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Membrane proteins (MPs) constitute about 30% of the genome and are essential in many cellular processes. In particular structural characterisation of MPs is challenged by their hydrophobic nature resulting in expression difficulties and structural instability upon extraction from the membrane. Despite these challenges, progress in sample preparation and the techniques to solve MP structures has led to 281 unique MP structures as of January 2011. Through the combination of a cell-free expression system and selective labelling strategies, this thesis aimed to advance the structure determination of α-helical MPs by NMR spectroscopy and resulted in the structure determination of a seven-ransmembrane-helix protein. Results were obtained for the 5-lipoxygenase-activating protein (FLAP) and proteorhodopsin (PR). The detergent-based cell-free expression mode proved most efficient for production of both targets, but optimisation of FLAP and PR followed different routes. The presence of a retinal cofactor in PR greatly facilitated the search for an appropriate hydrophobic environment. For structural studies, NMR spectra of FLAP indicated favourable properties of the lysolipid LPPG. In contrast, PR was stable and homogenous in the short-chain lipid diC7PC. As NMR spectra of α-helical MPs are generally characterised by broad lines and signal overlap, selective labelling strategies were essential in the assignment process of both targets. For the backbone assignment of FLAP the transmembrane segment-enhanced (TMS) labelling was developed, employing the six amino acids AFGILV. These residues cluster predominantly in transmembrane helices and form long stretches allowing a large extent of backbone assignment. Besides that, the combinatorial labelling enables identification of unique pairs in the sequence based on a mixture of 15N and 1-13C-labelled amino acids. To find the optimal labelling pattern for a given primary structure, the UPLABEL algorithm has been made available and successfully applied in the backbone assignment of PR. Both selective labelling approaches greatly benefitted from the use of a cell-free expression system to reduce isotope scrambling. Additionally, the de novo structure of PR was determined with an average backbone rmsd of 1.2 Å based on TALOS-derived backbone torsion angles, intrahelical hydrogen bond restraints and distance restraints from the NOE and paramagnetic relaxation enhancement (PRE). A major bottleneck in the NMR structure determination of MPs concerns the number of long-range distances which are often limited. In PR, side chain assignment was enabled by stereo-array isotope labelling as well as selective labelling which provided 33 long-range NOEs. These NOEs stabilised the symmetry of the seven helix bundle. With a total number of 1031, the majority of long-range distances were derived from PREs. The structure of PR reveals differences to its homologues such as the absence of an anti-parallel β-sheet between helices B and C and allows conclusions towards the mechanism of colour tuning.
Numorous psychotherapeutic approaches have been put forward to better treat patients with chronic psychological problems or severe personality disorders, among them Schema Therapy (Young, Klosko & Weishaar, 2003). Within Schema Therapy, there are two important theoretical constructs: early maladaptive schemas, which are conceptualized as stable and lasting emotional, behavioral and cognitive patterns regarding ourselves, the world and other people that have their origins in childhood or adolescence and schema modes, which are current states that describe the rapid shifts in emotion, cognition and behaviour that can be seen in patients with severe personality disorders. Schema Therapy has growing popularity with clinicians in the last decade, but only a few studies have tested the empirical validity of the schema mode model. Lobbestael, van Vreeswijk, Spinhoven, Schouten & Arntz (2010) developed and evaluated the Schema Mode Inventory to assess schema modes within the framework of a questionnaire. This instrument has been translated to the German language and the psychometric properties of the instrument indicate an adequate fit to the model established in the original Dutch study (paper 1).
In Schema Therapy, on the one hand mode concepts have been proposed without a focus on one specific disorder (Young et al., 2003), but on the other hand disorder-specific concepts have been established that form the basis for manualization and research. The most popular disorder specific mode concept is that of Borderline Personality Disorder (Arntz & van Genderen, 2009). In randomized controlled trials the effectiveness of Schema Therapy for Borderline Personality Disorder in the individual setting (Giesen-Bloo, van Dyck, Spinhoven, van Tilburg, Dirksen et al., 2006) and the group setting (Farrell, Shaw & Webber, 2009) was evaluated. Whereas Schema Therapy for Borderline Personality Disorder in the individual setting has been manualized (Arntz & van Genderen, 2009), a manual for group Schema Therapy is not yet available, Therefore, particularly since this last evaluation study, there has been a need to better describe, how the Schema Therapy mode model for Borderline Personality Disorder has been applied to the group setting (papers 2 & 3) as well as how both modalities of Schema Therapy treatment, individual and group, are combined in intensive psychotherapy settings such as inpatient or day care (papers 4 & 5). Lastly the question has been put forward as to how effective Schema Therapy for Borderline Personality Disorder is in intensive treatment environments, where it is assumed that the severity of the disorders treated is even higher. It is found that a combined program of individual and group Schema Therapy for Borderline Personality Disorder is effective in the inpatient setting. Subtle variations in treatment programs in three pilot studies leave room for the discussion of possible factors influencing treatment effects (paper 6). The results of all studies are discussed on the background of Schema Therapy’s development as a new psychotherapy approach for the treatment of complex disorders.
In recent years using symmetry has proven to be a very useful tool to simplify computations in semidefinite programming. This dissertation examines the possibilities of exploiting discrete symmetries in three contexts: In SDP-based relaxations for polynomial optimization, in testing positivity of symmetric polynomials, and combinatorial optimization. In these contexts the thesis provides new ways for exploiting symmetries and thus deeper insight in the paradigms behind the techniques and studies a concrete combinatorial optimization question.
The miniaturization of electronics is reaching its limits. Structures necessary to build integrated circuits from semiconductors are shrinking and could reach the size of only a few atoms within the next few years. It will be at the latest at this point in time that the physics of nanostructures gains importance in our every day life. This thesis deals with the physics of quantum impurity models. All models of this class exhibit an identical structure: the simple and small impurity only has few degrees of freedom. It can be built out of a small number of atoms or a single molecule, for example. In the simplest case it can be described by a single spin degree of freedom, in many quantum impurity models, it can be treated exactly. The complexity of the description arises from its coupling to a large number of fermionic or bosonic degrees of freedom (large meaning that we have to deal with particle numbers of the order of 10^{23}). An exact treatment thus remains impossible. At the same time, physical effects which arise in quantum impurity systems often cannot be described within a perturbative theory, since multiple energy scales may play an important role. One example for such an effect is the Kondo effect, where the free magnetic moment of the impurity is screened by a "cloud" of fermionic particles of the quantum bath.
The Kondo effect is only one example for the rich physics stemming from correlation effects in many body systems. Quantum impurity models, and the oftentimes related Kondo effect, have regained the attention of experimental and theoretical physicists since the advent of quantum dots, which are sometimes also referred to as as artificial atoms. Quantum dots offer a unprecedented control and tunability of many system parameters. Hence, they constitute a nice "playground" for fundamental research, while being promising candidates for building blocks of future technological devices as well.
Recently Loss' and DiVincenzo's p roposal of a quantum computing scheme based on spins in quantum dots, increased the efforts of experimentalists to coherently manipulate and read out the spins of quantum dots one by one. In this context two topics are of paramount importance for future quantum information processing: since decoherence times have to be large enough to allow for good error correction schemes, understanding the loss of phase coherence in quantum impurity systems is a prerequisite for quantum computation in these systems. Nonequilibrium phenomena in quantum impurity systems also have to be understood, before one may gain control of manipulating quantum bits.
As a first step towards more complicated nonequilibrium situations, the reaction of a system to a quantum quench, i.e. a sudden change of external fields or other parameters of the system can be investigated. We give an introduction to a powerful numerical method used in this field of research, the numerical renormalization group method, and apply this method and its recent enhancements to various quantum impurity systems.
The main part of this thesis may be structured in the following way:
- Ferromagnetic Kondo Model,
- Spin-Dynamics in the Anisotropic Kondo and the Spin-Boson Model,
- Two Ising-coupled Spins in a Bosonic Bath,
- Decoherence in an Aharanov-Bohm Interferometer.
This work deals with the use of dielectrics with high permeability, so-called high-k dielectrics in organic thin-film field-effect transistors (FETs). The central part was the preparation of the high-k dielectric and its implementation in transistors, in which organic semiconductors were used as active layer. A field-effect transistor can be used to measure the charge carrier mobility. Employing high-k dielectrics the carrier concentration in the active layer can be greatly increased. In this way, high charge carrier concentrations in organic layers can be achieved without chemical doping. As high-k dielectric strontium titanate (STO) was selected. It is also available as a niobium-doped and therefore conducting substrate material. Thus, one has an ideal substrate for the growth of the dielectric layer in conjunction with a substrate which acts as gate electrode. As the organic semiconductor the small molecules pentacene and copper phthalocyanine (CuPc) were sublimated, as electrical contacts gold was used. As a key part of this work an ultra high vacuum chamber system was constructed for in situ preparation of field effect transistors. For the deposition of the organic thin films a molecular beam deposition chamber was built, including a manipulator and effusion cells as evaporation sources. For the preparation of the dielectric a sputtering chamber was set-up. Another chamber was used in conjunction with an effusion cell for the deposition of the gold contacts. For the structured deposition of the different layers in the devices a shadow mask system was implemented. Movable masks could be positioned by means of a wobble stick onto the sample carriers. The system thus allowed for the use of masks in all chambers. The different thin films required in the transistor structure were first individually prepared and characterized. For the characterization primarily X-ray diffraction and optical microscopy were used. The growth of pentacene was analyzed on aplha-AlO substrates. With X-ray diffraction the (00l) reflections of the thin film phase were observed. In growth studies of CuPc aplha-AlO and STO substrates were used. With X-ray diffraction the aplha-phase was detected. With increasing substrate temperature an increase in crystallinity, but also an increase in surface roughness was observed. The sputtering of STO as a high-k dielectric was studied and optimized. Simultaneously, a high deposition rate, a smooth film surface and good crystallinity of the layer were required. As the most important parameters the substrate temperature, pressure and sputtering power were identified. Argon and oxygen were employed as sputtering gases, as substrate MgO was used. The films showed in comparison to crystalline STO a distortion to larger lattice constants. The degree of distortion decreased with increasing chamber pressure, on the other hand, deposition rate decreased with increasing chamber pressure as well. By combining the individual deposition processes FETs in bottom-gate geometry were prepared. The first step was always sputtering of the STO dielectric on niobium-doped STO substrates. Subsequently, the electrodes and the organic layer were deposited. For comparison transistors on silicon substrates with silicon dioxide (SiO2) as the dielectric were prepared. To study the transistor properties a measurement setup was build. A dielectric constant of about 190 for the STO in the transistors was achieved. The transistors with CuPc as active layer showed p-type conduction behavior. The transistors with STO as dielectric had a much stronger response than those with SiO2. They reached mobilities of 2E-4 cm2/Vs at very low applied voltages of 3V. It could thus be demonstrated that STO is suitable as a dielectric for organic FETs, and that through the use of high-k dielectrics high charge carrier densities can be achieved.
Ubiquitin is a highly conserved protein involved in several cellular processes like protein degradation, endocytosis, signal transduction and DNA repair. The discovery of ubiquitin-like proteins (UBL) and ubiquitin-like domains (ULD) increases the number of regulation pathways where the property of the ubiquitin-fold is profitable.
Autophagy is the catabolic pathway used in cells to deliver cytosolic components and dysfunctional organelles to the lysosome for degradation. MAP1LC3 proteins are ubiquitin-like proteins involved in one hand for the expansion of the autophagosome, which sequesters cytosolic substrates. In the other hand, these proteins (LC3- and GABARAP- subfamilies) bind to autophagic receptors linked to polyubiquitinated proteins aggregates. For this project, the 3D structure of the GABARAPL-1/NBR1-LIR complex was determined and confirmed that GABARAPL-1 belongs to the MAP1LC3 proteins family, structurally characterized by an ubiquitin-fold, consisting of a central beta-sheet formed by four beta-strands and two alpha-helices on one side of the beta-sheet, preceded N terminally by two alpha-helices, resulting in the formation of two hydrophobic pockets, hp1 and hp2. The autophagic receptor NBR1 interacts with GABARAPL-1 through the hp1 and hp2 with its LIR motif taking an extended beta conformation upon binding, forming an intermolecular beta-sheet with the second beta-strand of GABARAPL 1. This LC3- interacting region (LIR) consists of an Theta XX Gamma sequence preceded by acidic amino acids, with Theta and Gamma represented by any aromatic and hydrophobic residues, respectively. Interaction studies of the LIR domains of p62, Nix and NBR1 with different members of the MAP1LC3 proteins family indicate that the presence of a tryptophan in the LIR motif increases the binding affinity. Substitution to other aromatic amino acids or increasing the number of negatively charged residues at the N-terminus of the LIR motif, however, has little effect on the binding affinity due to enthalpy-entropy compensation, suggesting that effector proteins can interact with a wide variety of different sequences with similar and moderate binding affinities.
Additionally to be present in proteins dealing with protein folding and degradation, ubiquitin-like domain were found protein involved in the regulation of signal transduction like TBK1, a serine/threonine kinase responsible for induction of immune response. In this second project, based on the NMR chemical shifts of the TBK1 domain contained between amino acids 302 and 383, secondary structure prediction programs (TALOS and CSI) confirmed the presence of an Ubiquitin-like domain in TBK1 by identifying one alpha-helix and four beta-strands sequentially aligned like following beta-beta-alpha-beta-beta. This alignment corresponds perfectly with the secondary structure elements of Ubiquitin and proved that TBK1_ULD belongs to the UBL protein superfamily. The similarity to ubiquitin was even bigger by the presence in addition of a small beta-strand and a short helix, which are observed as the beta 5-strand and a 310-helix in Ubiquitin, respectively. The first attempts on the 3D structure determination confirmed the Ub-fold but due to the lack of assignment in TBK1_ULD, only a structure based on ubiquitin as a model was determined. Interaction studies of TBK1_ULD with the IAD-SRR domain of IRF3 showed that both side of the molecule seems involved and that the TBK1/IRF3 interaction is more complex than a one to one binding process. Unfortunately, the instability of TBK1_ULD associated to the difficulty in the purification of IAD-SRR did not allow to further study this interaction more precisely.
Finally, to overcome the difficulty encountered in NMR experiments because of low expression and/or poor solubility, an expression vector using the intrinsic property of ubiquitin was designed. Fused to proteins or peptides targets, this construct produced proteins and peptides in a larger amount than with traditional expression vectors and also with a less cost than chemical synthesis for pure labeled peptides for NMR structural studies. The presence of a hexa histidine tag was useful for the isolation and the purification of the constructs. The existence of a TEV cleavage site was created to keep the possibility of releasing the ubiquitin moiety from the expressed protein or peptide. Moreover, the ubiquitin-tag could also still be attached to the protein/peptide of interest when biophysical methods like NMR, ITC or CD spectroscopy are applied, providing the same results than for the protein/peptide moiety alone.
Design and optimization of the lattice of the superconducting synchrotron SIS300 for slow extraction
(2011)
The superconducting synchrotron SIS300 is planned to be built at the new Facility for Antiproton and Ion Research (FAIR), at GSI-Darmstadt [1]. SIS300 will be a versatile machine, which by means of a low-energy stretcher-mode or a high-energy ramped-mode will provide slowly extracted heavy ion beams towards the experimental areas. To reach the required maximum field of 4.5 T, cos(θ) magnets are necessary. Thus, SIS300 will become the first superconducting synchrotron worldwide with cos(θ) magnets providing resonant slow extraction.
Since SIS300 will be installed in the same tunnel as the SIS100 synchrotron, the dipole layout of SIS300 cannot be freely chosen. Thus, a standard lattice cannot be applied. A redesign of the SIS300 lattice accepting compromises concerning the positions and phase advances between the optical elements has been proposed. Using the analytical model of the slow extraction, firstly proposed by Kobayashi, and the analytical description of the resonance driving modes, a multiobjective optimization algorithm has been developed for the optimization of the lattice under the given boundary conditions. The final goal of the lattice optimization is a higher efficiency of the slow extraction. The results are evaluated by means of tracking simulations performed with the code Elegant.
The field quality in superconducting cos(θ) magnets is determined by the positions of the superconducting cable and the static and time-dependent effects of the current in the cable. Furthermore, the fast ramp rates of 1 T/s in the dipoles, which are fifty times faster than in any other superconducting cos(θ) magnet, together with the fact that the aperture is smaller than in conventional accelerator magnets, makes it extremely difficult to obtain a high-quality magnetic field. The unavoidable field errors affect the beam dynamics and worsen the slow extraction efficiency. Therefore, the field errors in the SIS300 dipoles have been estimated, and their effects have been taken into account in the optimization algorithm. As a result a compensation scheme has been proposed, in which time-dependent gradients in the sextupoles counteract the decay of the sextupole field errors in the dipole magnets during the slow extraction. For the limits where the compensation was no longer possible, tolerances to the magnet field errors have been determined.
We found that the HMTase G9a, that catalyzes H3K9me2 in euchromatin, plays a key modulatory role in type I IFN expression. This finding raises the possibility of targeted intervention with type I IFN expression by using small synthetic inhibitors of G9a. Given the overall minimal negative effect of G9a-deficiency on differentiated cells, the short-term suppression of G9a could be used to potentiate type I IFN expression during chronic viral diseases such as hepatitis C. Accordingly, pharmacological enhancement of methylation, for example by inhibition of the H3K9me2 specific demethylases, could be potentially used to attenuate type I IFN expression and help to control chronic inflammatory and autoimmune conditions. The mechanism responsible for canvassing the epigenetic profile of type I IFN expressing cells are not known. It is plausible, that similar to neurons, where G9a is targeted to specific loci with the help of noncoding RNAs, IFN expressing cells possess similar mechanisms to target H3K9me2 demethylating enzymes to type I IFN loci, thus keeping these loci accessible for IFN-inducing transcription factors. Identification of non-coding RNAs that may contribute to the establishment of the epigenetic state of IFN producing cells will provide a further opportunity for targeted manipulation of IFN expression.
In my thesis, I describe the collaborative experiments that show the ability of synthetic compounds that interfere with the histone readers to suppress inflammation. Our results present a novel concept for the regulation of inflammatory gene expression. The diversity of histone readers and the combinatorial nature of regulation of gene transcription may provide an opportunity for highly selective interference with disease associated transcriptional programs by interfering with specific readers. In the future we plan to address the therapeutic potential of BET antagonists in autoimmune and chronic inflammatory conditions.In summary, the experiments described in my thesis provide an example of how the understanding of the basic mechanisms of chromatin control of gene expression can facilitate novel therapeutic approaches that target chromatin.
Towards a THz Bloch laser
(2011)
The realisation of tunable THz laser sources working at room temperature would give
rise to further applications in this range of the electromagnetic spectrum. The THz
Bloch laser could therefore become the basis for a technological breakthrough. Beside
this practical relevance, the physics of the gain mechanism has been investigated
theoretically for a long time and the experimental implementation of a self-starting
laser still has not been achieved.
At the beginning of this thesis the basic principles of Bloch oscillations and the
related Bloch gain are described. The need of a superlattice structure to make Bloch
oscillations possible in a semiconductor material is discussed. In this context, the effect
of negative differential resistance and its influence on the field distribution due to Gunn
domains is explained. The latter lead to an inhomogeneous field which may suppress
the Bloch gain mechanism. The Krömer criterion is introduced and the concept of
field-pinning layers to improve the field homogeneity is deduced. Finally, the design of
the laser material is shown and different types of laser waveguides are compared.
In chapter 3 detailed recipes for the processing of samples are given. Different types of
contacts (ohmic and Schottky), the wafer bonding process required for double-metal
lasers and the application of different photoresists for different purposes are described.
An explanation of the formation of waveguides due to dry etching, wet etching
and ion implantation follows. Dry etching is an established technique in the field
of microstructure processing but the challenge of etching about 20 μm has led to
problems. The high etching depth also makes wet etching difficult but this method
could be improved due to a hard bake of the photoresist. The protection of critical
areas on the surface of the samples with photoresist during ion implantation was
increased by optimising the spin coating process. However, a full implantation of the
active layer between the waveguides was not achieved which was the reason for the
development of the hybrid technology. Here a prior wet etching of about 10 μm is
performed and the rest of the material is implanted.
The experimental setup is shown in chapter 4. An alternative method for the electrical
contacting with the help of a copper bar is introduced. This improves the current
distribution and the risk of an electrical breakdown during the measurements could
therefore be lowered. Devices for THz beam guidance and spectroscopic measurements
are shown and the method of biasing the samples with pulses below 100 ns and
determining the effective voltage applied to the sample is depicted. These short pulses
are required to prevent the samples heating up drastically due to high power.
Chapter 5 contains the current-voltage characterisation of several structures including
I-V-samples, Bloch laser samples and a quantum cascade laser. Different contacts
(ohmic and Schottky) and different techniques for the formation of the ridges have
been used in the processing of these samples (performed at the University of Frankfurt
in all cases) and their influence on the I-V-dependence is discussed. The properties of
the THz emission of the quantum cascade laser are in good agreement with published
results from lasers processed with the same material. Another important result of
this chapter is that the Bloch laser samples show unstable behaviour compared to the
quantum cascade structure even with short pulses (of about 10 ns) where the risk of an
electrical breakdown or the building of filaments is low. THz radiation emitted from
one of the Bloch laser samples could not be observed.
Two aspects that may have prevented the Bloch laser to emit are discussed in
chapter 6. The saturation of the gain for higher amplitudes of the THz wave is
investigated in single mode and multiple mode operation (the latter could occur due
to the Bloch gain being expected to be broadband). In both cases it is shown that
the saturation effect would limit the output power only to values clearly above the
detection limit. In the subsequent section the distribution of the electric field is
simulated with SILVACO software. Structures with transit layer lengths above the
Krömer criterion are compared with structures which include field-pinning layers. It is
shown that the latter are useful to avoid propagating Gunn domains as they build up
in similar structures without field-pinning layers. Nevertheless, the electric field inside
the superlattice regions is not stable. Beside spatial inhomogeneities also temporal
variations of the field magnitude are observed. The lack of a suitable field distribution
is expected to be the main reason for the samples not to work.
The role of peroxisome proliferator-activated receptor gamma during sepsis-induced lymphopenia
(2011)
Sepsis is one of the most common diseases on intensive care units all over the world and accounts there for the highest mortality rate. One of the hallmarks of sepsis is an accelerated T-cell apoptosis, resulting in a compromised immune state with the inability to eradicate pathogens. This promotes organ damage or even organ failure. A multiple organ dysfunction evolves, which often ends up in septic shock and death. Recently, it was shown that severe T-cell depletion correlates with sepsis mortality. When inhibiting T-cell apoptosis, an increased mouse survival was observed in experimental sepsis. ...
In human neuroscientific research, there has been an increasing interest in how the brain computes the value of an anticipated outcome. However, evidence is still missing about which valuation related brain regions are modulated by the proximity to an expected goal and the previously invested effort to reach a goal. The aim of this dissertation is to investigate the effects of goal proximity and invested effort on valuation related regions in the human brain. We addressed this question in two fMRI studies by integrating a commonly used reward anticipation task in differential versions of a Multitrial Reward Schedule Paradigm. In both experiments, subjects had to perform consecutive reward anticipation tasks under two different reward contingencies: in the delayed condition, participants received a monetary reward only after successful completion of multiple consecutive trials. In the immediate condition, money was earned after every successful trial. In the first study, we could demonstrate that the rostral cingulate zone of the posterior medial frontal cortex signals action value contingent to goal proximity, thereby replicating neurophysiological findings about goal proximity signals in a homologous region in non-human primates. The findings of the second study imply that brain regions associated with general cognitive control processes are modulated by previous effort investment. Furthermore, we found the posterior lateral prefrontal cortex and the orbitofrontal cortex to be involved in coding for the effort-based context of a situation. In sum, these results extend the role of the human rostral cingulate zone in outcome evaluation to the continuous updating of action values over a course of action steps based on the proximity to the expected reward. Furthermore, we tentatively suggest that previous effort investment invokes processes under the control of the executive system, and that posterior lateral prefrontal cortex and the orbitofrontal cortex are involved in an effort-based context representation that can be used for outcome evaluation that is dependent on the characteristics of the current situation.
The canonical Wnt/β-catenin and the Shh pathway as well as the Notch signaling cascade
are key regulators in stem cell biology and are independently associated with the development
of cancer. Despite the knowledge of a balanced signaling for cellular maintenance, the
fundamental biochemical mechanisms of crosstalk are still poorly understood. This study
demonstrates that the outcome of interaction between Wnt and Shh is cell type specific. A
combined inhibitory mechanism of the Shh and Notch2/Jagged2 pathways on dominant
active β-catenin signaling in the adult tongue epithelium keeps Wnt/β-catenin signaling
restricted to physiological tolerable levels. In the opposite crosstalk the activation of
Wnt/β-catenin signaling in medulloblastoma (MB) of the Shh subtype, in turn inhibits the Hh
pathway.
The inhibitory mechanism of Shh and Notch2/Jagged2 on Wnt/β-catenin signaling is
independent of the degradation complex of β-catenin and takes place inside the nucleus.
Furthermore, the negative feedback on Wnt/β-catenin signaling by the Shh pathway relies
on transcriptional activity of Gli1/2A. Inhibition of Gli1/2A with the specific inhibitor GANT61
abrogated the negative impact of Shh on β-catenin signaling in vitro. Although the negative
feedback loop of Shh is still functional in human SCC25 cells, the inhibitory effect of
Notch2/Jagged2 is lost and contributes to the cancerogenic phenotype of these cells. In the
inverse situation, the activation of β−catenin signaling has a negative feedback on
constantly active Shh signaling and significantly inhibits the Hh pathway. This was shown in
Ptch+/- and Math1-Cre:SmoM2Fl/+ MB tumor spheres in vitro, in which inhibition of sphere
formation and growth was observed and Hh target gene transcription was down-regulated.
This demonstrates for the first time that the activation of canonical Wnt/β-catenin signaling
in primary MB cells with a Hh pathway over-activation has a negative effect on the growth of
these cells in vitro.
In summary the results show that crosstalk of Wnt/β-catenin and Shh signaling has context
specific outcome on pathway activity. Elucidation of the molecular interactions will improve
our understanding of Wnt and Hh associated tumors and contribute to the development of
new therapeutic strategies.
This dissertation investigated the development of the complementiser that from the demonstrative pronoun in the Germanic languages; each chapter dealt with a different aspect. In the introduction, the terms ‘reanalysis’ and ‘analogy’ and their relevance for grammaticalisation were explained, and the issues of the chapters were presented. The second chapter introduced some information about the Germanic language family and the languages which were relevant for this investigation, namely Gothic, Old English, Old Icelandic, Old Saxon and Old High German. Previous assumptions about the diachrony of that were presented and discussed. One of these proposals which mainly draws on evidence from West Germanic involves the idea that the source construction contained two independent main clauses with a demonstrative pronoun (that) at the end of the first clause (cf. e.g. Paul 1962, § 248). In contrast to this, the Gothic evidence showed that the source construction of the reanalysis of ϸatei was not a proper paratactic construction (at least in Gothic) but already a complex construction which contained a complementiser (ei) in the appositional subordinate clause (cf. also e.g. Longobardi 1994 for the diachrony of ϸatei). This contradiction raised the question whether the analysis of the Gothic that-complementiser also applies to the diachrony of that in West Germanic. This issue was taken up in the third chapter which presented an overview of subordination and complementisers in Northwest Germanic. The aim was to show that the Northwest Germanic languages also show a subordinating particle, which functions like the Gothic ei, namely ϸe (OE), er/es (OI), the (OHG, OS). As a result, the subordinating particle could be observed in relative and adverbial clauses in all Northwest Germanic languages. In complement clauses, which are most crucial for the argumentation, the subordinating particle is found in Old English and Old Icelandic but not in Old Saxon. In Old High German, there are only combinations of the with a following pronoun, theih and theiz, in ‘Otfrids Evangelienbuch’ (see Wunder 1965). Consequently, the presence of a subordinating particle is confirmed in North and West Germanic. The fact that the patterns of subordination are quite similar in all Germanic languages suggested a unitary analysis of the development of that in Germanic was appropriate. In chapter four, the similarities and differences between the Germanic languages with respect to the development of that were explained. It was argued that the preconditions of the reanalysis were the same, whereas the consequences of the reanalysis are realised differently in each language. The most important precondition was that the appositional source construction (explained in more detail below) was generally available in Germanic. Since the demonstrative pronoun at the end of the matrix clause and the subordinating particle of the subordinate clause were adjacent, phonological combination might have been crucial for the subsequent reanalysis to take place. After reanalysis, however, different changes can be observed in the different languages. For instance, it appears that during the Old English period the final syllable of the form ϸætte was deleted (see chapter 4 for references), whereas the final –ei is still present in the Gothic ϸatei, and completely absent in Old High German and Old Saxon. The source structure of the reanalysis was discussed in detail in a separate subsection. The appositional source construction, which was already assumed for the reanalysis of Gothic ϸatei, was compared with analyses of clitic left dislocation which propose that two constituents with the same theta-role derive from a Big DP (see e.g. Grewendorf 2009, Belletti 2005). Based on the Big DP analysis of Grewendorf (2009), it was claimed that the appositional clause, introduced by the subordinating particle, is generated in the Spec of a DP, and adjoined to this DP on the surface. It was argued that this whole complement DP-node occurred in an extraposed position in OV-languages so that the verb, when it stays in-situ, does not appear between the demonstrative pronoun and the subordinating particle. The structure in (1) illustrates the syntactic source structure which is assumed to apply to the development of the complementiser that in Germanic. ...
In Nervensystemen werden zahlreiche Informationen wahrgenommen und verarbeitet um ein adäquates Verhalten hervorzurufen. Für die Untersuchung der funktionellen Zusammenhänge hierbei wurden verschiedene Methoden entwickelt, die eine gezielte Manipulation neuronaler Prozesse ermöglichen. Durch Analyse der resultierenden Effekte können dabei synaptische Proteine, einzelne Neuronen oder neuronale Netzwerke funktionell charakterisiert werden. Bisherige Ansätze verfügen jedoch nur über eine geringe zeitliche und räumliche Auflösung oder erlauben lediglich eine eingeschränkte Anwendung im frei beweglichen Tier.
Diese Nachteile können durch die heterologe Expression von lichtgesteuerten, mikrobiellen Rhodopsinen zur gezielten Manipulation des Membranpotentials umgangen werden. So induziert die Photoaktivierung des Kationenkanals Channelrhodopsin 2 (ChR2; (Nagel et al., Curr Biol 2005)) eine Depolarisation, während die Chloridpumpe Halorhodopsin (NpHR; (Zhang et al., Nature 2007)) für die Hyperpolarisation verwendet werden kann. Dabei ermöglichen die schnellen Kinetiken der Rhodopsine eine zeitlich präzise Steuerung des Membranpotentials. Durch Auswahl geeigneter Promotoren ist zudem oftmals eine zell spezifische Expression möglich. Dieser Ansatz wird daher allgemein als Optogenetik bezeichnet.
In der vorliegenden Arbeit wurden zunächst konventionelle Techniken genutzt, um die Funktion von zwei assoziierten Proteinen eines Acetylcholin Rezeptors in C. elegans zu untersuchen. Des Weiteren wurden verschiedene Methoden für den Fadenwurm entwickelt und angewendet, die die Vorteile optogenetischer Techniken für die funktionelle Charakterisierung synaptischer Proteine und neuronaler Netzwerke nutzbar machen. Hierbei erlaubt die Transparenz von C. elegans die optogenetische Stimulation im lebenden Organismus unter nicht invasiven Bedingungen. Weitere Vorteile von C. elegans als neurobiologischem Modellorganismus liegen in seiner einfachen Handhabung (Hope, 1999) und der stereotypen Entwicklung seines Nervensystems mit bekannten anatomischen Ausprägungen (Sulston and Horvitz, Dev Biol 1977; Varshney et al., PLoS Comput Biol 2011; White et al., Philos Trans R Soc Lond B Biol Sci 1986). Durch ihre Häufigkeit und die experimentelle Zugänglichkeit wird hierbei die neuromuskuläre Synapse oftmals zur Erforschung der synaptischen Reizweiterleitung genutzt (Von Stetina et al., Int Rev Neurobiol 2006). Durch pharmakologische (Lewis et al., Neuroscience 1980; McIntire et al., Nature 1993; Miller et al., Proc Natl Acad Sci U S A 1996; Richmond and Jorgensen, Nat Neurosci 1999) und elektrische Stimulation (Richmond and Jorgensen, Nat Neurosci 1999) können dabei Defekte der Transmission hervorgehoben werden, während Verhaltensexperimente oder elektrophysiologische Messungen der post synaptischen Ströme in Muskelzellen eine quantitative Analyse ermöglichen (Richmond and Jorgensen, Nat Neurosci 1999).
Diese Methoden wurden für die funktionelle Charakterisierung von NRA 2 und NRA 4 verwendet, die beide als akzessorische Proteine zusammen mit dem Levamisol sensitiven Acetylcholin Rezeptor der Körperwandmuskelzellen aufgereinigt wurden (Gottschalk et al., EMBO J 2005). Dabei konnte gezeigt werden, dass NRA 2 und NRA 4 im Endoplasmatischen Retikulum (ER) der Muskelzellen einen Komplex bilden, der die Sensitivität von beiden nikotinischen Acetylcholin Rezeptoren gegenüber verschiedenen cholinergen Agonisten verändert. In diesem Zusammenhang wurde auch nachgewiesen, dass die Oberflächenexpression einzelner Untereinheiten der beiden Rezeptoren durch NRA 2/4 beeinflusst wird. Diese Resultate legen die Vermutung nahe, dass beide Proteine die Zusammensetzung der Rezeptoren und somit ihre pharmakologischen Eigenschaften modulieren. Denkbar ist dabei eine regulatorische Funktion bei der Assemblierung verschiedener Untereinheiten zu einem funktionellen Rezeptor oder bei der Kontrolle des ER Austritts von Rezeptoren mit bestimmter Zusammensetzung. In dieser Hinsicht konnte jedoch keine Interaktion von NRA 2/4 mit der Notch Signalkaskade nachgewiesen werden, wie sie für die homologen Proteine nicalin und NOMO in Vertebraten gezeigt wurde (Haffner et al., J Biol Chem 2007; Haffner et al., EMBO J 2004).
Für die Untersuchung synaptischer Proteine durch optogenetische Techniken wurde ChR2(H134R) selektiv in cholinergen oder GABAergen Motorneuronen exprimiert, um die akute und lichtgesteuerte Freisetzung des jeweiligen Neurotransmitters zu ermöglichen. Die resultierende Stimulation bzw. Inhibition von Muskelzellen wurde hierbei durch elektrophysiologische Messungen der post synaptischen Ströme und durch Analyse von Kontraktionen respektive Relaxationen untersucht. Dabei wurde gezeigt, dass Störungen der synaptischen Reizweiterleitung die Ausprägung und Dynamik dieser lichtinduzierten Effekte beeinflussen und dadurch charakterisiert werden können. So zeigten beispielsweise Mutanten von Synaptojanin und Endophilin nachlassende Effekte bei anhaltender oder wiederholter Stimulation, was durch die gestörte Regeneration synaptischer Vesikel erklärt werden kann (Harris et al., J Cell Biol 2000; Schuske et al., Neuron 2003; Verstreken et al., Neuron 2003).
Die hohe Sensitivität dieser Methode wurde im Nachfolgenden dazu verwendet, die Inhibition cholinerger Motorneuronen durch den metabotropen GABAB Rezeptor zu untersuchen, der in C. elegans aus den beiden Untereinheiten GBB 1 und GBB 2 gebildet wird (Dittman and Kaplan, J Neurosci 2008; Vashlishan et al., Neuron 2008). Dabei konnte zunächst gezeigt werden, dass diese heterosynaptische Inhibition verschiedene lokomotorische Verhaltensweisen der Tiere beeinflusst. Für die mechanistische Untersuchung wurden anschließend cholinerge Motorneuronen durch ChR2(H134R) photoaktiviert, während resultierende Kontraktionseffekte in Abhängigkeit von GBB 1/2 analysiert wurden. Um hierbei die Funktion von GBB 1/2 durch erhöhte GABA Konzentrationen hervorzuheben, wurden zusätzlich GABAerge Motorneuronen optogenetisch stimuliert oder die Wiederaufnahme von GABA aus dem synaptischen Spalt durch Mutation des Membran ständigen GABA Transporters blockiert. So konnte gezeigt werden, dass GBB 1/2 eine akute Inhibition der cholinergen Motorneuronen bewirken, was vermutlich für die Regulation von Bewegungsabläufen eine wichtige Rolle spielt. Die geringe Dynamik der GBB 1/2 induzierten Effekte deutet allerdings darauf hin, dass die synaptische Aktivität durch den metabotropen Rezeptor kaum nachhaltig moduliert wird.
In nachfolgenden Versuchen wurde die optogenetische Stimulation von Motorneuronen außerdem mit der elektronenmikroskopischen Analyse der präsynaptischen Feinstruktur kombiniert. Dadurch konnte die Dynamik der Exozytose und Endozytose synaptischer Vesikel (SV) in Abhängigkeit von neuronaler Aktivität untersucht werden. So wurde gezeigt, dass synaptische Vesikel nahe der aktiven Zone während einer 30 sekündigen Hyperstimulation nahezu komplett aufgebraucht waren. Die vollständige Regeneration der SV Pools benötigte anschließend etwa 12 Sekunden und erfolgte zunächst in der Peripherie der aktiven Zone, was auf eine laterale Heranführung der Vesikel schließen lässt. Nach etwa 20 Sekunden erholte sich ebenfalls die Wirksamkeit der Stimulation von Muskelzellen durch die Motorneuronen, was durch elektrophysiologische Messungen der photo induzierten post synaptischen Ströme gezeigt wurde. Während der Hyperstimulation bildeten sich außerdem große vesikuläre Strukturen, die sich anschließend nach etwa acht Sekunden wieder aufgelöst hatten. In Analogie zu vergleichbaren Experimenten in anderen Organismen liegt die Vermutung nahe, dass es sich dabei um Zwischenprodukte der so genannten Bulk Phase Endozytose handelt, die das Clathrin abhängige Recycling von synaptischen Vesikeln bei starker neuronaler Aktivität ergänzt (Heuser and Reese, J Cell Biol 1973; Miller and Heuser, J Cell Biol 1984; Richards et al., Neuron 2000). Bemerkenswerterweise war der Abbau der vesikulären Strukturen in Synaptojanin und Endophilin defizienten Tieren stark verzögert. Denkbar ist, dass beide Proteine für die Synthese von synaptischen Vesikeln aus den vesikulären Zwischenprodukten der Bulk Phase Endozytose wichtig sind, analog zur ihrer Funktion bei der Clathrin abhängigen Endozytose an der Plasmamembran.
Durch die zielgerichtete Manipulation der Zellaktivität ermöglichen optogenetische Techniken außerdem die funktionelle Charakterisierung von Neuronen und neuronalen Netzwerken. Um die zelluläre Spezifität dieses Ansatzes zu erhöhen, wurde ein Tracking System entwickelt das die Position frei beweglicher Tiere in Echtzeit bestimmt und nachverfolgt. Dadurch konnte die Photoaktivierung optogenetischer Proteine auf definierte Bereiche der Fadenwürmer und somit auf ausgewählte Neuronen innerhalb der Expressionsmuster von verwendeten Promotoren eingeschränkt werden. Des Weiteren ermöglichte hierbei die Auswertung translatorischer Parameter die Analyse verschiedener lokomotorischer Merkmale wie Geschwindigkeit, Bewegungsbahn oder Ausprägung der Körperbiegungen. Dieses System wurde beispielhaft für die konzertierte Photoaktivierung durch ChR2(H134R) bzw. Photoinhibition durch MAC von zwei verschiedenen Gruppen von Neuronen angewendet, um die Integration mechanosensorischer Informationen durch Command Interneuronen zu untersuchen. In diesem Zusammenhang wurde zudem eine Rekombinase basierte Methode für optogenetische Proteine adaptiert, die die Transkription auf die zelluläre Schnittmenge von zwei verschiedenen Promotoren einschränkt und somit die Spezifität der Expression erhöht. Idealerweise kann dieser Ansatz außerdem mit der gezielten Photoaktivierung kombiniert werden, um die zelluläre Selektivität optogenetischer Anwendungen weiter zu verbessern.
Weiterhin ist die Anwendung optogenetischer Techniken bisher durch intrinsische Eigenschaften der verwendeten Rhodopsine auf die relativ kurzzeitige Manipulation des Membranpotentials von Zellen beschränkt. So benötigt ChR2 durch die schnelle Schließung seines offenen Kanals eine kontinuierliche Photoaktivierung, um eine andauernde Depolarisation hervorzurufen. Dies ist jedoch potentiell mit phototoxischen und – besonders bei C. elegans – phototaktischen Nebeneffekten verbunden. Deswegen wurden diverse Mutanten von ChR2 mit stark verlangsamter Inaktivierung (Berndt et al., Nat Neurosci 2009) für ihren Nutzen zur Langzeit Stimulation von erregbaren Zellen im Nematode getestet. Dabei wurde gezeigt, dass ChR2(C128S) durch einen kurzen Photostimulus mit vergleichsweise niedriger Intensität eine anhaltende Depolarisation über mehrere Minuten auslösen kann. Die wiederholte Stimulation in ASJ Neuronen ermöglichte zudem eine langzeitige Depolarisation über mehrere Tage, wodurch die genetisch veranlagte Entwicklung von Tieren manipuliert werden konnte. Durch gezielte Punktmutation konnten außerdem relevante Eigenschaften von ChR2(C128S) für die Langzeit Stimulation weiter verbessert werden.
Als weiteres optogenetisches Werkzeug wurde zudem die Photoaktivierbare Adenylatzyklase alpha (PACa) aus Euglena gracilis (Iseki et al., Nature 2002; Ntefidou et al., Plant Physiol 2003; Schroder-Lang et al., Nat Methods 2007) für die akute und lichtgetriebene Synthese des sekundären Botenstoffs cAMP in C. elegans etabliert. Die Photoaktivierung von PACa in cholinergen Motorneuronen verstärkte dabei die Neurotransmitterfreisetzung und induzierte hyperlokomotorische Phänotypen, vergleichbar zu Mutanten mit erhöhten cAMP Konzentrationen.
Zusammengefasst wurden diverse optogenetische Techniken für C. elegans entwickelt und optimiert, die die zellspezifische und nicht invasive Manipulation des Membranpotentials beziehungsweise die Synthese des sekundären Botenstoffs cAMP durch Licht im frei beweglichen Tier ermöglichen. Diese Methoden können zur gezielten Störung neuronaler Aktivität angewendet werden, um dadurch neurobiologische Fragestellungen im Fadenwurm zu untersuchen. Dies wurde beispielhaft für die Erforschung der synaptischen Reizweiterleitung und die funktionelle Analyse neuronaler Netzwerke demonstriert. Denkbar ist außerdem, diese für C. elegans etablierten Methoden vergleichbar in anderen Modellorganismen anzuwenden. So sind die Fruchtfliege ebenso wie der Zebrafisch Embryo bereits für optogenetische Techniken erprobt (Arrenberg et al., Proc Natl Acad Sci U S A 2009; Schroll et al., Curr Biol 2006). Für Säugetiere wie die Maus, die Ratte und den Makaken wurden zudem bereits Ansätze entwickelt, die die gezielte Photostimulation in lebenden und frei beweglichen Tieren ermöglichen (Han et al., Neuron 2009; Wentz et al., J Neural Eng 2011; Yizhar et al., Nature 2011; Zhang et al., Nat Rev Neurosci 2007).
Savannas are the most important timber and non-timber forest products (NTFPs) providing ecosystems in West Africa. They have been shaped by traditional human land-use (i.e. agriculture, grazing, and harvesting) for thousands of years. In the last decades, land-use has drastically changed due to the rapid population growth and the growing production of cash-crop in West Africa and this process is still continuing. The percentage of land intensively used for agriculture has increased, while the length of fallow periods has decreased. Such changes have enormous ecological, economic, and social consequences. In the context of land-use changes, there is an urgent need to better understand and evaluate the impact of land-use on savannas. Such an understanding provides insights on appropriate management activities that ensure the maintenance of savannas and guarantee the availability of savanna products for subsistence and commercial use of rural West African people.
The major objective of the present thesis was to study the impact of land-use on savanna vegetation and diversity as well as on populations of two important NTFP-providing tree species in a semi-arid area in West Africa. The study area was located in the south-eastern part of Burkina Faso and comprised the protected W National Park and its adjacent communal area.
In the first study (chapter 2), I investigated in cooperation with a colleague from Burkina Faso (Blandine Nacoulma) the impact of land-use on the savanna vegetation. We analyzed which environmental factors determine the occurrence of the vegetation types and investigated the effect of land-use on vegetation structure and the occurrence of life forms and highly valued tree species. Furthermore, we tested whether land-use has an impact on plant diversity pattern and if this impact differed between the vegetation types and layers (woody and herb layer). Vegetation relevés were performed and the vegetation and plant diversity of the protected W National Park were compared with those of its surrounding communal area. Our results reveal five vegetation types occurring in both areas. Elevation and physical soil characteristics and thus soil water availability for plants played the most important role for the occurrence of the vegetation types. The influence of land-use on plant diversity differed between the five vegetation types and the two layers. The impact was highest on the vegetation types with the most favorable soil conditions for cultivation and lowest on rocky habitats with poor soils. While the diversity of the woody layer was increased under human land-use, the diversity of the herb layer was diminished. Overall, as land-use effects were not only negative, our findings suggest that land-use does not automatically lead to a loss of plant species and to a degradation of savanna habitats. We conclude that both protected and communal areas are of great importance for the conservation of savanna vegetation and diversity. Our study highlights furthermore the importance of different management strategies for each vegetation type.
In the following two studies (chapter 3 and 4), the impact of land-use - and in particular of harvesting - on populations of Adansonia digitata L., the baobab tree, and Anogeissus leiocarpa (DC.) Guill. & Perr. was examined. These two tree species were chosen as they provide several NTFPs for the local population and as they show different levels of human protection and opposed life histories. Thus, they may react differently to land-use. Stands of the protected W National Park were compared with those of its surrounding communal area (in fallows, croplands, and villages). I applied dendrometric methods to study the population structures and combined it with rates and patterns of NTFP-harvesting (debarking and chopping/pruning). Furthermore, the impact of land-use and harvesting on the fruit production of A. digitata and on the sprouting ability of A. leiocarpa were studied. The inverse J-shaped size class distribution curve indicates that the stands of A. digitata were in a healthy state in the park, while the low number of smaller size classes in fallows, croplands, and villages may give evidence of an ageing population. However, a high number of seedlings were recorded in villages. The stands of A. leiocarpa were also in healthy states in the park and likewise in fallows. In contrast, the absence of saplings gives evidence of a declining population in croplands. Both species were strongly harvested by local people and harvesting was tree size-specific. Pruning in interaction with tree-size had a significant impact on fruit production of A. digitata. While smaller trees were more vulnerable to pruning, bigger trees benefited from slight-pruning. A. leiocarpa had a great ability to respond to chopping by sprouting. The sprouting ability increased even with higher chopping intensity. Results suggest that despite the intense harvesting and the land-use impact, populations of both species are still well preserved. While A. digitata can withstand the harvesting and land-use pressure by its longevity, extremely low adult mortality rates, and particularly due to positive human influences, A. leiocarpa is able to withstand the use pressure by its fast growing, high recruitment, and high sprouting ability. I conclude that a none protected tree species (A. leiocarpa) might not necessarily be at higher risk to the harvesting and land-use impact than a protected tree species (A. digitata) as the adverse impact of harvesting and land-use can be compensated by its specific life history.
Important additional information to such ecological findings can be provided by local people. Learning from traditional knowledge and management systems of local people will help to produce culturally and ecologically reasonable conservation and management strategies. Thus, I investigated local uses and management strategies of A. digitata and A. leiocarpa in the last two studies (chapter 5 and 6). Quantitative ethnobotanical surveys among the Gulimanceba people were conducted in the communal area in order to document uses of the different plant parts, harvesting modes, perceptions about the population status, and conservation status of both species. Hereby, differences in knowledge between gender, generations, and people from different villages were tested. Interviews reveal that both species are harvested for multipurpose and emphasize the high importance of both species for local people. Especially the leaves and fruits of A. digitata add valuable minerals and vitamins to the otherwise micronutrient-“poor” staple crops of the Gulimanceba people. In comparison with other studies in West Africa, it has turned out that people in this area could benefit even more from A. leiocarpa, e.g. for dyeing of clothes, for treatment of malaria and skin problems. Local knowledge did not differ between genders and generations, while it slightly differed between people from different villages. The lack of age differences suggests that the traditional knowledge about these two species is passed on from one generation to another. Differences between people from different villages might be explained by influences from the neighboring countries Niger and Benin. Current local harvesting modes and management strategies of both species resulted in sustainable use. However, ongoing land-use intensifications require adapted harvesting and management techniques to guarantee the persistence of these economically important species. These results provide, in combination with the ecological findings (chapter 3 and 4), appropriate management recommendations for A. digitata and A. leiocarpa that are reliable under currently practiced management strategies.
Which factors determine whether a stimulus is consciously perceived or unconsciously processed? Here, I investigate how previous experience on two different time scales – long term experience over the course of several days, and short term experience based on the previous trial – impact conscious perception. Regarding long term experience, I investigate how perceptual learning does not only change the capacity to process stimuli, but also the capacity to consciously perceive them. To this end, subjects are trained extensively to discriminate between masked stimuli, and concurrently rate their subjective experience. Both the ability to discriminate the stimuli as well as subjective awareness of the stimuli increase as a function of training. However, these two effects are not simple byproducts of each other. On the contrary, they display different time courses, with above chance discrimination performance emerging before subjective experience; importantly, the two learning effects also rely on different circuits in the brain: Moving the stimuli outside the trained receptive field size abolishes the learning effects on discrimination ability, but preserves the learning effects on subjective awareness.
This indicates that the receptive fields serving subjective experience are larger than the ones serving objective performance, and that the channels through which they receive their information are arranged in parallel. Regarding short term experience, I investigate how memory based predictions arising from information acquired on the trial before affect visibility and the neural correlates of consciousness. To this end, I vary stimulus evidence as well as predictability and acquire electroencephalographic data.
A comparison of the neural processes distinguishing consciously perceived from unperceived trials with and without predictions reveals that predictions speed up processing, thus shifting the neural correlates forward in time. Thus, the neural correlates of consciousness display a previously unappreciated flexibility in time and do not arise invariably late as had been predicted by some theorists.
Admittedly, however, previous experience does not always stabilize perception. Instead, previous experience can have the reverse effect: Seeing the opposite of what was there, as in so-called repulsive aftereffects. Here, I investigate what determines the direction of previous experience using multistable stimuli. In a functional magnetic resonance imaging experiment, I find that a widespread network of frontal, parietal, and ventral occipital brain areas is involved in perceptual stabilization, whereas the reverse effect is only evident in extrastriate cortex. This areal separation possibly endows the brain with the flexibility to switch between exploiting already available information and emphasizing the new.
Taken together, my data show that conscious perception and its neuronal correlates display a remarkable degree of flexibility and plasticity, which should be taken into account in future theories of consciousness.
Dynamics of chaotic strings
(2011)
The main topic of this thesis is the investigation of dynamical properties of coupled Tchebycheff map networks. At every node of the network the dynamics is given by the iteration of a Tchebycheff map, which shows strongest possible chaotic behaviour. By applying a coupling between the various individual dynamics along the links of the network, a rich structure of complex dynamical patterns emerges. Accordingly, coupled chaotic map networks provide prototypical models for studying the interplay between local dynamics, network structure, and the emergent global dynamics. An exciting application of coupled Tchebycheff map lattices in quantum field theory has been proposed Beck in Spatio-temporal chaos and vacuum fluctuations of quantized fields' (2002). In this so-called chaotic string model, the coupled map lattice dynamics generates the noise needed for the Parisi-Wu approach of stochastic quantization. The remarkable obversation is that the respective dynamics seems to reproduce distinguished numerical values of coupling constants that coincide with those observed in the standard model of particle physic. The results of this thesis give insights into the chaotic string model and its network generalization from a dynamical point of view. This leads to a deeper understanding of the dynamics, which is essential for a critical discussion of possible physical embeddings. Apart from this specific application to particle physics, the investigated concepts like synchronization or a most random behaviour of the dynamics are of general interest for dynamical system theory and the science of complex networks. As a first approach, discrete symmetry transformations of the model are studied. These transformations are formulated in a general way in order to be also applicable to similar dynamics on bipartite network structures. An observable of main interest in the chaotic string model is the interaction energy. In Spatio-temporal chaos and vacuum fluctuations of quantized fields' (2002) it has been observed that certain chaotic string couplings, corresponding to a vanishing interaction energy, coincide with coupling constants of the standard model of elementary particle physics. Since the interaction energy is basically a spatial correlation measure, an interpretation of the respective dynamical states in terms of a most random behaviour is tempting. In order to distinguish certain states as most random', or evoke another dynamical principle, a deeper understanding of the dynamics essential. In the present thesis the dynamics is studied numerically via Lyapunov measures, spatial correlations, and ergodic properties. It is shown that the zeros of the interaction energy are distinguished only with respect to this specific observable, but not by a more general dynamical principle. The original chaotic string model is defined on a one-dimensional lattice (ring-network) as the underlying network topology. This thesis studies a modification of the model based on the introduction of tunable disorder. The effects of inhomogeneous coupling weights as well as small-world perturbations of the ring-network structure on the interaction energy are discussed. Synchronization properties of the chaotic string model and its network generalization are studied in later chapters of this thesis. The analysis is based on the master stability formalism, which relates the stability of the synchronized state to the spectral properties of the network. Apart from complete synchronization, where the dynamics at all nodes of the network coincide, also two-cluster synchronization on bipartite networks is studied. For both types of synchronization it is shown that depending on the type of coupling the synchronized dynamics can display chaotic as well as periodic or quasi-periodic behaviour. The semi-analytical calculations reveal that the respective synchronized states are often stable for a wide range of coupling values even for the ring-network, although the respective basins of attraction may inhabit only a small fraction of the phase space. To provide analytical results in closed form, for complete synchronization the stability of all fixed points and period-2 orbits of all chaotic string networks are determined analytically. The master stability formalism allows to treat the ring-network of the chaotic string model as a special case, but the results are valid for coupled Tchebycheff maps on arbitrary networks. For two-cluster synchronization on bipartite networks, selected fixed points and period-2 orbits are analyzed.
The adaptive immune system of jawed vertebrates is based on recognition and elimination of cells that are either invaded by intracellular pathogens or malignantly transformed. One essential component of these processes is the cell surface presentation of antigenic peptides via major histocompatibility complex (MHC) class I molecules to cytotoxic T-cells (CTLs). Cells degrade defective ribosomal products and misfolded or unwanted proteins by the ubiquitin-proteasome pathway. The resulting degradation products are recognized and translocated by the transporter associated with antigen processing (TAP) into the endoplasmic reticulum (ER) lumen, where they are loaded onto MHC I molecules. Assembled peptide-MHC complexes are then shuttled by the secretory pathway to the cell surface for antigen presentation to CTLs, leading in the case of viral infection or malignant transformation to lysis and apoptosis of the target cell. Due to the fact that the TAP complex represents a key control point within the antigen presentation pathway, several viruses have evolved sophisticated strategies to evade immune surveillance by interfering with TAP function.
Detailed studies of the TAP mechanism or its viral inhibition have been severely impeded by difficulties in expressing sufficient amounts of functional heterodimeric TAP complex. Thus, the overexpression of TAP in the methylotrophic yeast Pichia pastoris was established for functional analysis of this important ABC complex. Biomass production was scaled up by fermentation using classical batch and feed methods. Extensive screening of optimal solubilization and purification conditions allowed the isolation of the heterodimeric transport complex. Notably, only the very mild detergent digitonin preserved TAP function. Hereby, the optimal solubilization and purification strategy yielded in 30 mg TAP transporter per liter culture. Remarkably, the protein amount was 50-fold increased compared to previously described expression/purification in cultured insect cells.
The high yield and quality of TAP produced in P. pastoris allowed an extensive analysis of substrate binding and transport kinetics of the transport complex in the membrane, its solubilized and purified state, as well as the reconstituted state. Thereby, a strong and direct effect of the lipid bilayer on ATP hydrolysis and peptide transport was discovered. These important results were extended further by successful functional reconstitution of the antigen translocation machinery in different lipid environments. For the first time, a stimulation of the transport activity by phosphatidylinositol (PI) and phosphatidylethanolamine (PE) was observed, whereas cholesterol was identified as an inhibitor of TAP activity.
Purification of TAP and subsequent thin-layer chromatography (TLC)/liquid chromatography Fourier transform-mass spectrometry (LC FT-MS) fingerprinting of residual lipids exhibited specifically associated glycerophospholipids; mainly PC, PE, and PI species. Strikingly, these lipids not only represent the primary class of phospholipids of the ER but were also shown to be essential for functional reactivation of delipidated, and thus inactive, TAP. The results demonstrate that transport of antigenic peptides by the ABC transporter TAP strictly requires specific glycerophospholipids.
In addition to the biochemical characterization of heterologous produced TAP, the soluble domain of the viral inhibitor US6 from human cytomegalovirus was expressed in E. coli. Optimization of the purification and refolding strategy yielded in functional protein, with a 35-fold increased protein amount compared to previous purification procedures. Protein activity was analyzed by specific inhibition of ATP binding to TAP. Furthermore, high protein yields allowed detailed investigation of TAP-dependent spatial and mechanistic separation of MHC I restricted cross-presentation in professional antigen presenting cells (pAPC).
Organische Materialien haben bis zur Mitte des 20. Jahrhunderts hinsichtlich ihrer elektronischen Eigenschaften keine besondere Aufmerksamkeit auf sich gezogen. Größeres Interesse an diesen Materialien entstand erst durch die Entdeckung einer ungewöhnlich hohen elektrischen Leitfähigkeit des organischen Perylen-Bromin Ladungstransfer-Komplexes durch Inokuchi et al. im Jahr 1954. Diese neue Klasse von Materialien besteht typischerweise aus Donor- und Akzeptor-Molekülen, die in einer bestimmten Stöchiometrie aneinander gebunden sind. Elektrische Ladung wird zwischen den Donor- und Akzeptor-Molekülen transferiert. Um diesen Prozess zu beschreiben, entwickelte Robert Mulliken in den 60er Jahren ein theoretisches Gerüst. Abhängig von der Anordnung der Moleküle und transferierten elektrischen Ladung kann der Ladungstransfer-Komplex (oder Salz) ein Isolator, ein Halbleiter, ein Metall oder sogar ein Supraleiter sein. Noch mehr Aufmerksamkeit erhielten Ladungstransfer-Materialien mit der Entdeckung des ersten quasi-eindimensionalen organischen Metalls TTF-TCNQ (tetrathiafulvalene-tetracyanoquinodimethane) im Jahr 1973. ...
Working memory (WM) contributes to countless activities during everyday live: reading, holding a conversation, making tea and so on. The core processes of WM comprise the phases of encoding, maintenance and retrieval. Successful recognition of stored objects requires several subprocesses such as stimulus encoding and evaluation, memory search and the organisation of a decision and a response. Much research has focused on encoding and maintenance of information but little interest has been directed to the retrieval of information. This is why the present dissertation investigated the neuronal correlates of retrieval of previously stored information and its modulation by load and probe-item similarity.
Here memory load and probe-item similarity were manipulated in order to investigate the neuronal correlates of the recognition process using electroencephalography (EEG). We tested the hypothesis recognition is influenced differently by probe-item similarity and by memory load and that these factors are re Effected by distinct neuronal correlates. Furthermore we tested whether distinct neuronal responses could be related to a summed similarity model.
The analysis of high-density ERP recordings showed both a load effect (load 1>load 3) and a similarity effect In addition, there was an interaction between load and similarity. The load effect was present during the whole epoch and did not change over time, whereas the similarity effect showed two distinct components between 300-600ms. In contrast to the load effect the similarity effect changed its sign over time. For the rest component, match probes elicited the strongest ERP responses, whereas for the second component dissimilar probes yielded the strongest ERP responses. The timing of the similarity effect corresponded well with the early and late P3b complex. The P3b complex is associated with stimulus categorisation and evaluation (early subcomponent) and memory search and criterion testing (late subcomponent).
The results suggest that the difficulty of a task is not only determined by load but also enhanced by probe-item similarity. Since increasing the number of samples (i.e. memory load) can also increase the probe-item similarity (i.e. the probability that one of the samples is perceptually similar to the probe), an independent manipulation of both factors is indispensable to disentangle their particular impact on short-term recognition. Furthermore, I propose that the two distinct neural correlates of the P3b complex reeffects different stages of task processing connected with probe-item similarity. As suggested by summed similarity VI models, these components might reflect the subprocesses of similarity summation (early P3b) and criterion testing (late P3b).
The construct diversity describes the collective amount of differences among members within a social unit. The present dissertation is based on the assumption that, through engagement with diversity, people acquire an understanding of what role diversity plays in the societies, organizations, work groups, or other social units they are part of. This understanding of the role diversity plays in a given social unit provides a vantage point from which people will engage with diversity in the future. These vantage points from which people engage with diversity are the general subject matter of the present dissertation. Two main research questions are addressed in this regard: First, whether the role diversity is given in a particular context does have effects on groups and the individual members therein. Second, if such effects exist, it seeks to explore the processes and mechanisms they are based on. Both questions are addressed from different perspectives in the three main chapters of this dissertation. Chapter 5 contains two meta-analyses on the effects of diversity beliefs and diversity climates. Diversity beliefs are individual attitudes that describe the degree to which diversity is ascribed an instrumental value for achieving beneficial outcomes or avoiding detrimental ones. Diversity climates depict such a value of diversity on the group-level. Building on the social identity approach, I explain how diversity beliefs and climates can obviate diversity’s detrimental effects and foster beneficial ones. As both diversity beliefs and climates can cause such effects, they are considered together in the main analyses in the chapter. In the first part of the chapter, a meta-analysis on these moderator effects of diversity beliefs/climates is presented (k = 23). The majority of studies that addressed such effects reported significant results. The patterns of these results showed that, in general, diversity will be more positively related to beneficial outcomes the more it is valued. However, the analysis also revealed that there are at least two types of patterns of this moderation. So far, it cannot be explained which pattern will occur under what circumstances. In the second part of the chapter, a meta-analysis on the main effects of diversity beliefs/climates on beneficial outcomes is presented (k = 71). These effects did not receive much attention in the primary studies. Based on the social identity approach and the fact that diversity is a ubiquitous feature of modern organizations, I argue that they are important nonetheless. The meta-analysis revealed a significant positive main effect of diversity beliefs on beneficial outcomes (r = .25; p < .0001). However, the effect sizes varied considerably across studies. Both moderator and main effects were found across a broad array of outcomes, study designs, levels of analysis, and operationalizations of the constructs involved. They were found irrespective of whether diversity beliefs or diversity climates were considered. The heterogeneity of results in the meta-analyses suggests that there is still much to be learned about when differences in vantage points from which people engage with diversity will have an effect and about the processes that underlie these effects. Chapter 6 is, therefore, predominantly concerned with these underlying processes. Most of the previous research has treated pro-diversity beliefs and pro-similarity beliefs as opposite poles of one underlying continuum. There is, however, evidence that people can hold both types of beliefs simultaneously. Therefore, I propose that both diversity in certain aspects and similarity in other aspects can simultaneously constitute valid and valued parts of an organization’s identity, and that, hence, identifying with the organization can create two forms of solidarity among the employees: organic solidarity – based on meaningfully and synergistically interrelated differences, and mechanic solidarity – based on the common ground that all employees share. Furthermore, I propose that both forms of solidarity can coexist and that both are positively related to the quality of collaboration within the organization. Thus, organizational identification is proposed to influence quality of collaboration indirectly through both organic and mechanic solidarity. These propositions were tested with regard to the collaboration of different teams within two organizations: a German university (Study 1, N = 699) and a Taiwanese hospital (Study 2, N = 591). The results from both studies confirm the predictions. However, the relative importance of each form of solidarity varied across study contexts and across different facets of the quality of collaboration. Chapter 7 also builds on the findings from the meta-analyses and is again predominantly focussed on the processes underlying the effects of diversity beliefs and diversity climates, yet from a different angle. Previously, diversity beliefs and climates have often been discussed with regard to their potential to influence whether diversity will lead to more and deeper elaboration of information within the group. In chapter 7 a theoretical model is developed that complements these cognitive processes by addressing the emotional side of diverse groups. Central to the model is the assumption that group diversity can stimulate group members to engage with each other emotionally, resulting in higher levels of state affective empathy: an emotional state which arises from the comprehension and apprehension of fellow group members’ emotional state. State affective empathy, in turn, is known to lead to a variety of beneficial team processes that can ultimately enhance individual and group-level performance. Thus, the central proposition of the model is that the relationship between diversity and performance is mediated through state affective empathy. The other propositions in the model specify moderators that determine when diversity will indeed have this empathy-stimulating effect. Diversity beliefs and climates are considered second-order moderators that shape the relationship between diversity and empathy through their influence on the first-order moderators. In general, it is proposed that diversity is related to empathy more positively if it is valued by the group or its members. In summary, the results from the meta-analyses in chapter 5, the results from the field studies in chapter 6, and the theoretical arguments presented in chapter 7 can be interpreted such that differences in vantage points from which people engage with diversity can indeed affect groups and their members. Therefore, the first research question of the present dissertation can be answered affirmatively from three different perspectives. However, it also became clear that there is still much uncertainty about the mechanisms underlying these effects. In line with the second research question of the present dissertation, these mechanisms were examined more closely in chapter 6 and 7. The field studies in chapter 6 highlighted the role of identification as the driving force behind the effects of different vantage points on diversity. Furthermore, they also corroborate the proposition that valuing diversity and valuing similarity can be co-occurring phenomena that both influence the collaboration within the group positively. The theoretical model presented in chapter 7 opens up a new emotional way in which diversity beliefs and climates can influence whether diversity will lead to better or worse performance. In sum, therefore, also with regard to the second research question of the present dissertation, progress has been made.
During the last years, chemopreventive activity of NSAIDs against a great variety of tumors was highly investigated. COX-2 seemingly plays a major part in tumorigensis and tumor development, underlined by several studies in animals and humans. At first, NSAIDs were thought to accomplish chemoprevention by inhibition of COX-2 as their so far known mode of action comprises unselective inhbition of COX-enzymes. However, further studies revealed COX-independent mechanisms. Sulindac is known as a well established drug used to treat inflammation and pain exerting the most prominent chemopreventive action, mainly in colorectal cancer or FAP and can be classified into the group of NSAIDs inhibting both COX-isoformes. As interference with the AA metabolism is evident, it was speculated whether Ssi has targets other than COX-enzymes providing evidence and explanation of its beneficial side effect profile and its ability to reduce tumor growth. 5-LO is another master enzyme in the AA cascade which produces inflammatory lipid mediators (LTs) upon stimulation in inflamed tissues. The present work should answer the question if Ssi targets the 5-LO pathway and should examine the molecular mechanisms behind Ssi-mediated 5-LO inhibiton. As COX-2 is upregulated during carcinogenesis and is inhibited by Ssi, further investigations should show regulatory effects of Ssi on 5-LO gene expression in MM6-cells and whether Sp1 as a common transcriptional factor is involved in such a regulation. As the use of NO-NSAIDs seem to be a promising strategy concerning their chemopreventive and gastroprotective effects compared to the parent NSAIDs, a possible interaction with the 5-LO pathway as a second, potent target should additionally be elucidated. In the first section it was demonstrated that the pharmacologically active metabolite of sulindac, Ssi, targets 5-LO. Ssi inhibited 5-LO in ionophore A23187- and LPS/fMLP-stimulated human PMNL (IC50 ≈ 8 -10 μM). Importantly, Ssi efficiently suppressed 5-LO in human whole blood at clinically relevant plasma levels (IC50 = 18.7 μM). Ssi was 5-LO-selective as no inhibition of related lipoxygenases (12-LO, 15-LO) was observed. The sulindac prodrug and the other metabolite, sulindac sulfone, failed to inhibit 5-LO. Mechanistic analysis demonstrated that Ssi directly suppresses 5-LO with an IC50 of 20 μM. Together, these findings may provide a novel molecular basis to explain the COX-independent pharmacological effects of sulindac under therapy. In the second part of the work dealing with the analysis of Ssi’s inhibitory mechanism on 5-LO it was presented that Ssi shows a lack of potency in cellular systems where membrane constituents are existent. The addition of microsomal fractions of PMNLto crude 5-LO enzyme were able to recover enzyme activity to ~ 100 %. Selectively 5-LO activity stimulating lipids like PC, participating in 5-LO membrane interactions within the regulatory C2-like domain of 5-LO, counteracted the Ssimediated inhibition on 5-LO-wt in a concentration-dependent manner. Lastly, a protein mutant lacking three trp resudies essential for linking the enzyme to nuclear membranes and deploying catalytic activity was not influenced by Ssi and shows enzyme activity in a cell-free assay. Ssi displays the first 5-LO inhibitor on the market interacting with the C2-like domain of the enzyme and therfore can stand for a novel lead structure of 5-LO inhibitors. An influence on 5-LO gene expression by Ssi could be detected in differentiated MM6-cells, described in the results chapter 3 (4.3). Ssi downregulated the 5-LO mRNA level after 72 hrs of incubation in differentiated MM6-cells to ~ 20 % of output control at concentrations of 10 μM. Concomitantly, mRNA levels of Sp1 were suppressed. Reporter gene studies revealed Sp1 most probably as a regulating agent involved in the Ssi-mediated 5-LO mRNA downregulation as co-transfection of increasing amounts of Sp1 could abrogate the effect. A ChIP assay could identify Sp1 as a critical transcriptional factor as Sp1 binding to the 5-LO promoter decreased in presence of Ssi. Lastly, three NO-NSADIs (NO-sulindac, NOnaproxen, NO-aspirin) were tested for the ability of 5-LO product inhibition. In intact PMNL, all compounds showed effective inhibition of 5-LO activity and NO-sulindac was most potent with an IC50 value of ~ 3 μM. NO-ASA inhibited 5-LO with IC50 values of ~ 30 μM and showed a non-competitive mode of action in cell-based assays. On human recombinant 5-LO all compounds again showed inhibitory potency whereas NO-sulindac again suppressed LT biosynthesis with an IC50 vaue comparable to intact cellular systems. Unfortunately, all inhibitors showed a loss of potency when tested for inhibition of 5-LO product synthesis in human whole blood as higher concentrations up to 100 μM were needed to reach at least 55 % enzyme inhibition. However, this strategy of 5-LO inhibition seems promising and needs further experimental approaches to gain more insight into the mechanism of 5-LO inhibition by NONSAIDs.
The objective of this thesis is to develop new methodologies for formal verification of nonlinear analog circuits. Therefore, new approaches to discrete modeling of analog circuits, specification of analog circuit properties and formal verification algorithms are introduced. Formal approaches to verification of analog circuits are not yet introduced into industrial design flows and still subject to research. Formal verification proves specification conformance for all possible input conditions and all possible internal states of a circuit. Automatically proving that a model of the circuit satisfies a declarative machine-readable property specification is referred to as model checking. Equivalence checking proves the equivalence of two circuit implementations. Starting from the state of the art in modeling analog circuits for simulation-based verification, discrete modeling of analog circuits for state space-based formal verification methodologies is motivated in this thesis. In order to improve the discrete modeling of analog circuits, a new trajectory-directed partitioning algorithm was developed in the scope of this thesis. This new approach determines the partitioning of the state space parallel or orthogonal to the trajectories of the state space dynamics. Therewith, a high accuracy of the successor relation is achieved in combination with a lower number of states necessary for a discrete model of equal accuracy compared to the state-of-the-art hyperbox-approach. The mapping of the partitioning to a discrete analog transition structure (DATS) enables the application of formal verification algorithms. By analyzing digital specification concepts and the existing approaches to analog property specification, the requirements for a new specification language for analog properties have been discussed in this thesis. On the one hand, it shall meet the requirements for formal specification of verification approaches applied to DATS models. On the other hand, the language syntax shall be oriented on natural language phrases. By synthesis of these requirements, the analog specification language (ASL) was developed in the scope of this thesis. The verification algorithms for model checking, that were developed in combination with ASL for application to DATS models generated with the new trajectory-directed approach, offer a significant enhancement compared to the state of the art. In order to prepare a transition of signal-based to state space-based verification methodologies, an approach to transfer transient simulation results from non-formal test bench simulation flows into a partial state space representation in form of a DATS has been developed in the scope of this thesis. As has been demonstrated by examples, the same ASL specification that was developed for formal model checking on complete discrete models could be evaluated without modifications on transient simulation waveforms. An approach to counterexample generation for the formal ASL model checking methodology offers to generate transition sequences from a defined starting state to a specification-violating state for inspection in transient simulation environments. Based on this counterexample generation, a new formal verification methodology using complete state space-covering input stimuli was developed. By conducting a transient simulation with these complete state space-covering input stimuli, the circuit adopts every state and transition that were visited during stimulus generation. An alternative formal verification methodology is given by retransferring the transient simulation responses to a DATS model and by applying the ASL verification algorithms in combination with an ASL property specification. Moreover, the complete state space-covering input stimuli can be applied to develop a formal equivalence checking methodology. Therewith, the equivalence of two implementations can be proven for every inner state of both systems by comparing the transient simulation responses to the complete-coverage stimuli of both circuits. In order to visually inspect the results of the newly introduced verification methodologies, an approach to dynamic state space visualization using multi-parallel particle simulation was developed. Due to the particles being randomly distributed over the complete state space and moving corresponding to the state space dynamics, another perspective to the system's behavior is provided that covers the state space and hence offers formal results. The prototypic implementations of the formal verification methodologies developed in the scope of this thesis have been applied to several example circuits. The acquired results for the new approaches to discrete modeling, specification and verification algorithms all demonstrate the capability of the new verification methodologies to be applied to complex circuit blocks and their properties.
The present work comprises different projects within the scope of public health. In detail, they all aim at combating the high-burden diseases HIV/AIDS, malaria and tuberculosis more effectively. Since there was, and still is, no harmonization between the existing biowaiver guidelines, the biowaiver dissolution test conditions by WHO and FDA were compared against each other using drug products, which had already demonstrated BE to the comparator in vivo. Thereby it could be shown that the dissolution conditions proposed by the WHO are more appropriate for granting biowaivers than those of the FDA. Further, the applicability of the WHO dissolution test conditions was investigated using the APIs ethambutol, isoniazid and pyrazinamide (all BCS Class III) as model compounds. These investigations demonstrated that the concept of the biowaiver proved to work properly, i.e. leading to no false positive BE decision and an acceptable incidence of false negative BE decisions. In addition, four new biowaiver monographs were published addressing important APIs in the treatment of HIV/AIDS and malaria. Before these efforts, there were only a very few biowaiver monographs available for antiviral or antimalarial APIs, i.e. the database of biowaiver monographs has been clearly improved. The last part of the present work dealt with the extension of the biowaiver concept to related areas such as the WHO Prequalification of Medicines Programme. Investigations revealed that the biowaiver tools are generally eligible for prequalification of drug products containing ethambutol, isoniazid, pyrazinamide, or lamivudine to prove BE between an appropriate comparator and the test candidate. By contrast, some APIs are excluded from the biowaiver procedure. In conclusion, the implementation of the biowaiver tools for prequalification of biowaivable APIs is, along with BCS-based biowaiver approval of new generics, an important step towards making essential, high-quality drug products more cost-effective and, as a consequence, more accessible for a larger percentage of the population. In that way, the treatment conditions for those in need living in the developing countries can be improved enormously, so that those who are poor do not have to receive poor treatment. The quality standard of essential medicines will increase worldwide, thereby helping to combat the high-burden diseases better and, in turn, lead to an improvement of the global health status.
Seit einigen Jahrzehnten ist Lysozym eines der am meisten erforschten Proteine in der Literatur und wird hauptsächlich als Modell Protein zur Aufklärung der Faltungs- und Entfaltungsprozesse genutzt. Da die Frage nach Fehlfaltung und deren Verknüpfung mit neurodegenerativen Krankheiten bis zum heutigen Tag nicht vollständig geklärt ist, besteht hier ein großer Spielraum für weitere Forschungsansätze. In der vorliegenden Arbeit wurden daher zwei Modellsysteme verwendet, Hühereiweiß-Lysozym und menschliches Lysozym, jeweils in ihrem nicht-nativen ungefalteten Zustand. Diese ungefalteten Ensembles wurden mit Hilfe NMR spektroskopischer Methoden untersucht und ergaben sehr detaillierte, zum Teil auch überraschende neue Einblicke in Struktur und Dynamik der beiden Proteine und liefern somit wichtige Erkenntnisse zu Faltungs- und Aggregationsprozessen. ...
The study of meson production in proton-proton collisions in the energy range
up to one GeV above the production threshold provides valuable information about
the nature of the nucleon-nucleon interaction. Theoretical models describe the interaction
between nucleons via the exchange of mesons. In such models, different
mechanisms contribute to the production of the mesons in nucleon-nucleon collisions.
The measurement of total and differential production cross sections provide information
which can help in determining the magnitude of the various mechanisms.
Moreover, such cross section information serves as an input to the transport calculations
which describe e.g. the production of e+e− pairs in proton- and pion-induced
reactions as well as in heavy ion collisions.
In this thesis, the production of ω and η mesons in proton-proton collisions at 3.5
GeV beam energy was studied using the High Acceptance DiElectron Spectrometer
(HADES) installed at the Schwerionensynchrotron (SIS 18) at the Helmholtzzenturm
f¨ur Schwerionenforschung in Darmstadt.
About 80 000 ω mesons and 35 000 η mesons were reconstructed. Total production
cross sections of both mesons were determined. Furthermore, the collected statistics
allowed for extracting angular distributions of both mesons as well as performing
Dalitz plot studies.
The ω and η mesons were reconstructed via their decay into three pions (π+π−π0)
in the exclusive reaction pp −→ ppπ+π−π0. The charged particles were identified
via their characteristic energy loss, via the measurement of their time of flight and
momentum, or using kinematics.
The neutral pion was reconstructed using the missing mass method. A kinematic
fit was applied to improve the resolution and to select events in which a π0 was
produced.
The correction of measured yields for the effects of spectrometer acceptance was done
as a function of four variables (two invariant masses and two angles). Systematic
studies of the acceptance for different input distributions were performed.
The measured yields were normalized to the number of measured events of elastic
scattering. Systematic errors due to the methods of the data analysis and the
background subtraction were investigated.
Production angular distributions of ω and η mesons were measured. Both mesons
exhibit a slightly anisotropic angular distribution.
The Dalitz plot of ω meson production shows indications of resonant production.
However, the deviation of the distribution from the one expected by phase space
simulations is not large.
The Dalitz plot of η meson production shows a signal of the production via the
N(1535) resonance, The contribution of N(1535) to the production was quantified
to be about 47%. The angular distribution of η mesons does not show significant
differences between resonant and non resonant production.
The total production cross section of ω mesons in the reaction pp −→ ppω was
determined to be 106.5 ± 0.9 (stat) ± 7.9 (sys) [μb] where stat indicates statistical
error and sys indicates systematic error, while that of η mesons was determined to
be 136.9 ± 0.9 (stat) ± 10.1 (sys) [μb] in the reaction pp −→ ppη
This dissertation contains three essays on monetary policy, dynamics of the interest rates and spillovers across economies. In the first essay I examine the effects of monetary policy and its interaction with financial regulation within a micro-founded macroeconometric framework for a closed economy with a heterogeneous banking system, facing a period of low interest rates. I analyse the interplay between monetary policy and banking regulation and study the role of agents’ expectations for the effectiveness of unconventional monetary policy tools. In the next essay, I argue that openness is crucial for understanding the dynamics of the term structure. In an empirical application, I show that my model of the term structure fits well the yield curve in-sample and has a sound ability to forecast interest rates out-of-sample. The model accounts for the expectations hypothesis, replicates the forward premium anomaly and reconciles the uncovered interest rate parity implications. The last essay is concerned with the dynamics of co-movement among macroeconomic aggregates and the degree of convergence or decoupling amongst economies. The model includes measures of financial and trade-based interdependencies and incorporates feedback between macroeconomic variables and time-varying weights. The findings point at the importance of asset price movements and financial linkages.
Table of Contents – Cumulative Dissertation Thesis German Summary Summary of Analysis Results for German-Speaking Readers Introductory Paper Introduction and Overview of the Dissertation Paper 1 Vykoukal, Jens / Wolf, Martin / Beck, Roman (2009) Services Grids in Industry: On-Demand Provisioning and Allocation of Grid-based Business Services In: Business & Information Systems Engineering (BISE), 1(2), 177-184 Paper 2 Vykoukal, Jens / Setzer, Michael / Beck, Roman (2008) Grid Architecture for Risk Management: A Case Study in a Financial Institution In: Proceedings of the 12th Pacific Asia Conference on Information Systems (PACIS), Suzhou, China Paper 3 Vykoukal, Jens / Pahlke, Immanuel / Beck, Roman (2011) Impact of Grid Assimilation on Operational Agility in Turbulent Environments: An Empirical Investigation in the Financial Services Industry In: Proceedings of the 19th European Conference on Information Systems (ECIS), Helsinki, Finland Paper 4 Vykoukal, Jens / Wolf, Martin / Beck, Roman (2009) Does Green IT Matter? Analysis of the Relationship between Green IT and Grid Technology from a Resource-based View Perspective In: Proceedings of the 13th Pacific Asia Conference on Information Systems (PACIS), Hyderabad, India Paper 5 Vykoukal, Jens (2010) Grid Technology as Green IT Strategy? Empirical Results from the Financial Services Industry In: Proceedings of the 18th European Conference on Information Systems (ECIS), Pretoria, South Africa Paper 6 Vykoukal, Jens / Beck, Roman / Wolf, Martin (2010) Impact of Pressure for Environmental Sustainability on Grid Assimilation: Empirical Results from the Financial Services Industry In: Australasian Journal of Information Systems (AJIS), 17(1), 83-106 Appendix: Publications, Curriculum Vitae
Forty two samples of the Late Eocene Kiliran oil shale, Central Sumatra Basin, Indonesia were collected from a 102 m long drill core. The oil shale core represents the deposition time of about 240.000 years. Palynofacies and geochemical analyses have been carried out to reconstruct the paleoenvironmental conditions and paleoecology during deposition of the oil shale. Amorphous organic matter (AOM) is very abundant (>76%). B. braunii palynomorphs are present (3-16%) as the only autochtonous structured organic matter and generally more abundant in the middle part of the profile. The stable carbon isotopic composition of bulk organic matter (13C) varies from -27.0 to -30.5‰ and is generally more depleted in the middle part of the profile. The ratio of total organic carbon to sulfur (TOC/S), used as salinity indicator, ranges from 2.5 to 15.8 and shows variations along the profile. Slightly less saline environments are observed in the middle part of the profile. Fungal remains are generally present only in this part with a distinct peak of abundance. The presence of fungal remains is regarded as an indication for a relatively warmer climate during deposition of the middle part of the profile. The warmer climate is thought to influence the establishment of a thermocline, limiting the supply of recycled nutrients to epilimnion. Consequently, the primary productivity in the Kiliran lake decreased during deposition of the middle part of the profile as indicated by the relatively depleted 13C values and the blooming of B. braunii. The chemocline was also shoaling during the deposition according to the higher abundance of total isorenieratane and its derivatives originated from green sulfur bacteria dwelling in the photic zone euxinia. The warmer climate is also thought to influence the slightly decrease of water salinity during deposition of the middle part of the profile. The occurrence of B. braunii in Kiliran lake is also recognized from organic geochemical data. The distribution of n-alkanes is characterized by the unusual high amount of C27 n-alkane relative to the other long-chain n-alkanes. The concentrations of C27 n-alkane vary from 30.1 to 393.7 μg/g TOC and are generally in parallel with the abundances of B. braunii palynomorphs along the profile. The 13C values of this compound are about -31‰ and up to 2‰ enriched relative to those of the adjacent long-chain n-alkanes. B. braunii race A can thus be regarded as the significant biological source of the C27 n-alkane. Lower amounts of lycopane are observed in many oil shale samples (0 to 54.7 μg/g TOC). The 13C value of this compound is 17.2‰. This strong enrichment of 13C suggests that the lycopane was derived from B. braunii race L. The concentrations of lycopane develop generally in opposite with those of C27 μalkane. It is likely that both B. braunii races bloomed in alternation in the lake, probably due to changes on specific water chemistry. Norneohop-13(18)-ene and neohop-13(18)-ene derived from methanotrophic bacteria are the dominant hopanoid hydrocarbons. The sum of their concentrations varies from 40.6 to 360.0 μg/g TOC. The 13C of these compounds are extremely depleted (-45.2 to -50.2‰). The occurrence of abundant bacteria including methanotrophic bacteria was responsible for the recycling of carbon below the chemocline of the lake. The effect of the recycling of carbon is observed by the presence of a concomitant depletion (about 7-9‰) in 13C of some specific biomarkers derived from organisms dwelling in the whole phototrophic zone. 4-Methylsterane and 4-methyldiasterene homologues occur in the oil shale as the predominant biomarkers. The sum of the concentrations of all homologues are about 40.3-1,009.2 μg/g TOC with generally higher values in the uppermost and lower parts of the profile. Calcium (Ca) accounts as the predominant element in the oil shale, ranging from 5.0 to 16.7%. This element shows generally parallel variation with the 4-methylsterane and 4-methyldiasterene homologues along the profile. This suggests that these compounds were derived from biological sources favoring more alkaline and more trophic environments. On the other hand, these compounds were less abundant in the middle part of the profile which is consistent with less alkaline and less trophic environments promoting B. braunii to bloom. Alternation between Dinoflagellates and B. braunii in ancient lacustrine environments due to water chemistry changes have been known from previous studies. In the present case, distinct alternation between B. braunii abundances and concentrations of 4-methylsterane and 4-methyldiasterene homologues along the studied oil shale profile suggest a hypothesis that these compounds were derived from freshwater Dinoflagellates although dinosterane is not present in the sediment extracts. Water alkalinity and trophic level changes were most likely responsible for the alternation of Dinoflagellates and B. braunii blooming.
Forty two samples of the Late Eocene Kiliran oil shale, Central Sumatra Basin, Indonesia were collected from a 102 m long drill core. Palynofacies and geochemical analyses have been carried out to reconstruct the paleoenvironmental conditions and paleoecology during deposition of the oil shale. Amorphous organic matter (AOM) is very abundant (>76%). B. braunii palynomorph is present (3-16%) as the only autochtonous structured organic matter and generally more abundant in middle part of the profile. The stable carbon isotopic composition of organic matter (δ13C) varies from -27.0 to -30.5‰ and is generally more depleted in middle part of the profile. The ratio of total organic carbon to sulfur (TOC/S), used as salinity indicator, ranges from 2.5 to 15.8 and shows variations along the profile. Relatively less saline environments are observed in the middle part profile. Fungal remains are generally present only in middle part of the profile with distinct peak of abundances. The presence of fungal remains is regarded as an indication for a relatively warmer climate during deposition of middle part of the profile. The warmer climate is thought to influence the establishment of a thermocline, limiting the supply of recycled nutrients to the epilimnion. Consequently, the primary productivity in the Kiliran lake decreased during deposition of the middle part of the profile as indicated by the relatively depleted δ13C and the blooming of B. braunii. The chemocline was also shoaling during deposition of the middle part of the profile according to the higher abundance of isorenieratene derivatives of green sulfur bacteria origin. The warmer climate affected also to increase of water supply and thus less saline environments.
Tectonic subsidence is also thought to be a significant factor for the development of the Kiliran lake. The Zr/Rb ratio, an indicator for grain size, ranges from 0.4 to 1.3 and generally increases upwards along the profile. Three sudden decreases of the ratio are observed, indicating rapid change to finer grain size. These decreases are interpreted to indicate rapid deepening events of the lake due to mainly periodic subsidence. During deposition of lower part of the profile, the subsidence rates might have been relatively higher than sediment and water supply rates, resulting in a higher autochtonous fraction in the oil shale. During deposition of middle part of the profile, the sediment and water supply rates were relatively higher promoting distinct progradational sedimentation. Subsequently, the lake became more shallow and smaller during deposition of the upper part of the profile, leading to a relatively higher terrigenous input to the oil shale.
Norneohop-13(18)-ene and neohop-13(18)-ene derived from methanotrophic bacteria are the dominant hopanoid hydrocarbons. The sum of their concentrations varies from 40.6 to 360.0 μg/g TOC. The δ13C of these compounds are extremely depleted (-45.2 to -50.2‰). The occurrence of abundant bacteria including methanotrophic bacteria was responsible for the recycling of carbon below the chemocline of the lake. The effect of the recycling of carbon is observed by the presence of a concomitant depletion (about 7-9‰) in 13C of some specific biomarkers derived from organisms dwelling in the whole phototrophic zone.
4-Methylsterane and 4-methyldiasterene homologues occur in the oil shale as the predominant biomarkers. The sum of the concentrations of all homologues are about 40.3-1,009.2 μg/g TOC with generally higher values in uppermost and lower parts of the profile. Ca accounts as the predominant element in the oil shale, ranging from 5.0 to 16.7%. This element shows generally parallel variation with the 4-methylsterane homologues along the profile. This suggests that the 4-methylsteranes were derived from biological sources favoring more alkaline and more trophic environments. On the other hand, these compounds were less abundant in middle part of the profile which is consistent with less alkaline and less trophic environments promoting B. braunii to bloom.
The 4-methylsterane homologues are considered to originate from Dinoflagellates. Alternation between Dinoflagellates and B. braunii in Paleogene lake systems due to water chemistry changes are known from previous studies. Moreover, freshwater Dinoflagellates have been frequently reported to occur in the basin depocenters. In the present case, distinct alternation between B. braunii abundances and concentrations of 4-methylsterane homologues along the studied oil shale profile suggest that the 4-methylsterane homologues were derived from freshwater Dinoflagellates although dinosterane is not present in the sediment extracts. Water alkalinity and trophic level changes were most likely responsible for the alternation of Dinoflagellates and B. braunii blooming.
Subject of this thesis is the non-perturbative investigation of the thermal transition in Quantum Chromodynamics by means of lattice gauge theory and a particular type of lattice fermions, the so-called twisted mass fermions. These fermions offer the possibility of improvement as compared to the standard Wilson-type formulation. We investigate the properties of these fermions at finite temperature, i.e. the structure of the bare parameter space as well as leading order cutoff effects in the weak coupling limit. Then we focus on two-flavour simulations at finite pion mass. We identify the (pseudo-)critical temperatures for our set of pion masses (300 to 500 MeV) and discuss the extrapolation to the chiral limit for which the nature of the transition is still an open question. Besides pseudo-critical temperatures we consider the magnetic equation of state and screening observables. We find that the assumption of a second order transition (in the 3d O(4) universality class) agrees with our data without being able to exclude alternatives. Finally, we discuss the future inclusion of strange and charm quarks in dynamical twisted mass simulations and look at the corresponding cutoff effects in the free limit.
This dissertation consists of three essays, which study the implication of financial frictions in business cycles and monetary policy making. The first essay develops a Dynamic Stochastic General Equilibrium (DSGE) model to study how the instability of the banking sector can amplify and propagate business cycles. Model simulations show that in an economic down turn, in addition to credit demand contraction induced by low firm net worth, low bank capital
position can create strong credit supply contraction, and have a quantitatively significant effect on business cycle dynamics. The second essay studies the optimal Taylor-type monetary policy rules based on the model developed in the first chapter and find that with interest rate smoothing, 'leaning against the wind' can significantly dampen the procyclicality of financial distortions, and increase the welfare of the economy. The third chapter examines the role of households frugality in a financial crisis and finds that higher savings by more frugal households provide an important cushion for the fall in private investment funding.