systems are introduced and it is shown that many of the known small-gain conditions are equivalent. The issue of bandwidth limitations is addressed with the help of event-triggered control. A novel approach termed parsimonious triggering is introduced, which helps to rule out the occurrence of an infinite number of triggering events within finite time. Moreover, the feasibility of the presented approaches is demonstrated by numerical examples.}, subject = {Rechnernetz}, language = {en} } @phdthesis{Naydenova2014, author = {Naydenova, Tsvetelina}, title = {A Study of Seebeck and Nernst effects in (Ga,Mn)As/normal semiconductor junctions}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-101981}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2014}, abstract = {The discovery of the Giant Magneto Resistance (GMR) effect in 1988 by Albert Fert [Baib 88] and Peter Gr{\"u}nberg [Bina 89] led to a rapid development of the field of spintronics and progress in the information technology. Semiconductor based spintronics, which appeared later, offered a possibility to combine storage and processing in a single monolithic device. A direct result is reduced heat dissipation. The observation of the spin Seebeck effect by Ushida [Uchi 08] in 2008 launched an increased interest and encouraged research in the field of spin caloritronics. Spintronics is about the coupling of charge and spin transport. Spin caloritronics studies the interaction between heat and spin currents. In contrast to spintronics and its variety of applications, a particular spin-caloritronic device has not yet been demonstrated. However, many of the novel phenomena in spin caloritronics can be detected in most spintronic devices. Moreover, thermoelectric effects might have a significant influence on spintronic device operation. This will be of particular interest for this work. Additional knowledge on the principle of coupling between heat and spin currents uncovers an alternative way to control heat dissipation and promises new device functionalities. This thesis aims to further extend the knowledge on thermoelectrics in materials with strong spin-orbit coupling, in this case the prototypical ferromagnetic semiconductor (Ga,Mn)As. The study is focused on the thermoelectric / thermomagnetic effects at the interface between a normal metal and the ferromagnetic (Ga,Mn)As. In such systems, the different interfaces provide a condition for minimal phonon drag contribution to the thermal effects. This suggests that only band contributions (a diffusion transport regime) to these effects will be measured. Chapter 2 begins with an introduction on the properties of the studied material system, and basics on thermoelectrics and spin caloritronics. The characteristic anisotropies of the (Ga,Mn)As density of states (DOS) and the corresponding magnetic properties are described. The DOS and magnetic anisotropies have an impact on the transport prop- erties of the material and that results in effects like tunneling anisotropic magnetores- istance (TAMR) [Goul 04]. Some of these effects will be used later as a reference to the results from thermoelectric / thermomagnetic measurements. The Fingerprint tech- nique [Papp 07a] is also described. The method gives an opportunity to easily study the anisotropies of materials in different device geometries. Chapter 3 continues with the experimental observation of the diffusion thermopower of (Ga,Mn)As / Si-doped GaAs tunnel junction. A device geometry for measuring the diffusion thermopower is proposed. It consists of a Si - doped GaAs heating channel with a Low Temperature (LT) GaAs / (Ga,Mn)As contact (junction) in the middle of the channel. A single Ti / Au contact is fabricated on the top of the junction. For transport characterization, the device is immersed in liquid He. A heating current technique is used to create a temperature difference by local heating of the electron system on the Si:GaAs side. An AC current at low frequency is sent through the channel and it heats the electron population in it, while the junction remains at liquid He temperature (experimentally con- firmed). A temperature difference arises between the heating channel and the (Ga,Mn)As contact. As a result, a thermal (Seebeck) voltage develops across the junction, which we call tunnelling anisotropic magneto thermopower (TAMT), similar to TAMR. TAMT is detected by means of a standard lock-in technique at double the heating current frequency (at 2f ). The Seebeck voltage is found to be linear with the temperature difference. That dependence suggests a diffusion transport regime. Lattice (phonon drag) contribution to the thermovoltage, which is usually highly nonlinear with temperature, is not observed. The value of the Seebeck coefficient of the junction at 4.2 K is estimated to be 0.5 µV/K. It is about three orders of magnitude smaller than the previously reported one [Pu 06]. Subsequently, the thermal voltage is studied in external magnetic fields. It is found that the thermopower is anisotropic with the magnetization direction. The anisotropy is explained with the anisotropies of the (Ga,Mn)As contact. Further, switching events are detected in the thermopower when the magnetic field is swept from negative to positive fields. The switchings remind of a spin valve signal and is similar to the results from previous experiments on spin injection using a (Ga,Mn)As contacts in a non-local detection scheme. That shows the importance of the thermoelectric effects and their possible contribution to the spin injection measurements. A polar plot of the collected switching fields for different magnetization angles reveals a biaxial anisotropy and resembles earlier TAMR measurements of (Ga,Mn)As tunnel junction. A simple cartoon model is introduced to describe and estimate the expected thermopower of the studied junction. The model yields a Fermi level inside of the (Ga,Mn)As valence band. Moreover, the model is found to be in good agreement with the experimental results. The Nernst effect of a (Ga,Mn)As / GaAs tunnel junction is studied in Chapter 4. A modified device geometry is introduced for this purpose. Instead of a single contact on the top of the square junction, four small contacts are fabricated to detect the Nernst signal. A temperature difference is maintained by means of a heating current technique described in Chapter 3. A magnetic field is applied parallel to the device plane. A voltage drop across two opposite contacts is detected at 2f. It appears that a simple cosine function with a parameter the angle between the magnetization and the [100] crystal direction in the (Ga,Mn)As layer manages to describe this signal which is attributed to the anomalous Nernst effect (ANE) of the ferromagnetic contact. Its symmetry is different than the Seebeck effect of the junction. For the temperature range of the thermopower measurements the ANE coefficient has a linear dependence on the temperature difference (∆T). For higher ∆T, a nonlinear dependence is observed for the coefficient. The ANE coefficient is found to be several orders of magnitude smaller than any Nernst coefficient in the literature. Both the temperature difference and the size of the ANE coefficient require further studies and analysis. Switching events are present in the measured Nernst signal when the magnetic field is swept from positive to negative values. These switchings are related to the switching fields in the ferromagnetic (Ga,Mn)As. Usually, there are two states which are present in TAMR or AMR measurements - low and high resistance. Instead of that, the Nernst signal appears to have three states - high, middle and low thermomagnetic voltage. That behaviour is governed not only by the magnetization, but also by the characteristic of the Nernst geometry. Chapter 5 summarizes the main observations of this thesis and contains ideas for future work and experiments.}, subject = {Galliumarsenid}, language = {en} } @phdthesis{Zieschang2014, author = {Zieschang, Fabian}, title = {Energy and Electron Transfer Studies of Triarylamine-based Dendrimers and Cascades}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-101866}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2014}, abstract = {In this work the synthesis of dendritic macromolecules and small redox cascades was reported and studies of their energy and electron transfer properties discussed. The chromophores in the dendrimers and the redox cascades are linked via triazoles, which were built up by CuAAC. Thereby, a synthetic concept based on building blocks was implemented, which allowed the exchange of all basic components. Resulting structures include dendrimers composed exclusively of TAAs (G1-G3), dendrimers with an incorporated spirobifluorene core (spiro-G1 and spiro-G2) and the donor-acceptor dendrimer D-A-G1, in which the terminal groups are exchanged by NDIs. Furthermore, a series of model compounds was synthesised in order to achieve a better understanding of the photophysical processes in the dendrimers. A modification of the synthetic concept for dendrimers enabled the synthesis of a series of donor-acceptor triads (T-Me, T-Cl and T-CN) consisting of two TAA donors and one NDI acceptor unit. The intermediate TAA chromophore ensured a downhill redox gradient from the NDI to the terminal TAA, which was proved by cyclic voltammetry measurements. The redox potential of the intermediate TAA was adjusted by different redox determining substituents in the "free" p-position of the TAA. Additionally, two dyads (Da and Db) were synthesised which differ in the junction of the triazole to the TAA or the NDI, respectively. In these cascades a nodal-plane along the N-N-axes in the NDI and a large twist angle between the NDI and the N-aryl substituent guaranteed a small electronic coupling. The photophysical investigations of the dendrimers focused on the homo-energy transfer properties in the TAA dendrimers G1-G3. Steady-state emission spectroscopy revealed that the emission takes place from a charge transfer state. The polar excited state resulted in a strong Stokes shift of the emission, which in turn led to a small spectral overlap integral between the absorption of the acceptor and the emission of the donor in the solvent relaxed state. According to the F{\"o}rster theory, the overlap integral strongly determines the energy transfer rate. Fluorescence up-conversion measurements showed a strong and rapid initial fluorescence anisotropy decay and a much slower decrease on the longer time scale. The experiment revealed a fast energy transfer in the first 2 ps followed by a much slower energy hopping. Time resolved emission spectra (TRES) of the model compound M indicated a solvent relaxation on the same time scale as the fast energy transfer. The F{\"o}rster estimation of energy transfer rates in G1 explains fast energy transfer in the vibrotionally relaxed state before solvent relaxation starts. Thereby, the emission spectrum of G1 in cyclohexane served as the time zero spectrum. Thus, solvent relaxation and fast energy transfer compete in the first two ps after excitation and it is crucial to discriminate between energy transfer in the Franck-Condon and in the solvent relaxed state. Furthermore, this finding demonstrates that fast energy transfer occurs even in charge transfer systems where a large Stokes shift prevents an effective spectral overlap integral if there is a sufficient overlap integral in before solvent relaxation. Energy transfer upon excitation was also observed in the spiro dendrimers spiro-G1 and spiro-G2 and identified by steady-state emission anisotropy measurements. It was assumed that the energy in spiro-G1 is completely distributed over the entire molecule while the energy in spiro-G2 is probably distributed over only one individual branch. This finding was based on a more polarised emission of spiro-G2 compared to spiro-G1. This issue has to be ascertained by e.g. time resolved emission anisotropy measurements in further energy transfer studies. Concerning the electron transfer properties of TAA-triazole systems the radical cations of G1-G2, spiro-G1 and spiro-G2 and of the model compound M were investigated by steady-state absorption spectroscopy. Experiments showed that the triazole bridge exhibits small electronic communication between the adjacent chromophores but still possesses sufficient electronic coupling to allow an effective electron transfer from one chromophore to the other. Due to the high density of chromophores, their D-A-D structure and their superficial centrosymmetry, the presented dendrimers are prospective candidates for two-photon absorption applications. The dyads, triads and the donor-acceptor dendrimer D-A-G1 were investigated regarding their photoinduced electron transfer properties and the effects that dominate charge separation and charge recombination in these systems. The steady-state absorption spectra of all cascades elucidated a superposition of the absorption characteristics of the individual subunits and spectra indicated that the chromophores do not interact in the electronic ground state. Time resolved transient absorption spectroscopy of the cascades was performed in the fs- and ns-time regime in MeCN and toluene as solvent. Measurements revealed that upon with 28200 cm-1 (355) nm and 26300 cm-1 (380 nm), respectively, an electron is transferred from the TAA towards the NDI unit yielding a CS state. In the triads at first a CS1 state is populated, in which the NDI is reduced and the intermediate TAA1 is oxidised. Subsequently, an additional electron transfer from the terminal TAA2 to TAA1 led to the fully CS2 state. Fully CS states of the dyads and triads exhibit lifetimes in the ns-time regime. In contrast for Db in MeCN, a lifetime of 43 ps was observed for the CS state together with the population of a 3NDI state. The signals of the other CS states decay biexponentially, which is a result of the presence of the 1CS and the 3CS states. While magnetic field dependent measurements of Db did not show an effect due to the large singlet-triplet splitting, T-CN exhibited a strong magnetic field dependence which is an evidence for the 1CS/3CS assignment. Further analysis of the singlet-triplet dynamics are required and are currently in progress. Charge recombination occurred in the Marcus inverted region for compounds solved in toluene and in the Marcus normal region for MeCN as solvent. However, a significant inverted region effect was observed only for Db. Triads are probably characterised by charge recombination rates in the inverted and in the normal region near to the vertex of the Marcus parabola. Hence the inverted region effect is not pronounced and the rate charge recombination rates are all in the same magnitude. However, compared to the charge recombination rate of Db the enlarged spatial distance between the terminal TAA and the NDI in the fully CS2 states in the triads resulted in reduced charge recombination rates by ca. one order of magnitude. More important than a small charge recombination rate is an overall lifetime of the CS states and this lifetime can significantly be enhanced by the population of the 3CS state. The reported results reveal that a larger singlet-triplet splitting in the dyads led to a CS state lifetime in the us time regime while a lifetime in the ns-time regime was observed in cases of the triads. Moreover, the singlet-triplet splitting was found to be solvent dependent in the triads, which is a promising starting point for further investigations concerning singlet-triplet splitting. The donor-acceptor dendrimer D-A-G1 showed similar characteristics to the dyads. The generation of a CS state is assumed due to a clear NDI radical anion band in the transient absorption spectrum. Noteworthy, the typical transient absorption band of the TAA radical cation is absent for D A-G1 in toluene. Bixon-Jortner analysis yielded a similar electronic coupling in D-A-G1 compared to the dyads. However, the charge recombination rate is smaller than of Db due to a more energetic CS state, which in the inverted region slows down charge recombination. In combination a singlet-triplet splitting similar to the dyads prolongs the CS state lifetime up to 14 us in diluted solution. Both effects result in an even better performance of D-A-G1 concerning energy conversion. D A-G1 is therefore a promising key structure for further studies on light harvesting applications. In a prospective study a second generation donor-acceptor dendrimer D-A-G2 might be an attractive structure accessible by "click reaction" of 13 and 8. D-A-G2 is expected to exhibit a downhill oriented gradient of CS states as assumed from the CV studies on G1-G3.}, subject = {Sternpolymere}, language = {en} } @phdthesis{Voelker2014, author = {V{\"o}lker, Sebastian}, title = {Synthesis, Spectroscopic and Electrochemical Properties of Squaraine Polymers}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-101638}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2014}, abstract = {In this work the synthesis, the spectroscopic and electrochemical investigation as well as some applications of a broad diversity of indolenine squaraine dyes were presented. This diversity was based on two parent squaraine dyes, one standard trans-configured compound (M1) and one in which one central oxygen atom was replaced by a dicyanomethylene moiety (M2), which increased the acceptor strength and induced a cis-configuration. The variety of synthesised dyes included functionalised squaraine monomers, donor- and acceptor-substituted monomeric model squaraines, donor- and acceptor-squaraine copolymers, pure squaraine homopolymers, a squaraine-squaraine copolymer, as well as some conjugated cyclic oligomers. In order to be able to synthesise all these different kinds of dyes, several bromine and boronic ester derivatives were synthesised, which enabled the use of the Suzuki cross coupling reaction, to generate model dyes and copolymers. In addition, the bromine derivatives were used to carry out the Yamamoto homocoupling reaction to the respective homopolymers and macrocycles. The absorption maximum of unsubstituted reference dye M1 was found at ~ 15500 cm-1, while that of M2 was red-shifted to ~ 14300 cm-1 due to the increased acceptor strength of the central unit. The extinction coefficients were in the order of ~ 300000 M-1 cm-1 and ~ 200000 M-1 cm-1, respectively. It was found that the implementation of functional groups (M3-M9), additional electron donors (M10-M19) or acceptors (M20-M22) at the periphery lead to bathochromic shifts of the absorption depending on the strength of either - and/or -donating properties of the substituents. For the bis- and triarylamine substituted dyes M10-M13 and the dibrominated dyes M5 and M7 the electronic structure of the mono- and diradical (di)cations was explored using the interplay of cyclic voltammetry, spectroelectrochemistry, and DFT calculations. It was demonstrated that the monoradical cations still show a cyanine-like character and are delocalised Robin-Day class III species due to the low redox potential of the squaraine bridge between the additional amine redox centres. To the best of my knowledge, this made M13+∙, with an N-N-distance of 26 bonds between the additional redox centres to the longest bis(triarylamine) radical cation that is completely delocalised. For the diradical dications, the situation was of larger complexity. The computed most stable energetic state of the dianisylamine-substituted dyes turned out to be a broken-symmetry state with almost equal contributions of an open-shell singlet and triplet state. In addition, it was shown that the HOMO-1→HOMO transition dominated the absorption spectra of the diradical dications where the trans-/cis-configuration of the squaraines had a direct impact due to symmetry reasons. Based on the donor-squaraine model compounds M10-M19, a series of donor-squaraine copolymers was synthesised (P7-P12) in order to further red shift and broaden the low energy absorption band. However, these effects were only of marginal extent. Both the optical and the electrochemical derived band gaps were barely lowered compared to the respective monomeric model dyes. This was assigned to an increased squaraine-squaraine distance and resulting lower exciton coupling between the squaraine chromophores due to the bridging units. In addition, according to semiempirical calculations the bridges were twisted out of the squaraine plane what reduced conjugational effects between the chromophores. To sum up, the idea to insert additional electron rich bridging units in order to create copolymers with broad and red-shifted absorption did not fully work out for the presented systems. The addition of strong electron accepting NDI units at the periphery resulted in M21, the most unique monomeric model squaraine in this work. The common picture of a sharp low energy squaraine absorption completely altered due to the addition of the NDIs and a rather broad and solvent dependent low energy absorption was found. Spectroelectrochemical experiments and semiempirical calculations showed that this band is a superposition of the common squaraine HOMO→LUMO transition and a partial squaraine→NDI charge transfer transition. The latter was lost upon oxidation of the squaraine and the absorption spectrum of the monocation of M21 was found to be nearly a 1:1 image of a pure squaraine monocation. Both the monomeric model M21 and the respective copolymer P13 showed low electrochemically obtained band gaps of 1.05-1.20 eV, which were the lowest of all squaraines in this work. For both dyes, transient absorption measurements in the fs-time regime revealed the ultrafast formation of a CS state via an intermediate CT state within a few ps. Besides, charge recombination to the ground state also occured within a few ps. In the polymer, there was barely any further energy or charge transfer within the excited state lifetime and therefore the CS state was confined on adjacent squaraine-NDI pairs and did not further travel along the polymer strand. The Ni-mediated Yamamoto homocoupling reaction was applied for the synthesis of the homopolymers (P1-P5). In contrast to the donor-squaraine copolymers, those polymers revealed strongly red-shifted and broad absorption in the red to NIR region in addition to a sharp fluorescence. These features could be explained to originate mainly from the exciton coupling of localised excited states and the presence of different superstructures in solution. For the polymers P1 and P2, an elongated J-type polymer chain caused the strong lowest energy absorption band whereas a zig-zag type arrangement of the single chromophores lead to transitions into both low and high energy excited states of the excitonic manifold. For the polymers P3 and P4, several polymer fractions of different size were investigated. Here, also an elongated chain with J-type character induced the lowest energy absorption band whereas a helical H-type arrangement caused transitions to higher energies of the excitonic manifold. The fractions to which these structures were formed depended on the chain length and the solvent. In thin film measurements, it was shown that the initially in solution formed superstructures were partly retained in the thin film but could be altered by annealing procedures. A control of the superstructures should enable the controlled tuning of the optical properties. Despite the strong interaction of the chromophores in the excited state, the redox potentials of the homopolymers barely differed to those of the respective reference dyes, indicating negligible electronic interaction in the ground state. In addition squaraine-squaraine copolymer P6, consisting of alternating parent dyes M1 and M2, was synthesised. Likewise to the homopolymers, a broad and red-shifted absorption was observed. This was explained by exciton coupling theory, which was extended to also suit alternating copolymers. In toluene, an extraordinary narrow and intense lowest energy absorption band was observed. This exchange narrowing might be a result of a highly ordered J-type structure of the polymer especially in this solvent because it was not found in others. The features of the polymer may be compared to typical J-aggregates formed from monomeric cyanine molecules for example and the polymer used as model for excitonic interactions in an alternating copolymer. Transient absorption measurements revealed a strong energy dependence of the decay traces of the copolymer, most strikingly at early decay times. This was assigned to the occurrence of multiple excitations of one polymer strand (due to the large extinction coefficients of the polymer) and resulting exciton-exciton annihilation. Due to the large exciton diffusion constants that were estimated, the static exciton-exciton annihilation was the rate limiting process of the decay, in contrast to other conjugated polymers, where in thin film measurements the decay was diffusion controlled. To sum up, for the polymers consisting of exclusively squaraine chromophores, it was shown that the exciton coupling of single chromophores with strong transition dipole moments was a fruitful way to tune the absorption spectra. As a side product of some of the polycondensation reactions, unprecedented cyclic conjugated oligomers such as the triarylamine-bridged dimer Dim1, the cyclic homotrimers Tri1-Tri3, and the tetramer Tet1 were obtained by recycling GPC in low yields. Especially the cyclic trimers showed unusual absorption and even more extraordinary fluorescence properties. They showed multiple fluorescence bands in the NIR that covered a range from ~ 8000-12500 cm-1 (800-1250 nm). First hints from theoretical calculations indicated that the trimer was not fully planar but comprised a mixture of both planar and bent single squaraine chromophores. However, final results of the calculations were still missing at the time of writing. In the last part of this work, the application of some monomeric and polymeric squaraines in binary and ternary bulk heterojunction solar cells was demonstrated. Also the utilisation as a dopant in a polymer matrix in an OLED device was shown. The homopolymers P1-P4 were tested in the binary BHJ solar cells revealing poor performances and especially very low short circuit currents. The utilisation of the polymers P3 and P4 that carried the dicyanomethylene group resulted in higher open circuit voltages due to the lower LUMO energy levels but still an overall poor performance. Neither for the different alkyl chains nor for the size of the polymers was a trend observed. In the ternary BHJ solar cells, small amounts of either monomer M14 or polymers P1A, P4-1 or P13 were added to a P3HT/PCBM system in order to generate an additional pathway for charge or energy transfer that should result in a better device performance. However, for none of the tested squaraines, improved solar cells could be built. In similarity to the binary solar cells, the short circuit currents were lower compared to a P3HT/PCBM reference device. These low short circuit currents indicated that the morphology of the squaraine dyes was the major limitation in those devices. It is possible that the dimethyl groups at the indolenine hindered a favoured alignment of the compounds that would allow decent charge transport. In the squaraine doped OLED the squaraine M6 worked rather well as an NIR emitter. Already at low dye loads the fluorescence of the host polymer SY-PPV was completely quenchend and emission from the squaraine was observed. For electroluminescence measurements, a lower dye load (0.5 wt.\%) compared to the photoluminescence measurements was sufficient, indicating that apart from FRET additional quenching mechanisms were at work in the electrically driven devices such as charge carrier dynamics.}, subject = {Squaraine}, language = {en} } @phdthesis{Gieseking2014, author = {Gieseking, Bj{\"o}rn}, title = {Excitation Dynamics and Charge Carrier Generation in Organic Semiconductors}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-101625}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2014}, abstract = {The transport of optically excited states, called excitons, as well as their conversion into charges define the two major steps allowing for the operation of organic photovoltaic (OPV) devices. Hence, a deep understanding of these processes, the involved mechanisms as well as possible loss channels is crucial for further improving the efficiency of organic solar cells. For studying the aforementioned processes spectroscopic methods like absorption and emission measurements are useful tools. As many of the processes take place on a sub-nanosecond (ns) timescale ultrafast spectroscopic methods are required. Due to this reason two experiments based on a femtosecond laser system were built and employed in this work, namely picosecond (ps) time-resolved photoluminescence (PL) and transient absorption (TA) spectroscopy. By analyzing the PL decay dynamics in the prototypical organic semiconductor rubrene, the feasibility of a new approach for improving the efficiency of organic solar cells by harvesting triplet excitons generated by singlet fission was examined. Singlet fission describes a process where two triplet excitons are generated via a photoexcited singlet exciton precursor state if the energy of the two triplets is comparable with the energy of the singlet. For this purpose the influence of characteristic length scales on the exciton dynamics in different rubrene morphologies exhibiting an increasing degree of confinement was analyzed. The results show that the quenching at interfacial states efficiently suppresses the desired fission process if these states are reached by excitons during migration. Since interfacial states are expected to play a significant role in thin film solar cells and are easily accessible for the migrating excitons, the results have to be considered for triplet-based OPV. While the aforementioned approach is only investigated for model systems so far, the efficiency of disordered organic bulk heterojunction (BHJ) solar cells could be significantly enhanced in the last couple of years by employing new and more complex copolymer donor materials. However, little is known about the photophysics and in particular the excitation dynamics of these systems. By carrying out a systematic optical study on the prominent copolymer PCDTBT and its building blocks we were able to identify the nature of the two characteristic absorption bands and the coupling mechanism between these levels. The latter mechanism is based on an intrachain partial charge transfer between two functional subunits and our time-resolved measurements indicate that this coupling governs the photophysical properties of solar cells based on these copolymers. The efficient coupling of functional subunits can be seen as a key aspect that guarantees for the success of the copolymer approach. Another important issue concerns the optimization of the morphology of BHJ solar cells. It arises from the discrepancy between the exciton diffusion length \mbox{(\$\approx\$ 10 nm)} and the absorption length of solar irradiation (\$\approx\$ 100 nm). Due to this reason, even for devices based on new copolymer materials, processing parameters affecting the morphology like annealing or employing processing additives are of major importance. In our combined optical, electrical and morphological study for solar cells based on the high-efficient copolymer PBDTTT-C we find a direct correlation between additive content and intermixing of the active layer. The observed maximum in device efficiency can be attributed to a morphology guaranteeing for an optimized balance between charge generation and transport. Our results highlight the importance of understanding the influence of processing parameters on the morphology of the BHJ and thus on the efficiency of the device.}, subject = {Organische Solarzelle}, language = {en} } @article{SchreierBinnsWu2014, author = {Schreier, Peter and Binns, Colin and Wu, Dayong}, title = {To surrender or to persevere?}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-101096}, year = {2014}, abstract = {Second Editorial of Open Access Journal "Nutrition and Medicine (NUME)" published by W{\"u}rzburg University Press: http://nume.de}, subject = {Wissenschaftliches Arbeiten}, language = {en} } @phdthesis{Zude2014, author = {Zude, Ingmar}, title = {Characterization of virulence-associated traits of Escherichia coli bovine mastitis isolates}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-100934}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2014}, abstract = {Bacterial mastitis is caused by invasion of the udder, bacterial multiplication and induction of inflammatory responses in the bovine mammary gland. Disease severity and the cause of disease are influenced by environmental factors, the cow's immune response as well as bacterial traits. Escherichia coli (E. coli) is one of the main causes of acute bovine mastitis, but although pathogenic E. coli strains can be classified into different pathotypes, E. coli causing mastitis cannot unambiguously be distinguished from commensal E. coli nor has a common set of virulence factors been described for mastitis isolates. This project focussed on the characterization of virulence- associated traits of E. coli mastitis isolates in comprehensive analyses under conditions either mimicking initial pathogenesis or conditions that E. coli mastitis isolates should encounter while entering the udder. Virulence-associated traits as well as fitness traits of selected bovine mastitis or faecal E. coli strains were identified and analyzed in comparative phenotypic assays. Raw milk whey was introduced to test bacterial fitness in native mammary secretion known to confer antimicrobial effects. Accordingly, E. coli isolates from bovine faeces represented a heterogeneous group of which some isolates showed reduced ability to survive in milk whey whereas others phenotypically resembled mastitis isolates that represented a homogeneous group in that they showed similar survival and growth characteristics in milk whey. In contrast, mastitis isolates did not exhibit such a uniform phenotype when challenged with iron shortage, lactose as sole carbon source and lingual antimicrobial peptide (LAP) as a main defensin of milk. Reduced bacterial fitness could be related to LAP suggesting that bacterial adaptation to an intramammary lifestyle requires resistance to host defensins present in mammary secretions, at least LAP. E. coli strain 1303 and ECC-1470 lack particular virulence genes associated to mastitis isolates. To find out whether differences in gene expression may contribute to the ability of E. coli variants to cause mastitis, the transcriptome of E. coli model mastitis isolates 1303 and ECC-1470 were analyzed to identify candidate genes involved in bacterium-host interaction, fitness or even pathogenicity during bovine mastitis. DNA microarray analysis was employed to assess the transcriptional response of E. coli 1303 and ECC-1470 upon cocultivation with MAC-T immortalized bovine mammary gland epithelial cells to identify candidate genes involved in bacterium-host interaction. Additionally, the cell adhesion and invasion ability of E. coli strain 1303 and ECC-1470 was investigated. The transcriptonal response to the presence of host cells rather suggested competition for nutrients and oxygen between E. coli and MAC-T cells than marked signs of adhesion and invasion. Accordingly, mostly fitness traits that may also contribute to efficient colonization of the E. coli primary habitat, the gut, have been utilized by the mastitis isolates under these conditions. In this study, RNA-Seq was employed to assess the bacterial transcriptional response to milk whey. According to our transcriptome data, the lack of positively deregulated and also of true virulence-associated determinants in both of the mastitis isolates indicated that E. coli might have adapted by other means to the udder (or at least mammary secretion) as an inflammatory site. We identified traits that promote bacterial growth and survival in milk whey. The ability to utilize citrate promotes fitness and survival of E. coli that are thriving in mammary secretions. According to our results, lactoferrin has only weak impact on E. coli in mammary secretions. At the same time bacterial determinants involved in iron assimilation were negatively regulated, suggesting that, at least during the first hours, iron assimilation is not a challenge to E. coli colonizing the mammary gland. It has been hypothesized that cellular iron stores cause temporary independency to extracellular accessible iron. According to our transcriptome data, this hypothesis was supported and places iron uptake systems beyond the speculative importance that has been suggested before, at least during early phases of infection. It has also been shown that the ability to resist extracytoplasmic stress, by oxidative conditions as well as host defensins, is of substantial importance for bacterial survival in mammary secretions. In summary, the presented thesis addresses important aspects of host-pathogen interaction and bacterial conversion to hostile conditions during colonization of the mastitis inflammatory site, the mammary gland.}, subject = {Escherichia coli}, language = {en} } @phdthesis{Zarife2014, author = {Zarife, Rami}, title = {Integrative Warning Concept for Multiple Driver Assistance Systems}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-101118}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2014}, abstract = {More warning Advanced Driver Assistance Systems (ADAS) will be integrated into the European vehicles in the coming years, due to the ongoing progress on the way to automated driving and Euro NCAP requirements. Furthermore, upcoming technologies like Car-2-X will extend the sensory horizon of ADAS and enable the possibility to warn drivers earlier against various hazards than today. Regarding this progress, increasing numbers of different ADAS warnings will be communicated to the driver. In this context, an important question is how multiple ADAS warnings can be integrated into the Human Machine Interface (HMI) of vehicles and which warning elements are needed to ensure warning acceptance, efficiency and understandability seen from the driver's point of view. Two driving simulator studies were conducted and the effects of specific warning elements examined to develop a concept for the integration of upcoming warning ADAS, which focuses on early collision warnings. The implemented early warnings were defined with a warning onset of approximately two seconds before the last possible warning onset. Main questions were whether and how drivers profit from warning direction cues and/or warning object cues for their response to a hazard, and how these cues affect the acceptance of an integrated warning ADAS approach. Furthermore, it was analyzed whether a generalized warning can be used for a cluster of different ADAS concerning the group "warning of collisions". Therefore critical scenarios in rural and urban surroundings were evaluated, including frontal and lateral (intersections) scenarios. Unnecessary warnings and false alarms have also been taken into account. The results indicate that early warning direction cues have a high potential to assist drivers with an ADAS warning cluster which covers warning of collisions. In contrast, warning object cues seem to be less important for the drivers' performance and acceptance regarding early collision warnings. According to these findings, this thesis provides recommendations which warning elements should be included into future ADAS warnings in favor of an integrated warning approach.}, subject = {Fahrerassistenz}, language = {en} } @phdthesis{Schaafhausen2014, author = {Schaafhausen, Maximilian}, title = {Development of a fish melanoma angiogenesis model}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-101043}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2014}, abstract = {Malignant melanoma is the most severe form of all skin cancers with a particular poor prognosis once metastases have developed. Angiogenesis, the formation of new blood vessels, is a prominent feature of human melanoma, which have angiogenic activity already early in development. This is at least partly ascribed to the action of MAPK- and PI3K pathways which are hyperactivated in most melanoma. Animal models which combine in depth in vivo examinations with the opportunity to perform small molecular screens are well suited to gain a more detailed insight into how this type of cancer modulates its angiogenic program. Here, a first transgenic melanoma angiogenesis model was established in the fish species Oryzias latipes (Japanese medaka). In this model, tumors are generated by the pigment cell-specific expression of the oncogenic receptor tyrosine kinase Xmrk. Xmrk is a mutated version of the fish Egfp. Furthermore, to get an angiogenesis model, a medaka line with endothelial cell specific GFP expression was used. By using crosses between these Xmrk- and GFP transgenic fishes, it was shown that angiogenesis occurs in a reactive oxygen species- and NF-κB-dependent manner, but was hypoxia-independent. It was observed that blood vessel sprouting and branch point formation was elevated in this model and furthermore that sprouting could even be induced by single transformed cells. The mouse melanocytes expressing the oncogenic receptor tyrosine kinase Xmrk as well human melanoma cells, which display various oncogenic alterations, produced pro-angiogenic factors, most prominently angiogenin, via NF-κB signaling. Furthermore, inhibiting NF-κB action prevented tumor angiogenesis and even led to the regression of existing tumor blood vessels. In summary, the present medaka melanoma angiogenesis model displays a high sensitivity for angiogenesis detection and is perfectly suited as in vivo model for the testing of anti-angiogenesis inhibitors, as exemplified by the NF-kappaB inhibitor. Furthermore, results indicate that it might be a promising anti-tumor strategy to target signaling pathways such as the NF-κB pathway which are able to induce angiogenesis-dependent as well as -independent pro-tumorigenic effects.}, subject = {Melanom}, language = {en} } @phdthesis{Kumari2014, author = {Kumari, Geeta}, title = {Molecular Characterization of the Induction of Cell Cycle Inhibitor p21 in Response to Inhibition of the Mitotic Kinase Aurora B}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-101327}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2014}, abstract = {Aurora B ist eine mitotische Kinase, die entscheidende Funktionen in der Zellteilung aus{\"u}bt. Aurora B ist außerdem in einer Vielzahl von Krebsarten mutiert oder {\"u}berexprimiert. Daher ist die Aurora B Kinase ein attraktives Ziel f{\"u}r die Tumortherapie. Gegenw{\"a}rtig werden Aurora B-Inhibitoren zur Behandlung von soliden Tumoren und Leuk{\"a}mien in verschiedenen klinischen Studien getestet. Es fehlen jedoch Informationen, welche molekularen Mechanismen den beschriebenen Ph{\"a}notypen wie Zellzyklusarrest, Aktivierung des Tumorsuppressors p53 und seines Zielgens p21 nach Aurora B-Hemmung zugrunde liegen. Hauptziel dieser Arbeit war es die Mechanismen der p21-Induktion nach Hemmung von Aurora B zu untersuchen. Es konnte gezeigt werden, dass nach Hemmung von Aurora B die p38 MAPK phosphoryliert und somit aktiviert wird. Experimente mit p38-Inhbitoren belegen, dass p38 f{\"u}r die Induktion von p21 und den Zellzyklusarrest ben{\"o}tigt wird. Die Stabilisierung von p53 nach Aurora B-Inhibition und die Rekrutierung von p53 an den p21-Genpromotor erfolgen jedoch unabh{\"a}ngig vom p38-Signalweg. Stattdessen ist p38 f{\"u}r die Anreicherung der elongierenden RNA-Polymerase II in der kodierenden Region des p21-Gens und f{\"u}r die Bildung des p21 mRNA Transkripts notwendig. Diese Daten zeigen, dass p38 transkriptionelle Elongation des p21-Gens nach Aurora B Hemmung f{\"o}rdert. In weiteren Untersuchungen konnte ich zeigen, dass die Aurora B-Hemmung zu einer Dephosphorylierung des Retinoblastoma-Proteins f{\"u}hrt und dadurch eine Abnahme der E2F-abh{\"a}ngigen Transkription bewirkt. Dies l{\"o}st indirekt einen Zellzyklusarrest aus. Weiterhin konnte mit Hilfe von synchronisierten Zellen gezeigt werden, dass p21 nach Durchlaufen einer abnormalen Mitose induziert wird, jedoch nicht nach Aurora B-Hemmung in der Interphase. Interessanterweise werden p38, p53 und p21 schon bei partieller Inhibition von Aurora B aktiviert. Die partielle Inhibition von Aurora B f{\"u}hrt zu chromosomaler Instabilit{\"a}t aber nicht zum Versagen der Zytokinese und zur Bildung polyploider Zellen. Damit korreliert die Aktivierung des p38-p53-p21-Signalweges nicht mit Tetraploidie sondern mit vermehrter Aneuploidie. Die partielle Hemmung von Aurora B f{\"u}hrt außerdem zur vermehrten Entstehung von reaktive Sauerstoffspezies (ROS), welche f{\"u}r die Aktivierung von p38, p21 und f{\"u}r den Zellzyklusarrest ben{\"o}tigt werden. Basierend auf diesen Beobachtungen kann folgendes Modell postuliert werden: Die Hemmung von Aurora B f{\"u}hrt zu Fehlern in der Chromosomenverteilung in der Mitose und damit zu Aneuploidie. Dies f{\"u}hrt zu vermehrter Produktion von ROS, m{\"o}glicherweise durch proteotoxischer Stress, hervorgerufen durch die Imbalanz der Proteinbiosynthese in aneuploiden Zellen. ROS bewirkt eine Aktivierung der p38 MAPK und tr{\"a}gt damit zur Induktion von p21 und dem resultierenden Zellzyklusarrest bei. Aneuploidie, proteotoxischer und oxidativer Stress stellen Schl{\"u}sselmerkmale von Tumorkrankungen dar. Anhand der Ergebnisse dieser Arbeit k{\"o}nnte die Kombination von Aurora B-Hemmstoffen mit Medikamenten, die gezielt aneuploide Zellen angreifen, in Tumorerkrankungen therapeutisch wirksam sein.}, subject = {Zellzyklus}, language = {en} } @phdthesis{Ganesan2014, author = {Ganesan, Jayavarshni}, title = {The role of microRNA-378 in cardiac hypertrophy}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-100918}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2014}, abstract = {MicroRNAs are endogenous ≈22 nt long non coding RNA molecules that modulate gene expression at the post transcriptional level by targeting mRNAs for cleavage or translational repression. MicroRNA-mRNA interaction involves a contiguous and perfect pairing within complementary sites usually in the 3' UTR of the target mRNA. Heart failure is associated with myocyte hypertrophy and death, due to compensatory pathological remodeling and minimal functional repair along with microRNA deregulation. In this study, we identified candidate microRNAs based on their expression strength in cardiomyocytes and by their ability to regulate hypertrophy. Expression profiling from early and late stages of heart failure showed several deregulated microRNAs. Of these microRNAs, miR-378 emerged as a potentially interesting microRNA that was highly expressed in the mouse heart and downregulated in the failing heart. Antihypertrophic activity of miR-378 was first observed by screening a synthetic miR library for morphologic effects on cardiomyocytes, and validated in vitro proving the tight control of hypertrophy by this miR. We combined bioinformatic target prediction analysis and microarray analysis to identify the targets of miR-378. These analyses suggested that factors of the MAP kinase pathway were enriched among miR-378 targets, namely MAPK1 itself (also termed ERK2), the insulin-like growth factor receptor 1 (IGF1R), growth factor receptor bound protein 2 (GRB2) and kinase suppressor of ras 1 (KSR1). Regulation of these targets by miR-378 was then confirmed by mRNA and protein expression analysis. The use of luciferase reporter constructs with natural or mutated miR-378 binding sites further validated these four proteins as direct targets of miR-378. RNA interference with MAPK1 and the other three targets prevented the prohypertrophic effect of antimiR-378, suggesting that they functionally relate to miR-378. In vivo restoration of disease induced loss of miR-378 in a pressure overload mouse model of hypertrophy using adeno associated virus resulted in partial attenuation cardiac hypertrophy and significant improvement in cardiac function along with reduced expression of the four targets in heart. We conclude from these findings that miR-378 is an antihypertrophic microRNA in cardiomyocytes, and the main mechanism underlying this effect is the suppression of the MAP kinase-signaling pathway on four distinct levels. Restoration of disease-associated loss of miR-378 through cardiomyocyte-targeted AAV-miR-378 may prove as an effective therapeutic strategy in myocardial disease.}, subject = {Hypertrophie}, language = {en} } @phdthesis{Jarschel2014, author = {Jarschel, Michael}, title = {An Assessment of Applications and Performance Analysis of Software Defined Networking}, issn = {1432-8801}, doi = {10.25972/OPUS-10079}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-100795}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2014}, abstract = {With the introduction of OpenFlow by the Stanford University in 2008, a process began in the area of network research, which questions the predominant approach of fully distributed network control. OpenFlow is a communication protocol that allows the externalization of the network control plane from the network devices, such as a router, and to realize it as a logically-centralized entity in software. For this concept, the term "Software Defined Networking" (SDN) was coined during scientific discourse. For the network operators, this concept has several advantages. The two most important can be summarized under the points cost savings and flexibility. Firstly, it is possible through the uniform interface for network hardware ("Southbound API"), as implemented by OpenFlow, to combine devices and software from different manufacturers, which increases the innovation and price pressure on them. Secondly, the realization of the network control plane as a freely programmable software with open interfaces ("Northbound API") provides the opportunity to adapt it to the individual circumstances of the operator's network and to exchange information with the applications it serves. This allows the network to be more flexible and to react more quickly to changing circumstances as well as transport the traffic more effectively and tailored to the user's "Quality of Experience" (QoE). The approach of a separate network control layer for packet-based networks is not new and has already been proposed several times in the past. Therefore, the SDN approach has raised many questions about its feasibility in terms of efficiency and applicability. These questions are caused to some extent by the fact that there is no generally accepted definition of the SDN concept to date. It is therefore a part of this thesis to derive such a definition. In addition, several of the open issues are investigated. This Investigations follow the three aspects: Performance Evaluation of Software Defined Networking, applications on the SDN control layer, and the usability of SDN Northbound-API for creation application-awareness in network operation. Performance Evaluation of Software Defined Networking: The question of the efficiency of an SDN-based system was from the beginning one of the most important. In this thesis, experimental measurements of the performance of OpenFlow-enabled switch hardware and control software were conducted for the purpose of answering this question. The results of these measurements were used as input parameters for establishing an analytical model of the reactive SDN approach. Through the model it could be determined that the performance of the software control layer, often called "Controller", is crucial for the overall performance of the system, but that the approach is generally viable. Based on this finding a software for analyzing the performance of SDN controllers was developed. This software allows the emulation of the forwarding layer of an SDN network towards the control software and can thus determine its performance in different situations and configurations. The measurements with this software showed that there are quite significant differences in the behavior of different control software implementations. Among other things it has been shown that some show different characteristics for various switches, in particular in terms of message processing speed. Under certain circumstances this can lead to network failures. Applications on the SDN control layer: The core piece of software defined networking are the intelligent network applications that operate on the control layer. However, their development is still in its infancy and little is known about the technical possibilities and their limitations. Therefore, the relationship between an SDN-based and classical implementation of a network function is investigated in this thesis. This function is the monitoring of network links and the traffic they carry. A typical approach for this task has been built based on Wiretapping and specialized measurement hardware and compared with an implementation based on OpenFlow switches and a special SDN control application. The results of the comparison show that the SDN version can compete in terms of measurement accuracy for bandwidth and delay estimation with the traditional measurement set-up. However, a compromise has to be found for measurements below the millisecond range. Another question regarding the SDN control applications is whether and how well they can solve existing problems in networks. Two programs have been developed based on SDN in this thesis to solve two typical network issues. Firstly, the tool "IPOM", which enables considerably more flexibility in the study of effects of network structures for a researcher, who is confined to a fixed physical test network topology. The second software provides an interface between the Cloud Orchestration Software "OpenNebula" and an OpenFlow controller. The purpose of this software was to investigate experimentally whether a pre-notification of the network of an impending relocation of a virtual service in a data center is sufficient to ensure the continuous operation of that service. This was demonstrated on the example of a video service. Usability of the SDN Northbound API for creating application-awareness in network operation: Currently, the fact that the network and the applications that run on it are developed and operated separately leads to problems in network operation. SDN offers with the Northbound-API an open interface that enables the exchange between information of both worlds during operation. One aim of this thesis was to investigate whether this interface can be exploited so that the QoE experienced by the user can be maintained on high level. For this purpose, the QoE influence factors were determined on a challenging application by means of a subjective survey study. The application is cloud gaming, in which the calculation of video game environments takes place in the cloud and is transported via video over the network to the user. It was shown that apart from the most important factor influencing QoS, i.e., packet loss on the downlink, also the type of game type and its speed play a role. This demonstrates that in addition to QoS the application state is important and should be communicated to the network. Since an implementation of such a state conscious SDN for the example of Cloud Gaming was not possible due to its proprietary implementation, in this thesis the application "YouTube video streaming" was chosen as an alternative. For this application, status information is retrievable via the "Yomo" tool and can be used for network control. It was shown that an SDN-based implementation of an application-aware network has distinct advantages over traditional network management methods and the user quality can be obtained in spite of disturbances.}, subject = {Leistungsbewertung}, language = {en} } @phdthesis{Biehl2014, author = {Biehl, Stefanie}, title = {The Impact of Adult Attention Deficit/ Hyperactivity Disorder, Methylphenidate, and the COMT Val158Met Polymorphism on Selective Attention and Working Memory}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-100959}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2014}, abstract = {Theories of attention deficit hyperactivity disorder (ADHD) aetiology have placed a focus on impaired behavioural inhibition presumably leading to executive function (EF) deficits. Neuroimaging studies report neurophysiological findings consistent with these hypothesised impairments, and investigations of functional brain activation from a network perspective report hypoactivation in the frontoparietal network as well as hyperactivation in the dorsal attention network. Studies investigating the acute effects of stimulant medication on EF show an improvement on behavioural EF measures including working memory. In addition, methylphenidate (MPH) was shown to up-regulate the task-positive/ frontoparietal network in children and adolescents with ADHD. So far, there are only few studies investigating the impact of ADHD on behavioural and neurophysiological EF measures as well as the effect of several weeks of stimulant medication in adult patients. The importance of the catechol-O-methyltransferase (COMT) enzyme for subcortical and cortical dopaminergic and noradrenergic functioning furthermore led to studies investigating a potential interactive impact of COMT genotype and ADHD on neuropsychological functioning, with a particular focus on working memory. The results of these studies were very heterogeneous. In addition, as none of the studies compared the results of ADHD patients to those of a healthy control group, possible differential effects of COMT in patients and healthy controls could not be examined. The aim of this dissertation was to investigate selective attention properties of the central executive component during a working memory task and to transfer this task to fMRI. A third study then aimed to investigate the effects of adult ADHD (aADHD), MPH, and COMT genotype on working memory with a particular focus on activation of the task-positive network during the analysis of the fMRI data. The first study (EEG) could replicate and extend the results from previous research. This study could furthermore connect the overall activation in frontal areas to suppression efficiency in posterior visual areas as well as establish the impact of hyperactive/ impulsive ADHD symptoms on task performance. The second study (fMRI) allowed the successful transfer of the paradigm to fMRI, and the further replication and extension of previous findings. In addition, this study showed the sensitivity of the task to the effects of the COMT genotype. The third study (fMRI) was one of the first studies that exploratorily investigated the effects COMT in a sample of aADHD patients and a comparable healthy control group. This study showed an interactive effect of these two factors on neuropsychological measures as well as on fMRI activation during a classic n-back working memory task. In addition, this task led to more activation in the task-positive network of the aADHD group compared to a healthy control group in the absence of performance differences, pointing towards compensatory activation in the aADHD group. Furthermore, activation in the frontal cortex was increased in patients taking MPH compared to a placebo. The fMRI data from the selective attention task moreover showed decreased activation in the right DLPFC of the patient group, which was associated with reduced suppression efficiency across all participants. The clinical effect of MPH in the third study was visible but did not reach significance, which is probably attributable to a lack of experimental power. The studies in this dissertation could successfully replicate and extend previous findings. A goal for future studies should be the further investigation of the interactive effects of COMT genotype and aADHD on neuropsychological test results and fMRI activation, but also on medication response and adverse effects. In this context, the adaptation of a network perspective during the analysis of fMRI data seems to be the best way to detect existing between-group differences.}, subject = {Aufmerksamkeits-Defizit-Syndrom}, language = {en} } @article{GruenwaldFastMuelleretal.2014, author = {Gr{\"u}nwald, Stefanie and Fast, Anna and M{\"u}ller, Karen and Boll, Michael and Kler, Adolf and Bonnl{\"a}nder, Bernd and Wenzel, Uwe}, title = {Feeding a grape seed extract extends the survival of the red flour beetle Tribolium castaneum under heat-stress depending on nrf-2, jnk-1, and foxo-1 homologous genes but independent of catechin monomers}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-101089}, year = {2014}, abstract = {Besides caloric restriction, a diet rich in fruits and vegetables is believed to delay the ageing process thus providing a powerfull tool in preventive medicine. To investigate underlying interactions between food ingredients and genes simple models, such as the red flour beetle Tribolium castaneum, appear especially constructive. Here we show that 1 \% of a grape seed extract containing 30 \% of procyanidins, significantly increases the survival of T. castaneum at 42 °C when added to flour as a dietary source. The beneficial effects of grape seed extract could not be reproduced by supplementing flour with single catechins of which the oligomeric procyanidins consist. We identified previously stress resistance genes responsible for a survival extension by dietary ingredients and show here by the use of RNA-interference that a knockdown of transcripts encoding homologues of Nrf-2 or Jnk-1 block the effects of grape seed extract on survival. Interestingly, grape seed extract under knockdown of Foxo-1 caused a significant survival reduction, stressing the hormetic response as underlying the survival extension by the dietary interventions. In conclusion, our studies provide evidence that a procyanidin-rich extract is able to extend the survival of the model organism T. castaneum. Catechin monomers, however, appear not to mediate the effects. The active ingredients, moreover, need the presence of stress resistance factors, and here especially of Foxo-1, in order to promote their preventive activities with regard to degenerations.}, subject = {Langlebigkeit}, language = {en} } @phdthesis{Koenig2014, author = {K{\"o}nig, Joachim}, title = {The inverse Galois problem and explicit computation of families of covers of \(\mathbb{P}^1\mathbb{C}\) with prescribed ramification}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-100143}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2014}, abstract = {In attempting to solve the regular inverse Galois problem for arbitrary subfields K of C (particularly for K=Q), a very important result by Fried and V{\"o}lklein reduces the existence of regular Galois extensions F|K(t) with Galois group G to the existence of K-rational points on components of certain moduli spaces for families of covers of the projective line, known as Hurwitz spaces. In some cases, the existence of rational points on Hurwitz spaces has been proven by theoretical criteria. In general, however, the question whether a given Hurwitz space has any rational point remains a very difficult problem. In concrete cases, it may be tackled by an explicit computation of a Hurwitz space and the corresponding family of covers. The aim of this work is to collect and expand on the various techniques that may be used to solve such computational problems and apply them to tackle several families of Galois theoretic interest. In particular, in Chapter 5, we compute explicit curve equations for Hurwitz spaces for certain families of \(M_{24}\) and \(M_{23}\). These are (to my knowledge) the first examples of explicitly computed Hurwitz spaces of such high genus. They might be used to realize \(M_{23}\) as a regular Galois group over Q if one manages to find suitable points on them. Apart from the calculation of explicit algebraic equations, we produce complex approximations for polynomials with genus zero ramification of several different ramification types in \(M_{24}\) and \(M_{23}\). These may be used as starting points for similar computations. The main motivation for these computations is the fact that \(M_{23}\) is currently the only remaining sporadic group that is not known to occur as a Galois group over Q. We also compute the first explicit polynomials with Galois groups \(G=P\Gamma L_3(4), PGL_3(4), PSL_3(4)\) and \(PSL_5(2)\) over Q(t). Special attention will be given to reality questions. As an application we compute the first examples of totally real polynomials with Galois groups \(PGL_2(11)\) and \(PSL_3(3)\) over Q. As a suggestion for further research, we describe an explicit algorithmic version of "Algebraic Patching", following the theory described e.g. by M. Jarden. This could be used to conquer some problems regarding families of covers of genus g>0. Finally, we present explicit Magma implementations for several of the most important algorithms involved in our computations.}, subject = {Galoistheorie}, language = {en} } @phdthesis{Merker2014, author = {Merker, S{\"o}ren}, title = {Genome-wide screenings in attention-deficit/hyperactivity disorder (ADHD): investigation of novel candidate genes SLC2A3 and LPHN3}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-100129}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2014}, abstract = {Attention-deficit/hyperactivity disorder (ADHD) is a highly prevalent childhood-onset neurodevelopmental disorder that involves a substantial risk of persisting into adolescence and adulthood. A number of genome-wide screening studies in ADHD have been conducted in recent years, giving rise to the discovery of several variants at distinct chromosomal loci, thus emphasising the genetically complex and polygenic nature of this disorder. Accordingly, promising novel candidate genes have emerged, such as the gene encoding the glucose transporter isoform 3 (SLC2A3) and the gene encoding the latrophilin isoform 3 (LPHN3). In this thesis, both genes were investigated in form of two separated projects. The first focused on SLC2A3 polymorphisms associated with ADHD and their potential physiological impact. For this purpose, gene expression analyses in peripheral cell models were performed as well as functional EEG measurements in humans. The second project concerned the murine gene Lphn3 including the goal of developing a mouse line containing a genetically modified Lphn3 with conditional knockout potential. In this respect, a specific DNA vector was applied to target the Lphn3 gene locus in murine embryonic stem (ES) cells as a prerequisite for the generation of appropriate chimeric mice. The results of the first project showed that SLC2A3 duplication carriers displayed increased SLC2A3 mRNA expression in peripheral blood cells and significantly altered event-related potentials (ERPs) during tests of cognitive response control and working memory, possibly involving changes in prefrontal brain activity and memory processing. Interestingly, ADHD patients with the rs12842 T-allele, located within and tagging the SLC2A3 gene, also exhibited remarkable effects during these EEG measurements. However, such effects reflected a reversed pattern to the aforementioned SLC2A3 duplication carriers with ADHD, thus indicative of an opposed molecular mechanism. Besides, it emerged that the impact of the aforementioned SLC2A3 variants on different EEG parameters was generally much more pronounced in the group of ADHD patients than the healthy control group, implying a considerable interaction effect. Concerning the second project, preliminary results were gathered including the successful targeting of Lphn3 in murine ES cells as well as the production of highly chimeric, phenotypically unremarkable and mostly fertile mouse chimeras. While germline transmission of the modified Lphn3 allele has not yet occurred, there are still several newborn chimeric mice that will be tested in the near future. In conclusion, the findings suggest that SLC2A3 variants associated with ADHD are accompanied by transcriptional and functional changes in humans. Future research will help to elucidate the molecular network and neurobiological basis involved in these effects and apparently contributing to the complex clinical picture of ADHD. Moreover, given the increasing number of publications concerning latrophilins in recent years and the multitude of research opportunities provided by a conditional knockout of Lphn3 in mice, the establishment of a respective mouse line, which currently is in progress, constitutes a promising approach for the investigation of this gene and its role in ADHD.}, subject = {Genexpression}, language = {en} } @phdthesis{ElMesery2014, author = {El-Mesery, Mohamed}, title = {Development of CD40-targeted bifunctional scFv-TRAIL fusion proteins that induce TRAILR1- and TRAILR2-specifc cell death and dendritic cells activation}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-100114}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2014}, abstract = {TRAIL is a member of TNF superfamily and mediates apoptosis by binding to two DRs, TRAILR1 and TRAILR2. Despite the fact that there are other TRAILRs, TRAILR1 and TRAILR2 receive the major research interest due to their ability to trigger apoptosis and their possible use as targets in tumor therapy. Due to the potential advantages of TRAILR1- or TRAILR2-specific targeting, we investigated recently published TRAIL DR-specific mutants, one conferring specificity for TRAILR1 (TRAILmutR1) and one for TRAILR2 (TRAILmutR2). It was well proved in this work that TRAILmutR1 shows specific binding to TRAILR1 and no specific binding to TRAILR2. TRAILmutR2 vice versa shows specific binding to TRAILR2 and no significant binding to TRAILR1. Moreover, these mutants were able to induce caspase activation and cell death in a TRAILR1/2-specific manner. Moreover, the enhancement of TRAILR2-induced apoptosis by secondary oligomerization of soluble wild-type TRAIL was confirmed for the TRAILR2-specifc TRAIL mutant and similar findings were made with the TRAILR1-specific TRAIL mutant. The soluble form of TRAIL exhibits weak apoptotic activity as compared to transmembrane TRAIL. Therefore, there is the challenge in clinical research to improve the activity of soluble TRAIL. A second strategy besides the above mentioned oligomerization to improve soluble TRAIL activity is anchoring of the molecule to the cell surface, e.g. through the genetic fusion with a scFv domain recognizing a cell surface antigen. In this work, we generated fusion proteins of TRAIL, TRAILmutR1 and TRAILmutR2 with a scFv recognizing CD40 (scFv:G28). Initially, we analyzed the functionality of both the TRAIL domain and the scFv:G28 domain of the corresponding fusion proteins. TRAIL functionality was well proved through its ability to induce cell death in TRAIL sensitive cells such as Jurkat cells, provided that scFv:G28-TRAIL fusion proteins were oligomerized by anti-Flag mAb M2. Concerning the scFv:G28 domain, the fusion proteins showed enhanced binding affinity to cell lines expressing CD40 as compared to their parental CD40-negative cells. Consistent with previous studies investigating TRAIL fusion proteins with other cell surface antigen-targeting scFvs, the scFv:G28 fusion proteins with TRAIL, TRAILmutR1 and TRAILmutR2 showed enhanced induction of cell death in a CD40-dependent manner. Moreover, our results revealed that these fusion proteins have a significant paracrine apoptotic effect on CD40-negative bystander cells upon anchoring to CD40-positive cells which are TRAIL resistant. Thus, the current work provides for the first time scFv fusion proteins of TRAIL and TRAILR1- and TRAILR2-specific TRAIL mutants with CD40-restricted activity. These fusion proteins provide the advantage of attenuating the off-target effects and the potential side effects of per se highly active TRAIL variants on one hand due to the CD40-binding dependent enhancement of activity and on the other hand due to the differential use of TRAILR1 and TRAILR2. CD40 represents a tumor associated marker which is expressed on many tumor cells but also on immune cells. Therefore, the last part of this work focused on the analysis of the ability of scFv:G28-TRAIL fusion proteins to induce CD40 signaling both in tumor cells and also in immune cells. It turned out that the scFv:G28-TRAIL fusion proteins are able to induce CD40 signaling in CD40-positive tumor cells but especially also in immune cells such as iDCs leading to their maturation and further activation of immune responses. Taken together, this work provides novel bifunctional scFv-TRAIL fusion proteins which combine the induction of apoptosis via TRAIL DR with stimulation of CD40 signaling which possibly enhances antitumor immunity.}, subject = {Tumor-Nekrose-Faktor}, language = {en} } @phdthesis{Fraune2014, author = {Fraune, Johanna}, title = {The evolutionary history of the mammalian synaptonemal complex}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-100043}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2014}, abstract = {Der Synaptonemalkomplex (SC) ist eine hochkonservierte Proteinstruktur. Er weist eine dreiteili-ge, leiter{\"a}hnliche Organisation auf und ist f{\"u}r die stabile Paarung der homologen Chromosomen w{\"a}hrend der Prophase der ersten meiotischen Teilung verantwortlich, die auch als Synpase be-zeichnet wird. Fehler w{\"a}hrend der Synpase f{\"u}hren zu Aneuploidie oder Apoptose der sich entwi-ckelnden Keimzellen. Seit 1956 ist der SC Gegenstand intensiver Forschung. Seine Existenz wurde in zahlreichen Orga-nismen von der Hefe bis zum Menschen beschrieben. Seine Struktur aus zwei parallel verlaufen-den Lateralelementen (LE), die durch eine Vielzahl von sogenannten Transversalfilamenten (TF) verbunden werden und dem Zentralen Element (CE) in der Mitte des SC ist dabei offensichtlich {\"u}ber die Millionen von Jahren der Evolution erhalten geblieben. Einzelne Proteinkomponenten des SC wurden jedoch nur in wenigen Modelorganismen charakterisiert, darunter Saccharomyces cerevisiae, Arabidopsis thaliana, Drosophila melanogaster, Ceanorhabditis elegans und Mus mus-culus. Unerwarteter Weise gelang es bei dieser Charakterisierung nicht, eine evolution{\"a}re Ver-wandtschaft, d.h. eine Homologie zwischen den Proteinsequenzen der verschiedenen SCs nach-zuweisen. Diese Tatsache sprach gegen die grunds{\"a}tzliche Annahme, dass der SC in der Evolution nur einmal entstanden sei. Diese Arbeit hat sich nun der Aufgabe gewidmet, die Diskrepanz zwischen der hochkonservierten Struktur des SC und seiner augenscheinlich nicht-homologen Proteinzusammensetzung zu l{\"o}sen. Dabei beschr{\"a}nkt sie sich auf die Analyse des Tierreichs. Es ist die erste Studie zur Evolution des SC in Metazoa und demonstriert die Monophylie der S{\"a}uger SC Proteinkomponenten im Tierreich. Die Arbeit zeigt, dass mindestens vier von sieben SC Proteinen der Maus sp{\"a}testens im letzten gemeinsamen Vorfahren der Gewebetiere (Eumetazoa) enstanden sind und auch damals Teil ei-nes urspr{\"u}nglichen SC waren, wie er heute in dem Nesseltier Hydra zu finden ist. Dieser SC weist die typische Struktur auf und besitzt bereits alle notwendigen Komponenten, um die drei Dom{\"a}-nen - LE, TF und CE - zu assemblieren. Dar{\"u}ber hinaus ergaben die einzelnen Phylogenien der verschiedenen SC Proteine der Maus, dass der SC eine sehr dynamische Evolutionsgeschichte durchlaufen hat. Zus{\"a}tzliche Proteine wurden w{\"a}hrend der Entstehung der Bilateria und der Wir-beltiere in den SC integriert, w{\"a}hrend andere urspr{\"u}ngliche Komponenten m{\"o}glicherweise Gen-Duplikationen erfuhren bzw. besonders in der Linie der H{\"a}utungstiere verloren gingen oder sich stark ver{\"a}nderten. Es wird die These aufgestellt, dass die auf den ersten Blick nicht-homologen SC Proteine der Fruchtfliege und des Fadenwurms tats{\"a}chlich doch von den urspr{\"u}nglichen Prote-inenkomponenten abstammen, sich aber aufgrund der rasanten Evolution der Arthropoden und der Nematoden bis zu deren Unkenntlichkeit diversifizierten. Zus{\"a}tzlich stellt die Arbeit Hydra als alternatives wirbelloses Modellsystem f{\"u}r die Meiose- und SC-Forschung zu den {\"u}blichen Modellen D. melanogaster und C. elegans vor. Die k{\"u}rzlich gewon-nenen Erkenntnisse {\"u}ber den Hydra SC sowie der Einsatz der Standard-Methoden in diesem Orga-nismus werden in dem abschließenden Kapitel zusammengefasst und diskutiert.}, subject = {Synaptinemal-Komplex}, language = {en} } @phdthesis{Karunakaran2014, author = {Karunakaran, Mohindar Murugesh}, title = {Evolution of Vγ9Vδ2 T-cells}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-99871}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2014}, abstract = {Human Vγ9Vδ2 T cells are the major subset of blood γδ T cells and account for 1-5\% of blood T cells. Pyrophosphorylated metabolites of isoprenoid biosynthesis are recognized by human Vγ9Vδ2 T cells and are called as phosphoantigens (PAg). Isopentenyl pyrophosphate (IPP) and (E)-4-Hydroxy-3-methyl-but-2-enyl pyrophosphate (HMBPP) are among the few well studied PAg. IPP is found in all organisms while HMBPP is a precursor of IPP found only in eubacteria, plants and apicomplexaen parasite. Interestingly, the PAg reactive Vγ9Vδ2 T cells are so far identified only in human and higher primates but not in rodents. Hence, Vγ9Vδ2 T cells are believed to be restricted to primates. With regard to PAg recognition, a Vγ9JP recombined TCRγ chain and certain CDR3 motifs of the TCR chain are mandatory. The BTN3A1 molecule is essential for a response to PAg. BTN3 is a trans-membrane protein belonging to butyrophilin family of proteins. Though BTN3A1 was found to be essential for PAg presentation, the exact molecular basis of PAg presentation still remains unclear. This thesis presents new data on the evolution of Vγ9Vδ2 TCR and its ligands (BTN3) as well as the genetic basis of PAg presentation to Vγ9Vδ2 TCR. The comprehensive analysis of genomic database sequences at NCBI and other public domain databases revealed for the first time that Vγ9, Vδ2 and BTN3 genes emerged and co-evolved along with the placental mammals. Vγ9, Vδ2 and BTN3 genes are scattered across mammalian species and not restricted to primates. But interestingly, all three genes are highly conserved between phylogenetically distinct species. Moreover, the distribution pattern of Vγ9, Vδ2 TCR genes and BTN3 genes suggests a functional association between these genes representing the TCR - ligand relationship. Alpaca (Vicugna pacos), a member of the camelid family, is one among the 6 candidate non-primate species which were found to possess functional Vγ9, Vδ2 and BTN3 genes. From peripheral lymphocytes of alpaca, Vγ9 chain transcripts with a characteristic JP rearrangement and transcripts of Vδ2 chains with a CDR3 typical for PAg-reactive TCR were identified. The transduction of αβ TCR negative mouse thymoma BW cells with alpaca Vγ9 and Vδ2 TCR chains resulted in surface expression of the TCR complex as it was deduced from detection of cell surface expression of mouse CD3. Cross-linking of alpaca Vγ9Vδ2 TCR transductants with anti-CD3ε led to IL-2 production which confirmed that alpaca Vγ9 and Vδ2 TCR chains pair to form a functional TCR. Besides the conservation of human like Vγ9 and Vδ2 TCR chains, alpaca has conserved an orthologue for human BTN33A1 as well. Interestingly, the predicted PAg binding sites of human BTN3A1 was 100\% conserved in deduced amino acid sequence of alpaca BTN3A1. All together alpaca is a promising candidate for further studies as it might have preserved Vγ9Vδ2 T cells to function in surveillance of stress and infections. This thesis also provides the sequence of Vγ9Vδ2 TCR of African green monkey (Chlorocebus aethiops), which was previously unknown. Moreover, our data indicates the lack of any species specific barrier which could hinder the PAg presentation by African monkey derived COS cells to human Vγ9Vδ2 TCR and vice versa of human cells to African green monkey Vγ9Vδ2 TCR which was in contradiction to previously reported findings. Apart from the above, the thesis also presents new data on the genetic basis of PAg presentation to Vγ9Vδ2 T cells, which revealed that human chromosome 6 is sufficient for the presentation of exogenous and endogenous PAg. By employing human/mouse somatic hybrids, we identified the role of human chromosome 6 in PAg presentation and in addition, we observed the lack of capacity of human chromosome 6 positive hybrids to activate Vγ9Vδ2 TCR transductants in the presence of the alkylamine sec-butylamine (SBA). Investigation of Chinese hamster ovary (CHO) cells containing the human chromosome 6 also yielded similar results. This suggests that aminobisphosphonates (zoledronate) and alkylamines employ different mechanisms for activation of Vγ9Vδ2 T cells although both have been described to act by inhibition of farnesyl pyrophosphate synthase activity which is known to increase intracellular levels of the IPP. In conclusion, this thesis suggests that Vγ9, Vδ2 and BTN3 genes controlling Vγ9Vδ2 TCR- ligand relationship emerged and co-evolved along with placental mammals; and also identified candidate non-primate species which could possess Vγ9Vδ2 T cells. Furthermore, it suggests alpaca as a promising non-primate species to investigate the physiological function of Vγ9Vδ2 T cells. With respect to PAg antigen presentation it was shown that chromosome 6 is essential and sufficient for exogenous and endogenous PAg presentation. Moreover, the alkylamine SBA and aminobisphosphonate zoledronate may engage different cellular mechanism to exert inhibition over IPP consumption. The thesis raises interesting questions which need to be addressed in future: 1) What are the environmental and evolutionary factors involved in preservation of Vγ9Vδ2 T cells only by few species? 2) What could be the functional nature and antigen recognition properties of such a conserved T cell subset? 3) What is the genetic and molecular basis of the differential capacity of human chromosome 6 bearing rodent-human hybridoma cells in activating Vγ9Vδ2 T cells in presence of SBA and aminobisphosphonates?}, subject = {Evolution}, language = {en} } @phdthesis{Rueppel2014, author = {R{\"u}ppel, Frederike}, title = {Accessibility of Bilinear Interconnected Systems}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-99250}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2014}, abstract = {The subject of this thesis is the controllability of interconnected linear systems, where the interconnection parameter are the control variables. The study of accessibility and controllability of bilinear systems is closely related to their system Lie algebra. In 1976, Brockett classified all possible system Lie algebras of linear single-input, single-output (SISO) systems under time-varying output feedback. Here, Brockett's results are generalized to networks of linear systems, where time-varying output feedback is applied according to the interconnection structure of the network. First, networks of linear SISO systems are studied and it is assumed that all interconnections are independently controllable. By calculating the system Lie algebra it is shown that accessibility of the controlled network is equivalent to the strong connectedness of the underlying interconnection graph in case the network has at least three subsystems. Networks with two subsystems are not captured by these proofs. Thus, we give results for this particular case under additional assumption either on the graph structure or on the dynamics of the node systems, which are both not necessary. Additionally, the system Lie algebra is studied in case the interconnection graph is not strongly connected. Then, we show how to adapt the ideas of proof to networks of multi-input, multi-output (MIMO) systems. We generalize results for the system Lie algebra on networks of MIMO systems both under output feedback and under restricted output feedback. Moreover, the case with generalized interconnections is studied, i.e. parallel edges and linear dependencies in the interconnection controls are allowed. The new setting demands to distinguish between homogeneous and heterogeneous networks. With this new setting only sufficient conditions can be found to guarantee accessibility of the controlled network. As an example, networks with Toeplitz interconnection structure are studied.}, subject = {Steuerbarkeit}, language = {en} } @phdthesis{Vona2014, author = {Vona, Barbara C.}, title = {Molecular Characterization of Genes Involved in Hearing Loss}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-98031}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2014}, abstract = {The auditory system is an exquisitely complex sensory organ dependent upon the synchronization of numerous processes for proper function. The molecular characterization of hereditary hearing loss is complicated by extreme genetic heterogeneity, wherein hundreds of genes dispersed genome-wide play a central and irreplaceable role in normal hearing function. The present study explores this area on a genome-wide and single gene basis for the detection of genetic mutations playing critical roles in human hearing. This work initiated with a high resolution SNP array study involving 109 individuals. A 6.9 Mb heterozygous deletion on chromosome 4q35.1q35.2 was identified in a syndromic patient that was in agreement with a chromosome 4q deletion syndrome diagnosis. A 99.9 kb heterozygous deletion of exons 58-64 in USH2A was identified in one patient. Two homozygous deletions and five heterozygous deletions in STRC (DFNB16) were also detected. The homozygous deletions alone were enough to resolve the hearing impairment in the two patients. A Sanger sequencing assay was developed to exclude a pseudogene with a high percentage sequence identity to STRC from the analysis, which further solved three of the six heterozygous deletion patients with the hemizygous, in silico predicted pathogenic mutations c.2726A>T (p.H909L), c.4918C>T (p.L1640F), and c.4402C>T (p.R1468X). A single patient who was copy neutral for STRC and without pathogenic copy number variations had compound heterozygous mutations [c. 2303_2313+1del12 (p.G768Vfs*77) and c.5125A>G (p.T1709A)] in STRC. It has been shown that STRC has been previously underestimated as a hearing loss gene. One additional patient is described who does not have pathogenic copy number variation but is the only affected member of his family having hearing loss with a paternally segregating translocation t(10;15)(q26.13;q21.1). Twenty-four patients without chromosomal aberrations and the above described patient with an USH2A heterozygous deletion were subjected to a targeted hearing loss gene next generation sequencing panel consisting of either 80 or 129 hearing-relevant genes. The patient having the USH2A heterozygous deletion also disclosed a second mutation in this gene [c.2276G>T (p.C759F)]. This compound heterozygous mutation is the most likely cause of hearing loss in this patient. Nine mutations in genes conferring autosomal dominant hearing loss [ACTG1 (DFNA20/26); CCDC50 (DFNA44); EYA4 (DFNA10); GRHL2 (DFNA28); MYH14 (DFNA4A); MYO6 (DFNA22); TCF21 and twice in MYO1A (DFNA48)] and four genes causing autosomal recessive hearing loss were detected [GJB2 (DFNB1A); MYO7A (DFNB2); MYO15A (DFNB3), and USH2A]. Nine normal hearing controls were also included. Statistical significance was achieved comparing controls and patients that revealed an excess of mutations in the hearing loss patients compared to the control group. The family with the GRHL2 c.1258-1G>A mutation is only the second family published worldwide with a mutation described in this gene to date, supporting the initial claim of this gene causing DFNA28 hearing loss. Audiogram analysis of five affected family members uncovered the progressive nature of DFNA28 hearing impairment. Regression analysis predicted the annual threshold deterioration in each of the five family members with multiple audiograms available over a number of years.}, subject = {Molekularbiologie}, language = {en} } @phdthesis{Morowski2014, author = {Morowski, Martina}, title = {Relevance of platelet count and ITAM-signalling pathway in murine models of haemostasis, thrombosis and thrombo-inflammation}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-99193}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2014}, abstract = {Platelets are important players in haemostasis and their activation is essential to limit post-traumatic blood loss upon vessel injury. On the other hand, pathological platelet activation may lead to thrombosis resulting in myocardial infarction and stroke. Platelet activation and subsequent thrombus formation are, therefore, tightly regulated and require a well-defined interplay of platelet surface receptors, intracellular signalling molecules, cytoskeletal rearrangements and the activation of the coagulation cascade. In vivo thrombosis and haemostasis models mimic thrombus formation at sites of vascular lesions and are frequently used to assess thrombotic and haemostatic functions of platelets. In this dissertation, different in vivo models were used in mice to address the question at what level a reduced platelet count (PC) compromises stable thrombus formation. To study this, mice were rendered thrombocytopenic by low-dose anti-GPIbα antibody treatment and subjected to a tail bleeding time assay as well as to four different in vivo thrombosis models. Haemostasis and occlusive thrombus formation in small vessels were only mildly affected even at severe reductions of the PC. In contrast, occlusive thrombus formation in larger arteries required higher PCs demonstrating that considerable differences in the sensitivity for PC reductions exist between these models. In a second part of this study, mice were rendered thrombocytopenic by injection of high-dose anti-GPIbα antibody which led to the complete loss of all platelets from the circulation for several days. During recovery from thrombocytopenia, the newly generated platelet population was characterised and revealed a defect in immunoreceptor tyrosine-based activation motif (ITAM)-signalling. This defect translated into impaired arterial thrombus formation. To further investigate ITAM-signalling in vivo, genetically modified mice were analysed which display a positive or negative regulation of platelet ITAM-signalling in vitro. Whereas mice lacking the adapter Grb2 in platelets showed a delayed thrombus formation in vivo after acetylsalicylic acid treatment, Clp36ΔLIM bone marrow chimeric mice and SLAP/SLAP2-deficient mice displayed pro-thrombotic properties in vivo. Finally, mice lacking the adapter protein EFhd2 were analysed in vitro and in vivo. However, EFhd2-deficient platelets showed only a minor increase in the procoagulant activity compared to control.}, subject = {Thrombozyt}, language = {en} } @phdthesis{Thielmann2014, author = {Thielmann, Ina}, title = {Function and regulation of phospholipase D in blood platelets: in vitro and in vivo studies in mice}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-99179}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2014}, abstract = {Summary Platelet activation and aggregation are crucial for primary hemostasis but can also result in occlusive thrombus formation. Agonist induced platelet activation involves different signaling pathways leading to the activation of phospholipases (PL) which produce second messengers. While the role of PLCs in platelet activation is well established, less is known about the relevance of PLDs. In the current study, the function and regulation of PLD in platelets was investigated using genetic and pharmacological approaches. In the first part of this thesis, adhesion, activation and aggregation of platelets from mice lacking PLD2 or both PLD1 and PLD2 were analyzed in vitro and in vivo. While the absence of PLD2 resulted in slightly reduced PLD activity in platelets, it had no detectable effect on the platelet function in vitro and in vivo. However, the combined deficiency of both PLD isoforms resulted in defective alpha-granule release and protection in a model of ferric chloride induced arteriolar thrombosis, effects that were not observed in mice lacking only one PLD isoform. These results revealed, for the first time, redundant roles of PLD1 and PLD2 in platelet alpha-granule secretion and indicate that this may be relevant for pathological thrombus formation. Thus, PLD might represent a promising target for antithrombotic therapy. Thus, this hypothesis was tested more directly in the second part of this thesis. The effects of pharmacological inhibition of PLD activity on hemostasis, thrombosis and thrombo-inflammatory brain infarction in mice were assessed. Treatment of platelets with the reversible, small molecule PLD inhibitor 5-Fluoro-2-indolyl des-chlorohalopemide (FIPI) led to a specific blockade of PLD activity that was associated with reduced -granule release and integrin activation. Mice that received FIPI at a dose of 3 mg/kg displayed reduced occlusive thrombus formation upon chemical injury of carotid arteries or mesenterial arterioles. Similarly, FIPI-treated mice had smaller infarct sizes and significantly better motor and neurological function 24 hours after transient middle cerebral artery occlusion. This protective effect was not associated with major intracerebral hemorrhage or prolonged tail bleeding times. Thus, pharmacological PLD inhibition might represent a safe therapeutic strategy to prevent arterial thrombosis or ischemic stroke. After revealing a central role for PLD in thrombo-inflammation, the regulation of PLD activity in platelets was analyzed in the last part of the thesis. Up to date, most studies made use of inhibitors potentially exerting off-target effects and consequently PLD regulation is discussed controversially. Therefore, PLD activity in mice genetically lacking potential modulators of PLD activity was determined to address these controversies. These studies revealed that PLD is tightly regulated during initial platelet activation. While integrin outside-in signaling and Gi signaling was dispensable for PLD activation, it was found that PLC dependent pathways were relevant for the regulation of PLD enzyme activity.}, subject = {Phospholipase D}, language = {en} } @phdthesis{Hoehn2014, author = {H{\"o}hn, Balthasar}, title = {Voluntary Interim Auditor Reviews and the Enforcement System in Germany}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-98957}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2014}, abstract = {Diese Dissertation behandelt das Thema der Finanzberichterstattung und Wirtschaftspr{\"u}fung. In einer allgemeinen Einleitung werden die gesetzlichen Grundlagen zur kapitalmarktorientierten Rechnungslegung und deren Kontrollen beschrieben. Als Folge des Bilanzkontrollgesetzes (BilKoG) wurde die Deutsche Pr{\"u}fstelle f{\"u}r Rechnungslegung (DPR) gegr{\"u}ndet. Diese privatrechtlich organisierte Kontrollinstanz pr{\"u}ft seit dem Jahr 2005 die Rechnungslegung von Unternehmen in Deutschland, die am regulierten Kapitalmarkt gelistet sind (Enforcement). Ziel ist es, eine wahrhafte und transparente Rechnungslegung im Interesse des Kapitalmarkts zu gew{\"a}hrleisten. Neben dem BilKoG wurde durch das am 20.01.2007 in Kraft getretene Transparenzrichtlinie-Umsetzungsgesetz (TUG) die Richtlinie 2004/109/EG in deutsches Recht transformiert. Ziel der EU-Transparenzrichtlinie war 'die Schaffung effizienter, integrierter und transparenter Wertpapierm{\"a}rkte, die Anleger und Kapitalgeber besser {\"u}ber die Finanzlage kapitalmarktorientierter Unternehmen informieren' (Henkel et al. (2008), S. 36). In der vorliegenden Arbeit werden in drei Studien spezielle Fragestellungen ausgehend von der gesetzlichen Entwicklung in Deutschland analysiert. Es werden die Zusammenh{\"a}nge zwischen freiwilligen Kontrollen eines Wirtschaftspr{\"u}fers, staatlichem Enforcement, Pr{\"u}fungskosten und Bilanzpolitik untersucht. Die erste Studie befasst sich mit der freiwilligen Kontrolle der Zwischenberichterstattung kapitalmarktorientierter Unternehmen. Die unterj{\"a}hrige Ver{\"o}ffentlichung von Zwischenberichten bietet entscheidungsrelevante und zeitnahe Informationen f{\"u}r Kapitalmarktakteure. Eine pr{\"u}ferische Durchsicht durch einen Wirtschaftspr{\"u}fer kann zus{\"a}tzliches Vertrauen in die Berichterstattung liefern. Bei der Implementierung des TUG wurde eine pflichtm{\"a}ßige pr{\"u}ferische Durchsicht von Zwischenberichten in Deutschland diskutiert. Der Gesetzgeber entschied sich gegen eine gesetzliche Verpflichtung und {\"u}bertrug die Entscheidung einer freiwilligen unterj{\"a}hrigen Kontrolle an Unternehmen und Wirtschaftspr{\"u}fer. Dieser Marktl{\"o}sung in Deutschland steht eine gesetzlich verpflichtete pr{\"u}ferische Durchsicht z.B. in den USA, Frankreich oder Australien gegen{\"u}ber. Es stellt sich folglich die Frage nach Kosten und Nutzen einer solchen Kontrollleistung, um die Vorteilhaftigkeit der gesetzlichen Pflicht oder der Marktl{\"o}sung zu bewerten. Diese erste Studie nutzt ausgehend vom TUG einen neu entstandenen, beobachtbaren Markt f{\"u}r pr{\"u}ferische Durchsichten in Deutschland. Die Kategorisierung der Pr{\"u}fungskosten in ‚Abschlusspr{\"u}fungskosten' und ‚Pr{\"u}fungsnahen Dienstleistungen' erm{\"o}glicht eine detaillierte Untersuchung der Kosten f{\"u}r das Unternehmen. Weiter wird der Nutzen in Bezug auf die Qualit{\"a}t der unterj{\"a}hrigen Berichterstattung analysiert. In der zweiten Studie wird das Angebot und die Nachfrage von pr{\"u}ferischen Durchsichten beleuchtet. In der Literatur werden die Agency-Kosten, die Corporate Governance Struktur und verschiedene Kostentreiber dieser Pr{\"u}fungsleistung als Einflussfaktoren identifiziert. Der positive Nachfrageschock bei pr{\"u}ferischen Durchsichten im Jahr 2007 l{\"a}sst sich durch diese Faktoren jedoch nicht erkl{\"a}ren. Ausgehend von der neu beobachtbaren Nachfrage stellt die Studie einen Zusammenhang zwischen dem erstmaligen Enforcement von Zwischenberichten durch die DPR und dem Inkrafttretens des TUG im Jahr 2007 her. Die gesetzlichen {\"A}nderungen werden dem theoretischen Rahmen von Angebot und Nachfrage freiwilliger externer Kontrollen zugeordnet. Im n{\"a}chsten Schritt wird der Einfluss von Fehlerentdeckungsrisiken durch die DPR f{\"u}r Management und Aufsichtsrat auf die Nachfrage von externen Kontrollen untersucht. Die dritte Studie befasst sich mit der Effektivit{\"a}t des deutschen Enforcement-Systems, dem Einfluss von Bilanzpolitik und dessen Antizipation in den Pr{\"u}fungskosten. Die Untersuchung analysiert den zeitlichen Aspekt von Bilanzpolitik auf Fehlerver{\"o}ffentlichungen in sp{\"a}teren Perioden. Es besteht die M{\"o}glichkeit die Verschlechterung der wirtschaftlichen Situation eines Unternehmens durch Bilanzpolitik zu verdecken. Ohne Verbesserung der wirtschaftlichen Lage des Unternehmens f{\"u}hrt dieses Verhalten zu einem Bilanzpolitikausmaß außerhalb des gesetzlichen Rahmens und folglich zu einer hohen Wahrscheinlichkeit der Fehlerentdeckung bei DPR Untersuchungen. Die Entwicklung der Bilanzpolitik eines solchen Unternehmens m{\"u}sste im zweiten Schritt mit der Risikokomponente in den Pr{\"u}fungskosten des Wirtschaftspr{\"u}fers in Verbindung stehen. Der risikoorientierte Pr{\"u}fungsansatz und die Antizipation von Bilanzpolitik in den Pr{\"u}fungskosten sollte demnach vor Fehlerbekanntmachung zu einem Anstieg der Pr{\"u}fungskosten f{\"u}hren. Zus{\"a}tzlich ist nach offizieller Fehlerver{\"o}ffentlichung und somit durch eine objektiv beobachtbare Schw{\"a}che im Rechnungslegungssystem oder einem hohen Ausmaß an Bilanzpolitik ein Risikoaufschlag zu vermuten. Der letzte Abschnitt fasst die wichtigsten Aussagen der Dissertation zusammen und erl{\"a}utert die Zusammenh{\"a}nge der Ergebnisse.}, subject = {Rechnungslegung}, language = {en} } @phdthesis{Ruetzel2014, author = {R{\"u}tzel, Stefan}, title = {Pulse-Sequence Approaches for Multidimensional Electronic Spectroscopy of Ultrafast Photochemistry}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-98993}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2014}, abstract = {Observing chemical reactions in real time with femtosecond laser pulses has evolved into a very popular � field of research since it provides fascinating insights into the nature of photochemical transformations. Nevertheless, many photochemical reactions are still too complex for which reason the underlying mechanisms and all engaged species cannot be identi� fied thoroughly. In these cases, conventional time-resolved spectroscopy techniques reach their technical limits and advanced approaches are required to follow the conversion of reactants to their products including all reaction intermediates. The aim of this work was therefore the development of novel methods for ultrafast spectroscopy of photoreactive systems. Though the concept of coherent multidimensional spectroscopy has so far exclusively been used to explore photophysical phenomena, it also offers great potential for the study of photochemical processes due to its capability of extracting spectroscopic information along several frequency dimensions. This allows resolving the photochemical connectivity between various interconvertible molecular species with ultrafast temporal resolution on the basis of their absorption and emission properties as the spectral correlations are explicitly visualized in the detected spectra. The ring-open merocyanine form of the photochromic compound 6-nitro BIPS was studied in Chap. 4 of this work. Merocyanines and their associated ring-closed spiropyrans are promising candidates for future applications as, for instance, molecular electronics or optical data storage due to their unique property of being switchable between two stable con� gurations via light illumination. Transient absorption with sub-50 fs temporal resolution and broadband probing was employed to characterize the photodynamics of this system with variable excitation wavelengths. Using global data analysis, it could be inferred that two different merocyanine isomers with differing excited-state lifetimes exist in solution. These isomers differ in the cis/trans con� guration in the last bond of the methine bridge. The minority of isomers exist in the all-trans con� guration (TTT) while the isomer with a cis con� guration of the third dihedral angle (TTC) is dominant. A characteristic band, detected after long pump-probe delays, was attributed to the unidirectional cis->trans photoisomerization reaction of the TTC to the TTT form. The quantum yield of the reaction was estimated to be (18� +-4) \%. In addition, pronounced coherent vibrational wave-packet oscillations were observed and it was concluded that these signatures are related to the product formation. Coherent two-dimensional electronic spectroscopy was successfully implemented using a partially collinear pump-probe beam geometry in combination with a femtosecond pulse shaper. The use of a whitelight probe continuum enabled us to probe contributions far-off the diagonal over the complete visible range. By properly adjusting the relative phase between the � first two laser pulses with the pulse shaper, the principle of phase-cycling was explained and it was demonstrated that the measurement can be carried out in the so-called "rotating frame" in which the observed frequencies detected during the coherence time are shifted to lower values. It was shown that these concepts allow the extraction of the desired background-free photon echo while the amount of necessary data points is highly reduced. In order to put our proposal of multidimensional spectroscopy of photoreactive systems into practice, third-order two- and three-dimensional spectroscopy was then employed for an in-depth analysis of a photoreactive process, in which the photoisomerization of 6-nitro BIPS served as a model system. The measured two-dimensional spectra revealed the cis->trans photoisomerization after long population times. By collecting a large data set of two-dimensional spectra for short population times and by applying a Fourier transform along the population time axis, the third-order three-dimensional spectrum was obtained. The novelty of this approach compared to coherent two-dimensional spectroscopy is the introduction of a third axis associated with the vibrational frequencies of the molecular system. In this way, the formation of the reaction product was evidenced and it was shown that the product is formed in its fi� rst excited singlet state within 200 fs after excitation. This method hence visualizes the photochemical connections between different reactive molecular species in an intuitive manner and further exposes the normal modes connecting reactant and product. Such conclusions cannot be drawn with conventional third-order techniques such as transient absorption since they are not capable of capturing the full third-order response, but only a subset of it. The reaction mechanism and the role of the observed vibrational modes were uncovered by comparing the experimental data with the results of high-level quantum-chemical calculations performed by our collaborators in the group of Prof. B. Engels from the theoretical chemistry department at the University of W{\"u}rzburg. Specifi� c calculated molecular normal modes could be assigned to the experimentally observed vibrational frequencies and potential energy surfaces of the electronic ground state and of the � first excited state were computed. The technique implemented in this chapter is general and is applicable for the time-resolved analysis of a wide range of chemical reaction networks. In the fi� rst part of Chap. 5, coherent two-dimensional spectroscopy was employed to track the reaction paths of the related 6,8-dinitro BIPS after S1 excitation. Several differences to the photochemical properties of 6-nitro BIPS were found. From the 2D spectra, the cis-trans isomerization between the two merocyanine isomers could be excluded as a major reaction path for this compound. To explore the dynamics after reexcitation to higher-lying electronic states, pump-repump-probe spectroscopy was implemented and the formation of a new species, a radical cation, was observed. To identify the precursor isomer, triggered-exchange two-dimensional spectroscopy, a � fifth-order technique previously only available in the infrared regime for vibrational transitions, was implemented for the fi� rst time for electronic excitations in the visible. This approach combines the properties of the pump-repump-probe technique with the potential of coherent two-dimensional spectroscopy. It correlates the absorption frequency of a reactive molecular species with the emission signatures of the product formed from this species after an additional absorption of a photon. Using this method, it was unambiguously proven that only the TTC isomer reacts to the radical cation thus forming the precursor species of the reaction. Electronic triggered-exchange two-dimensional spectroscopy is hence another improved technology for time-resolved spectroscopy with applications in the study of multistep photoreactions and higher-lying electronic states. While in the two preceding chapters third- and � fifth-order experiments were discussed that neglect the vectorial character of light-matter interactions, Chap. 6 focused on a novel theoretical formalism enabling the description of light fi� elds optimized for polarization-sensitive higher-order nonlinearities. This formalism is based on the von Neumann time-frequency representation of shaped femtosecond laser pulses which permits the defi� nition of multipulse sequences on a discrete time-frequency lattice. Hence, not only the temporal spacing between subpulses is adjustable, but also the center frequencies may be adapted such that they � fit the experimental requirements. This method was generalized to the description of pulse sequences with time-varying polarization states. It was shown that by using this description, the polarization ellipticity, orientation angle, relative phase and intensity, and the time-frequency location of each subpulse is explicitly controllable. The accuracy of the transformations from Fourier space to von Neumann domain and vice versa was demonstrated. Moreover, a strict accordance between the von Neumann polarization parameters with the conventional parameters in time domain was found for well separated subpulses. A potential future application of this approach is polarization-sensitive multidimensional spectroscopy in which hidden cross peaks may be isolated by de� fining the pulses in the von Neumann picture with suitable polarization sequences. This method could also be used in quantum control experiments in which the polarization of the light fi� eld is used as a major control knob. This thesis summarizes our efforts to open the � field of femtochemistry to the concept of coherent multidimensional electronic spectroscopy. Making use of femtosecond pulse shaping, sub-50 fs temporal resolution, broadband spectral probing, higher-order nonlinearities, and new types of laser pulse descriptions, the presented methods might stimulate further future advancements in this research area.}, subject = {Ultrakurzzeitspektroskopie}, language = {en} } @phdthesis{Boariu2014, author = {Boariu, Florin Loredan}, title = {The "Hidden-Order" Phase Transition of URu2Si2 : Investigated by Angle-Resolved Photoelectron Spectroscopy}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-98259}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2014}, abstract = {In 1985, an enigmatic second order phase transition was discovered in the actinide compound URu2Si2. Evading a microscopic description for nearly three decades in spite of numerous experimental and theoretical attempts, the name "hidden order Transition" was adopted for the effect. (...)}, subject = {Actinoide}, language = {en} } @phdthesis{Strohmenger2014, author = {Strohmenger, Manuel}, title = {Three Essays on the Enforcement of Accounting Standards in Germany}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-97707}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2014}, abstract = {The dissertation at hand focuses on the enforcement of accounting standards in Germany. The legal basis of the external enforcement of accounting standards in Germany was created by the „Bilanzkontrollgesetz" (Financial Reporting Enforcement Act) at the end of 2004. An enforcement mechanism was installed to enforce accounting standard compliance by regular reviews of disclosed financial statements. The system was established as implementation of EU guidelines. Since 2005, International Financial Reporting Standards (IFRS) shall be applied for consolidated financial statement of firms listed on a regulated market segment within the European Union (EU) (Regulation EC No. 1606/2002). Simultaneously to the harmonization of accounting standards, the EU fostered the standardization of enforcement systems to ensure compliance with international accounting standards. Par. 16 of the so-called "IAS Regulation" mandates the "Committee of European Securities Regulators" (CESR) to "develop a common approach to enforcement". Germany's unique two-tiered system operates since July 2005; it involves the "Deutsche Pruefstelle fuer Rechnungslegung" (Financial Reporting Enforcement Panel), a newly established private organization primarily assigned to conduct the reviews. As the second tier, the „Bundesanstalt fuer Finanzdienstleistungsaufsicht" (Federal Financial Supervisory Authority) has the sovereign authority to order the publication of errors („error announcements") and if necessary, to force the cooperation of firms in the review process. The dissertation is structured as follows. A general introduction focuses on the theoretical background and the reasoning for the need of external enforcement mechanisms. The common approach to enforcement in the European Union is described. Building on this, the thesis consists of three individual essays that analyze three specific questions in the context of the enforcement of financial reporting standards in Germany. The first paper focuses on the systematical evaluation of the information contained in 100 selected error announcements (from a total population of 151 evaluable announcements). The study finds that error announcements on average contain 3.64 single errors and 77\% affect the reported profit. Relatively small as well as big, highly levered and rather unprofitable firms are overrepresented in the sample of misstatement firms. In a second step, the essay investigates the development of censured firms over time; the pre- and post-misstatement development of the firms in terms of balance sheet data, financial ratios and (real) earnings management are tracked. The analysis detects increasing leverage ratios and a decline in profitability over time. In the year of misstatement firms report large total and discretionary accruals, indicating earnings management. Compared to matched control firms, significant differences in profitability, market valuation, earnings management and real activities manipulations are observable. A major contribution of this first study is the examination of trends in financial data and (real) earnings management over a number of years surrounding misstatements as well as the elaboration of the distinction to non-misstating firms. The results show the meaning of the enforcement of IFRS for the quality of financial reporting to standard setters, policy makers, and investors in Germany. The second paper examines the interrelation of enforcement releases, firm characteristics and earnings quality. Prior literature documents the correlation between underperformance in financial ratios and the probability of erroneous disclosure of financial statements; this study provides evidence for differences in characteristics between firms with enforcement releases and control firms as well as a broad sample of German publicly traded firms (4,730 firm-year observations). Furthermore, research affirms the connection of financial ratios to earnings quality metrics. The accuracy of financial information is considered to be correlated with its quality and therefore the differences in earnings quality between various sub-samples is examined. Overall, the results document the underperformance in important financial ratios as well as indicate an inferior earnings quality of firms subject to enforcement releases vis-a-vis the control groups. These results hold with regard to both different earnings quality specifications and different periods observed. This study appends the earnings quality discussion and contributes to develop a comprehensive picture of accounting quality for the unique institutional settings of Germany. The paper shows that a conjoint two-tier public and private enforcement system is effective and might be an adequate model for other countries. Implications for the regulation of corporate governance, the enforcement panel and the auditor are identified. The third essay additionally considers the role of the auditor. The firms subject to error announcements are used to evaluate the consequences of increasing earnings management over time on enforcement releases and their recognition in audit fees. Prior literature provides evidence on a phenomenon called „balance sheet bloat" that is due to income increasing earnings management and later influences the disclosure of misstated financial statements. The evidence of earnings management recognition in audit fees and findings on the content of future information in audit fees leads to the hypothesis that auditors recognize increasing audit risk in fees before the enforcement process starts. The study extends related earnings management and audit fee literature by modeling the development of earnings management within the misstatement firms and systematically link it to auditor reactions. Significant predictive power of different commonly used accrual measures for enforcement releases in the period prior and up to the misstatement period are found by the study. In the same period of time an increase in audit fees, e.g. the recognition of increased audit risk, can be observed. A possible audit fee effect after the misstatement period is investigated, but no significant relation is obtained. The dissertation closes with a summary of the main findings, a conclusion to the connection of the three essays as well as subsumption of findings in the accounting literature.}, subject = {Rechnungslegung}, language = {en} } @phdthesis{Wang2014, author = {Wang, Ying}, title = {Immune and peripheral endogenous opioid mechanisms of electroacupuncture analgesia}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-98326}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2014}, abstract = {A precious treasure in traditional Chinese medicine (TCM), acupuncture played a vital and irreplaceable role in contributing to people's health in the thousands of years of Chinese history, and in 2010 was officially added to the "Representative List of the Intangible Cultural Heritage of Humanity" by the United Nations. Because of the side-effects of long-term drug therapy for pain, and the risks of dependency, acupuncture has been widely accepted as one of the most important alternative choice therapies for treating varieties of acute and chronic pain-related disorders. The clinical application and scientific mechanism research of acupuncture have therefore increased intensively in the last few decades. Besides hand acupuncture, other treatment approaches e.g. electroacupuncture (EA) have been widely accepted and applied as an important acupuncture-related technique for acupuncture analgesia (AA) research. The involvement of opioid peptides and receptors in acute AA has been shown via pre-EA application of opioid receptor/peptide antagonists. However, existing publications still cannot illuminate the answer to the following question: how does sustained antinociception happen by EA treatment? The hypothesis of opioid peptide-mediated tonic AA might be able to answer the question. In the first part of this thesis, the institution of a reproducible acupuncture treatment model as well as the endogenous opioid-related mechanisms was demonstrated. An anatomically-based three-dimensional (3D) rat model was established to exhibit a digital true-to-life organism, accurate acupoint position and EA treatment protocol on bilateral acupoint GB-30 Huantiao. The optimal EA treatment protocol (100 Hz, 2-3 mA, 0.1 ms, 20 min) at 0 and 24 h after induction of inflammatory pain by complete Freund's adjuvant (CFA) on conscious free-moving rats was then established. EA elicited significant sustained mechanical and thermal antinociception up to 144 h. Post-EA application of opioid receptors (mu opioid receptor, MOR; delta opioid receptor, DOR) antagonists naloxone (NLX) and naltrindole (NTI), or opioid peptide antibodies anti-beta-endorphin (anti-END), met-enkephalin (anti-ENK) or -dynorphin A (anti-DYN) could also block this effect at a late phase (96 h) of CFA post-EA, which suggested opioid-dependent tonic analgesia was produced by EA. Meanwhile, EA also reduced paw temperature and volume at 72-144 h post CFA indicating anti-inflammatory effects. Nociceptive thresholds were assessed by paw pressure threshold (Randall-Sellito) or paw withdrawal latency (Hargreaves) and an anti-inflammatory effect was evaluated by measurement of plantar temperature and volume of inflamed paw. The second part of the thesis further suggests the correlation between the chemokine CXCL10 (= interferon-gamma inducible protein 10, IP-10) and opioid peptides in EA-induced antinociception. Based on a comprehensive Cytokine Array of 29 cytokines, targeted cytokines interleukin (IL)-1alpha, interleukin (IL)-1beta, tumor necrosis factor (TNF)-alpha, interleukin (IL)-4, interleukin (IL)-13, interferon (IFN)-gamma as well as CXCL10 were selected and quantified by enzyme-linked immunosorbent assay (ELISA), and real time reverse transcription-polymerase chain reaction (RT-PCR) quantification confirmed upregulation of CXCL10 mRNA at both 72 and 96 h. The following hyperalgesic assessment suggested the antinociceptive effect of CXCL10. The double immunostaining localizing opioid peptides with macrophages expressed the evident upregulation of CXCR3-receptor of CXCL10 in EA treated samples as well as the significant upregulation or downregulation of opioid peptides by repeated treatment of CXCL10 or antibody of CXCL10 via behavioral tests and immune staining. Subsequent immunoblotting measurements showed non-alteration of opioid receptor level by EA, indicating that the opioid receptors did not apparently contribute to AA in the present studies. In vitro, CXCL10 did not directly trigger opioid peptide END release from freshly isolated rat macrophages. This might implicate an indirect property of CXCL10 in vitro stimulating the opioid peptide-containing macrophages by requiring additional mediators in inflammatory tissue. In summary, this project intended to explore the peripheral opioid-dependent analgesic mechanisms of acupuncture with a novel 3D treatment rat model and put forward new information to support the pivot role of chemokine CXCL10 in mediating EA-induced tonic antinociception via peripheral opioid peptides.}, subject = {Elektroakupunktur}, language = {en} } @phdthesis{Kaiser2014, author = {Kaiser, Conrad}, title = {Donor-Bridge-Acceptor Systems with Varying Bridge Units for the Investigation of Intramolecular and Intermolecular Electron Transfer Processes}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-97614}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2014}, abstract = {Within this study, the influence of the energetics of the bridge unit on electron transfer (ET) in an electrode-bridge-donor system was investigated in a monolayer environment. This was realized by specifically designing molecules containing ferrocene carboxylic ester donors and hydroquinone derivatives as bridge units and by using a gold electrode as acceptor. The energetics of the hydroquinone derivatives was adjusted by synthetically varying its substituents with the intention of changing the ET speed and mechanisms. Thereby the choice of the substituents was based on the literature known half-wave potentials of similar solvated hydroquinone derivatives and successively confirming them by conducting cyclic voltammetry on the actual bridge units synthesized. Then, a synthetic pathway, which accommodated the limited stability of the integrated terminal ferrocene carbon acid ester, was developed and successfully employed. This was followed by developing a procedure for preparing very dense and highly ordered monolayers from the target molecules on self-made gold microelectrodes. For the electrochemical investigations, several electrolyte solutions were tested until one, which ensured low susceptibility of the characterization setup towards slight changes of the electrode arrangement and measurement parameters while ensuring sufficient stability of the monolayers, was found. Furthermore, a new, commercially available potentiostat was established for the impedance measurements, which reduced the stress on the monolayers during the electrochemical characterizations in comparison to the equipment used in many former studies. Regarding the determination of the ET rates, the data analysis protocol for the impedance measurements developed by Creager et al. was slightly adapted to allow analysis of the investigated monolayers despite their non-ideal behavior. In addition, the influence of changes to the electrical parameters of the impedance scans was investigated to minimize the error in the acquired data. The electrochemical analysis of the monolayers by conducting cyclic voltammetry on MA, MB and MC prepared from A, B and C confirmed the accomplishment of near ideal surface coverage and exceptionally high order. The surface coverages of MB and MC were, probably due to the space filled by the substituents on their bridge units, slightly lower than those of MA. Furthermore, the shape of the redox waves of the ferrocene carboxylic acid redox center in the voltammogram of MA showed a broadening and a shift towards higher potentials, which was assigned to electrostatic interference of oxidized terminal redox centers due to the especially dense packing. However, in the voltammogram of MB, no sharp redox waves of the bridge units, as predicted by the analysis of preliminary monolayers of the same type with low surface coverage, were present. This was attributed to the different and varying microenvironment of the bridge units deeply embedded within high-density monolayers. In detail, the different degree of shielding of each individual bridge unit from counter ions and solvent molecules probably resulted in the half wave potential being shifted to varying higher potentials, thus preventing the formation of sharp redox waves. In addition, electrostatic effects of oxidized bridge units could have enhanced this effect. This leads to the conclusion that the half-wave potentials of fully solvated bridge units determined by the cyclic voltammetry are not suited to predict the energetics of the oxidized bridge states embedded within the prepared high density monolayers. Finally, the monolayers were successfully analyzed by impedance spectroscopy, which showed that the ET rate of MA is slightly higher than that of MB, and both are higher than that of MC. All of the values were, according to literature, in the expected region considering the length and degree of conjugation of the backbone. However, this picture is relativized when considering the targeted energetic alignment of the bridge units. According to the predicted very small energy gap between the oxidized states of the donor and the bridge unit in MB, a domination of the hopping mechanism should have led to a several orders of magnitude higher ET rate than in MA and MC. That this was not the case was attributed to the underestimation of the energy of the oxidized bridge states by utilizing cyclic voltammetry of the fully solvated bridge units (see above). According to the small differences of the ET rates the superexchange process was assumed to be the dominating mechanism not only in MA and MC but also in MB. However, even when shifted, the predicted energetic order of the oxidized bridge states should have led to a moderately decreasing ET rate from MB over MA to MC. The reason for the actual ET rate in MA being slightly higher than in MB might be found in the electrostatic interference of the terminal redox centers in MA (see above). In conclusion, the targeted model systems were prepared and the ET rates were successfully determined. However, the problems concerning the relative energetic positioning of the involved states within the dense monolayers prevented the specific alteration of the speed and mechanism of the ET. The reason for this can be probably found in the high density and order of the monolayers prepared within this work, which hamper the intrusion of the components of the electrolyte solutions. This various degree of stabilization for the individual bridge units by counter ions and solvent molecules leads to the energy of the oxidized bridge states being splitted and shifted towards higher potentials with respect to fully solvated bridge units. This effect might be further enhanced by electrostatics of neighboring already oxidized bridge states. All this makes the predetermination of the energetics of the embedded bridge units extremely difficult. On one hand, this behavior can be considered an obstacle and could probably be circumvented by designing molecules with bulky anchor groups and rigid molecular backbones, which would ensure perpendicular arrangement to the surface and full exposure of the bridge and terminal redox centers to the solvent molecules and counter ions. On the other hand, monolayers which completely embed integral redox centers might open up the opportunity to study the effects of microenvironments similar to those in solid state materials. Regarding mixed valence compounds, the present study focuses on bistriarylamine radical cation F∙+, which contains the [3.3]paracyclophane bridge unit. The results were compared to the, except for the bridge units, identical literature known compounds G∙+ and N∙+ with [2.2]paracyclophane and p-xylene bridges respectively. This led to the conclusion that slightly different bridge units can induce substantial changes to the internal reorganization energy. This is especially noteworthy since it is usually believed that structural adaption limited to the redox centers taking part in the charge transfer dominates the internal reorganization energy. Furthermore, the application of the two-state Mulliken-Hush approach shows that compounds F∙+ and G∙+ have near identical couplings and similar thermal barriers. Confirmation of the latter finding as well as near identical thermal electron transfer rates for both compounds were provided via a cooperation project by Grampp et al. in which these values were directly extracted from temperature dependent electron paramagnetic resonance measurements. These results are quite unexpected since the "through-space" distances of the stacked pi-systems in the paracyclophane bridges differ significantly. They are well within the sum of the van der Waals radii in G∙+ and barely within them in compound F∙+. In addition, these findings weaken the common assumption of the ethylene bridges in G∙+ substantially adding to the electronic coupling, since then, in F∙+, due to its propylene linkers, the coupling should be substantially reduced. Finally, relying on the fact that the electronic couplings are only three times higher and the thermal electron transfer rates are only one order of magnitude higher for N∙+ than for compounds F∙+ and G∙+ shows that intermolecular electron transfer in solid state materials can remain efficient, if the interacting pi-systems stay within the sum of van der Waals radii of their carbons. Concerning the donor-acceptor dyads, the current investigation centers on triarylamine-cyclophane-naphtalene diimide (TAA-CP-NDI) compounds which display almost complete photoinduced charge separation. Furthermore, their singlet charge separated states show lifetimes of hundreds of nanoseconds, which is rarely found in such simple dyads. In the present case they can be attributed to the particular amount of electronic coupling V (on the order of 100 cm^-1), which is brought about by incorporation of the smallest model systems for pi-stacks, the CPs, together with the nodes on the NDI lowest unoccupied molecular orbital, which electronically decouples the central NDI from its nitrogen substituents. In agreement with studies of [2.2]- and [3.3]paracyclophane bridged mixed valence compounds (see above), the cycolphane bridged dyads show very similar electronic coupling when dealing with ground state processes like charge recombination. However, when investigating excited state processes, like charge separation in the TAA-CP-NDI dyads, one has to bear in mind that the CP orbitals are involved in the formation of intermediate states that likely possess charge transfer character. In this case, the [2.2]paracyclophane bridge obviously induces a stronger coupling than the [3.3]paracyclophane. Another interesting property of the dyads studied here is the substantial population of the triplet charge separated (CS) state of ca. one third regarding both CS states, which is brought about by singlet-triplet interconversion from the singlet CS state. Thus, the triplet CS state with a lifetime of several microseconds acts as a kind of buffer for the CS state before recombining to the ground state and, thus, leads to distinctly prolonged overall lifetimes of the charge separated states. Thus it can be concluded that the intersystem crossing and charge recombination (CR) processes of the CS states are governed by a delicate balance of a large electronic coupling V and a large exchange interaction 2J (both with regard to systems containing a through-space pathway). The latter appears to be induced by second order interaction with a local triplet state lying close in energy to the CS state. This balance results in slow CR- and singlet-triplet- interconversion rates, which differ only by one order of magnitude. Compared to the many NDI containing dyads studied so far, these features of the dyads studied here are, to the best of our knowledge, unique. Especially the combination of high quantum yield of charge separation, long lifetimes and high energy of the charge separated state make the investigated systems interesting for practical applications. Furthermore, the presented unraveling of the underlying mechanisms is of substantial value for the future design of dyads for practical applications regarding the implementation and adjustment of these favorable properties.}, subject = {Elektronentransfer}, language = {en} } @phdthesis{Rudolf2014, author = {Rudolf, Philipp Benjamin}, title = {Uncovering photoinduced chemical reaction pathways in the liquid phase with ultrafast vibrational spectroscopy}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-96200}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2014}, abstract = {The experimental technique predominantly employed within the scope of this Thesis constitutes one subarea of femtochemistry: the time-resolved spectroscopy of photoin- duced chemical reactions in the liquid phase by means of molecular signatures in the mid-infrared (MIR) spectral range. Probing transient vibrational states, i.e., dynamic changes in the vibrational motion of speci� c molecular subunits or functional Groups allows for a distinct separation and assignment of measured signals to emerging molecular species. For this purpose, one key building block is indispensable, which most of the investigations carried out within the � eld of femtochemistry have in common: a coherent light source delivering ultrashort laser pulses with a temporal duration that matches the femtosecond time scale on which molecular motions typically occur. This instrumentation enables the observation of photoinduced chemical reactions from the starting point|the excitation event to the appearance of intermediates to the nal formation of stable photoproducts after several pico- or nanoseconds. This work comprises the acquisition and presentation of time-resolved spectroscopic data related to promising molecular systems upon photoexcitation as well as the im- plementation and testing of experimental optical techniques both for the presented experiments but as well for experiments conceivable in the future. In addition, linear spectroscopy measurements and quantum-chemical simulations on the emerging chemical species have been carried out. In so doing, the primary processes and subse- quently emerging reaction products of two compounds on a timescale of several nanoseconds after photoexcitation have been elucidated in great detail. Both compounds, the [Mn(CO)3(tpm)]+ (tpm = tris(2-pyrazolyl)methane) CO-releasing molecule (CORM) and the 5-diazo Meldrum's acid (DMA), are of academic interest but in addition belong to molecular classes that might be utilized in the near future as dark-stable prodrugs under physiological conditions or that are already utilized in industrial chemistry procedures, respectively. The � ndings of both studies gave rise to implement and examine two techniques for prospective transient absorption experiments, namely the shaping and characterization of ultraviolet (UV) laser pulses and the recording of two-photon excitation spectra. Beyond that, since each of the depicted experiments is based on the detection of weak transient absorption signals in the MIR spectral region, two dif- ferent detection schemes, via chirped-pulse upconversion (CPU) on the one hand and via direct multichannel MCT detection on the other hand, have been juxtaposed at the conclusion of this work. Since both techniques are suitable in femtosecond pump-probe measurements but thereby exhibit individual strengths and weaknesses, a comparative study provides clari� cation of the respective pros and cons. The � first study introduced within this work investigates the complex photochemistry of DMA, a photoactive compound used in lithography and industrial chemistry. By femtosecond MIR transient absorption spectroscopy covering several nanoseconds, the light-induced dynamics and ultrafast formation of several photoproducts from the manifold of reaction pathways have been disclosed to form a coherent picture of the overall reaction scheme. After UV excitation of DMA dissolved in methanol to the second excited state S2, 70\% of excited molecules relax back to the S0 ground state. In compet- ing processes, they can either undergo an intramolecular Wolff rearrangement to form ketene, which reacts with a solvent molecule to an enol intermediate and further to carboxylate ester, or they � rst relax to the DMA S1 state, from where they can isomerize to a diazirine. The third competing reaction channel, having the lowest quantum efficiency with respect to the � rst two channels, is the formation of a singlet carbene out of the S1 state. From there an ylide can arise or, via an intersystem crossing, the triplet form of the carbene follows. Whereas the primary reaction steps occur on a picosecond timescale, the subsequently arising intermediates and stable photoproducts are formed within a few hundreds to thousands of picoseconds. For a reliable identi� cation of the involved compounds, density functional theory calculations on the normal modes and Fourier-transform infrared spectroscopy of the reactant and the photoproducts in the chemical equilibrium accompany the analysis of the transient spectra. Additional experiments in ethanol and isopropanol led to slight spectral shifts as well as elongated time constants due to steric hindrance in transient spectra connected with the ester Formation channel, further substantiating the assignment of the occurring reaction pathways and photoproducts. The study demonstrated that the combination of linear and time-resolved spectroscopic measurements in conjunction with quantum-chemical calculations constitutes a powerful tool to unravel even highly complex photoreactions exhibiting multiple consecutive intermediate states within parallel reaction pathways. Although some of the individual reaction steps, for example the ketene formation via Wolff rearrangement, have been observed on ultrashort time scales before, this work encompassed the Observation of the whole set of appearing photoproducts of DMA in different alcohol solutions within several nanoseconds. In this sense, the ultrafast photochemistry of DMA represents a prototype example for a multisequential reaction scheme, elucidated by the capabilities of femtosecond MIR spectroscopy. With a modi� fied instrumentation concerning amongst others the system delivering the fundamental laser pulses or the generation of the UV pump pulses, the next ob- jective within this work was to elucidate the primary processes upon UV Irradiation of a manganese tricarbonyl CORM in aqueous environment. The time-resolved experiment was performed with two different pump wavelengths and furthermore supported by linear spectroscopy methods and time-dependent density functional theory (TDDFT) calculations on the excited states as well as DFT calculations on the ground states. The measurements revealed that irradiating the compound with UV excitation pulses primarily leads to ultrafast photolysis of one CO ligand. Geminate recombination may occur within one picosecond but it remains a minor process as the photolyzed CO group is liberated and the unoccupied coordination site is predominantly fi� lled by an incoming solvent molecule. There was no evidence for hot CO bands, i.e., the remaining CO ligands|in the dicarbonyl photoproduct as well as in the intact CORM are not vibrationally excited through the UV excitation of the CORM. According to this, the excess energy merges into low-frequency vibrational modes associated with the molecule as a whole. Since studies on a macroscopic scale at irradiation times of several minutes prove that UV irradiation eventually leads to the release of two or even all three CO ligands, further loss of CO most likely necessitates manganese oxidation or another interaction with light. To clarify the latter, a consecutive UV pulse was employed in order to excite the photoproducts subsequent to the initial pump interaction. However, the data obtained was not instructive enough to de� nitely exclude the manganese oxidation being responsible for the loss of further CO groups. Besides the exchange of a CO Group by a solvent molecule or the geminate recombination, the employment of two different excitation wavelengths in combination with � ndings derived from the TDDFT calculations suggested another reaction process, namely the possibility that the excitation does not lead to any bond cleavage at all. As the CORM under investigation is tissue-selective and cytotoxic against cancer cells, knowledge of these � rst photoinduced reaction steps is essential for a full understanding of its biological activity. Inspired by these two studies, experimental techniques for prospective transient absorption measurements have been implemented and tested within preparative measure- ments. First, in the course of a UV-pump-MIR-probe experiment with speci� cally tailored excitation pulses, one could pursue the aim of coherently controlling the outcome of a photoreaction in the liquid phase. Out of the rich photochemistry of DMA the vibrational signature of a particular molecular species might thereby serve as a feedback signal, which is a central part of a learning loop that adaptively determines the pulse shape that steers the quantum mechanical system upon photoexcitation into a desired direction. This motivated the installation and testing of devices by means of which the shaping and characterization of ultrashort laser pulses in the UV could be performed. Second, motivated by the biological applications of CORMs, one can imagine a scenario where a certain amount of CORMs is deposited inside cancerous tissue. Since the activation of CO loss by means of UV pulses is not possible due to the absorption characteristics of biological tissue, the simultaneous excitation via two photons from the visible spectral regime seems appealing. However, success or failure of such an application depends on whether the deposited compound efficiently absorbs two photons simultaneously, i.e., whether the two-photon absorption cross section is large enough. Therefore, a setup to record two-photon excitation spectra under full consideration of the crucial laser pulse parameters like the pulse duration, energy and central wavelength was arranged and tested. The � rst results were obtained with a commercially available reference system (Mn2CO10) but the setup as well as the described measurement and data analysis procedure can easily be applied to record the two-photon absorption cross section of more promising molecular systems. Third, as the detection of probe pulses in the MIR spectral region is part of each time-resolved measurement throughout this thesis, a comparison between the newly established technique of CPU and direct multi- channel MCT detection is presented by means of pump{probe experiments on Mn2CO10 and Co4CO12 with a 1 kHz shot-to-shot data acquisition. It was shown that the CPU detection technique scores with its high spectral resolution and coverage of the easy-to-handle and more cost-effective CCD detectors. On the other hand, in the course of the additional nonlinear upconversion process intensity fluctuations of the chirped fundamental pulses are transferred to the probe spectrum in the visible regime. This entails a lower signal-to-noise ratio than the direct MCT detection, which can be compensated by an additional normalization procedure applied to the CPU probe pulses. As a consequence, the CPU detection scheme offers more flexibility for future investigations employing MIR probe pulses. This is of great importance for many applications within the presented � eld of femtochemistry as a huge variety of time-resolved investigations on a multitude of systems in the liquid phase is based on the detection of weak transient absorption signals in the MIR spectral region.}, subject = {Ultrakurzzeitspektroskopie}, language = {en} } @phdthesis{Rewitz2014, author = {Rewitz, Christian}, title = {Far-Field Characterization and Control of Propagating Ultrashort Optical Near Fields}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-94887}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2014}, abstract = {In this work, femtosecond laser pulses are used to launch optical excitations on different nanostructures. The excitations are confined below the diffraction limit and propagate along the nanostructures. Fundamental properties of these ultrashort optical near fields are determined by characterizing the far-field emission after propagation with a setup developed for this task. Furthermore, control of the nanooptical excitations' spatial and temporal evolution is demonstrated for a designed nanostructure.}, subject = {Nahfeldoptik}, language = {en} } @techreport{Keidel2014, type = {Working Paper}, author = {Keidel, Florian}, title = {Identification and Examination of the Relationship between Determinants of Corporate Sustainability and Corporate Financial Performance - An Empirical Analysis}, issn = {2199-0328}, doi = {10.25972/OPUS-9441}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-94415}, pages = {39}, year = {2014}, abstract = {In this paper the relationship between corporate sustainability performance and corporate financial performance is researched. It is hypothesized that a better sustainability performance of firms leads to financial success in terms of increased EBIT and Market Capitalization. Furthermore 17 environmental activities and their assumed impact on financial benefits are analyzed for ten different industry sectors. The data sample for this research paper has been taken from Thomson Reuters Database ASSET4 and includes 3115 firms. The results show that there is a positive and non-linear link between the sustainability performance and the financial performance of firms, intending that financially more successful firms can gain greater benefits from being sustainable than less successful firms do. Furthermore sustainable environmental activities have been identified for different industry sectors, which indicate to lead to an increase of the financial performance.}, subject = {Nachhaltigkeit}, language = {en} } @phdthesis{BlancoRedondo2014, author = {Blanco Redondo, Beatriz}, title = {Studies of synapsin phosphorylation and characterization of monoclonal antibodies from the W{\"u}rzburg Hybridoma Library in Drosophila melanogaster}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-93766}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2014}, abstract = {Synapsins are conserved synapse-associated hosphoproteins involved in the fine regulation of neurotransmitter release. The aim of the present project is to study the phosphorylation of synapsins and the distribution of phospho-synapsin in the brain of Drosophila melanogaster. Three antibodies served as important tools in this work, a monoclonal antibody (3C11/α-Syn) that recognizes all known synapsin isoforms and two antisera against phosphorylated synapsin peptides (antiserum PSyn(S6) against phospho-serine 6 and antiserum PSyn(S464) against phospho-serine 464). These antisera were recently generated in collaboration with Bertram Gerber and Eurogentec. ...}, subject = {Synapsine}, language = {en} } @phdthesis{Summa2014, author = {Summa, Alexander}, title = {Modelling high-energy observables of supernova explosions}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-94608}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2014}, abstract = {In this work, high-energy observables arising during different phases of SN explosions are studied with respect to their potential for allowing conclusions on suggested explosion scenarios and physical mechanisms that are thought to influence the evolution of SNe in a major way. The focus on selected observables at keV and MeV energies is motivated by the appearance of large degeneracies that can even be found for disparate scenarios in many wavelength regimes. Since the discussed emission in the high-energy regime is directly linked to nuclear processes being usually very distinct for different suggested physical models, the signatures at keV and MeV energies allow for meaningful comparisons of simulations with observations.}, subject = {Supernova}, language = {en} } @phdthesis{Hein2014, author = {Hein, Melanie}, title = {Functional analysis of angiogenic factors in tumor cells and endothelia}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-93863}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2014}, abstract = {Tumor angiogenesis is essential for the growth of solid tumors as their proliferation and survival is dependent on consistent oxygen and nutrient supply. Anti-angiogenic treatments represent a therapeutic strategy to inhibit tumor growth by preventing the formation of new blood vessels leading to starvation of the tumor. One of the best characterized anti angiogenic therapeutics is the monoclonal antibody bevacizumab (Avastin), which targets and neutralizes VEGF leading to disruption of the VEGF signaling pathway. Until today, bevacizumab has found its way into clinical practice and has gained approval for treatment of different types of cancer including colorectal cancer, non-small cell lung cancer, breast cancer and renal cell carcinoma. Signaling of VEGF is mediated through VEGF receptors, mainly VEGFR2, which are primarily located on the cell surface of endothelial cells. However, there has been evidence that expression of VEGF receptors can also be found on tumor cells themselves raising the possibility of autocrine and/or paracrine signaling loops. Thus, tumor cells could also benefit from VEGF signaling, which would promote tumor growth. The aim of this study was to investigate if bevacizumab has a direct effect on tumor cells in vitro. To this end, tumor cell lines from the NCI-60 panel derived from four different tumor types were treated with bevacizumab and angiogenic gene and protein expression as well as biological outputs including proliferation, migration and apoptosis were investigated. Most of the experiments were performed under hypoxia to mimic the in vivo state of tumors. Overall, there was a limited measurable effect of bevacizumab on treated tumor cell lines according to gene and protein expression changes as well as biological functions when compared to endothelial controls. Minor changes in terms of proliferation or gene regulation were evident in a single tumor cell line after VEGF-A blockade by bevacizumab, which partially demonstrated a direct effect on tumor cells. However, the overall analysis revealed that tumor cell lines are not intrinsically affected in an adverse manner by bevacizumab treatment. Besides the functional analysis of tumor cells, embryonic stem cell derived endothelial cells were characterized to delineate vascular Hey gene functions. Hey and Hes proteins are the best characterized downstream effectors of the evolutionary conserved Notch signaling pathway, which mainly act as transcriptional repressors regulating downstream target genes. Hey proteins play a crucial role in embryonic development as loss of Hey1 and Hey2 in mice in vivo leads to a severe vascular phenotype resulting in early embryonic lethality. The major aim of this part of the thesis was to identify vascular Hey target genes using embryonic stem cell derived endothelial cells utilizing a directed endothelial differentiation approach, as ES cells and their differentiation ability provide a powerful in vitro system to study developmental processes. To this end, Hey deficient and Hey wildtype embryonic stem cells were stably transfected with an antibiotic selection marker driven by an endothelial specific promoter, which allows selection for endothelial cells. ESC-derived endothelial cells exhibited typical endothelial characteristics as shown by marker gene expression, immunofluorescent staining and tube formation ability. In a second step, Hey deficient ES cells were stably transfected with doxycycline inducible Flag-tagged Hey1 and Hey2 transgenes to re-express Hey proteins in the respective cell line. RNA-Sequencing of Hey deficient and Hey overexpressing ES cells as well as ESC-derived endothelial cells revealed many Hey downstream target genes in ES cells and fewer target genes in endothelial cells. Hey1 and Hey2 more or less redundantly regulate target genes in ES cells, but some genes were regulated by Hey2 alone. According to Gene Ontology term analysis, Hey target genes are mainly involved in embryonic development and transcriptional regulation. However, the response of ESC-derived endothelial cells in regulating Hey downstream target genes was rather limited when compared to ES cells, which could be due to lower transgene expression in endothelial cells. The limited response also raises the possibility that target gene regulation in endothelial cells is not only dependent on Hey gene functions alone and thus loss or overexpression of Hey genes in this in vitro setting does not influence target gene regulation.}, subject = {Krebs }, language = {en} } @phdthesis{Klein2014, author = {Klein, Dominik Werner}, title = {Design and Evaluation of Components for Future Internet Architectures}, issn = {1432-8801}, doi = {10.25972/OPUS-9313}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-93134}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2014}, abstract = {Die derzeitige Internetarchitektur wurde nicht in einem geplanten Prozess konzipiert und entwickelt, sondern hat vielmehr eine evolutionsartige Entwicklung hinter sich. Ausl{\"o}ser f{\"u}r die jeweiligen Evolutionsschritte waren dabei meist aufstrebende Anwendungen, welche neue Anforderungen an die zugrundeliegende Netzarchitektur gestellt haben. Um diese Anforderungen zu erf{\"u}llen, wurden h{\"a}ufig neuartige Dienste oder Protokolle spezifiziert und in die bestehende Architektur integriert. Dieser Prozess ist jedoch meist mit hohem Aufwand verbunden und daher sehr tr{\"a}ge, was die Entwicklung und Verbreitung innovativer Dienste beeintr{\"a}chtigt. Derzeitig diskutierte Konzepte wie Software-Defined Networking (SDN) oder Netzvirtualisierung (NV) werden als eine M{\"o}glichkeit angesehen, die Altlasten der bestehenden Internetarchitektur zu l{\"o}sen. Beiden Konzepten gemein ist die Idee, logische Netze {\"u}ber dem physikalischen Substrat zu betreiben. Diese logischen Netze sind hochdynamisch und k{\"o}nnen so flexibel an die Anforderungen der jeweiligen Anwendungen angepasst werden. Insbesondere erlaubt das Konzept der Virtualisierung intelligentere Netzknoten, was innovative neue Anwendungsf{\"a}lle erm{\"o}glicht. Ein h{\"a}ufig in diesem Zusammenhang diskutierter Anwendungsfall ist die Mobilit{\"a}t sowohl von Endger{\"a}ten als auch von Diensten an sich. Die Mobilit{\"a}t der Dienste wird hierbei ausgenutzt, um die Zugriffsverz{\"o}gerung oder die belegten Ressourcen im Netz zu reduzieren, indem die Dienste zum Beispiel in f{\"u}r den Nutzer geographisch nahe Datenzentren migriert werden. Neben den reinen Mechanismen bez{\"u}glich Dienst- und Endger{\"a}temobilit{\"a}t sind in diesem Zusammenhang auch geeignete {\"U}berwachungsl{\"o}sungen relevant, welche die vom Nutzer wahrgenommene Dienstg{\"u}te bewerten k{\"o}nnen. Diese L{\"o}sungen liefern wichtige Entscheidungshilfen f{\"u}r die Migration oder {\"u}berwachen m{\"o}gliche Effekte der Migration auf die erfahrene Dienstg{\"u}te beim Nutzer. Im Falle von Video Streaming erm{\"o}glicht ein solcher Anwendungsfall die flexible Anpassung der Streaming Topologie f{\"u}r mobile Nutzer, um so die Videoqualit{\"a}t unabh{\"a}ngig vom Zugangsnetz aufrechterhalten zu k{\"o}nnen. Im Rahmen dieser Doktorarbeit wird der beschriebene Anwendungsfall am Beispiel einer Video Streaming Anwendung n{\"a}her analysiert und auftretende Herausforderungen werden diskutiert. Des Weiteren werden L{\"o}sungsans{\"a}tze vorgestellt und bez{\"u}glich ihrer Effizienz ausgewertet. Im Detail besch{\"a}ftigt sich die Arbeit mit der Leistungsanalyse von Mechanismen f{\"u}r die Dienstmobilit{\"a}t und entwickelt eine Architektur zur Optimierung der Dienstmobilit{\"a}t. Im Bereich Endger{\"a}temobilit{\"a}t werden Verbesserungen entwickelt, welche die Latenz zwischen Endger{\"a}t und Dienst reduzieren oder die Konnektivit{\"a}t unabh{\"a}ngig vom Zugangsnetz gew{\"a}hrleisten. Im letzten Teilbereich wird eine L{\"o}sung zur {\"U}berwachung der Videoqualit{\"a}t im Netz entwickelt und bez{\"u}glich ihrer Genauigkeit analysiert.}, subject = {Leistungsbewertung}, language = {en} } @phdthesis{Roedder2014, author = {R{\"o}dder, Tobias}, title = {Spatio-temporal assessment of dynamics in discontinuous mountain permafrost - Investigation of small-scale influences on the ground thermal regime and active layer processes during snow melt}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-90629}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2014}, abstract = {The discontinuous mountain permafrost zone is characterized by its heterogeneous distribution of frozen ground and a small-scale variability of the ground thermal regime. Large parts of these areas are covered by glacial till and sediments that were exposed after the recession of the glaciers since the 19th century. As response to changed climatic conditions permafrost-affected areas will lose their ability as sediment storage and on the contrary, they will act as source areas for unconsolidated debris. Along with modified precipitation patterns the degradation of the discontinuous mountain permafrost zone will (temporarily) increase its predisposition for mass movement processes and thus has to be monitored in a differentiated way. Therefore, the spatio-temporal dynamics of frozen ground are assessed in this study based on results obtained in three glacier forefields in the Engadin (Swiss Alps) and at the Zugspitze (German Alps). Sophisticated techniques are required to uncover structural differences in the subsurface. Thus, the applicability of advanced geophysical methods is tested for alpine environments and proved by the good 3D-delineation of a permafrost body and by the detection of detailed processes in the active layer during snow melt. Electrical resistivity tomography (ERT) approaches (quasi-3D, daily monitoring) reveal their capabilities to detect subsurface resistivity changes both, in space and time. Processes and changes in regard to liquid water content and ice content are observed to exist at short distances even though the active layer is not subject to a considerable thickening over the past 7 years. The stability of the active layer is verified by borehole temperature data. No synchronous trend is recognized in permafrost temperatures and together with multi-annual electrical resistivity data they indicate degradation and aggradation processes to occur at the same time. Different heat transfer mechanisms, especially during winter, are recognized by means of temperature sensors above, at, and beneath the surface. Based on surface and borehole temperature data the snow cover is assessed as the major controlling factor for the thermal regime on a local scale. Beyond that, the debris size of the substrate, which modifies the snow cover and regulates air exchange processes above the ground, plays a crucial role as an additional buffer layer. A fundamental control over the stability of local permafrost patches is attributed to the ice-rich transient layer at the base of the active layer. The refreezing of melt water in spring is illustrated with diurnal ERT monitoring data from glacier forefield Murt{\`e}l. Based on these ERT and borehole temperature data a conceptual model of active layer processes between autumn and spring is developed. The latent heat that is inherent in the transient layer protects the permafrost beneath from additional energy input from the surface as long as the refreezing of melt water in spring prevails and sufficient ice is build up each spring. Permafrost sites without a transient layer show considerably higher temperatures at their table and are more prone to degradation in the years and decades ahead. As main investigation area a glacier forefield beneath the summits of Piz Murt{\`e}l and Piz Corvatsch in the Swiss Engadin was chosen. It is located west of the well-known rock glacier Murt{\`e}l. Here, a permafrost body inside and adjacent to the lateral moraine was investigated and could be delineated very well. In the surrounding glacier forefield no further indications of permafrost occurrence could be made. Geophysical data and temperature values from the surface and from a permafrost borehole were compared with long-term data from proximate glacier forefield Muragl (Engadin). Results from both sites show a considerable stability of the active layer depth in summer while at the same time geophysical data demonstrate annual changes in the amount of liquid water content and ice content in the course of years. A third investigation area is located in the German Alps. The Zugspitzplatt is a high mountain valley with considerably more precipitation and thicker snow cover compared to both Swiss sites. In close proximity to the present glacier and at a large talus slope beneath the summit crest ground ice could be observed. The high subsurface resistivity values and comparable data from existing studies at the Zugspitze may indicate the presence of sedimentary ice in the subsurface of the karstified Zugspitzplatt. Based on these complementary data from geophysical and temperature measurements as well as geomorphological field mapping the development of permafrost in glacier forefields under climate change conditions is analyzed with cooperation partners from the SPCC project. Ground temperature simulations forced with long-term climatological data are modeled to assess future permafrost development in glacier forefield Murt{\`e}l. Results suggest that permafrost is stable as long as the ice-rich layer between the active layer and the permafrost table exists. After a tipping point is reached, the disintegration of frozen ground starts to proceed rapidly from the top.}, subject = {Engadin}, language = {en} }