Refine
Year of publication
- 2014 (86) (remove)
Document Type
- Doctoral Thesis (86) (remove)
Language
- English (86) (remove)
Has Fulltext
- yes (86)
Is part of the Bibliography
- no (86)
Keywords
- Beschleuniger (2)
- Radio Frequenz Quadrupol (2)
- 1,4-dioxane (1)
- ADHD (1)
- Ageing (1)
- Allergie (1)
- Birkenpollen (1)
- Branch and Bound (1)
- Chikungunya (1)
- Chinese river basins, water withdrawals, dam construction, river flow alteration, flow indicators, fish species richness, fish catch, riparian vegetation cover, quantitative analysis (1)
Institute
- Physik (25)
- Biochemie und Chemie (14)
- Biowissenschaften (13)
- Informatik (7)
- Geowissenschaften (6)
- Mathematik (5)
- Pharmazie (4)
- Institut für Ökologie, Evolution und Diversität (3)
- Biochemie, Chemie und Pharmazie (2)
- Psychologie (2)
Efficient algorithms for object recognition are crucial for the newly robotics and computer vision applications that demand real-time and on-line methods. Some examples are autonomous systems, navigating robots, autonomous driving. In this work, we focus on efficient semantic segmentation, which is the problem of labeling each pixel of an image with a semantic class.
Our aim is to speed-up all of the parts of the semantic segmentation pipeline. We also aim at delivering a labeling solution on a time budget, that can be decided on-the-fly. For this purpose, we analyze all the components of the semantic segmentation pipeline, and identify the computational bottleneck of each of them. The different components of the pipeline are over-segmenting the image with local regions, extracting features and classify the local regions, and the final inference of the image labeling with semantic classes. We focus on each of these steps.
First, we introduce a new superpixel algorithm to over-segment the image. Our superpixel method runs in real-time and can deliver a solution at any time budget. Then, for feature extraction, we focus on the framework that computes descriptors and encodes them, followed by a pooling step. We see that the encoding step is the bottleneck, for computational efficiency and performance. We present a novel assignment-based encoding formulation, that allows for the design of a new, very efficient, encoding. Finally, the image labeling output is obtained modeling the dependencies with a Conditional Random Field (CRF). In semantic image segmentation, the computational cost of instantiating the potentials is much higher than MAP inference. We introduce Active MAP inference to on-the-fly select a subset of potentials to be instantiated in the energy function, leaving the rest as unknown, and to estimate the MAP labeling from such incomplete energy function.
We perform experiments on all proposed methods for the different parts of the semantic segmentation pipeline. We show that our superpixel extraction achieves higher accuracy than state-of-the-art on standard superpixel benchmark, while it runs in real-time. We test our feature encoding on standard image classification and segmentation benchmarks, and we show that our method achieves competitive results with the state-of-the-art, and requires less time and memory. Finally, results for semantic segmentation benchmark show that Active MAP inference achieves similar levels of accuracy but with major efficiency gains.
High resolution gamma spectroscopy with sophisticated detector arrays significantly contributes to nuclear structure physics. The Advanced Gamma Tracking Array (AGATA) combines gamma tracking and pulse shape analysis to achieve an efficiency and quality of the spectra that could not be reached with spectrometers of the previous generation. Tracking of the photons interacting in the detector requires a precise knowledge of the individual interaction positions. The task of the pulse shape analysis is to provide a position resolution of better than $5mm$ FWHM, a value that could not be achieved by segmentation of the detector alone. As the signals induced on the electrodes of the detectors depends on the position of interaction, the charge pulses can be used to infer the interaction position. To be able to handle high rates, algorithms that are used have to be optimized to be able to process the data in real-time. Pulse shape analysis is the most involved part of the real-time processing and requires further improvement. This work is dealing with optimizations and improvements of pulse shape analysis algorithms. The Grid Search algorithm localizes the interaction position by comparing the measured pulse shape with precomputed shapes in a database to find the best fit. Two linear filters based on orthogonal transformations have been compared and it could be concluded that the one based on a singular value decomposition of the pulse shapes works best. It speeds up the pulse shape analysis by a factor of roughly $2-3$ (depending on how it is combined with the other modifications). Further, a new method to exclude most signals from the database as best fit has been developed based on the principle of lateration. Most interaction positions can be excluded by means of a fast check and for single interactions on average only $34.8\%$ of all signals from the database have to be compared to the measured one. The overhead introduced by the method is negligible and the reduced number of comparisons almost direclty translates into increased efficiency of the algorithm. A similar method could also be applied for double interactions. Two or more interactions taking place in the same segment require special treatment as the measured signals cannot be directly compared to signals from the database. A new method to calculate the figure of merit that quantifies the fit in case of a double interaction has been introduced. Compared to the unmodified algorithm the new method finds the best fit for double interactions roughly two orders of magnitude faster. Actually, the time required to localize double interactions is almost the same as for single interactions. Apart from optimizing the algorithm, also the achievable position resolution was investigated. It strongly varies inside the volume of the detector and it crucially depends on the shape of all signals in the database and the amplitude of the noise present in the measured signals. As a first step towards a precise analytic expression for the position resolution, an estimate for the probability to find the correct position has been derived.
More than 100 years after Henry James’s death, criticism is still working through unresolved gender issues in his fiction. This study proposes a new interdisciplinary approach to the gendered power relations in James’s novels that fills a crucial vacancy in the literature. Reading James’s intricately woven narrative form through the lens of relational sociology, specifically Pierre Bourdieu’s concept of symbolic domination, reconciles some of the most fiercely disputed positions in James studies of the past decades. With its focus on gender-related symbolic domination, this study demonstrates this approach’s potential to probe the depths of James’s fictional social worlds while developing the narratological tools to do so.
Many critics have paid attention to the relational nature of James’s social fictions as well as his talent for capturing unspoken, invisible, hidden social constraints. Blatantly missing from the literature is a systematic relational analysis into the specifically Jamesian method of narrating the socio-psychological, embodied responses to power and oppression. The present study closes this research gap. It reveals how James persistently narrates his characters as social agents whose perception, affects, and bodily practices are products of the social structures that they in turn continue to shape and reproduce. Moreover, it traces a development throughout James’s career that reflects his growing sensitivity for the stubbornness of some seemingly insurmountable social constraints. James’s fictional social worlds are relational ones through and through. This study is the first sustained effort to investigate the way in which his narratives capture this interrelatedness.
The scope of this Thesis is to understand the position dependency phenomenon of human visual perception. First, under the ecological assumption, meaning under the assumption that animals adapt to the statistical regularities of their environment, we study the consequences of the imaging on the local statistics of the input to the human visual system. Second, we model efficient representations of these statistics and their contribution to shape the properties of eye sensory neurons. Third, we model efficient representations of the semantic context of images and the correctness of different underneath geometrical assumptions on the statistics of images.
The efficient coding hypothesis posits that sensory systems are adapted to the regularities of their signal input in order to reduce redundancy in the resulting representations. It is therefore important to characterize the regularities of natural signals to gain insight into the processing of natural stimuli. While measurements of statistical regularity in vision have focused on photographic images of natural environments it has been much less investigated, how the specific imaging process embodied by the organism’s eye induces statistical dependencies on the natural input to the visual system. This has allowed using the convenient assumption that natural image data is homogeneous across the visual field. Here we give up on this assumption and show how the imaging process in a human eye model influences the local statistics of the natural input to the visual system across the entire visual field. ...
Ultrafast protein dynamics are of great interest for understanding the molecular basis of biochemical function. One method to study structural changes with highest time-resolution starting in the femtosecond regime is 2D-IR spectroscopy. However its application to investigate protein dynamics both with high temporal and spatial resolution is currently limited to few biological systems with intrinsic chromophores. Spectral congestion, the contribution of many similar oscillators to the same signals, makes it difficult to draw conclusions about local structural dynamics in most other proteins.
The aim of this thesis is to extend the application of 2D-IR spectroscopy to a wider range of proteins by introducing unnatural amino acids (UAAs) with azide or nitrile groups as site-specific vibrational probes, which absorb in the free spectral window between 1800 to 3000 cm-1 by using methods from chemical biology.
In a comparative experimental study using FTIR and 2D-IR spectroscopy of single amino acids azidohomoalanine (Aha), a methionine analogue, was identified as preferred label. To demonstrate the application potential of UAAs as site-specific probes, Aha was then incorporated into different positions in a small globular protein. By using both FTIR and ultrafast 2D-IR it was shown, that indeed the local microenvironment as well as conformational fluctuations on picosecond timescale could be monitored with high spatial information. The azide moiety shows a shift of its absorption frequency depending on the polarity of its surrounding. Using this approach, different subensembles for the protein conformations with more polar and less polar environment around the vibrational probe can be distinguished.
A second major application of site-specific labels is the study of vibrational energy transfer processes (VET), predicted to be relevant for allosteric communication in protein domains such as the PDZ domain. VET can be tracked with high spatial resolution using time-resolved IR spectroscopy by exciting a localized vibrational mode and probing separate modes in a two-colour 2D-IR experiment. To extend this kind of experiment to proteins, a specific donor-acceptor pair of two UAAs was introduced. It uses an azulene moiety as donor that can be excited in the visible range but deposits the excess energy by internal conversion into the vibrational modes of the ground state. In small peptides this VET pair was applied successfully, showing a distance-dependent energy transfer induced signal for VET through covalent bonds. These findings bare great promise for the direct observation of vibrational energy flow in proteins in real-time.
Overall this thesis is the basis for extending the usability of 2D-IR spectroscopy to study structural dynamics in a wide range of proteins systems both with high temporal and spatial resolution.
Molecular signaling networks, organized in discrete subsets of proteins in space and time, represent the major principle by which the cell achieves its functional specificity and homeostasis. Complex network organization is preserved by numerous mechanisms, including sequestration of proteins into specific subcellular compartments (eg. organelles), post-translational modifications and most importantly by balanced timing of their biosynthesis and turnover. Two routes of protein degradation, which are fundamentally quite different, are proteasomal and lysosomal-mediated destruction. The latter not only governs degradation of molecules that passed through endocytic or secretory process (trafficking from plasma membrane or Golgi compartment), but also the degradation of cytoplasmic molecules that have been sequestered by a process called macroautophagy (henceforth autophagy). Recently our understanding of autophagic regulatory mechanisms has increased significantly, as molecular details of how autophagy contributes to the degradation of proteins (old, misfolded or aggregated), damaged organelles or pathogens have been deciphered. Initially described as bulk, nonspecific membrane sequestration process induced primarily by nutrient deprivation, autophagy is now known to be selective in terms of cargo recognition and integration into dynamic cellular membrane trafficking system.
My work has addressed the fundamental question of how small ubiquitin-like modifiers LC3/GABARAP, that are conjugated to the autophagic membranes, function within the process of cargo selection and crosstalk between autophagic and endocytic membrane trafficking events. We have employed an initial yeast twohybrid screen to identify LC3/GABARAP interacting partners. Using this technique, we have identified several novel autophagy receptor proteins, mitochondrial protein Nix (BNIP3L), and adaptor proteins, including Rab GTPase activating proteins (TBC family of proteins). Through a conserved LC3 interacting region (LIR), Nix, Rab GAPs and other autophagy adaptor/receptor molecules share a common mode of binding to LC3/GABARAP. However, in contrast to Nix, which specifically facilitates removal of mitochondria in maturing erythrocytes, Rab GAP proteins preferably regulate the dynamics of autophagosome formation and maturation as well as sorting of cargo. Fourteen out of 36 screened Rab GAPs interacted with LC3/GABARAPs. Importantly, identified Rab GAPs are clustered in different regulatory nodes according to the conservation of their GAP domain hence they impact various cellular membrane compartments and organelles, marked by specific subsets of small Rab GTPases. Identification of Rab GAPs that are directly involved in autophagy via binding to LC3 was the first report that clearly pointed to a broader implication of autophagy in all aspects of cellular membrane trafficking. Currently, only few of Rab GAPs are studied in context of autophagy regulation, while large number of them requires further functional characterization.
I have identified two LIR motifs in TBC1D5, Rab7 GAP. LIR1 has also the ability to interact with retromer complex subunit, Vps29. Using several functional assays I have shown that this motif, as well as catalytic Arg within GAP domain are particularly important for function of TBC1D5 in retrograde transport of CI-M6PR from endosomes to the trans-Golgi network (TGN). I have also shown that TBC1D5 binds to LC3 and Vps29 in mutually exclusive way and that Thr at the position 1 and Phe at position 5 of LIR1 motif are both required for TBC1D5 interaction with Vps29. Upon autophagy induction TBC1D5 dissociates from retromer, and associates with autophagic vesicles, while silencing of TBC1D5 significantly impairs autophagic flux. These findings led to the hypothesis that LIR interacting surface on TBC1D5 acts as molecular switch for dual function of TBC1D5. This also indicated that similar surfaces for LIR interaction (similarly to ubiquitin-like domains) are present on proteins other than LC3, and pointed to a dual functionality of the LIR sequence within both endocytic and autophagic pathways.
Following these initial studies, I have also shown that TBC1D5 interacts with AP2 complex subunit AP2M1, and that this interaction plays critical role in TBC1D5-dependent trafficking of Atg9. It is known that Atg9, the only trans-membrane autophagic protein, plays essential role in initiation of autophagy and growth of nascent phagophore membranes. However, machinery that specifically recruits Atg9 traffic carriers to the site of autophagosomes was not known. I subsequently demonstrated that TBC1D5 associates not only with LC3, but also with Atg9 traffic carriers and major initiatory kinase ULK1 during autophagy, while retromer failed to do so. Association of TBC1D5 with Atg9 was dependent on presence of AP2 complex, and on functional clathrin-mediated endocytosis (CME). Based on these and previous findings, model was proposed, that upon induction of autophagy TBC1D5 re-routes Atg9-containing clathrin vesicles from plasma membrane to the site of autophagosome. This led us to the better understanding of TBC1D5 function, but also to the first molecular cue that Atg9 traffics within clathrin-coated vesicles (CCVs). In fact, mutation of Leu-Leu motif within N terminus of Atg9, that potentially mediates interaction with adaptor protein complexes, led to enrichment of Atg9 on plasma membrane and in TGN. This suggested that the sorting motif could be important for interaction of Atg9 with AP2 and AP1 complex, as well. More importantly, TBC1D5 and Atg9 could be directly involved in dynamic regulation of growth factor receptor sorting during autophagy, thus explaining vital role of autophagy in organism development and pathogenesis.
In summary, the work contained within my thesis provides data on the mechanism by which autophagy adaptor proteins participate in cargo selection and regulation of trafficking during autophagy. Firstly, the LIR motif can target proteins or organelles for autophagic degradation (eg. Nix). Secondly, specific LIR motifs can play essential function in recruiting membrane trafficking regulatory proteins that subsequently facilitate phagophore expansion (eg. TBC1D5). Thirdly, by means of reorganization of different protein assemblies (eg. TBC1D5-VPS29 vs. TBC1D5-LC3-Atg9), dynamics of membrane remodeling mediated by Rab GTPases is kept in control during autophagy, thus keeping the organelle integrity and balance within cellular lipid sources unaffected.
Construction and commissioning of a setup to study ageing phenomena in high rate gas detectors
(2014)
In high-rate heavy-ion experiments, gaseous detectors encounter big challenges in terms of degradation of their performance due to a phenomenon dubbed ageing. In this thesis, a setup for high precision ageing studies has been constructed and commissioned at the GSI detector laboratory. The main objective is the study of ageing phenomena evoked by materials used to build gaseous detectors for the Compressed Baryonic Matter (CBM) experiment at the future Facility for Antiproton and Ion Research (FAIR).
The precision of the measurement, e.g., of the gain of a gaseous detector, is a key element in ageing studies: it allows to perform the measurement at realistic rates in an acceptable time span. It is well known the accelerating ageing employing high intensity sources might produce misleading results. The primary objective is to build an apparatus which allows very accurate measurements and is thus sensitive to minute degradations in detector performance. The construction and commissioning of the
setup has been carried out in two steps. During the first step of this work, a simpler setup which already existed in the detector laboratory of GSI had been utilised to define all conditions related to ageing studies. The outcome of these studies defined the properties and characteristics that must be met to build and operate a new, sophisticated and precise setup. The already existing setup consisted of two identical Multi Wire Proportional Chambers (MWPCs), a gas mixing station, an 55Fe source, an x-ray generator, an outgassing box and stainless steel tubing. In a first step, the gain and electric field configuration of the MWPCs were simulated by a combination of a gas simulation (Magboltz) and electric field simulation program (Garfield). The performance and operating conditions of the chambers have been thoroughly characterised before utilising them in first preparatory ageing test. The main diagnostic parameter in ageing studies is the detector gain, thus it is mandatory for precise ageing studies to minimise the systematic and statistical variation of the pressure and temperature corrected gain. To achieve the required accuracy, several improvements of the chamber design and the gas system have been implemented. In addition, the temperature measurement has been optimised. During the preparatory tests, several ageing studies have been carried out. The ageing effect of seven materials and gases have been carried out during these tests: RTV-3145, Ar/CO2 gas, Durostone flushed with Ar/Isobutane gas, Vetronit G11, Vetronit G11 contaminated with Micro 3000 and Gerband 705. The results of these studies went into the design of the new sophisticated ageing setup. For example some tests revealed that there was, even after cleaning, a certain level of contamination with "ageing agents" in the existing setup, which made it imperative to ensure a very high level cleanness of all components during the construction of the setup. The curing period of some testing samples like glues or the gas flow rate were found to be very important factors that must be taken into account to obtain comparable results. Very important changes in the chamber design have been made, i.e., the aluminium-Kapton cathodes used in MWPCs have been replaced with multi-wire planes and the fibreglass housing of the chamber has been changed to metal. The second step started with building the new setup which was designed based on the findings from the first step. The new ageing setup consists of three MWPCs, two moving platforms, an 55Fe source, a copper-anode x-ray generator, two outgassing boxes, both flexible and rigid stainless steel tubes. Before fabrication of the chambers, simulations of their electric field and the gain have been done using Magboltz and Garfield programs. After that, the chambers were installed and tested. A 0.3% peak-to-peak residual variation of the corrected gain has been achieved. Finally, the complete setup has been operated with full functionality in no-ageing conditions during one week. This test revealed very stable gain in all three chambers. After that two materials (Gerban 705 and RTV-3145) have been inserted in the two outgassing boxes and tested. They revealed an ageing rate of about 0.3%/mC/cm and 3%/mC/cm respectively. The final test proves the stability and accuracy of the ageing measurements carried out with the ageing setup at the detector laboratory at GSI which is ready to conduct the envisaged systematic ageing studies.
During the last decade of the 20th century, the field of mass spectrometry has seen a revolutionary change in its application and scope. The introduction of soft ionization methods for the analysis of biological molecules has expanded the area of mass spectrometry from its early roots in the analysis of inorganic and organic species into the fields of biology and medicine.
Today, the use of the mass spectrometry is extended to a wide range of applications in biotechnology and pharmaceutical industry, in geological, environmental and clinical research. In biochemistry, the principles of mass spectrometry are, however, broadly applicable in accurate molecular weight determination, reaction monitoring, amino acid sequencing, oligonucleotide sequencing and protein structure.
In order to carry out their biological activities, proteins interact most often to each other and form transient or stable complexes. In addition, some proteins specifically interact also with other proteins or with non-protein molecules, such as DNA, RNA or metabolites, these interactions being critical for their function. Hence, defining the composition of protein complexes, as well as understanding how protein complexes are assembled and regulated yield invaluable insights into protein function. Coupled with an isolation technique to purify a specific protein complex of interest, mass spectrometry can rapidly and reliably identify the components of complexes. In addition, quantitative MS techniques offer the possibility of studying dynamically regulated interactions....
Since Inhibitor of Apoptosis (IAP) proteins are frequently dysregulated in different cancer entities and contribute to apoptosis resistance, pharmacological IAP antagonists are considered to be promising agents for the future development of cancer treatment strategies. IAP antagonists are small-molecule drugs that have been designed to mimic the interaction site of IAP proteins with their endogenous inhibitor Second mitochondrial activator of caspases (SMAC). Thus, they are frequently referred to as SMAC mimetics. Treatment with SMAC mimetics engages an apoptotic program in cancers by affecting different components of the apoptotic machinery. Besides disinhibition of caspases, SMAC mimetics trigger non-canonical nuclear factor-κB (NF-κB) signaling, which induces upregulation of tumor necrosis factor (TNF) α and other NF-κB target genes. In particular, TNFα production has been closely linked to the induction of SMAC mimetic-mediated cell death. The TNFα-dependent para/autocrine loop facilitates the formation of a cytosolic complex consisting of caspase-8, Fas-associated death domain (FADD) and Receptor-interacting protein (RIP) 1, which serves as caspase-8 activation platform and ultimately triggers induction of apoptosis. In the present study, we use the small-molecule bivalent SMAC mimetic BV6 to analyze SMAC-stimulated NF-κB signaling in cancer cell lines of different entities. Interestingly, we identify two novel NF-κB-regulated factors that are both required for SMAC mimetic-induced apoptosis in a context-dependent manner. First, we show that NF-κB-dependent upregulation of death receptor 5 (DR5) can serve as an alternative mechanism of BV6-mediated cell death. We demonstrate that BV6 treatment induces NF-κB-dependent but largely TNFα -independent apoptosis in A172 glioblastoma cells. By using an unbiased whole genome expression analysis approach, we identify DR5 as a critical NF-κB target gene, which substitutes TNFα and is indispensable for BV6-initated cell death in A172 cells. Second, we demonstrate that Interferon regulatory factor (IRF) 1 is required for BV6-induced TNFα production and apoptosis. Our study provides evidence that IRF1 closely cooperates with the NF-κB network in BV6-mediated cell death and additionally alters expression of selective SMAC mimetic-induced target genes. Furthermore, we show that BV6 treatment triggers secretion of a set of proinflammatory cytokines and increases attraction of monocytes to BV6-treated tumor cells in an IRF1-dependent manner. In summary, our work supports the notion that NF-κB-regulated factors are critically required for SMAC mimetic-initiated apoptosis. We show that IRF1 is indispensable for TNFα production and cell death in BV6-sensitive cell lines and that also DR5 can serve as a proapoptotic NF-κB-controlled factor in BV6-induced apoptosis besides TNFα. Furthermore, this study contributes to an improved understanding on non-apoptotic functions of SMAC mimetics, as IRF1 additionally influences expression levels of proinflammatory cytokines and attraction of immune cells. Thus, our work provides novel insights into the regulation of SMAC mimetic-induced signaling events, which is crucial for the translation of SMAC mimetics for use in clinical application.
In mitochondria, biogenesis of oxidase is a crucial process involving the participation of an array of assembly factors. Studying the process of biogenesis in eukaryotes is highly complicated due to the presence and partaking of two genetic systems. Employing a bacterial model such as Paracoccus denitrificans that utilizes only one genetic system enables easy studying of the assembly process. The aa3 cytochrome c oxidase of P. denitrificans shows high structural and functional homology to its mitochondrial counterpart despite its simple subunit composition. The assembly of the core subunits I and II that house the active redox centers (heme a, and heme a3.CuB centre in subunit I; and the binuclear CuA centre in subunit II) along with the chaperons responsibly for their incorporation form the crux of this work. This work concentrates particularly on CtaG, a chaperone previously speculated to be involved in the delivery of copper to the CuB center in subunit I. As the full length structure of CtaG or its structural homologues have not been solved, attempts were made to obtain high-diffracting crystals of CtaG by heterologously expressing it in E. coli. Growth media, expression strains and induction parameters were some of the conditions screened in order to obtain optimal yield. Additives, pH and detergent were screened to yield a homogeneous preparation of CtaG. Crystallization trials were conducted by employing the sitting drop, vapour diffusion, method and later the bicelles were employed. Preliminary crystals obtained were further optimized employing seeding, detergent and additives, to improve diffraction. The diffraction improved from 30 Å to 15 Å. BN PAGE (Blue Native Polyacrylamide Gel Electrophoresis) analysis and cross-linking studies were undertaken to decipher the oligomeric condition of CtaG. Both the methods indicate that the protein is a dimer under native conditions. To study the importance of CtaG in the process of oxidase assembly, two deletion mutants were obtained from the lab; one with only ctaG deleted and the other with ctaG and most of the upstream ORF. The effect of the deletion was assayed on the assembly and activity of oxidase. The deletion mutants showed residual activity of approx. 20 %, while displaying a very low heme signal (both in membranes and in purified COX). In order to exclude polar effects arising due to gene manipulation, complementation strains were prepared, reintroducing ctaG alone into both the deletion strains. Complementation strains, where only ctaG was deleted and re-introduced assayed for COX activity showed a restoration in activity to approx. 70 %. Further, calculating the heme:protein ratio, the deletion strains displayed a value of 7 nmol/mg of oxidase which was increased to wild type levels of 16 nmol/mg in the complementation strains. To further confirm the absence of the copper in subunit I, total reflection X-ray fluorescence spectroscopy analysis was carried out, which showed a decrease in the copper content in the deletion strain, restored on complementation. The strain lacking in the ORF and ctaG when complemented with ctaG alone illustrated no increase in activity or heme signal in comparison to that of the deletion strain. These point at a possible role for ORF in the assembly of COX, which is still absent in the complementation strains. To further characterize the ORF, a series of bioinformatical analysis was carried out, the results from which were insufficient to characterize the ORF conclusively. In order to enlist the proteins involved in the biosynthesis of COX, two independent approaches were employed. Two-dimensional gel examinations of solubilised membranes from untreated and cross-linked cells were analyzed by Western blotting. The CtaG-COX interaction was observed in untreated membranes, which was additionally strengthened by cross-linking. To further confirm this association, pull-down assays were done employing protein A coated magnetic beads coated with different antibodies and incubated with solubilised membranes derived from untreated or cross-linked cells. The elutions were assayed by Western blotting and confirmed for the CtaG-COX interaction. These fractions were further analysed by mass spectrometry to identify other chaperons involved in biogenesis of oxidase. Along with CtaG, I also noticed Sco, Surf1c and other factors involved in the recruitment and transport of heme (CtaB, CtaA, and Ccm proteins). Interestingly, protein components of both ribosomal subunits and protein translocation factors were observed, which indicated a co-translational approach for co-factor insertion into COX.
The nature of spontaneous brain activity during wakefulness and sleep: a complex systems approach
(2014)
In this thesis we study the organization of spontaneous brain activity during wakefulness and all stages of human non-rapid eye movement sleep using an approach based on developments and tools from the theory of complex systems. After a brief introduction to sleep physiology and different theoretical models of consciousness, we study how the organization of cortical and sub-cortical interactions is modified during the sleep cycle. Our results, obtained by modeling global brain activity as a complex functional interaction network, show that the capacity of the human brain to integrate different segregated functional modules is diminished during deep sleep, in line with an informationintegration account of consciousness. We then show that integration is impaired not only across space but also in the temporal domain, by assesing the emergence of long-range temporal correlations in brain activity and how they are modified during sleep. We propose an encompassing explanation for this observation, namely, that the brain operatsat different dynamical regimes during different states of consciousness. Finally, we gather massive amounts of data from different collaborative projects and apply machine learning techniques to reveal that the \resting state" cannot be considered as a pure brain state and is in fact a mixture containing different levels of conscious awareness. This last result has deep implications for future attempts to develop a discovery science of brain function both in health and disease.
To overcome poor treatment response of pediatric high-risk acute lymphoblastic leukemia (ALL), novel treatment strategies are required to reactivate programmed cell death in this malignancy. Therefore, we take advantage of using small-molecule antagonists of Inhibitor of apoptosis (IAP) proteins, so called Smac mimetics such as BV6, which are described to overcome apoptosis resistance and thereby sensitize tumor cells for several apoptotic stimuli. To address the question whether redox alterations can sensitize leukemic cells for Smac mimetic-mediated cell death, we interfered with the cellular redox status in different ALL cell lines. Here, we show for the first time that redox alterations, mediated by the glutathione depleting agent Buthioninesulfoximine (BSO), prime ALL cells for BV6-induced apoptosis. Besides ALL cell lines, BV6/BSO cotreatment similarly synergizes in cell death induction in patient-derived primary leukemic samples. In contrast, the combination treatment does not exert any cytotoxicity against peripheral blood lymphocytes (PBLs) or mesenchymal stroma cells (MSCs) from healthy donors, suggesting some tumor selectivity of this treatment. We also identify the underlying molecular mechanism of the novel synergistic drug interaction of BSO and BV6. We demonstrate that both agents act in concert to increase reactive oxygen species (ROS) production, lipid peroxidation and finally apoptotic cell death. Enhanced ROS levels in the combination treatment account for cell death induction, since several ROS scavengers, like NAC, MnTBAP and Trolox attenuate BSO/BV6-induced apoptosis. BSO/BV6-induced ROS can be mainly classified as lipid peroxides, since the vitamin E derivate α-Tocopherol as well as Glutathione peroxidase 4 (GPX4), which both specifically reduce lipid-membrane peroxides, prevent lipid peroxidation, caspase activation and cell death induction. Vice versa, GPX4 knockdown and pharmacological inhibition of GPX4 by RSL3 or Erastin enhance BV6-induced cell death. Importantly, cell death induction critically depends on the formation of a complex consisting of RIP1/FADD/Caspase-8, since all complex components are required for ROS production, lipid peroxidation and cell death induction. Taken together, we demonstrate that BSO and BV6 cooperate to induce ROS production and lipid peroxidation which are eventually required for caspase activation and cell death execution. Collectively, findings of this study indicate that BV6-induced apoptosis is mediated via redox alterations offering promising new treatment strategy to overcome apoptosis resistance in ALL.
Hepatocellular carcinoma (HCC) is the fifth most common malignant tumor and third leading cause of cancer-related death worldwide. Most cases arise as a consequence of underlying liver disease, e.g. developed from chronic hepatitis B or C infectionsalcohol abuse or obesity, and are most often associated with liver cirrhosis. Hypoxiand the hypoxia inducible factors (HIF)-1α and -2α promote tumor progression of HCC, not only affecting tumor cell proliferation and invasion, but also angiogenesis and lymphangiogenesis and thus, increasing the risk of metastasis.
HCC is characterized as one of the most vascularized solid tumors. While HIF-1α and HIF-2α are frequently up-regulated in HCC only HIF-2α is correlated with high patientlethality. HIF-dependent regulation of HCC angiogenesis is controversially discussed.VEGFA, for example, as the most prominent factor inducing tumor angiogenesis represents not only a HIF-1 target, but also a HIF-2 target gene in HCC. This questions whether both isoforms have overlapping functions in regulating the angiogenic switch in HCC.
Besides angiogenesis also tumor-associated lymphangiogenesis significantly influences patient survival in HCC. Lymphatic spread is an important clinical determinant for the prognosis of HCC, but little is known how lymphangiogenesis is controlled in this context. To date, mainly HIF-1α was positively correlated with olymphatic invasion and metastasis in HCC, while a defined role of HIF-2α is missing. Thus, although HIF-1α and HIF-2α are structurally alike and regulate overlapping but not identical sets of target genes, they promote highly divergent outcomes in cancer progression and may even have counteracting roles. The aim of my work was to characterize the specific role of HIF-1α and HIF-2α in the angiogenic switch and lymphangiogenesis induction during HCC development.
Therefore, I created a stable knockdown of HIF-1α and HIF-2α in HepG2 cells and generated cocultures of HepG2 spheroids and embryonic bodies derived from embryonic mouse stem cells as an in vitro tumor model mimicking the cancer microenvironment to analyze which HIF isoform has key regulatory functions in HCC (lymph)angiogenesis. In cocultures with a HIF-2α knockdown angiogenesis was attenuated but lymphangiogenesis increased, while the knockdown of HIF-1α was without effect. Microarray analysis identified plasminogen activator inhibitor 1 (PAI-1)and insulin-like growth factor binding protein 1 (IGFBP1) as HIF-2 target genes.However, prominent angiogenic and lymphangiogenic factors such as VEGFs, PDGFB, ANG and their receptors were not regulated in a HIF-dependent manner. As PAI-1 was linked to angiogenesis in literature and IGF-signaling, which is negatively regulated by IGFBP-1, was correlated with lymphangiogenesis, I decided to investigate their HIF-2α-dependent influence on HCC (lymph)angiogenesis. The knockdown of PAI-1 in HepG2 cells also lowered angiogenesis in PAI-1k/d cocultures similar to the HIF-2α k/d phenotype. PAI-1 as the potent inhibitor of tPA and uPA, both inducing the conversion of plasminogen to plasmin, also inhibits plasmin directly. Therefore, I assumed an increase of plasmin in HIF-2α k/d and PAI-1 k/d cocultures as a result of the reduced PAI-1 levels. Blocking plasmin with aprotinin in HIF-2α k/d cocultures restored angioge nesis, suggesting that HIF-2α increases PAI-1 to lower concentrations of active plasmin, thereby supporting angiogenesis. In further experiments I could exclude PAI-1 to reduce angiogenesis by inducing plasmin-mediated apoptosis of differentiating stem cells in PAI-1 k/d and HIF-2α k/d cocultures, but demonstrated an increase of VEGFA165 degradation in these cocultures, suggesting plasmin-catalyzed proteolysis of VEGF as an additional layer of regulation required to explain the angiogenic phenotype. Besides the pivotal role of PAI-1 in angiogenesis I also investigated its potentialinfluence in lymphangiogenesis. Indeed, the knockdown of PAI-1 reduced lymphaticstructures and implied an important but opposing role in lymphangiogenesis comparedto induced lymphangiogenesis in HIF-2α k/d cocultures. However, blocking plasmin again with aprotinin in HIF-2α k/d cocultures restored lymphangiogenesis to the level of control virus, which indicates a divergent lymphangiogenic role of plasmin in PAI-1 k/d and HIF-2α k/d cocultures, possibly because of other essential pathways masking the lymphangiogenic effects of PAI-1 in HIF-2α k/d cocultures.
HIF-2α resulting in reduced IGFBP1 expression induced the differentiation of stem cells toward a lymphatic cell type and significantly enhanced the assembly of human dermal lymphatic endothelial cells into tubes. These data point the first time to an important impact of HIF-2 in the regulatin of lymphangiogenesis in vitro by inducing IGFBP1 and thus, scavenging IGF-1. Furthermore, matrigel plug assays to investigate the in vivorelevance of these observations confirmed HIF-2α as a crucial factor in the regulation of lymphangiogenesis in vivo
In conclusion, this work provides evidence that HIF-2α is a key regulator of angiogenesis and lymphangiogenesis in HCC by regulating PAI-1 and IGFBP1. HIF-2α positively influences the angiogenic switch via PAI-1 and negatively affects lymphangiogenesis via IGFBP1 expression. Targeting HIF-2α in HCC to reduce tumor angiogenesis should be approached carefully, as it might be overcome by induced lymphangiogenesis and metastasis.
During this study clumped isotope analysis of carbonates was established at the Goethe University of Frankfurt, Germany. Therefore, preparation protocols and analytical parameters were elaborated to obtain precise and accurate Δ47 data. Briefly, analyte CO2 was cleaned cryogenically using glass extraction lines to remove traces of water that enable re-equilibration of C–O bonds in the gases. Furthermore, analyte CO2 was passed through a gas chromatograph (GC) to clean it from contaminants that produce isobaric interferences with m/z 47. Initially, phosphoric acid digestions of carbonates was conducted at 25 °C in McCrea-type reaction vessels. Afterwards samples were reacted at 90 °C using a common acid bath. Mass spectrometric analyses were performed using a MAT 253 equipped with a dual inlet system. Δ47 values were directly projected to the absolute scale using CO2 gases equilibrated at distinct temperatures.
In cooperation with Stefano Bernasconi and his research group at ETH Zurich we studied the non-linearity that occurs for the measurement of m/z 47. This effect results from secondary electrons created by the m/z 44 beam. These electrons cause a negative background on the m/z 47 collector. A correction procedure was proposed that relies on the determination of the negative background on the m/z 47 Faraday cup. This approach might reduce time-consuming analyses of heated gases which were used so far to account for the observed non-linearity. However, the suggested correction of the negative background on the m/z 47 cup is only applicable if the slit width of the m/z 44 beam is significantly wider than that of the m/z 47 beam.
This thesis, furthermore, presents a comparison of the different phosphoric acid digestion techniques which are commonly used for carbonate clumped isotope analysis. For calcitic and aragonitic material digested at 25 °C in McCrea-type vessels we observed that the sample size has an effect on Δ47 data: higher mean Δ47 values and a larger scatter of data were received for samples <7 mg than for larger aliquots. For carbonate samples digested at 90 °C in a common acid bath no sample size effect was determined. We assume that secondary re-equilibration of CO2 with water preferentially occurs at 25 °C producing the observed differences. However, a sample size effect can be avoided if reaction temperature is increased to 90 °C.
In order to make carbonate Δ47 data obtained from acid digestions at 90 °C comparable to Δ47 data received from reactions at 25 °C the difference of the acid fractionation factores (Δ47*25-90) between both temperatures has to be known. For the determination of the Δ47*25-90 value we have considered Δ47 data made at 25 °C from samples >7 mg only. For calicte and aragonite we obtained differences in fractionation factores of 0.075‰ and 0.066‰, respectively. These Δ47*25-90 values are coincident with the theoretical prediction of 0.069‰ proposed for calcite (Guo et al., 2009).
Moreover, this dissertation comprises a calibration study of the clumped isotope thermometer based on various natural calcites that grew between 9 and 38 °C. The samples include a brachiopod shell, a bivalve shell, an eggshell of an ostrich and foraminifera tests which formed from distinct biomineralizing processes. Furthermore we included an authigenic carbonate crystallized from biological-induced precipitation. The following linear relationship between 1/T2 and Δ47 was determined (with Δ47 in ‰ and T in K):
Δ47 = 0.0327 (± 0.0026) x 106 / T2 + 0.3030 (± 0.0308) (R2 = 0.9915)
This equation differs from the pioneering Ghosh et al. (2006a) calibration. However, our regression line is statistically indistinguishable from that of Henkes et al. (2013) which is based on aragonitic mollusks and calcitic brachiopod shells. Both studies have in common that calibration data were, at first, directly referenced to the absolute scale. In addition, both datasets rely on similar digestion techniques. Furthermore, the two calibrations are conform with the theoretical prediction of Guo et al. (2009).
The calcite calibration of the clumped isotope paleothermometer received in this study was applied to Δ47 data measured for Silurian brachiopods shells from Gotland/Sweden. Prior to isotopic analysis the fossils were intensively investigated for their preservation state (CL, SEM, trace elements). The lowest T(Δ47) values of ca. 28 to 33 °C were estimated from ultrastructurally well-preserved regions of some shells. For these samples also the lowest δ18Ow values of Silurian seawater were determined. These estimates of ca. −1‰ confirm the assumption that the δ18O value of the Silurian ocean was buffered to (0 ± 1)‰.
Nevertheless, most studied shells were characterized by a patchwork of pristine and altered shell portions resulting in elevated T(Δ47) values which plot mostly between 40 and 60 °C. Our results indicate that the clumped isotopic composition of the shells were altered at low water-rock ratios, not affecting the δ18O values. Δ47 and δ18O data of associated diagenetic phases (sparitic and micritic phases of the inner fillings of the fossils) provide evidence that the sparitic cements grew during several diagenetic events which occurred at different temperatures in fluid-buffered systems. We, furthermore, conclude that the micritic phases lithified at a very early diagenetic stage with the δ18O values being most probably close to a Silurian seawater composition
The subject of this thesis is the experimental investigation of the neutron-capture cross sections of the neutron-rich, short-lived boron isotopes 13B and 14B, as they are thought to influence the rapid neutron-capture process (r process) nucleosynthesis in a neutrino-driven wind scenario.
The 13;14B(n,g)14;15B reactions were studied in inverse kinematics via Coulomb dissociation at the LAND/R3B setup (Reactions with Relativistic Radioactive Beams). A radioactive beam of 14;15B was produced via in-flight fragmentation and directed onto a lead-target at about 500 AMeV. The neutron breakup of the projectile within the electromagnetic field of the target nucleus was investigated in a kinematically complete measurement. All outgoing reaction products were detected and analyzed in order to reconstruct the excitation energy.
The differential Coulomb dissociation cross sections as a function of the excitation energy were obtained and first experimental constraints on the photoabsorption and the neutron-capture cross sections were deduced. The results were compared to theoretical approximations of the cross sections in question. The Coulomb dissociation cross section of 15B into 14B(g.s.) + n was determined to be s(15B;14B(g:s:)+n) CD = 81(8stat)(10syst) mb ; while the Coulomb dissociation cross section of 14B into a neutron and 13B in its ground state was found to be s(14B;13B(g:s:)+n) CD = 281(25stat)(43syst) mb: Furthermore, new information on the nuclear structure of 14B were achieved, as the spectral shape of the differential Coulomb dissociation cross section indicates a halolike structure of the nucleus.
Additionally, the Coulomb dissociation of 11Be was investigated and compared to previous measurements in order to verify the present analysis. The corresponding Coulomb dissociation cross section of 11Be into 10Be(g.s.) + n was found to be 450(40stat)(54syst ) mb, which is in good agreement with the results of Palit et al.
The number of multilingual texts in the World Wide Web (WWW) is increasing dramatically and a multilingual economic zone like the European Union (EU) requires the availability of multilingual Natural Language Processing (NLP) tools. Due to a rapid development of NLP tools, many lexical, syntactic, semantic and other linguistic features have been used in different NLP applications. However, there are some situations where these features can not be used due the application type or unavailability of NLP resources for some of the languages. That is why an application that is intended to handle multilingual texts must have features that are not dependent on a particular language and specific linguistic tools. In this thesis, we will focus on two such applications: text readability and source and translation classification.
In this thesis, we provide 18 features that are not only suitable for both applications, but are also language and linguistic tools independent. In order to build a readability classifier, we use texts from three different languages: English, German and Bangla. Our proposed features achieve a classification accuracy that is comparable with a classifier using 40 linguistic features. The readability classifier achieves a classification F-score of 74.21% on the English Wikipedia corpus, an F-score of 75.47% on the English textbook corpus, an F-score of 86.46% on the Bangla textbook corpus and an F-score of 86.26% on the German GEO/GEOLino corpus.
We used more than two million sentence pairs from 21 European languages in order to build the source and translation classifier. The classifier using the same eighteen features achieves a classification accuracy of 86.63%. We also used the same features to build a classifier that classifies translated texts based on their origin. The classifier achieves classification accuracy of 75% for texts from 10 European languages. In this thesis, we also provide four different corpora, three for text readability analysis and one for corpus based translation studies.
Terrestrial climate and ecosystem evolution during ‘Greenhouse Earth’ phases of the early Paleogene remain incompletely known. Particularly, paleobotanical records from high southern latitudes are giving only limited insights into the Paleocene and early Eocene vegetation of the region. Hence, data from continuous well-calibrated sequences are required to make progress with the reconstruction of terrestrial climate and ecosystem dynamics from the southern latitudes during the early Paleogene.
In order to elucidate the terrestrial conditions from the high southern latitudes during the early Paleogene, terrestrial palynology was applied in the present study to two well-dated deep-marine sediment cores located at the Australo-Antarctic region: (i) IODP Site U1356 (Wilkes Land margin, East Antarctica) and (ii) ODP Site 1172 (East Tasman Plateau, southwest Pacific Ocean). The studied sequence from IODP Site U1356 comprises mid-shelfal sediments from the early to middle Eocene (53.9 – 46 million years ago [Ma]). For the ODP Site 1172, the studied succession is characterized by sediments deposited in shallow marine environments of the middle Paleocene to the early Eocene (60.7 – 54.2 Ma).
Based on the obtained pollen and spores (sporomorphs) results from the studied sequences of Site U1356 and Site 1172, this study aims to: (1) decipher the terrestrial climate conditions along the Australo-Antarctic region from the middle Paleocene to the middle Eocene; (2) evaluate the structure, diversity and compositional patterns of forests that throve in the Australo-Antarctic region during the early Paleogene; (3) understand the response of forests from the high southern latitudes to the climate dynamics from the early Paleogene; (4) establish a connection between the generated terrestrial palynomorph data and published Sea Surface Temperatures (SSTs) from the same cores.
To decipher the terrestrial climatic conditions on the Australo-Antarctic region, this study relies on the nearest living relative (NLR) concept that assumes that fossil taxa have similar climate requirements as their modern counterparts. This approach was applied to the sporomorph results of Site U1356 and Site 1172, following mainly the bioclimatic analysis. With regard to the structure and diversity patterns of the vegetation from the same region, the present study presents combined qualitative (i.e., reconstruction of the vegetation based mainly on the habitats of the known living relatives) and quantitative (i.e., application of ordination techniques, rarefaction and diversity indices) analyses of the fossil sporomorphs results.
The overall results from the paleoclimatic and vegetation reconstruction approaches applied in the present study, indicate that temperate and paratropical forests during the early Paleogene throve under different climatic conditions on the Wilkes Land margin and on Tasmania, at paleolatitudes of ∼70°S and ∼65°S, respectively.
Specifically, the sporomorph results from Site U1356, suggest that a highly diverse forest similar to present-day forests from New Caledonia was thriving on Antarctica during the early Eocene (53.9 – 51.9 Ma). These forests were characterized by the presence of termophilous taxa that are restricted today to tropical and subtropical settings, notably Bombacoideae, Strasburgeria, Beauprea, Spathiphyllum, Anacolosa and Lygodium. In combination with MBT/CBT paleotemperature results, they provide strong evidence for near-tropical warmth at least in the coastal lowlands along the Wilkes Land margin. The coeval presence of frost tolerant taxa such as Nothofagus, Araucariaceae and Podocarpaceae during the early Eocene on the same record suggests that paratropical forests were thriving along the Wilkes Land margin. Due to the presence of this kind of vegetation, it is possible to suggest that forests in this region were subject to a climatic gradient related to differences in elevation and/or the proximity to the coastline.
By the middle Eocene, the paratropical forests that characterized the vegetation of the early Eocene on the Wilkes Land margin were replaced by low diversity temperate forests dominated by Nothofagus, and similar to present-day cool-temperate forests from New Zealand. The dominance of these forests and the absence of thermophilous elements together with the lower temperatures suggested by the MBT/CBT and the sporomorph-based temperatures indicate consistently cooler conditions during this time interval.
With regard to the sporomorph results of Site 1172, this study suggests that three vegetation types were thriving on Tasmania from the middle Paleocene to the early Eocene under different climatic conditions. During the middle to late Paleocene, warm-temperate forests dominated by Podocarpaceae and Araucariaceae were the prevailing vegetation on Tasmania. The dominance of these forests was interrupted by the transient predominance of cool-temperate forests dominated by Nothofagus and Araucariaceae across the middle/late Paleocene transition interval (~59.5 to ~59.0 Ma). This cool-temperate forest was characterized by a lack of frost-sensitive elements (i.e., palms and cycads) indicating cooler conditions with harsher winters on Tasmania during this time interval. By the early Eocene, and linked with the Paleocene Eocene Thermal Maximum (PETM), Paleocene temperate forests dominated by gymnosperms were replaced by paratropical rainforests with the remarkable presence of the tropical mangrove palm Nypa during the PETM and the earliest Eocene. The overall results from Site U1356 and Site 1172, provide a new assessment of the terrestrial climatic conditions in the Australo-Antarctic region for validating climate models and understanding the response of high-latitude terrestrial ecosystems to the climate dynamics of the early Paleogene on southern latitudes.
The climatic conditions in the higher latitudes during the early Paleogene were further unravelled by comparing the obtained terrestrial and marine results. The integration of the obtained sporomorph data with previously published TEX86-based SSTs from Site 1172 documents that the vegetation dynamics were closely linked with the temperature evolution from the Australo-Antarctic region. Moreover, the comparison of TEX86-based SSTs and sporomorph-based climatic estimations from Site 1172 suggests a warm-season bias of both calibrations of TEX86 (i.e., TEX86Hand TEX86H), when this proxy is applied to high southern latitudes records of the early Paleogene.
In Reaktion auf zellulären Stress wie etwa Schädigungen der DNA oder die vermehrte Aktivität von Onkogenen aktivieren vorgeschaltete Signalkaskaden den Transkriptionsfaktor (TF) p53. Dieser kann über die Aktivierung der Expression von Zielgenen wiederum die Zellteilung stoppen, die Reparatur von DNA Schäden initiieren oder in schweren Fällen die Eliminierung der Zelle durch Apoptose einleiten. Ist p53 durch Mutationen deaktiviert, können sich entartete somatische Zellen vermehren und in der Folge Krebs entstehen.
In Wirbeltieren finden sich neben p53 mit p63 und p73 zwei weitere TFs, welche während der Evolution aus dem gleichen gemeinsamen Vorläufer durch Genduplikationen hervorgegangen sind. Die drei TFs sind modular aufgebaut und alle Isoformen verfügen jeweils minimal über eine DNA Bindungsdomäne (DBD) und eine Tetramerisierungsdomäne (TD). Werden die p53 ähnlichen TFs aktiviert, lagern sie sich über die TD vermittelt zu Tetrameren zusammen, wodurch ihre DBDs kooperativ an DNA Sequenzmotive binden können. Die DBD ist auch über große phylogenetische Abstände hinweg hoch konserviert, wodurch bereits gezeigt werden konnte, dass auch primitive vielzellige Tiere bereits Homologe dieser TF Familie besitzen. Im Vergleich zur DBD variiert die Proteinsequenz der TD deutlich stärker, was andeutet, dass deren Struktur im Laufe der Evolution erhebliche Veränderungen durchlaufen hat. Diese Veränderungen aufzuklären ist das übergeordnete Forschungsvorhaben zu dem diese Dissertationsschrift beiträgt.
Ciona intestinalis (C.int.) ist eine Spezies aus dem Unterstamm der Manteltiere. Diese sind die engsten lebenden Verwandten der Wirbeltiere und C.int. ist ein populärer Modelorganismus für die Erforschung der Embryonalentwicklung. Sein Genom kodiert für zwei p53 ähnliche TFs, welche mit p53/p73-a und p53/p73-b bezeichnet werden. Die Struktur ihrer TDs wurde im Rahmen der vorliegenden Arbeit mittels Kernspinresonanz (NMR) Spektroskopie untersucht.
Die TD von menschlichem p53 (hp53) ist ein Dimer aus Dimeren. Jedes Monomer formt einen beta-Strang und eine alpha-Helix. Im primären Dimer lagern diese sich so zusammen, dass ein beta-Faltblatt entsteht und die alpha-Helices mit entgegen gesetzter Orientierung der Länge nach aneinander packen. Zwei dieser Dimer lagern sich dann so zum Tetramer zusammen, dass zwischen pol-ständigen beta-Faltblättern ein Bündel aus vier Helices entsteht. Dieses Motiv ist auch in den TDs der Ciona Proteine hochkonserviert und wird im Folgenden als Kern?TD bezeichnet. In den TDs von menschlichem p63 und p73 (hp63 und hp73) verfügt jedes Monomer an seinem C-terminus noch über eine zweite Helix. Die zweiten Helices eines jeden Dimers greifen wie Klammern um das jeweils andere primäre Dimer und stabilisieren so das Tetramer. Entscheidend für die stabile Anbindung an die Kern?TD ist dabei ein charakteristisches Tyrosin-Arginin (YR) Motiv in der zweiten Helix, welches sich auch in der Sequenz der TD von C.int. p53/p73-a wiederfindet. Analysen der Sekundärstruktur auf Basis von NMR Experimenten ergaben jedoch, dass die TD von C.int. p53/p73-a bei 25°C keine zweite Helix ausbildet. Mit Hilfe von chimären TD Peptiden, in denen Teile der Ciona Sequenz gegen die entsprechenden Abschnitte von hp73 ausgetauscht wurden, konnte gezeigt werden, dass die Kern TD von C.int. p53/p73-a fähig ist eine zweite Helix zu stabilisieren und hierfür neben dem YR Motiv auch der Sequenzabschnitt zwischen erster und zweiter Helix entscheidend ist. Stabilisierende Substitutionen in diesem Bereich bewirkten ebenso wie ein Absenken der Temperatur die Ausbildung einer zweiten Helix, welche jedoch im Gegensatz zu jener in hp73 nur transient faltet und auch nicht essentiell für die Bildung des Tetramers ist, wohl aber dessen Stabilität erhöht.
Spezifisch in der Entwicklungslinie von Ciona kam es dazu, dass eine, für eine entsprechende Vorläuferversion von C.int. p53/p73-a kodierende, mRNA spontan zurück in DNA übersetzt und ins Genom eingefügt wurde. Die durch diese Retrotransposition erzeugte neue Genkopie C.int. p53/p73-b muss demnach ursprünglich einmal für die gleiche Proteinsequenz kodiert haben, innerhalb der TD finden sich konservierte Reste jedoch nur im Bereich der Kern TD.
Von der TD von C.int. p53/p73-b wurde die molekulare Struktur in freier Lösung mittels NMR ermittelt. Diese zeigte, dass interessanterweise in der TD von C.int. p53/p73-b jedes Monomer am C-terminus eine stabil gefaltete, zweite Helix besitzt. Obwohl diese zweite Helix sich aus einer Sequenz faltet, die keinerlei Sequenzhomologie zu homologen Proteinen aus Wirbeltieren aufweist, lagert sie sich in einer Position auf die Kern TD, welche der in hp73 sehr nahe kommt. Da die primären Dimere der Kern TD aber anders als in hp63 und hp73 durch Salzbrücken miteinander verbunden sind, ist die zweite Helix jedoch nicht essentiell, um das Tetramer zu stabilisieren. Vermutlich kommt der zweiten Helix von C.int. p53/p73-b vielmehr u.a. die Aufgabe zu die Bildung von Heterotetrameren aus C.int. p53/p73-a und –b zu unterbinden.
Zusammengenommen zeigen die Ergebnisse, dass die Architektur der TD mit zweiter Helix bereits der Prototyp für die TDs aller p53 ähnlichen Proteine der Wirbel- und Manteltiere war und die als eine Art Klammer das Tetramer stabilisierende zweite Helix sich nicht erst während der Evolution der Wirbeltiere entwickelt hat.
Batten disease refers to neuronal ceroid lipofuscinoses (NCLs), which are inherited lysosomal storage diseases with diverse ages of onset and cause progressive neurodegeneration. The most common NCL is Juvenile NCL (JNCL), which begins in early childhood and is characterized by lysosomal accumulation of subunit c of the mitochondrial ATP synthase (subunit c). JNCL is caused by mutations in the gene CLN3. This gene encodes the CLN3 protein, a transmembrane protein of unknown structure. Localization of CLN3 is ambiguous, and its exact cellular function is not known. Thereby, it is unclear what mechanisms lead to neurodegeneration in JNCL. Models of JNCL present disturbed membrane bound organelles and cytoskeleton as well as impaired autophagy and lysosomal function. The JNCL gene defect that most patients harbor is deletion of the exons 7 and 8 of CLN3. In the Cln3Δex7/8/Δex7/8 mouse model of JNCL, this deletion has been introduced to the mouse Cln3 gene.
The actin cytoskeleton consists of filaments formed through polymerization of actin and provides a framework which defines cellular morphology and also facilitates cell motility, cytokinesis, and cell surface remodeling. Rho GTPases are signaling proteins which regulate the assembly and dynamics of the actin cytoskeleton and play an important role in neuronal morphology. Rho GTPases need to be membrane-anchored in order to become active and initiate a signaling cascade. Their membrane anchorage is achieved through their geranylgeranyl tails, which they acquire through prenylation. Protein prenylation refers to the attachment of a geranylgeranyl or farnesyl group to the C-terminus of a protein. The enzyme geranylgeranyl transferase (GGTase) catalyzes geranylgeranylation, whereas geranylgeranyl pyrophosphate (GGPP) is the donor of the geranylgeranyl group. Cells produce GGPP as well as cholesterol and other lipids through the mevalonate pathway (MVA pathway).
The aim of this study was to analyze how the JNCL gene defect affects cellular morphology, especially the actin cytoskeleton and Rho GTPases, and the MVA pathway which is connected with Rho GTPase activation. These important cellular components play crucial roles in neurons and are implicated in other neurodegenerative diseases, but have received little attention in JNCL. The immortalized CbCln3Δex7/8/Δex7/8 cerebellar precursor cell line from Cln3Δex7/8/Δex7/8 mice was used for the experiments and provides a genetically accurate, neuronal cell model of JNCL. CbCln3Δex7/8/Δex7/8 cells present subunit c accumulation only when aged at confluency, but sub-confluent cells display other phenotypes. The experiments of this study were performed both with confluency-aged and sub-confluent cells. Filamentous actin was visualized, and protein levels as well as membrane localization of several small Rho GTPases was analyzed biochemically. Also the protein levels of GGTase and the key enzymes of the mevalonate pathway were determined.
Staining pattern of filamentous actin was disturbed in confluency-aged CbCln3Δex7/8/Δex7/8 cells. Additionally it was found out that these cells did not grow to wild-type size and exhibited an elongated peroxisomal morphology. Rho GTPases had reduced total levels and showed a tendency of decreased membrane localization. Levels of GGTase and the MVA pathway enzymes were altered. Results of sub-confluent CbCln3Δex7/8/Δex7/8 cells were similar with the exception of HMG-CoA reductase, which is the rate-limiting enzyme of the MVA pathway: while its level in confluency-aged CbCln3Δex7/8/Δex7/8 cells was increased, at sub-confluency it showed a reduced level. Also, in contrast with the confluency-aged cells, Rho GTPases presented a tendency of increased membrane localization.
The results of this study reveal that the accurate JNCL gene defect alters cellular morphology and the activity of the MVA pathway in neuronal cells. Small cell size and disrupted architecture of the actin cytoskeleton are confirmed as neuronal JNCL phenotypes, and the peroxisome is introduced as a novel cellular component affected in JNCL. Through defects in endocytosis, autophagy, lysosomal and mitochondrial function, and cytoskeleton, the JNCL gene defect may prevent cells from growing to wild-type size. The JNCL gene defect may attenuate the MVA pathway via mitochondrial dysfunction and/or upregulation of degradative processes. Attenuation of the MVA pathway may contribute to impaired membrane rafts, which are an established phenotype of JNCL cells. As indicated by reduced GGTase level and supported by downregulation of lipid production through the MVA pathway, the JNCL gene defect might also decrease prenylation of proteins.
Cognitive flexibility and cognitive stability : neural and behavioral correlates in men and mice
(2014)
The ability to flexibly adjust behavior according to a changing environment is crucial to ensure a species' survival. However, the successful pursuit of goals also requires the stable maintenance of behavior in the face of potential distractors. Thus, cognitive flexibility and cognitive stability are important processes for the cognitive control of behavior. There is a large body of behavioral and neuroimaging research concerning cognitive control in general, but also specifically on cognitive flexibility and cognitive stability, albeit most often assessed in separate task paradigms. Nevertheless, whether cognitive flexibility and cognitive stability depend upon separate or shared neuronal bases is still a matter of debate. Complementing empirical research, computational models have become an important strategy in neuroscientific research, as they have the potential of providing mechanistic explanations of empirical observations, for example by allowing for the direct manipulation of molecular parameters in simulated neural networks. The computational model underlying the so-called Dual-State Theory contains specific hypotheses with respect to cognitive flexibility and cognitive stability. The neural networks simulated by this model exhibit multiple stable firing states, i.e., the neural network can maintain a high firing state also without continuing external input due to a network architecture consisting of recurrently connected neurons. Transitions between such network states, also called attractor states, can be induced by external input, and represent working memory contents or active task rules. Simulations showed that the stability of these attractor states, and thus of task rule representations, depend on the dopamine state of the system and can consequently vary between persons. The Dual-State Theory predicts an antagonistic relationship between cognitive flexibility and cognitive stability, as robust attractor states would facilitate the inhibition of distractors, but impair efficient task switching, while rather unstable attractor states would promote efficient transitions between representations but would also come at the cost of increased distractibility.
Based on the Dual-State Theory, a task paradigm was designed allowing for the simultaneous assessment of cognitive flexibility, in the sense of rule-based task switching, and cognitive stability, in the sense of inhibiting irrelevant distractors. Furthermore, a behavioral measure was developed to assess the individual attractor state stability, named spontaneous switching rate (SSR). In the first study of this work, this paradigm was tested in a sample of healthy human subjects using functional magnetic resonance imaging (fMRI). An overlapping fronto-parietal network was activated for both cognitive flexibility and cognitive stability. Furthermore, behavioral as well as neuroimaging results are in favor of an antagonistic relationship between cognitive flexibility and cognitive stability. A specific prefrontal region, the inferior frontal junction (IFJ), was implied to potentially contain the relevant neural networks mediating the transitions between attractor states, i.e., task rule representations, as its activity was modulated by the SSR such that persons with rather unstable attractor states activated it less during task switching while showing better performance. Most importantly, functional connectivity of the IFJ was antagonistically modulated by the SSR: more flexible persons connected it less to another prefrontal area during task switching, while showing higher functional connectivity during distractor inhibition.
In a second study, a larger human sample was assessed and further hypotheses derived from the Dual-State Theory on variability of neural processing were tested: we hypothesized that persons with high brain signal variability should have less stable network states and thus benefit on tasks requiring cognitive flexibility but suffer from it when the task requires a higher degree of cognitive stability. Furthermore, recent fMRI-research on brain signal variability revealed beneficial effects of higher brain signal variability on cognitive performance in general. Using a novel customized analysis pipeline to measure trial-to-trial fMRI-signal variability, we indeed found differential effects of brain signal variability: higher levels of brain signal variability were found to be beneficial for effectiveness, i.e., performance in terms of error rates, for both cognitive flexibility and stability. However, brain signal variability impaired the efficiency in terms of response times of inhibiting distractors, i.e., cognitive stability.
Due to further predictions of the Dual-State Theory concerning schizophrenia and the dopaminergic system, it was considered valuable to pursue a translational approach and thus allowing for the employment of animal models of psychiatric diseases. Consequently, in a first step the human paradigm was translated for a murine population using an innovative touchscreen approach. Results showed analogous behavioral effects in wildtype mice as before in healthy humans: the antagonistic relation between cognitive flexibility and cognitive stability was replicated and also for mice, a behavioral measure for the individual attractor stability was established and validated, named the individual spontaneous switching score.
To conclude, we established a novel paradigm assessing both cognitive flexibility and stability simultaneously showing an antagonistic relationship between these two cognitive functions on the behavioral level in two different species, which supports predictions from the Dual-State Theory. This was further underlined by evidence on the activation, functional connectivity and signal variability level in the human brain.
Local protein synthesis has re-defined our ideas on the basic cellular mechanisms that underlie synaptic plasticity and memory formation. The population of messenger RNAs that are localised to dendrites, however, remains sparsely identified. Furthermore, neuronal morphological complexity and spatial compartmentalisation require efficient mechanisms for messenger RNA localisation and control over translational efficiency or transcript stability. 3’ untranslated regions, downstream from stop codons, are recognised for providing binding platforms for many regulatory units, thus encoding the processing of the above processes. The hippocampus, a part of the brain involved in the formation, organisation and storage of memories, provides a natural platform to investigate patterns of RNA localisation. The hippocampus comprises tissue layers, which naturally separate the principle neuronal cell bodies from their processes (axons and dendrites). Identifying the full-complement of localised transcripts and associated 3’UTR isoforms is of great importance to understand both basic neuronal functions and principles of synaptic plasticity. These findings can be used to study the properties of neuronal networks as well as to understand how these networks malfunction in neuronal diseases.
Here, deep sequencing is used to identify the mRNAs resident in the synaptic neuropil in the hippocampus. Analysis of a neuropil data set yields a list of 8,379 transcripts of which 2,550 are localised in dendrites and/or axons. Using a fluorescent barcode strategy to label individual mRNAs shows that the relative abundance of different mRNAs in the neuropil varies over 5 orders of magnitude. High-resolution in situ hybridisation validated the presence of mRNAs in both cultured neurons and hippocampal slices. Among the many mRNAs identified, a large fraction of known synaptic proteins including signaling molecules, scaffolds and receptors is discovered. These results reveal a previously unappreciated enormous potential for the local protein synthesis machinery to supply, maintain and modify the dendritic and synaptic proteome.
Using advances in library preparation for next generation sequencing experiments, the diversity of 3’UTR isoforms present in localised transcripts from the rat hippocampus is examined. The obtained results indicate that there is an increase in 3’UTR heterogeneity and 3’UTR length in neuronal tissue. The evolutionary importance of the 3’UTR diversity and correlation with changes in species,tissue and cell complexity is investigated. The conducted analysis reveals the population of 3’UTR isoforms required for transcript localisation in overall neuronal transcriptome as well as the regulatory elements and binding sites specific for neuronal compartments. The configuration of poly(A) signals is correlated with gene function and can be further exploit to determine similar mechanisms for alternative polyadenylation.
Usage of custom specified methods for next-generation sequencing as well as novel approaches for RNA quantification and visualisation necessitate the development and implementation of new downstream analytic methods. Library methods for data-mining transcripts annotation, expression and ontology relations is provided. Usage of a specialised search engine targeting key features of previous experiments is proposed. A processing pipeline for NanoString technology, defining experimental quality and exploiting methods for data normalisation is developed. High-resolution in situ images are analysed by custom application, showing a correlation between RNA quantity and spatial distribution. The vast variety of bioinformatic methods included in this work indicates the importance of downstream analysis to reach biological conclusions. Maintaining the integrability and modularity of our implementations is of great priority, as the dynamic nature of many experimental techniques requires constant improvement in computational analysis.
In vitro investigation of genes identified by genome-wide association studies of Parkinson's disease
(2014)
Evolutionary genetics of bears and red foxes over phylogenetic and phylogeographic time scales
(2014)
Climatic fluctuations during the Pleistocene (2.6-0.01 million years) have played an important role during evolution of many species. Cyclic range contractions and expansions had demographic consequences within species, provided environmental conditions for population divergence and speciation and enabled secondary contact and interspecific hybridization. These and other evolutionary processes have left genetic signatures in the genomes of affected organisms. Comprehensive and unbiased estimates of evolutionary processes can be obtained using genetic markers from different parts of the genome and by integrating population genetic and phylogenetic concepts.
Suitable for studies on evolutionary processes and patterns over different evolutionary time scales are bears (Ursidae) and foxes (Vulpes), which occupy a wide range of habitats and evolved during the past few millions of years. In my thesis, I therefore used bears and red foxes as study species to investigate the genetic variation within and between species and to obtain estimates of evolutionary relationships and divergence times of populations and species that I interpreted in a climatic context. Further, I investigated population genetic processes during the evolution of bears. My thesis includes three publications and one submitted manuscript, spanning different evolutionary time scales - from evolutionary relationships and processes among species (phylogenetic time scales, Publications I & II), among populations and closely related species in a geographical context (phylogeographic time scales, Publications II & III), to ongoing processes within species (population genetic time scales, Publication IV).
In Publication I (Kutschera et al. 2014, Mol Biol Evol 31(8):2004-2017), I studied bears at several nuclear markers from several individuals per species, complemented with markers from the Y chromosome. Using approaches based on a population genetic concept (coalescent theory) I obtained a species tree with divergence time estimates. Further, I studied two evolutionary processes in bears, interspecific gene flow and incomplete lineage sorting (ILS). This study contributed to the growing evidence that population genetic processes can be relevant on time scales up to several millions of years.
In Publication II (Hailer, Kutschera et al. 2012, Science 336(6079):344-347), we complemented previous mitochondrial (mt) DNA-based inference of the evolutionary history of polar and brown bears with nuclear DNA. Coalescence-based species tree analyses of multiple nuclear markers from several individuals per species placed polar bears as sister lineage to brown bears and their divergence time to about 600 thousand years ago (ka). This contrasted previous mtDNA-based inference. We explained this discrepancy between mtDNA and nuclear DNA with interspecific gene flow between polar and brown bears.
In Publication III (Kutschera et al. 2013, BMC Evol Biol 13:114), I studied range-wide phylogeographic events and their timing in red foxes. A synthesis of newly generated and published mtDNA sequences was analyzed using a coalescence-based approach with multiple fossil calibration points. Thereby, I validated the identity and geographic distribution of several red fox lineages and showed that red foxes colonized North America and Japan several times independently during the late Pleistocene (126-11 ka) and around the last glacial maximum (26.5-19 ka). In a comparison of my results from red foxes to brown bears and grey wolves, I identified similar phylogeographic patterns.
In Publication IV (Kutschera et al., submitted to Biol Conserv), I found similar levels of genetic variability in vagrant polar bears that had reached Iceland compared to established subpopulations from across the range. Based on climate projections reported by the Intergovernmental Panel on Climate Change in 2014, polar bear habitat will markedly decline and become increasingly fragmented within the next decades. Dispersal will play an important role by connecting isolated subpopulations, thereby maintaining genetic diversity levels. My results indicate that vagrants could stabilize genetic variability when immigrating into established subpopulations.
In conclusion, my thesis provided a deeper understanding of evolutionary genetic processes and patterns and their timing in bears and red foxes in a climatic context, which can have conservation implications. Further, I showed that processes like ILS and interspecific gene flow can be relevant over different time scales and are important aspects of evolutionary history. Thereby, my thesis contributed to the knowledge on the evolutionary history of several carnivore species and on evolutionary processes acting within and between closely related species.
Panama is a megadiverse country that together with Costa Rica constitutes Lower Central America (LCA). Western Panama's Cordillera Central accounts for the eastern part of the LCA highlands shared between these countries. The aim of the present study is to compile the most complete and updated picture possible of the taxonomy, diversity, and distribution of reptiles that occur from 500 m asl upwards along the Talamanca and Tabasará ranges. These two continuous mountain ridges account for the western two-thirds of the Cordillera Central between the Costa Rican border and 81°W Including specimens collected four own research travels, I morphologically examined more than 1800 specimens, analyzed 16S and/or COI barcodes of 300 specimens, and performed a thorough search in literature and databases to obtain locality records for specimens and species occurrences. My complete occurrence dataset comprises 14620 georeferenced occurrence records in three quality categories. Conceivable occurrences of species not yet documented from a given area are evaluated on the basis of existing data either as "plausible" or "possible". I provide all datasets which I generated for this study in Appendices. The previously published descriptions of Dactyloa ginaelisae Lotzkat, Hertz, Bienentreu & Köhler 2013, Norops benedikti (Lotzkat, Bienentreu, Hertz & Köhler 2011), Sibon perissostichon Köhler, Lotzkat & Hertz 2010, and Sibon noalamina Lotzkat, Hertz & Köhler 2012 are included in the present work. In the course of integrative taxonomic analyses, I classify 15 genealogical lineages revealed by DNA barcoding within 7 anole species as Deep Conspecific Lineages (DCLs) because they lack consistent morphological differences to their nominal conspecifics. I provisionally classify 18 mitochondrial lineages found within six other anole species as Unconfirmed Genealogical Lineages (UGLs) pending adequate analyses of their morphological variation. I regard the two additional UGLs Celestus sp. and Geophis sp. and the two Confirmed Genealogical Lineages (CGLs) Lepidoblepharis sp. 1 and 2 to represent undescribed species. My taxonomic analyses yield the hitherto most comprehensive survey of the variability exhibited by dozens of reptile species in western Panama. The 16S and/or COI barcodes I provide represent 65 species recognized herein and constitute the first DNA barcode reference library for LCA reptiles. The reptile fauna of Panama comprises 265 species, including the four UGLs and CGLs mentioned above and characterized for the first time in this study, as well as Dendrophidion crybelum Cadle 2012 whose presence in the country I consider plausible. My occurrence dataset reveals that 160 of these species have been documented to occur in my study area. Adding the 20 species whose occurrence therein I consider plausible, I report the total species richness of the Talamanca and Tabasará ranges as comprising 180 species representing 81 genera in 25 families. With 178.8 species per 10 000 km2, the relative species richness of the area is extremely high even in a tropical context. In view of their overall documented distribution, I regard the presence of 27 additional species in my study area as possible. For the 180 species occurring in my study area I provide standardized species accounts that, together with the taxonomic results, for the first time permit the doubtless identification of all 180 species, and illustrate 168 of these with color photographs. Concerning biogeography, my georeferenced dataset yields noteworthy distribution extensions for many species. Moreover, I present the hitherto most comprehensive, detailed, and reproducible assessments of the distribution patterns, historical origins, and conservation as well as of the occurrence among physiographic regions, climatic and altitudinal belts, political subdivisions, and protected areas, for my study area's reptile fauna. With 65 species, more than a third of the fauna is endemic to LCA. Among these, 42 Talamancan highland endemics are restricted to the LCA highlands, in the case of 16 small-scale highland endemics with documented ranges spanning less than 100 km. I assess many of these endemics as endangered. The fact that several of these species do not occur in any protected area renders the establishment of additional conservation areas necessary, especially in the central Serranía de Tabasará. Distributional range boundaries shared among different clades of highland anoles indicate physiographic and climatic barriers that may have effected in situ speciation within these lineages. As the largest study on Panamanian reptile diversity assembled to date, the present dissertation considerably increases our knowledge on the reptiles along the Cordillera Central and beyond, and thus constitutes a solid basis for future studies.
Drought stress is one of the major abiotic factors diminishing crop productivity world wide. In the course of climate change, regions which already experience dry seasons nowadays will suffer from elongated drought periods and water shortage. These climatic changes will not only have an impact on the regional flora and fauna but also on the people inhabiting these areas. It is therefore of great importance to understand the reactions of plants to drought stress to help breeding and biotechnological approaches for the benefit of new robust cereal cultures growing under low water regimes. In this dissertation four grasses of the genus Panicum, P. bisulcatum (C3), P. laetum, P. miliaceum and P. turgidum (all C4 NAD-ME) were subjected to drought stress. The plants diverse reactions were investigated on a physiological as well as on a molecular level to deepen the understanding of drought stress responses. Drought stress was imposed for a species-specific period until a relative leaf water content (RWC) of ~50 % was reached in each grass. Physiological measurements were conducted on leaves with a RWC of ~50 % investigating chlorophyll a fluorescence parameters with a Plant Efficiency Analyzer (PEA) and gas exchange parameters like the photosynthesis rate and stomatal conductance with a Gas Fluorescence Chamber (GFS-3000). Subsequent molecular analysis were conducted on leaf samples taken (RWC = 50 %) analysing different proteins and the transcriptome of the Panicum species. The physiological measurements revealed a higher photosynthesis rate for the C4 grasses under drought stress with no significant differences between the C4 species. Also the water use efficiency was significantly higher in the C4 species in comparison to the C3 species independent from the water regime supporting results from the literature. The chlorophyll a measurements revealed the strongest adaptation to water shortage in the C4 species P. turgidum followed by the C3 species P. bisulcatum. It has been shown before (GHANNOUM 2009) that the C4 photosynthesis apparatus is more prone to drought stress than the C3 apparatus – despite the higher water use efficiency. Results also suggested that the great adaptation of P. turgidum to drought stress arose from its ability to recover from drought stress (all JIP test parameters showed no significant differences between control and recovery samples). The additional down-regulation of PS II but not of PS I under drought stress also helped the plant to endure times of water shortage and facilitated the recovery when water was available again. Protein analyses on the content of PEPC, OEC and RubisCO (LSU and SSU) revealed no changes. Dehydrin 1 in contrast was strongly up-regulated under drought stress and Summary 108 recovery in all four Panicum species. The stable content of the OEC protein was therefore not the catalyst of rising K peaks measured by chlorophyll a fluorescence and a reduced OEC activity was supposed. Transcriptomic analyses revealed a myriad of differentially regulated tags. Due to unsequenced genomes, tags could only be partially (8 % maximum for P. turgidum) annotated to their specific genes. Diverse methods were therefore used to annotate the most highly regulated tags to their genes and their products. Special emphasis was put on the regulation of five gene products confirming the regulation schemata from the HT-SuperSAGE analyses. Interestingly one protein – the NCED1 – was down-regulated under stress conditions, in contrast to results from the literature. It is therefore of great importance to investigate longer lasting drought to understand the full range of drought stress adaptation. Future genome sequencing projects might also include the Panicum species investigated in this dissertation and important gene candidates with no hits (maybe completely new to the research community) might help breeding and biotechnology approaches to produce more drought resistant crop species.
This study describes the Holocene sedimentary lagoonal deposition history, including event sedimentation and benthic foraminiferal analyzes, from about 10 kyrs BP until today. This is the first study describing the sedimentation of a Maldivian atoll lagoon in such detail. Thirty-nine sediment cores have been recovered from the deep Rasdhoo Atoll lagoon of the Maldives (4°N/73°W). Seventeen sediment cores were opened, described, and 296 sediment samples have been collected and analyzed. Different methods have been used to evaluate the coarse- and fine-grained carbonate components and a total of fifty-eight samples have been dated radiometrically by Beta Analytic Inc., Miami, Florida. In general, the Rasdhoo Atoll lagoon sediments can be divided into (1) a Late Pleistocene soil, (2) an early Holocene peat layer composed of mangrove deposits which mark the beginning inundation of the atoll lagoon by the rising Holocene sea-level at 10,320 ± 100 yrs BP, and (3) carbonate sediments starting to fill up the lagoon 7850 ± 140 yrs BP until today. The transition from peat to carbonate is characterized by a considerable hiatus. Six different carbonate sediment facies are classified by statistical analyses, listed in decreasing abundance:
(1) mollusk-coral-algal floatstone to rudstone (30%)
(2) mollusk-coral-red algae rudstone (23%)
(3) mollusk-coral-algal wackestone to floatstone (23%)
(4) mollusk-coral wackestone (13%)
(5) mollusk-coral mudstone to wackestone (9%)
(6) mollusk mudstone (2%)
Based on grain-sizes in combination with coral identification, the facies represent both lagoonal background sedimentation (mostly fine-grained sediments (matrix >50%)) and event sedimentation (coarse-grained sediment layers composing reefal components).
Six coarser grained layers in muddy background sediments of the Rasdhoo Atoll lagoon were interpreted as Holocene tsunami events, based on the increase of allochthonous skeletal material with shallow-water reef affinity such as fragments of shallow-water coral species, coralline red algae, and reef-dwelling foraminifera in these layers, as well as AMS dating:
• Event 1: 420 - 890 yrs BP (655 yrs BP)
• Event 2: 890 - 1560 yrs BP (1225 yrs BP)
• Event 3: 2040 - 2340 yrs BP (2190 yrs BP)
• Event 4: 2420 - 3380 yrs BP (2900 yrs BP)
• Event 5: 3890 - 4330 yrs BP (4110 yrs BP)
• Event 6: 5480 - 5760 yrs BP (5620 yrs BP)
Five of the six layers may be correlated to previously published tsunami events at adjacent coastal research sites. The mid-late Holocene atoll lagoon archive is incomplete though based on the assumption that major earthquakes at the Indonesian subduction zone generated more than six major tsunamis during the past 6.5 kyrs.
According to Gischler (2006), the sediments of the Rasdhoo Atoll lagoon can be divided into two areas: (1) a central to marginal deep lagoon with a lateral west-to-east gradient of sediment facies distribution, visible in sections <4 kyrs BP with sedimentary facies of mudstone to wackestone in the western part (e.g., cores 16, 18, and 34) and coarse-grained coral and algal-rich sediments in the eastern part of the lagoon (e.g., cores 30 and 31). (2) A northern enclosed and shallow area between the sand apron and the sand spit accumulating “sandy” sediments of wackestone facies (cores 2, 19, 25, and 26).
Comparing the sediment accumulation data of the lagoon with two reconstructed local sea-level curves, three different sequence-stratigraphical systems tracts are visible: (1) a lowstand systems tract (LST) >10 kyrs BP. Pleistocene brownish soil superposing subaerially exposed Pleistocene reef limestone. (2) A transgressive systems tract (TST) 10-6.5 kyrs BP. A peat layer marks the beginning of the inundation, and the carbonate sedimentation starts with very low sedimentation rates of 0.02 m/kyr. (3) A highstand systems tract (HST) 6.5-0 kyrs BP, further divided into three stages (6.5-3, 3-1, 1-0 kyrs BP). The sea-level rise slowed down, sedimentation rates are increasing continuously up to a maximum of 1.4 m/kyr, the sand spit developed some 4 kyrs BP, the lagoonal circulation got restricted, and the lateral west-to-east gradient of grain-size accumulation started. From 1-0 kyrs BP the sedimentation rates slowed down to modern mean sedimentation rates of 0.6 m/kyr.
Two cores, one core from the center of the lagoon (core 16) and one core from the northern margin of the lagoon (core 19), have been analyzed on diversity and assemblages of benthic foraminifera in high-resolution. The transitions of Ammonia spp. to a more even and diverse fauna marks a significant environmental change at 7.0 kyrs BP in core 16 (onset of a stable environment in the deep lagoon after the sea-level rise slowed down at HST stage 1) and at 4.0 kyrs BP in core 19. A continuing environmental change after 1.4 kyrs BP in core 16 caused the fauna to become more even, a recovery of diversity and a permanent decline of foraminiferal accumulation rate. The changes in the faunas at 4.0 kyrs BP and at 1.4 kyrs BP could be explained with the sand spit formation in the northwestern and western lagoon. The sand spit has apparently acted as an obstacle in lagoonal circulation and might have caused unstable environmental conditions due to a more rapid circulation at the shallow marine site of core 19 and a slowdown of bottom water circulation in the main lagoon (core 16) leading to higher residence times and to lower oxygen and higher nutrient concentrations.
In the past sixty years, excessive water consumption and dam construction have significantly influenced natural flow regimes and surface freshwater ecosystems throughout China, and thus resulted in serious environmental problems. In order to balance the competing water demands between human and environment and provide knowledge on sustainable water management, assessments on anthropogenic flow alterations and their impacts on aquatic and riparian ecosystems in China are needed.
In this study, the first evaluation on quantitative relationships between anthropogenic flow alterations and ecological responses in eleven river basins and watersheds in China was performed based on the data that could be obtained from published case studies. Quantitative relationships between changes in average annual discharge, seasonal low flow and seasonal high flow and changes in ecological indicators (fish diversity, fish catch and vegetation cover, etc.) were analyzed. The results showed that changes in riparian vegetation cover as well as changes in fish diversity and fish catch were strongly correlated with the changes in flow magnitude (r = 0.77, 0.66), especially with changes in average annual river discharge. In addition, more than half of the variations in vegetation cover could be explained by changes in average annual river discharge (r² = 0.63) and roughly 50 % changes in fish catch in arid and semi-arid region and 60% changes of fish catch in humid region could be related to alterations in average annual river discharge (r² = 0.53, 0.58).
In a supplementary analysis of this study, the first estimation on quantitative relationships between decreases in native fish species richness and anthropogenic flow alterations in 34 river basins and sub-basins in China was conducted. Linear relationships between losses of native fish species and five ecologically relevant flow indicators were analyzed by single and multiple regression models. For the single regression analysis, significant linear relationships were detected for the indicators of long-term average annual discharge (ILTA) and statistical low flow Q90 (IQ90). For the multiple regressions, no indicator other than ILTA has significant relationships with changes in number of fish species mainly due to collinearity. Two conclusions emerged from the analysis: 1) losses of fish species were positively correlated with changes in ILTA in China and 2) indicator of ILTA was dominant over other flow indicators included in this research for the given dataset. These results provide a guideline for the sustainable water resources management in rivers with high risk of fish extinction in China.
Within the nucleosynthetic processes of the slow neutron-capture reaction network (called the s process) the so called branching points, unstable isotopes where different nuclear reactions are competing, are important to understand . For modeling and calculating the nucleosynthesis and compare the resulting abundances to the observed ones, it is indispensable to know the branching ratios as well as the corresponding cross sections.
A great challenge in measuring those rates in experiments may be the radioactivity of the isotopes involved, which can make it nearly impossible to manufacture the needed targets. In addition, in stellar environments the excited states of isotopes can be in equilibrium with the ground state, affecting the half-lives and the branching ratios significantly. The isotope 152Eu is such a branching point, with neutron captures and β-decays competing. Those challenges were approached in the s405 experiment performed at the GSI Helmholtzzentrum für Schwerionenforschung GmbH: the challenge the challenge of the radioactivity can be approached by experiments carried out in inverse kinematics with radioactive beams, solving the problem of unstable targets. Also a reversed reaction was used to access the excited states of the studied isotope. The performed 152Sm(p,n)152Eu is a pioneering attempt to use those methods on heavy ions. The (p,n) reaction was used as a substitute for electron capture, the focus lies on reactions with low-momentum transfers, resulting in the emission of low-energy neutrons. The new developed low-energy detector array LENA was put to test for the fist time in the s405 experiment.
Understanding major causes of biodiversity and range dynamics requires research on evolutionary processes under consideration of environmental changes. In my thesis, I investigated the spatio-temporal evolution of the Neotropical tree genus Cedrela from the Meliaceae family by studying its genetic diversity, taxonomy, colonization history, climatic niche changes and dynamics of species distributions. My results show that climatic and geological changes are major drivers of biological diversification in Cedrela.
In the interest of understanding the development of a multicellular organism, subcellular events must be seen in the context of the entire three-dimensional tissue. In addition, events that occur within a short period of time can be of great importance for the relatively long developmental process of the organ. Thus, it is required to capture subcellular events in a larger spatio-temporal scale context, which has been up to now a technical challenge. In developmental biology, light microscopy has always been an important tool. The dilemma of light microscopy, in particular fluorescence microscopy, is that molecules receive high light intensities that might change the conformation of molecules, which can have signaling or toxic effects. In Light Sheet-based Fluorescence Microscopy (LSFM), the energy required for a single recording is reduced by several orders of magnitude compared to other fluorescence microscopy techniques. During the last ten years, LSFM has emerged as a preferred tool to capture all cells during embryogenesis of the zebrafish Danio rerio, the fruit fly Drosophila melanogaster or recently the red flour beetle Tribolium castaneum for a period of several days. The motivation of this work was to gain new insights in developmental related processes of plant organs. The aim of this work was to establish a protocol for imaging plant growth over a long period of time using LSFM and perform comprehensive analyses at the cellular level. Plants have to cope with a variety of environmental conditions, therefore the conditions inside the microscope chamber had to be brought under control. The sample preparation methods and the standardized conditions at a physiological level allowed the study of gravity response, day-night rhythms, organ shape development as well as the intracellular dynamic events of the cytoskeleton and endosomal compartments in an unprecedented manner. Several of these projects were successfully published in collaborations with Prof. Jozef Šamaj (Palacký University Olomouc, Czech Republic), Prof. Niko Geldner (University of Lausanne, Switzerland), Prof. Malcom Bennett (University of Nottingham, UK) and Dr. Jürgen Kleine-Vehn (University of Natural Resources and Life Sciences, Austria). The main part of my work focused on the formation of lateral roots in Arabidopsis thaliana and was conducted in close collaboration with Dr. Alexis Maizel (University of Heidelberg, Germany). Previously, most experiments that describe lateral root formation have been performed on a small number of cells and for short periods of time. Capturing the complete process of lateral roots is an ambitious goal, because first, the primordium of a lateral root is located deep inside the primary root and imaging quality is impaired due to scattering of the overlaying tissue. Second, the process takes about 48 h, i.e. the plant has to be kept healthy for the whole period. Third, the amount of excitation light required for the spatio-temporal might have phototoxic effects that lead to a stop of growth at least in conventional microscopic techniques. In Arabidopsis embryogenesis, the sequence of cell divisions is relatively invariant. However, whether lateral root organogenesis follows particular cell division patterns has been unknown. The complete process of lateral root formation was captured from the first cell division until after the emergence from the main root. Images of a nuclei marker and a plasmamembrane marker were recorded every 5 min for a time period of up to 64 h. The positions and cell divisions of all cells were tracked manually. In collaboration with Alexander Schmitz (Goethe University Frankfurt am Main, Germany) and Dr. Jens Fangerau (University of Heidelberg, Germany), comprehensive analyses of the data were performed. A lateral root forms from initially 8-15 founder cells, arranged in a patch of 5-8 parallel files. The occurrence of new cell layers by periclinal divisions, as well as the sequence of layer generation was conserved and resembles the sequence suggested by Malamy and Benfey in 1997. Besides this stereotyped occurrence of periclinal divisions, radial divisions were found to appear stochastically, following no particular pattern. A large variability was also found in the contribution of founder cells and cell files to the final lateral root. In summary, the results suggest that a stereotyped pattern of cell divisions at particular developmental stages and a dynamically adapted control of cell divisions exist in parallel. Both properties allow a controlled but flexible development of the organ according to variations in cell topology and mechanical properties of the surrounding tissue. This work shows that LSFM, the sample preparation methods and controlled environmental conditions allow to capture and analyse the development of plants over several days at high resolution in an unprecedented manner.
This thesis presents experimental studies of proton capture and fragmentation reactions with heavy-ion storage rings. In one experiment, the 96Ru(p, γ)97Rh cross sections near the Gamow window have been measured at the ESR of GSI. In the other experiment, the measurement of the fragmentation yields has been carried out at the CSRe of IMP.
It is essential to determine the cross sections of (γ, p) or (p, γ) reactions for p-process network calculations. However, only very few of the required cross sections have been measured and thus most of them rely solely on Hauser-Feshbach model predictions. The predictions of the model have always very large uncertainties because of the not well-known input parameters. These parameters can be constrained by experiments. Compared to the traditional activation technique, a novel method using a storage ring has been developed to measure the cross sections of (p, γ) reactions in inverse kinematics.
This proton capture experiment has been performed at the ESR, where the circulating 96Ru44+ ions interacted with a hydrogen gas target at 9, 10 and 11 MeV/u. The nuclear reaction products of (p, p), (p, α), (p, n) and (p, γ) reactions were registered by position sensitive detectors. A Geant4 simulation code has been developed to distinguish the (p, γ) reaction products unambiguously from the background reactions. In this work, a relative normalization method has been utilized to accurately determine the cross sections of the (p, γ) reaction. The 96Ru(p, γ)97Rh cross section in the Gamow window of the p process is sensitive to two parameters, i.e., the γ-ray strength function and the optical model potential, while it is mainly sensitive to the γ-ray strength function in the energy region of our experiment. Therefore, our experimental (p, γ) cross sections near 10 MeV/u have been used to directly constrain the γ-ray strength function used in the model. Furthermore, the proton potential has also been constrained by combining our results with additional experimental data for this reaction in the lower energy region. The constrained model has been used to calculate the reaction rate over a wide temperature range, which is an extremely important input for astrophysical calculations.
The yields of fragments produced by 78Kr fragmentation reactions have been measured at the CSRe for the Tz = −1/2 and Tz = 1/2 nuclei along or close to the paths of αp- and rp-processes. The measured yields present a significant odd-even staggering effect for Tz = −1/2 nuclides but they are small for Tz = 1/2 nuclides.
The magnitude of this effect for four consecutive yields has been quantified using a third-order difference formula. It is found that the largest odd-even staggering is reached near the closed shells Z = 20 and Z = 28. Our experimental results could also compared with the data from other experiments with different projectile-target combinations. All these experimental data strongly support the closed shells Z = 20 and Z = 28 for the Tz = −1/2 nuclei.
Nichtribosomale Peptid Synthetasen sind Quelle für eine Vielzahl an Sekundärmetaboliten mit antibiotischer Wirkung. Jede Synthetase besteht aus einer Abfolge von Modulen, wobei jedes Modul die nötigen Domänen für den Einbau eines Bausteins in das gebildeten Peptids enthält. Ein Ansatz zur Gewinnung neuer Peptidantibiotika, die angesichts der steigenden Zahl multiresistenter Keime dringend benötigt werden, ist der Austausch von Domänen oder Modulen. Aufgrund bisher noch nicht verstandener Selektivitäten, entweder zwischen den Domänen oder zwischen einzelnen Domänen und Zwischenstufen des gebildeten Peptids, führt dieser Ansatz jedoch in der Praxis oft zu keiner oder nur geringer Ausbeute.
Ziel der vorgelegten Arbeit war es, einige dieser Selektivitäten zu untersuchen, wobei der Fokus auf Peptidyl Carrier Proteinen Domänen (PCPs) lag. An diese Domänen sind alle Intermediate während der Reifung des Peptids kovalent über einen Phosphopantethein-Kofaktor (Ppan-Arm) gebunden.
Im ersten Teil der Arbeit sollte die Struktur einer mit einem Heptapeptid beladenen PCP mittels Lösungs-Kernspinresonanzspektroskopie (NMR) bestimmt werden. Hierbei konnte die natürliche Verknüpfung zwischen Ppan-Arm und Peptid über einen Thioester nicht verwendet werden, da diese Bindung zu Hydrolyse-anfällig war. Es konnte jedoch gezeigt werden, dass die Substitution des Thioesters durch eine nicht hydrolysierbare Amidbindung keinen Einfluss auf die Struktur hat, wodurch die Strukturbestimmung möglich war. Hierbei zeigte sich, dass die Peptid-beladene PCP in der sogenannten A/H state Konformation vorliegt, wobei das an sie gebundene Peptid frei beweglich ist. Somit scheint es wahrscheinlich, dass die PCP keine Selektivität für das an sie gebundene Peptid aufweist. Dies ist ein Unterschied zu den strukturell ähnlichen Acyl Carrier Proteinen (ACPs) aus der bakteriellen Fettsäurebiosynthese, da diese eine Bindungstasche für die an sie gebundenen Fettsäuren ausbilden.
Untersuchungen der Selektivität der Kondensationsdomäne (C Domäne) für das PCP gebundene Peptid mittels NMR-Titrationen und biochemischer Analysen konnten nicht durchgeführt werden, da sich im Laufe des Projekts zeigte, dass die aus der Synthetase herausgetrennte C Domäne katalytisch nicht aktiv war. Stattdessen sollte die Kristallstruktur einer Peptid-beladenen PCP-C Bidomäne, für welche eine katalytische Aktivität bereits gezeigt worden war, gelöst werden. Da aber bereits ein signifikanter Anteil der Bidomäne während der Expression mit dem Ppan-Arm beladen wurde, war die nötige quantitative Beladung mit dem Peptid gekoppelten Ppan-Arm in vitro nicht möglich. Eine quantitative Modifizierung mit dem Ppan-Arm in vitro war hingegen erfolgreich, und die Struktur der Ppan-beladenen Bidomäne konnte gelöst werden. Aufgrund des großen Abstands zwischen den aktiven Zentren der beiden Domänen kann es sich bei der beobachteten Orientierung nicht um jene handeln, die die beiden Domänen zueinander annehmen, wenn die C Domäne das PCP-gebundene Peptid bindet.
Im zweiten Teil der Arbeit wurde die Modifizierung einer PCP durch eine Gruppe II Phosphopantetheintransferase (PPT) untersucht. PPTs katalysieren die Übertragung des Ppan Arms auf die Seitenkette eines in PCPs konservierten Serins. In dieser Magnesium-abhängigen Reaktion dient Coenzym A (CoA) als Quelle für den Ppan-Arm. Durch Mutation des konservierten Serins in der PCP zu Alanin konnte ein stabiler Komplex aus PCP und PPT in Anwesenheit von CoA und Magnesium kristallisiert und seine Struktur bestimmt werden.
In einem Strukturmodell für den PCP/PPT Komplex war eine andere Konformation für die PCP postuliert worden, als sie in der Kristallstruktur des Komplexes zu beobachten ist. Durch Strukturbestimmung der PCP mittels Lösungs-NMR und anschließender Titrationsexperimente konnte jedoch gezeigt werden, dass sowohl die freie als auch die komplexierte PCP in Lösung ebenfalls die in der Kristallstruktur beobachtete Konformation einnehmen.
Aufgrund der gelösten Kristallstruktur konnten zwei Bereiche identifiziert werden, in denen die beiden Proteine im Komplex in direktem Kontakt zueinander stehen. Der eine Bereich ist durch eine intermolekulare Wasserstoffbrücke, der andere durch hydrophobe Wechselwirkungen zwischen den Proteinen gekennzeichnet. Durch ortsspezifische Mutagenese konnten beide Wechselwirkungen gestört werden, was sich in einer Abnahme der Komplexstabilität und einer veränderten Geschwindigkeit der Übertragung des Ppan-Arms äußerte.
Die große strukturelle Ähnlichkeit zwischen dem in dieser Arbeit untersuchten Komplex aus zwei in Bacillus vorkommenden Proteinen und einem humanen ACP/PPT Komplex legt die Vermutung nahe, dass die beobachteten Wechselwirkungen in vielen Organismen konserviert sind.
Tympanal hearing organs of insects emit distortion-product otoacoustic emissions (DPOAEs) which are indicative of nonlinear mechanical sound processing. General characteristics of insect DPOAEs are comparable to those measured in vertebrates, despite distinct differences in ear anatomy. DPOAEs appear during simultaneous stimulation with two pure tones (f1<f2) as additional spectral peaks at frequencies of nf1-(n-1)f2 and nf2-(n-1)f1, with the 2f1-f2 emission being the most prominent one. Insect DPOAEs are highly vulnerable to manipulations that interfere with the animal's physiological state and disappear after death. First evidence from locusts suggested that scolopidial mechanoreceptors might play a role in frequency-specific DPOAE generation (Möckel et al. 2007). The overall aim of this thesis was to determine the source of sensitive, nonlinear hearing at high frequencies and of DPOAE generation in tympanal organs of insects.
The first project of the present thesis involved general characteristics of DPOAE generation in the bushcricket Mecopoda elongata and the selective exclusion of the scolopidial mechanoreceptors using the neuroactive insectizide pymetrozine (Möckel et al. 2011). Pymetrozin appears to act highly effective and selectively on chordotonal organs, without affecting other sensory organs that lack scolopidial receptors. Pymetrozine solutions were applied as closely as possible to the scolopidia via a cuticle opening in the tibia, distally to the organ. Applications at concentrations between 10-3 and 10-7 M led to a pronounced and irreversible decrease of DPOAE amplitudes. Both this study on bushcrickets (Möckel et al. 2011) and an earlier one on locusts (Möckel et al. 2007) hence indicate the involvement of scolopidia in DPOAE generation in insects, by using complementary methods (pharmacological versus mechanical manipulation) and different animal models.
The second project of the present thesis investigated the temperature-dependence of DPOAEs in the locust Locusta migratoria (Möckel et al. 2012). The suggested biological origin of acoustic two-tone distortions in insects should involve metabolic processes, whose temperature-dependence would directly affect the DPOAE generation. Body temperature shifts resulted in reversible, level- and frequency-dependent effects on the 2f1–f2 emission. Using low f2 frequencies of up to 10 kHz, a body temperature increase (median +8–9°C) led to an upward shift of DPOAE amplitudes of approximately +10 dB, whereas a temperature decrease (median –7°C) was followed by a reduction of DPOAE amplitudes by 3 to 5 dB. Both effects were only present in the range of the low-level component of DPOAE growth functions below f2 stimulus levels of approximately 30-40 dB SPL. Emissions induced by higher stimulus levels and frequencies (e.g. 12 and 18 kHz) remained unaffected by any temperature shifts. The Arrhenius activation energy of the underlying cellular component amounted to 34 and 41 kJmol-1 (for growth functions measured with 8 and 10 kHz as f2, respectively). Such activation energy values provide a hint that an intact dynein-tubulin system within the scolopidial receptors could play an essential part in the DPOAE generation in tympanal organs.
The third project of this thesis demonstrated mechanical DPOAE analogs in the tympanum's vibration pattern during two-tone stimulation in the locust Schistocerca gregaria, using laser Doppler vibrometry (Möckel et al. 2014). DPOAE generation crucially relies on the integrity of the scolopidial mechanoreceptors (Möckel et al. 2007, 2011), which in locusts, directly attach to the tympanal membrane. During two-tone stimulation, DPOAEs were shown to mechanically emerge at the tympanum region where the auditory mechanoreceptors are attached. Those emission-coupled vibrations differed remarkably from tympanum waves evoked by external pure tones of the same frequency, in terms of wave propagation, energy distribution, and location of amplitude maxima. In contrast to traveling wave-like characteristics of externally evoked vibrations, intrinsically generated waves were locally restricted to the region around the high frequency receptors’ attachment position. The mechanical gradient of the tympanal membrane that leads to direction-dependent properties probably avoids the spreading of these locally evoked waves, which are then reflected and occur only in restricted areas as standing waves. Selective inactivation of mechanoreceptors by mechanical lesions did not affect the tympanum's response to external pure tones, but abolished the emission's displacement amplitude peak. These findings provide evidence that tympanal auditory receptors, comparable to the situation in mammals, comprise the required nonlinear response characteristics, which during two-tone stimulation lead to additional, highly localized deflections of the tympanum.
Cryo-electron tomography (CET) is a unique technique to visualize biological objects under near-to-native conditions at near-atomic resolution. CET provides three-dimensional (3D) snapshots of the cellular proteome, in which the spatial relations between macromolecular complexes in their near native cellular context can be explored. Due to the limitation of the electron dose applicable on biological samples, the achievable resolution of a tomogram is restricted to a few nanometers, higher resolution can be achieved by averaging of structures occurring in multiples. For this purpose, computational techniques such as template matching, sub-tomogram averaging and classification are essential for a meaningful processing of CET data.
This thesis introduces the techniques of template matching and sub-tomogram averaging and their applications on real biological data sets. Subsequently, the problem of reference bias, which restricts the applicability of those techniques, is addressed. Two methods that estimate the reference bias in Fourier and real space are demonstrated. The real space method, which we have named the “M-free” score, provides a reliable estimation of the reference bias, which gives access to the reliability of the template matching or sub-tomogram averaging process. Thus, the “M-free” score makes those approaches more applicable to structural biology. Furthermore, a classification algorithm based on Neural Networks (NN) called “KerDenSOM3D” is introduced, which is implemented in 3D and compensates for the missing-wedge. This approach helps extracting different structural states of macromolecular complexes or increasing the class purity of data sets by eliminating outliers. A comprehensive comparison with other classification methods shows superior performance of KerDenSOM3D.
This work is concerned with two topics at the intersection of convex algebraic geometry and optimization.
We develop a new method for the optimization of polynomials over polytopes. From the point of view of convex algebraic geometry the most common method for the approximation of polynomial optimization problems is to solve semidefinite programming relaxations coming from the application of Positivstellensätze. In optimization, non-linear programming problems are often solved using branch and bound methods. We propose a fused method that uses Positivstellensatz-relaxations as lower bounding methods in a branch and bound scheme. By deriving a new error bound for Handelman's Positivstellensatz, we show convergence of the resulting branch and bound method. Through the application of Positivstellensätze, semidefinite programming has gained importance in polynomial optimization in recent years. While it arises to be a powerful tool, the underlying geometry of the feasibility regions (spectrahedra) is not yet well understood. In this work, we study polyhedral and spectrahedral containment problems, in particular we classify their complexity and introduce sufficient criteria to certify the containment of one spectrahedron in another one.
The elements in the universe are mainly produced by charged-particle fusion reactions and neutron-capture reactions. About 35 proton-rich isotopes, the p-nuclei, cannot be produced via neutron-induced reactions. To date, nucleosynthesis simulations of possible production sites fail to reproduce the p-nuclei abundances observed in the solar system. In particular, the origin of the light p-nuclei 92Mo, 94Mo, 96Ru and 98Ru is little understood. The nucleosynthesis simulations rely on assumptions about the seed abundance distributions, the nuclear reaction network and the astrophysical environment. This work addressed the nuclear data input.
The key reaction 94Mo(g,n) for the production ratio of the p-nuclei 92Mo and 94Mo was investigated via Coulomb dissociation at the LAND/R3B setup at GSI Helmholtzzentrum für Schwerionenforschung in Darmstadt, Germany. A beam of 94Mo with an energy of 500 AMeV was directed onto a lead target. The neutron-dissociation reactions following the Coulomb excitation by virtual photons of the electromagnetic field of the target nucleus were investigated. All particles in the incoming and outgoing channels of the reaction were identified and their kinematics were determined in a complex analysis. The systematic uncertainties were analyzed by calculating the cross sections for all possible combinations of the data selection criteria. The integral Coulomb dissociation cross section of the reaction 94Mo(g,n) was determined to be (571 +- 14 (stat) +- 46 (syst) ) mb. The result was compared to the data obtained in a real photon experiment carried out at the Saclay linear accelerator. The ratio of the integral cross sections was found to be 0.63 +- 0.07, which is lower than the expected value of about 0.8.
The nucleosynthesis of the light p-nuclei 92Mo, 94Mo, 96Ru and 98Ru was investigated in post-processing nucleosynthesis simulations within the NuGrid research platform. The impact of rate uncertainties of the most important production and destruction reactions was studied for a Supernova type II model. It could be shown that the light p-nuclei are mainly produced via neutron-dissociation reactions on heavier nuclei in the isotopic chains, and that the final abundances of these p-nuclei are determined by their main destruction reactions. The nucleosynthesis of 92Mo and 94Mo was also studied in different environments of a Supernova type Ia model. It was concluded that the maximum temperature and the duration of the high temperature phase determine the final abundances of 92Mo and 94Mo.
The Late Cretaceous is known to be mostly affected by warm periods interrupted temporarily by a number of cooling events. The reconstruction of the paleoclimatic conditions during a period of high concentration of CO2 in the atmosphere is of great importance for the creation of future climate models. We applied the recently developed method reconstructing the SST from the TEX86 (TetraEther indeX of tetraethers consisting of 86 carbon atoms).
The sample material used for the present study was obtained from the tropical Late Cretaceous southern Tethys upwelling system (Negev/Israel), lasting from the Late Santonian to the Early Maastrichtian (~ 85 to 68 Ma). On the core samples from the Shefela basin, representing the outer belt of the upwelling system and the outcrop profile from the open mine Mishor Rotem (Efe Syncline), representing the inner belt, various bulk geochemical and biomarker studies were performed in this thesis.
Derived from TEX86 data, a significant long-term SST cooling trend from 36.0 to 29.3 °C is recognized during the Late Santonian and the Early Campanian in the southern Tethys margin. This is consistent with the opening and deepening of the Equatorial Atlantic Gateway (EAG) and the intrusion of cooler deep water from the southern Atlantic Ocean influencing the global SSTs and also the Tethys Ocean. Furthermore, the cooler near shore SST usually found in modern upwelling systems could be verified in case of the ancient upwelling system investigated in the present study. The calculated mean SST in the inner belt (27.7 °C) represented in the Efe Syncline was 1.5 °C cooler in comparison to the more seaward located outer belt (Shefela basin).
Moreover, geochemical and biomarker analyses were used to identify both the accumulation of high amounts of phosphate in the PM and good preservation of organic matter (OM) in the lower part of the OSM section. Total organic carbon (TOC) contents are highly variable over the whole profile reaching from 0.6 % in the MM, to 24.5 % in the OSM. Total iron (TFe) varies from 0.1 % in the PM to 3.3 % in the OSM and total sulfur (TS) varies between 0.1 % in the MM and 3.4 % in the OSM. Different correlations of TS, TOC and TFe were used to identify the conditions during the deposition of the different facies types. Natural sulfurization was found to play a key role in the preservation of the OM particularly in the lower part of the OSM. Samples from the OSM and the PM were deposited under dysoxic to anoxic conditions and iron limitation lasted during the deposition of the OSM and the PM, which effected the incorporation of sulfur into OM.
Phosphorus is highly accumulated in the sediments of the PM with a mean proportion of 11.5 % total phosphorus (TP), which is drastically reduced to a mean value of 0.9 % in the OSM and the MM. From the correlation of the bulk geochemical parameters TOC/TOCOR ratio and TP a major contribution of sulfate reducing bacteria to the phosphate deposition is concluded. This interrelation has previously been investigated in recent coastal upwelling systems off Peru, Chile, California and Namibia. This was further supported by the analysis of branched and monounsaturated fatty acids indicating the occurrence of sulfate reducing and sulfide oxidizing bacteria during the deposition.
According to the results from the analysis of n-alkanes and C27- to C29-steranes up to 95 % of the OM was of marine origin.
Organic sulfur compounds (OSC) were a major compound class in the aromatic hydrocarbon fraction and n-Alkyl and isoprenoid thiophenes were the most abundant, with highest amounts found for 2-methyl-5-tridecyl-thiophene (28 µg/g TOC). The relatively high abundance of ββ-C35 hopanoid thiophenes and epithiosteranes is equivalent to an incorporation of sulfur during the early stages of diagenesis.
Moreover, the geochemical parameters δ13Corg, δ15Norg, C/N and the pristane/phytane (Pr/Ph) ratio, were studied for reconstruction of seafloor and water column depositional environments. The high C/N ratio along with relatively low values of δ15Norg (4 ‰ to 6 ‰) and δ13Corg (-29 ‰ to -28 ‰) are consistent with a significant preferential loss of nitrogen-rich organic compounds during diagenesis. Oxygen-depleted conditions lasted during the deposition of the PM and the bottom of the OSM, reflected by the low Pr/Ph ratio of 0.11–0.7. In the upper part of the OSM and the MM the conditions changed from anoxic to dysoxic or oxic conditions. This environmental trend is consistent with co-occurring foraminiferal assemblages in the studied succession and implies that the benthic species in the Negev sequence were adapted to persistent minimum oxygen conditions by performing complete denitrification as recently found in many modern benthic foraminifera.
Furthermore, the anammox process could have influenced the nitrogen composition of the sediments. In this anaerobically process nitrite and ammonia are converted to molecular nitrogen.
Pulsed Electron Paramagnetic Resonance (EPR) spectroscopy is the most powerful tool to investigate structural properties and dynamics of paramagnetic substances. Up to date the electron spin is almost exclusively manipulated by rectangular shaped microwave pulses generated with switches. These pulses are unselective which means they excite outside their nominal bandwidth which is in most cases shallow compared to the overall spectral width of the spin system. Shaped pulses which are widely applied in NMR promise higher bandwidth and selectivity. The use of amplitude and phase modulated pulses was not possible for EPR due to the three orders of magnitude faster timescale compared to NMR. In this work, for the first time, an AWG (arbitrary waveform generator) operating with a 1 ns time resolution and 14 bit amplitude resolution was implemented into a commercial Bruker pulsed EPR spectrometer.
First results were obtained with broadband excitation pulses derived by optimum control theory (OCT). The OCT-pulse used excites transverse magnetization with 98% efficiency over a more than four times larger bandwidth than common rectangular pulse generating the same 1 B field. The benefit of such a pulse was demonstrated for magnitude FT-EPR spectroscopy on organic radicals in liquid phase.
Due to Spectrometer deadtime an FID cannot be observed for most inhomogeneous spin systems. For that reason prefocused pulses have been evaluated for their applicability to EPR spectroscopy. OCT-derived prefocused pulses can be understood as a compact Hahn Echo sequence in one monolithic pulse. Here, two problems have been encountered. 1) The limited bandwidth of the active and passive microwave components in the excitation path as well as microwave resonator cause linear distortions of the pulse shape which results in inferior pulse performance. This could be circumvented by measuring the impulse response function of the whole spin excitation path and including this information in the pulse optimization procedure. 2) Anisotropic hyperfine interaction which was not taken into account during the pulse optimization also caused efficiency losses.
PELDOR spectroscopy is a valuable tool to measure distance distributions between two or more paramagnetic centers in the range from 2-8 nm. It is demonstrated that the S/N ratio of PELDOR experiments can be substantially increased by substituting the rectangular shaped pump pulse by an adiabatic inversion pulse. The damping of the dipolar oscillations introduced by the prolonged pump pulse towards shorter distances could be circumvented by introducing a second time reversed pump pulse.
By substituting the refocused echo of the well-known 4-pulse PELDOR with a CPMG sequence the dipolar evolution time and thus the validity of PELDOR experiments would be increased. To achieve the maximum dipolar evolution time in a CPMG PELDOR for each refocusing pulse one pump pulse has to be applied. This could only be achieved with the new adiabatic inversion pulses since multiple inversions with efficiency close to one are not possible with rectangular pulses. Even with adiabatic pump pulses a reduced efficiency was observed due to hardware limitations thus limiting the sequence to three refocusing pulses. An iterative method was developed to remove the residual dipolar signals attributed to the reduced inversion efficiency.
The new 7-pulse CPMG PELDOR sequence enabled measuring reliable distance distributions between the protomers of the trimeric betaine transporter BetP. With these it could be shown that the asymmetries found for the 2 and 3-dimensional crystal structures are even larger in frozen detergent.
The PANDA experiment at FAIR will perform world class physics studies using high-intensity cooled antiproton beams with momenta between 1.5 and 15 GeV/c. A rich physics program requires very good particle identification (PID). Charged hadron PID for the barrel section of the target spectrometer has to cover the angular range of 22-140° and separate pions from kaons for momenta up to 3.5 GeV/c with a separation power of at least 3 standard deviations. The system that will provide it has to be thin and operate in a strong magnetic field. A ring imaging Cherenkov detector using the DIRC principle meets those requirements. The design of the PANDA Barrel DIRC is based on the successful BABAR DIRC counter with several important changes to improve the performance and optimize the costs. The design options are being studied in detailed Monte Carlo simulation, and implemented in increasingly complex system prototypes and tested in particle beams. Before building the full system prototypes the radiator bars and lenses are measured on the test benches. The performance of the DIRC prototype was quantified in terms of the single photon Cherenkov angle resolution and the photon yield. Results for two full system prototypes will be presented. The prototype in 2011 aimed at investigating the full size expansion volume. It was found that the resolution for this configuration is at the level of in good agreement with ray tracing simulation results. A more complex prototype, tested in 2012, provided the first experience with a compact fused silica prism expansion volume, a wide radiator plate, and several advanced lens options for the focusing system. The performance of the baseline configuration of the prototype with a standard lens and an air gap met the requirements for the PANDA PID for most of the polar angle range but failed at polar angles around 90° due to photon loss at the air gap. Measurements with a prototype high-refractive index compound lens without an air gap at a polar angle of 128° beam angle showed a good resolution of σΘC = 11.8 ± 0.7 mrad and a high photon yield of Nph = 26.1 ± 0.4. Even at polar angles close to 90° the photon yield with this lens exceeded 15 detected photons per particle, meeting the PANDA Barrel DIRC PID requirements for the entire phase space and demonstrating that the compact focusing DIRC is a very promising option for PANDA.
The ab-initio molecular dynamics framework has been the cornerstone of computational solid state physics in the last few decades. Although it is already a mature field it is still rapidly developing to accommodate the growth in solid state research as well as to efficiently utilize the increase in computing power. Starting from the first principles, the ab-initio molecular dynamics provides essential information about structural and electronic properties of matter under various external conditions. In this thesis we use the ab-initio molecular dynamics to study the behavior of BaFe2As2 and CaFe2As2 under the application of external pressure. BaFe2As2 and CaFe2As2 belong to the family of iron based superconductors which are a novel and promising superconducting materials. The application of pressure is one of two key methods by which electronic and structural properties of iron based superconductors can be modified, the other one being doping (or chemical pressure). In particular, it has been noted that pressure conditions have an important effect, but their exact role is not fully understood. To better understand the effect of different pressure conditions we have performed a series of ab-initio simulations of pressure application. In order to apply the pressure with arbitrary stress tensor we have developed a method based on the Fast Inertial Relaxation Engine, whereby the unit cell and the atomic positions are evolved according to the metadynamical equations of motion. We have found that the application of hydrostatic and c axis uniaxial pressure induces a phase transition from the magnetically ordered orthorhombic phase to the non-magnetic collapsed tetragonal phase in both BaFe2As2 and CaFe2As2. In the case of BaFe2As2, an intermediate tetragonal non-magnetic tetragonal phase is observed in addition. Application of the uniaxial pressure parallel to the c axis reduces the critical pressure of the phase transition by an order of magnitude, in agreement with the experimental findings. The in-plane pressure application did not result in transition to the non-magnetic tetragonal phase and instead, rotation of the magnetic order direction could be observed. This is discussed in the context of Ginzburg-Landau theory. We have also found that the magnetostructural phase transition is accompanied by a change in the Fermi surface topology, whereby the hole cylinders centered around the Gamma point disappear, restricting the possible Cooper pair scattering channels in the tetragonal phase. Our calculations also permit us to estimate the bulk moduli and the orthorhombic elastic constants of BaFe2As2 and CaFe2As2.
To study the electronic structure in systems with broken translational symmetry, such as doped iron based superconductors, it is necessary to develop a method to unfold the complicated bandstructures arising from the supercell calculations. In this thesis we present the unfolding method based on group theoretical techniques. We achieve the unfolding by employing induced irreducible representations of space groups. The unique feature of our method is that it treats the point group operations on an equal footing with the translations. This permits us to unfold the bandstructures beyond the limit of translation symmetry and also formulate the tight-binding models of reduced dimensionality if certain conditions are met. Inclusion of point group operations in the unfolding formalism allows us to reach important conclusions about the two versus one iron picture in iron based superconductors.
And finally, we present the results of ab-initio structure prediction in the cases of giant volume collapse in MnS2 and alkaline doped picene. In the case of MnS2, a previously unobserved high pressure arsenopyrite structure of MnS2 is predicted and stability regions for the two competing metastable phases under pressure are determined. In the case of alkaline doped picene, crystal structures with different levels of doping were predicted and used to study the role of electronic correlations.
Quarks and gluons are the building blocks of all hadronic matter, like protons and neutrons. Their interaction is described by Quantum Chromodynamics (QCD), a theory under test by large scale experiments like the Large Hadron Collider (LHC) at CERN and in the future at the Facility for Antiproton and Ion Research (FAIR) at GSI. However, perturbative methods can only be applied to QCD for high energies. Studies from first principles are possible via a discretization onto an Euclidean space-time grid. This discretization of QCD is called Lattice QCD (LQCD) and is the only ab-initio option outside of the high-energy regime. LQCD is extremely compute and memory intensive. In particular, it is by definition always bandwidth limited. Thus—despite the complexity of LQCD applications—it led to the development of several specialized compute platforms and influenced the development of others. However, in recent years General-Purpose computation on Graphics Processing Units (GPGPU) came up as a new means for parallel computing. Contrary to machines traditionally used for LQCD, graphics processing units (GPUs) are a massmarket product. This promises advantages in both the pace at which higher-performing hardware becomes available and its price. CL2QCD is an OpenCL based implementation of LQCD using Wilson fermions that was developed within this thesis. It operates on GPUs by all major vendors as well as on central processing units (CPUs). On the AMD Radeon HD 7970 it provides the fastest double-precision D= kernel for a single GPU, achieving 120GFLOPS. D=—the most compute intensive kernel in LQCD simulations—is commonly used to compare LQCD platforms. This performance is enabled by an in-depth analysis of optimization techniques for bandwidth-limited codes on GPUs. Further, analysis of the communication between GPU and CPU, as well as between multiple GPUs, enables high-performance Krylov space solvers and linear scaling to multiple GPUs within a single system. LQCD calculations require a sampling of the phase space. The hybrid Monte Carlo (HMC) algorithm performs this. For this task, a single AMD Radeon HD 7970 GPU provides four times the performance of two AMD Opteron 6220 running an optimized reference code. The same advantage is achieved in terms of energy-efficiency. In terms of normalized total cost of acquisition (TCA), GPU-based clusters match conventional large-scale LQCD systems. Contrary to those, however, they can be scaled up from a single node. Examples of large GPU-based systems are LOEWE-CSC and SANAM. On both, CL2QCD has already been used in production for LQCD studies.
Acceleration of Biomedical Image Processing and Reconstruction with FPGAs
Increasing chip sizes and better programming tools have made it possible to increase the boundaries of application acceleration with reconfigurable computer chips. In this thesis the potential of acceleration with Field Programmable Gate Arrays (FPGAs) is examined for applications that perform biomedical image processing and reconstruction. The dataflow paradigm was used to port the analysis of image data for localization microscopy and for 3D electron tomography from an imperative description towards the FPGA for the first time.
After the primitives of image processing on FPGAs are presented, a general workflow is given for analyzing imperative source code and converting it to a hardware pipeline where every node processes image data in parallel. The theoretical foundation is then used to accelerate both example applications. For localization microscopy, an acceleration of 185 compared to an Intel i5 450 CPU was achieved, and electron tomography could be sped up by a factor of 5 over an Nvidia Tesla C1060 graphics card while maintaining full accuracy in both cases.
Many Zanjian settlements (8th to 13th centuries AD) on Tanzania’s coast are considered to have collapsed and not regarded as belonging to the formation of the Swahili culture (13th to 16th centuries AD). With this regard, Swahili traditions found on Tanzania’s coast are seldom linked to local Zanjian precursors but to external influence especially from Lamu archipelago on the Kenya coast. Nevertheless, new archaeological evidences from Pangani Bay on the northern coast of Tanzania suggest that the external influences to cultural continuity and change from Zanjian to Swahili periods are overemphasized. This conclusion is grounded on archaeological field works conducted in the surrounding of Pangani Bay in 2010 and 2012, where major Swahili sites directly overlie Zanjian sites without recognizable changes of the cultural materials. The study compares and contrasts cultural materials (in particular pottery) and remains of economy and trade (fauna and glass beads) traditions from both Zanjian and Swahili phases. The aim of this comparative analysis is to trace change and continuity of archaeological traditions for better understanding the origin of Swahili culture in Pangani Bay.
In this endeavour, the analysis of ceramic, faunal remains and glass beads from Pangani Bay proposes negligible differences of materials and economical traditions from the late 1st to 2nd millennia AD. That is, local ceramic styles by Swahilis show only minor differences to those used by their ancestors, while fauna data suggest a similarity in subsistence economy between Zanjian and Swahili periods. Correspondingly, glass bead data indicate that although maritime trade became highly sophisticated during Swahili time, early involvement into oceanic far distance trade contact began in the Zanjian period. Thus, this thesis conveys all issues together. It presents research objectives, field work methods as well as analysis and interpretation of the results, with a main focus on ceramic, fauna and bead data. With the support of archaeological evidences, the current work concludes that there is more continuity than change in most of the Zanjian traditions that facilitated the origin of Swahili culture in Pangani Bay.
The present work deals with the integration of variable renewable energy sources, wind and solar energy into the European and US power grid. In contrast to other networks, such as the gas supply mains, the electricity network is practically not able to store energy. Generation and consumption therefore always have tobe balanced. Currently, the load curve is viewed as a rigid boundary condition, which must be followed by the generation system. The basic idea of the approach followed here is that weather-dependent generation causes a shift of focus of the electricity supply. At high shares of wind and solar generation, the role of the rigid boundary condition falls to the residual load, that is, the remaining load after subtraction of renewable generation. The goal is to include the weather dependence as well as the load curve in the design of the future electricity supply.
After a brief introduction, the present work first turns to the underlying weather-, generation and load data, which form the starting point of the analysis. In addition, some basic concepts of energy economics are discussed, which are needed in the following.
In the main part of the thesis, several algorithms are developed to determine the load flow in a network with a high share of wind and solar energy and to determine the backup supply needed at the same time. Minimization of the energy needed from controllable power plants, the capacity variable power plants, and the capacity of storing serve as guiding principles. In addition, the optimization problem of grid extensions is considered. It is shown that it can be formulated as a convex optimization problem. It turns out that with an optimized, international transmission network which is about four times the currently available transmission capacity, much of the potential savings in backup energy (about 40%) in Europe can be reached. In contrast, a twelvefold increase the transmission capacity would be necessary for a complete implementation of all possible savings in dispatchable power plants.
The reduction of the dispatchable generation capacity and storage capacity, however, presents a greater challenge. Due to correlations in the generation of time series of individual countries, it may be reduced only with difficulty, and by only about 30%.
In the following, the influence of the relative share of wind and solar energy is illuminated and examined the interplay with the line capacitance. A stronger transmission network tends to lead to a higher proportion of wind energy being better integrated. With increasing line capacity, the optimal mix in Europe therefore shifts from about 70% to 80% wind. Similar analyses are carried out for the US with comparable results.
In addition, the cost of the overall system can be reduced. It is interesting at this point that the advantages for the network integration may outweigh higher production costs of individual technologies, so that it is more favourable from the viewpoint of the entire system to use the more expensive technologies.
Finally, attention is given to the flexibility of the dispatchable power plants. Starting from a Fourier-like decomposition of the load curve as it was a few years ago, when hardly renewable generation capacity was present, capacities of different flexibility classes of dispatchable power plant are calculated. For this purpose, it is assumed that the power plant park is able to follow the load curve without significant surplusses or deficits. From this examination, it is derived what capacity must at least be available without having to resort to a detailed database of existing power plants.
Assuming a strong European cooperation, with a stronger international transmission network, the dispatchable power capacity can be significantly reduced while maintaining security of supply and generating relatively small surplusses in dispatchable power plants.
The Chikungunya virus (CHIKV) is a mosquito-transmitted alphavirus that causes high fever, rash, and recurrent arthritis in humans. The majority of symptoms disappear after about one week. However, arthritis can last for months or even years (in about 30% of cases), which makes people unable to work during this period. The virus is endemic in Sub-Saharan Africa, the Indian Ocean islands, India, and Southeast Asia. It has additionally caused several large outbreaks in the last few years, affecting millions of people. The mortality rate is very low (0.1%), but the infection rates are high (sometimes 30%) and the number of asymptomatic cases is rare (about 15%). The first CHIKV outbreak in a country with a moderate climate was detected in Italy in 2007. Furthermore, the virus has spread to the Caribbean in late 2013. Due to climate change, globalization, and vector switching, the virus will most likely continue to cause new worldwide outbreaks. Additionally, more temperate regions of the world like Europe or the USA, which have recently reported their first cases, will likely become targets. Alarmingly, there is no specific treatment or vaccination against CHIKV available so far.
The cell entry process of CHIKV is also not understood in detail, and was thusly the focus of study for this project. The E2 envelope protein is responsible for cell attachment and entry. It consists of the domain C, located close to the viral membrane, domain A, in the center of the protein, and domain B, at the distal end, prominently exposed on the viral surface.
In this work, the important role of cell surface glycosaminoglycans (GAGs) for CHIKV cell attachment was uncovered. GAGs consist of long linear chains of heavily sulfated disaccharide units and can be covalently linked to membrane associated proteins. They play an important role in different cell signaling pathways. So far, solely cell culture passage has revealed an increased GAG-dependency of CHIKV due to mutations in E2 domain A, which was associated with virus attenuation in vivo. However, in this work it could be shown that cell surface GAGs promote CHIKV entry using non-cell culture adapted CHIKV envelope (Env) proteins. Transduction and infection of cell surface GAG-deficient pgsA-745 cells with CHIKV Env pseudotyped vector particles (VPs) and with wild-type CHIKV revealed decreased transduction and replication rates. Furthermore, cell entry and transduction rates of GAG-containing cells were also dose-dependently decreased in the presence of soluble GAGs. In contrast, transduction of pgsA-745 cells with CHIKV Env pseudotyped VPs was enhanced by the addition of soluble GAGs. This data suggests a mechanism by which GAGs activate CHIKV particles for subsequent binding to a cellular receptor. However, at least one GAG-independent entry pathway might exist, as CHIKV entry could not be totally inhibited by soluble GAGs and entry into pgsA-745 was, albeit at a lower rate, still possible. Further binding experiments using recombinant CHIKV E2 domains A, B, and C suggest that domain B is responsible for the GAG binding, domain A possibly for receptor binding, and domain C is not involved in cell binding. These results are in line with the geometry of CHIKV Env on the viral surface. They altogether reveal that GAG binding promotes viral cell entry and that the E2 domain B plays a central role for this mechanism.
As no vaccine against CHIKV has been approved so far, another goal of this project was to test new vaccination approaches. It has been published that a single linear epitope of E2 is the target of the majority of early neutralizing antibodies against CHIKV in patients. Artificial E2-derived proteins were created, expressed in E.coli, and successfully purified. They consisted of 5 repeats of the mentioned linear epitope (L), the surface exposed regions of domain A linked by glycine-serine linkers (sA), the whole domain B plus a part of the β-ribbon connector (B+), or a combination of these 3 modules. Vaccination experiments revealed that B+ was necessary and sufficient to induce a neutralizing immune response in mice, with the protein sAB+ yielding the best results. sAB+, as a protein vaccine, efficiently and significantly reduced viral titers in mice upon CHIKV challenge, which was not the case for recombinant Modified Vaccinia virus Ankara (MVA; MVA-CHIKV-sAB+), as a vaccine platform expressing the same protein. These experiments show that a small rationally designed CHIKV Env derived protein might, after optimization of some vaccination parameters, be sufficient as a safe, easy-to-produce, and cheap CHIKV vaccine.
Epigallocatechin-3-gallate (EGCG) is a catechin found in green tea and was, in this work, found to inhibit the CHIKV life cycle at the entry state in in vitro experiments using CHIKV Env VPs and wild-type virus. EGCG was recently published to inhibit attachment of several viruses to cell surface GAGs, which is in line with the role for GAGs in CHIKV entry revealed in this work. EGCG might serve as a lead compound for the development of a small molecule treatment against CHIKV.
Myxobacteria are on order of Gram-negative, soil dwelling bacteria that feature an impressive number of properties: they can glide on solid surfaces by using two different motility motors, subsist by preying on other microorganisms, are often producers of multiple natural products, and upon adverse environmental conditions, they are able to form multicellular structures called “fruiting bodies”. The process, in which these macroscopically visible structures arise from independent single cells, has been the predominant subject of myxobacterial research for many decades. More precisely, researchers have strived for the discovery of genes, proteins and small molecules that act as signals, receivers or modulators of this complex process. In this regard, the species Myxococcus xanthus has evolved into the model organism due to its relatively simple and reliable handling in a laboratory environment. The research underlying this thesis focused on the identification and biosynthesis of lipids that may act as intercellular signaling molecules during the course of fruiting body formation of the myxobacterium Myxococcus xanthus as part of the “E-signal” system. In general, lipids containing branched-chain fatty acids with an uneven number of carbon atoms were found to be important players in this particular process. Nevertheless, their exact roles remain largely unknown as of this day. The first publication that is part of this thesis deals with an aspect that even strengthened the importance of role of iso-branched compounds in myxobacteria: myxobacterial metabolism is able to transform precursors of iso-lipids to isoprenoids. It addresses the question whether isoprenoids in general are important for fruiting body formation. Phenotypic analysis of mutants impaired in the biosynthesis of the central isoprenoid precursor 3-hydroxymethylglutaryl-Coenzyme A (3-HMG-CoA) from acetate and/or branched chain keto acids and their genetic and metabolic complementation clearly showed that isoprenoids are essential for fruiting body formation and confirmed that leucine derived isovalerate is an important source for isoprenoid precursors in myxobacteria. The second, and by far and away most tedious and sophisticated study, addressed the question as to how myxobacteria form fatty acid derived iso-branched ether lipids and to what extent they are important for fruiting body formation and sporulation. In a previous study, those unusual lipids were identified as specific biomarkers for myxobacterial development. No biochemical pathways to ether lipids specific for prokaryotes were known by then. In this study, a putative candidate gene that may be in involved in ether lipid biosynthesis was investigated. A combination of gene disruption and complementation experiments, phenotypic analysis and monitoring of ether lipid formation by means of GC-MS demonstrated its involvement in myxobacterial ether lipid biosynthesis and the importance of these lipids for the developmental process. Heterologous expression and biochemical testing of this gene together with in-silico sequence analysis and docking experiments confirmed the functions of its predicted domains. The discussion section provides an additional suggestion on how the ether bond formation is performed. Furthermore and most importantly, iso-branched ether lipids were found to be essential for sporulation but not for fruiting body formation. In summary, one or several molecules derived from an iso-branched alkylglycerol seem to play a role during sporulation in M. xanthus and a multidomain enzyme unique for myxobacteria is involved in their biosynthesis. The last manuscript addresses the complexity of lipid metabolism in myxobacteria. Prior to this work, there was limited knowledge about the exact composition of the myxobacterial lipidome and no method was available to monitor putative changes in the myxobacterial lipidome down to the single molecular species for studying lipid biosynthesis or regulation. An ultra-performance liquid chromatography coupled with mass spectrometry based method with electrospray ionization (UPLC-ESI-MS) utilizing standard equipment and a water/acetonitrile/isopropanol based eluent system proved to be geared for the construction of lipid profiles for wild type and mutant cells of M. xanthus and to show their differences. Fragmentation spectra based structure elucidation of lipid molecular species resulted in the identification of 99 molecular species comprising glycerophosphoethanolamines, glycerophosphoglycerols, glycerolipids, ceramides and ceramide phosphoinositols. The latter have never been described for any prokaryotes before. Three dimensional plots were created from the relative intensity differences of the single molecular ion species between the different samples to provide an efficient and versatile visualization of the data and enable the researcher to quickly detect differences.
In this thesis, a novel 257 kHz chopper device was numerically developed, technically designed and experimentally commissioned; a 4-solenoid, low-energy ion beam transport line was numerically investigated, installed and experimentally commissioned; and a novel massless beam-separation system was numerically developed.
The chopper combines a pulsed electric field with a static magnetic field in an ExB or Wien-filter type field configuration. Chopped beam pulses with a 257 kHz repetition rate and rise times of 110 ns were experimentally achieved using a 14 keV helium beam.
Due to the achieved results, the complete LEBT line for the future Frankfurt Neutron Source FRANZ is ready to deliver a dc or a pulsed beam. At the same time, the LEBT section represents an attractive test stand for the study of low-energy ion beams. It combines magnetic lenses, which allow space-charge compensated beam transport, and a chopper system capable of producing short beam pulses in the hundred nanosecond range. Since these beam pulses are transported onwards, their longitudinal and transverse properties can be analyzed. The pulse duration and time of flight are well below the rise time for the space-charge compensation through residual gas ionization. This opens the possibility for dedicated investigations of the transport of short, low-energy beam pulses including longitudinal and transverse space-charge effects and of relevant issues like the dynamics of space-charge compensation and electron effects in short pulses.
Immune cells are key players in several physiological and pathophysiological events such as acute and chronic inflammation, atherosclerosis and cancer. Especially in acute inflammation, macrophages are indispensable for the switch from the acute inflammatory phase to the resolution phase. Not only the phagocytosis of apoptotic cells, but especially the surrounding cytokines and mediators are able to switch macrophage polarization from inflammatory- to anti-inflammatory phenotypes. Within this cytokine environment, sphingosine-1-phosphate (S1P) plays an important role for immune cell activation, polarization and migration.
Heme-copper oxidases (HCOs) are the terminal enzymes of the aerobic respiratory chain in the inner mitochondrial membrane or the plasma membrane in many prokaryotes. These multi-subunit membrane protein complexes catalyze the reduction of oxygen to water, coupling this exothermic reaction to the establishment of an electrochemical proton gradient across the membrane in which they are embedded. The energy stored in the electrochemical proton gradient is used e.g. by the FOF1-ATP synthase to generate ATP from ADP and inorganic phosphate. The superfamily of HCOs is phylogenetically classified into three major families: A, B and C. The A-family HCOs, represented by the well-studied aa3-type cytochrome c oxidases (aa3-CcOs), are found in mitochondria and many bacteria. The B-family of HCOs contains a number of bacterial and archaeal oxidases. The C-family comprises only the cbb3-type cytochrome c oxidase (cbb3-CcO) and is most distantly related to the mitochondrial respiratory oxidases.
Der Radiofrequenzquadrupol (RFQ) wird typischerweise als erstes beschleunigendes Element in Beschleunigeranlagen eingesetzt. Das elektrische Quadrupolfeld ermöglicht die gleichzeitige Fokussierung und Beschleunigung des Ionenstrahls. Zudem ist der RFQ in der Lage den Gleichstromstrahl von der Ionenquelle zu Teilchenpaketen (Bunche) zu formen, die von den nachfolgenden Driftröhrenbeschleunigern benötigt werden. Ziel der vorliegenden Arbeit war die Untersuchung zur Realisierbarkeit eines 325 MHz 4-rod RFQ Beschleunigers. Die Frequenz von 325 MHz stellt eine ungewöhnlich hohe Betriebsfrequenz für die 4-rod Struktur dar und wird z.B. für den Protonenlinac des FAIR Projektes benötigt. Ein Problem hierbei war, dass durch die bauartbedingten unsymmetrischen Elektrodenaufhängung und der hohen Frequenz ein, das Quadrupolfeld überlagerndes, Dipolfeld erzeugt wird. Dieses störende Feld kann z.B. zu einem Versatz der Strahlachse führen. Hierzu wurde die 4-rod Struktur in Simulationen grundlegend auf Einflüsse von verschiedenen Parametern auf die Resonanzfrequenz und das Dipolfeld untersucht. Es wurden Lösungsstrategien erarbeitet das Diopolfeld zu kompensieren und auf einen Prototypen angewendet. Zudem wurde das Verhalten höherer Schwingungsmoden dieser Struktur simuliert. In diesem Rahmen wurden auch Simulationen zu Randfeldern zwischen den 4-rod Elektroden und der Tankwand untersucht, um nachteilige Effekte für die Strahlqualität auszuschließen. Basierend auf den Simulationsergebnissen wurde ein Prototyp angefertigt. Dieser Prototyp wurde zur Demonstration der Betriebseigenschaften mit Leistungen bis 40 kW getestet. Hierbei wurde die Elektrodenspannung mittels Gammaspektroskopie bestimmt und daraus die Shuntimpedanz berechnet. Diese Werte wurden mit anderen Methoden der Shuntimpedanzbes- timmung verglichen. Außerdem wurden alternative RFQ Resonatorkonzepte ebenfalls auf ihre Realisierbarkeit für den Protonenlinac untersucht. Die Einflüsse verschiedener Parameter auf die Betriebsfrequenz, die Möglichkeiten des Frequenztunings und der Einstellung der longitudinalen Spannungsverteilung gefertigter Modelle wurden in einer Diskussion gegenübergestellt.
RNA modifications are present in all three kingdoms of life and detected in all classes of cellular RNAs. RNA modifications are diverse, with more than 100 types of chemical modifications identified to date. These chemical modifications expand the topological repertoire of RNAs and are expected to fine-tune their functions. Ribosomal RNA (rRNA) contains two types of covalent modifications, either methylation on the sugar (Nm) or bases (mN), or base isomerization (conversion of uridine into pseudouridines, "). Pseudouridylations and ribose methylations are catalyzed by site-specific H/ACA and C/D box snoRNPs, respectively. The RNA component (snoRNA) of both types of snoRNPs is responsible for the site selection by base pairing with the rRNA substrate, whereas the protein component catalyzes the modification reaction: Nop1 in C/D box and Cbf5 in H/ACA box snoRNPs. Contrastingly, base methylations are performed by snoRNA independent, ‘protein-only’, methyltransferases (MTases). rRNA modifications occur at highly conserved positions, all clustering around functional ribosomal sites. Mutations in factors involved in rRNA modification have been linked to severe human diseases (e.g. X-linked Dyskeratosis congenita). Emerging evidences indicate that heterogeneity in RNA modification prevails, i.e. not all positions are modified at all time, and the concept of ‘specialized ribosomes’ has been coined. rRNA modification heterogeneity has been correlated with disease etiology (cancer), and shown to play a role in cell differentiation(hematopoiesis). Remarkably, alteration in rRNA modification patterns profoundly affects the preference of ribosomes for cap- versus IRESdependent translation initiation, with major consequences on cell physiology.
Epicutanoeus immunotherapy as a novel prophylactic and therapeutic strategy for birch pollen allergy
(2014)
The development of a convenient, effective and safe allergen-specific immunotherapy (SIT) for birch pollen allergy, one of the most prevalent allergic diseases in Northern Europe, North America and Northern Japan, is of crucial importance. Epicutaneous immunotherapy (EPIT) has gained attention as a safe and non-invasive alternative for subcutaneous immunotherapy, a conventional SIT. However, clinical studies showed a limited effcacy of EPIT, indicating the necessity of improvement of the treatment regime. In this study, we hypothesized that a combination of a hypoallergen with an appropriate adjuvant could be a strategy to improve EPIT. To verify this hypothesis, we aimed at investigating the efficacy of epicutaneous treatment with rBet v 1, the major birch pollen allergen, plus Toll-like receptor (TLR) agonists for prophylaxis and therapy of birch pollen allergy using a murine model of birch pollen-induced allergic asthma. Furthermore, the efficacy of rBet v 1B2, a hypoallergenic variant of Bet v 1, as a therapeutic allergen in EPI was pre-clinically investigated. TLRs recognize conserved microbial molecules (like PAMPs), and are known to promote the counter-regulation of TH2 responses by the induction of TH1-type and/or regulatory cytokines by immune cells. The hypoallergen Bet v 1B2 is a folding-variant of the wild-type allergen rBet v 1 with reduced allergenicity, but retained T-cell immunogenicity. The low allergenicity, could allow the application of hypoallergens in higher doses, and therefore provide a safer and more effective treatment to regulate T-cell immune responses. First, the expression and purification of recombinant Bet v 1 and Bet v 1B2 was optimized. Compared to natural proteins, recombinant proteins offer the possibility to use well-defined molecules with a consistent pharmaceutical quality. Using optimal Escherichia coli expression strains in combination with immobilized metal chelate affinity chromatography (IMAC) and size exclusion chromatography (SEC), we successfully prepared a large amount of rBet v 1 and rBet v 1B2 with a high purity. The allergenic potency of rBet v 1 and the hypoallergenic characteristics of rBet v 1B2 were confirmed by measurement of IgE reactivity and mediator release capacity using ELISA and basophil activation tests, respectively. In a second part, a murine model of birch pollen-induced allergic asthma was established. It was shown that intraperetoneal sensitization with an optimal dose of rBet v 1 and intranasal challenge with birch pollen extract induced elevated IgE levels, airway eosinophilia and pulmonary inflammation in BALB/c mice. The clinical features are comparable to those in patients with allergic asthma, indicating that sensitized and challenged mice could be used for a pre-clinical study to assess the efficacy of the treatment for birch pollen allergy. Next, we investigated the adjuvant effects of Polyadenylic:polyuridylic acid (Poly(A:U)), a TLR3 agonist, and R848 (resiquimod), a TLR7 agonist, in prophylactic EPI with rBet v 1 to intervene with birch pollen allergy. Here, we hypothesized that TLR3 and TLR7 could be possible target receptors to induce adjuvant effects in EPI, since these receptors are expressed in Langerhans cells and dermal dendritic cells, persistent antigen presenting cells in the cutaneous tissues. BALB/c mice received EPI with rBet v 1 alone, or plus Poly(A:U), or R848 on their depilated back using patches. Mice treated epicutaneously were then sensitized with rBet v 1 plus ALUM and intranasally challenged with birch pollen extract. We found that prophylactic EPI with rBet v 1 plus R848 inhibited the production of Bet v 1-specific IgE antibodies in sensitization, suppressed pulmonary inflammation and airway hyperreactivity upon challenge. In contrast to R848, no adjuvant effect of Poly(A:U) on suppression of asthmatic features was observed. Our results indicated that R848, but not Poly(A:U), could be a potential adjuvant for prophylactic EPI of birch pollen induced allergic asthma. Finally, the therapeutic potency of EPI with rBet v 1, or rBet v 1B2 alone, or plus R848 was assessed. After sensitization and challenge, mice received therapeutic EPI with rBet v 1 alone, or plus R848, and re-challenge with birch pollen extract. We found that therapeutic treatment with Bet v 1B2 reduced established Bet v 1-specific IgE antibodies, pulmonary inflammation and airway hyperreactivity upon re-challenge. Therapeutic treatment with the recombinant wild-type allergen does not influence these key characteristics of allergic asthma. In contrast to the findings in the prophylactic treatment with rBet v 1 plus R848,no therapeutic benefit was found upon combination with R848. This could be due to the high number of treatment days. Reduction of this number may lead to a beneficial effect. However, these findings indicate that Bet v 1B2 could be a potential therapeutic agent for the treatment of established birch pollen induced allergic asthma. In conclusion, this study demonstrates for the first time that prophylactic EPI with the recombinant form of Bet v 1 in combination with R848 could prevent and suppress asthmatic features in an established birch pollen allergy. Not only therapeutic, but also prophylactic applications of EPI could be of importance to prevent allergic sensitization, considering the high prevalence of allergic diseases. R848 could be a potential adjuvant for enhancing the prophylactic potential of EPI for the treatment of birch pollen allergy. Furthermore, the beneficial use of the hypoallergen Bet v 1B2 in therapeutic EPI was demonstrated by intervention of established asthmatic features. In the future, a combination of hypoallergens alone or together with adjuvants in EPIT could lead to a more convenient and effective therapeutic treatment of established birch pollen induced allergic asthma.
The laser-driven acceleration of protons from thin foils irradiated by hollow high-intensity laser beams in the regime of target normal sheath acceleration is reported for the first time. The use of hollow beams aims at reducing the initial emission solid angle of the TNSA source, due to a flattening of the electron sheath at the target rear side. The experiments were conducted at the PHELIX laser facility at the GSI Helmholtzzentrum für Schwerionenforschung GmbH with laser intensities in the range from 10^18 to 10^20 W/cm^2. We observed an average reduction of the half opening angle by (3.07±0.42)° or (13.2±2)% when the targets have a thickness between 12 to 14 μm. In addition, the highest proton energies were achieved with the hollow laser beam in comparison to the typical Gaussian focal spot.
Physical Biology is a field of life sciences dealing with the extraction of quantitative data from biophysical or molecular biological experiments with different levels of complexity. Such data are further used as parameters for mathematical models of the biological system. These models allow to predict reactions on external stimuli by describing the relevant molecular interactions and are therefore used for example to generate a deeper comprehension of complex human diseases. An essential technique in biophysical research on human diseases is fluorescence microscopy. This is a constantly developed toolbox comprising a large number of specific labeling strategies, as well as a broad spectrum of fluorescent probes. It is further minimal invasive and therefore suitable for measurements in living cells or organisms. The sensitivity of modern photo-detectors even allows for the detection of a single fluorescent probe with an accuracy of approximately 10 nm.
...
The model-prediction was further verified by two color SMLM experiments. In this work the development and application of imaging-systems are described which provide quantitative data with single-molecule resolution for systems biological model approaches with a low degree of abstractness. In the near future, the impact of mathematical models in the research field of complex human diseases will increase. The predictions of these models will be more exact, the more detailed and accurate the input parameters will become. This work gives an impression of how quantitative data obtained by SMLM may serve as input parameters for mathematical models at the single-cell level.
Myofacial Pain is the most common form of temporomandibular disorders (TMD), affecting principally women in reproductive age. The etiology of TMD is still controversial. Currently a multifactorial theory has received a great support among the scientific community. This theory draws attention to the interaction of psychological, neuromuscular and oral pathogenic factors. Objectives: to describe the possible etiological factors of the Myofacial Pain; and to evaluate the effectiveness of the current treatments for Myofacial Pain. Materials and methods: a narrative review of the etiological factors and epidemiological data of Myofacial Pain introduces this work. Thereafter the author presents five systematic reviews of RCTs which have been published during the last thirteen years (1999-2012) for the use of acupuncture, low level laser therapy, drugs, physiotherapeutical interventions, splint therapy, and psychosocial interventions in the treatment of Myofacial Pain. Moreover, the author reports a systematic review and meta-analysis of all the available literature of two modern approaches for the treatment of Myofacial Pain. A comparison between the “usual treatment” based on splint therapy and psychosocial interventions was conducted. Results: the author did not find sufficient evidence to support therapies based on one single intervention. However, the condition of the patients with myofacial pain could be treated more effectively with combined treatments. After comparing “usual treatment” with psychosocial interventions, the author observed a tendency of the latter to improve psychological outcomes, whereas the first one was slightly more effective to enhance clinical functional outcomes. In general, a high level of heterogeneity was observed among the included studies of the different systematic reviews. The quality of the studies is susceptible to be improved. Clinical implications: the author proposes core outcomes to be implemented within the research on myofacial pain in particular and temporomandibular disorders in general, in order to enable scientifical comparisons between different therapies.
The subatomic world is governed by the strong interactions of quarks and gluons, described by Quantum Chromodynamics (QCD). Quarks experience confinement into colour-less objects, i.e. they can not be observed as free particles. Under extreme conditions such as high temperature or high density, this constraint softens and a transition to a phase where quarks and gluons are quasi-free particles (Quark-Gluon-Plasma) can occur. This environment resembles the conditions prevailing during the early stages of the universe shortly after the Big Bang.
The phase diagram of QCD is under investigation in current and future collider experiments, for example at the Large Hadron Collider (LHC) or at the Facility for Antiproton and Ion Research (FAIR). Due to the strength of the strong interactions in the energy regime of interest, analytic methods can not be applied rigorously. The only tool to study QCD from first principles is given by simulations of its discretised version, Lattice QCD (LQCD).
These simulations are in the high-performance computing area, hence, the numerical aspects of LQCD are a vital part in this field of research. In recent years, Graphic Processing Units (GPUs) have been incorporated in these simulations as they are a standard tool for general purpose calculations today.
In the course of this thesis, the LQCD application cl2qcd has been developed, which allows for simulations on GPUs as well as on traditional CPUs, as it is based on OpenCL. cl2qcd constitutes the first application for Wilson type fermions in OpenCL.
It provides excellent performance and has been applied in physics studies presented in this thesis. The investigation of the QCD phase diagram is hampered by the notorious sign-problem, which restricts current simulation algorithms to small values of the chemical potential.
Theoretically, studying unphysical parameter ranges allows for constraints on the phase diagram. Of utmost importance is the clarification of the order of the finite temperature transition in the Nf=2 chiral limit at zero chemical potential. It is not known if it is of first or second order. To this end, simulations utilising Twisted Mass Wilson fermions aiming at the chiral limit are presented in this thesis.
Another possibility is the investigation of QCD at purely imaginary chemical potential. In this region, QCD is known to posses a rich phase structure, which can be used to constrain the phase diagram of QCD at real chemical potential and to clarify the nature of the Nf=2 chiral limit. This phase structure is studied within this thesis, in particular the nature of the Roberge-Weiss endpoint is mapped out using Wilson fermions.
Das Schwerionenkollisionen Programm der Beschleuniger RHIC und LHC gibt Hinweise auf einen neuen Zustand hadronischer Materie --- das Quark-Gluon Plasma. Dieses zeichnet sich durch eine zumindest partielle Aufhebung des confinements aus, welches besagt, dass keine freien Quarks beochtbar sind.
Aus einer Beschreibung der experimentellen Daten mit relativistischer Hydrodynamik folgen weitere Eigenschaften. So geht das in einer Schwerionenkollision erzeugte Quark-Gluon Plasma nach sehr kurzer Zeit, etwa 1 fm/c, in ein zumindest lokales thermisches Gleichgewicht über. Durch die Lorentzkontraktion der beiden Schwerionen erwartet man, dass der Zustand direkt nach der Kollision durch eine Impulsanisotropie in der transversal-longitudinalen Ebene bestimmt wird. Somit setzt das Erreichen eines thermischen Gleichgewichts zunächst eine Isotropisierung voraus. Bisherige Studien haben gezeigt, dass gluonische Moden bei dieser Isotropisierung durch Verursachung einer chromo-Weibel Instabilität eine entscheidende Rolle spielen.
Weiterhin verhält sich das Quark-Gluon Plasma wie eine fast perfekte Flüssigkeit. Eine Berücksichtigung dissipativer Terme in der hydrodynamischen Beschreibung erfordert das Hinzufügen weiterer Terme zu den entsprechenden Bewegungsgleichungen. Diese sind proportional zu Transportkoeffizienten, welche durch die zugrunde liegende mikroskopische Theorie festgelegt sind.
Diese Theorie ist Quantenchromodynamik. Sie beschreibt die starke Wechselwirkung der Quarks und Gluonen und ist ein fundamentaler Baustein des Standardmodells der Teilchenphysik. Da im Regelfall Prozesse der starken Wechselwirkung nichtperturbativ sind, beschreiben wir QCD unter Verwendung einer Gitterregularisierung. Diese beruht auf einer Diskretisierung der vierdimensionalen Euklidischen Raumzeit durch einen Hyperkubus mit periodischen Randbedingungen und ermöglicht ein Lösen der QCD mit numerischen Methoden. Allerdings ist die Anwendung der Gittereichtheorie auf Systeme im thermischen Gleichgewicht beschränkt und kann somit keine Prozesse beschreiben, die auf Echtzeit basieren.
Transportkoeffizienten entsprechen Proportionalitätskoeffizienten, die die Relaxation einer Flüssigkeit oder eben eines Quark-Gluon Plasmas von einer kleinen Störung beschreiben. Damit sind sie unmittelbar mit der Zeit verknüpft. Über Kubo-Formeln lassen sie sich jedoch mit Gleichgewichtserwartungswerten retardierter Korrelatoren verknüpfen und werden so in Gitter QCD zugänglich.
In der vorliegenden Dissertation berechnen wir den Transportkoeffizienten κ in Gittereichtheorie für das Yang-Mills Plasma. Dabei nutzen wir aus, dass dieser Transportkoeffizient eine triviale analytische Fortsetzung vom retardierten zum Euklidischen Korrelator besitzt, welcher direkt in Gittereichtheorie zugänglich ist. Es ist die erste nichtperturbative Berechnung eines Transportkoeffizienten in QCD ohne weitere Annahmen, wie die Maximum Entropie Methode oder Ansätze, zu treffen.
This thesis serves two main purposes:
1. The introduction of a novel experimental method to investigate phase change dynamics of supercooled liquids
2. First-time measurements for the crystallization behaviour for hydrogen isotopes under various conditions
1) The new method is established by the synergy of a liquid microjet of ~ 5 µm diameter and a scattering technique with high spatial resolution, here linear Raman spectroscopy. Due to the high directional stability and the known velocity of the liquid filament, its traveling axis corresponds to a time axis static in space. Utilizing evaporative cooling in a vacuum environment, the propagating liquid cools down rapidly and eventually experiences a phase transition to the crystalline state. This temporal evolution is probed along the filament axis, ultimately resulting in a time resolution of 10 ns. The feasibility of this approach is proven successfully within the following experiments.
2) A main object of study are para-hydrogen liquid filaments. Raman spectra reveal a temperature gradient of the liquid across the filament. This behaviour can quantitatively be reconstructed by numerical simulations using a layered model and is rooted in the effectiveness of evaporative cooling on the surface and a finite thermal conductivity. The deepest supercoolings achieved are ~ 30% below the melting point, at which the filament starts to solidify from the surface towards the core. With a crystal growth velocity extracted from the data the appropriate growth mechanism is identified. The crystal structure that initially forms is metastable and probably the result of Ostwald’s rule of stages. Indications for a transition within the solid towards the stable equilibrium phase support this interpretation.
The analog isotope ortho-deuterium is evidenced to behave qualitatively similar with quantitative differences being mass related.
In further measurements, isotopic mixtures of para-hydrogen and ortho-deuterium are investigated. It is found that the crystallization process starts earlier and lasts significantly longer compared to the pure substances with the maximum values between 20-50% ortho-deuterium content. A solely temperature based explanation for this effect can be excluded. The difference in the quantum character and hence effective size of the isotopes suggests a strong influence of the progressing liquid-solid-interface. Small dilutions of each para-hydrogen and ortho-deuterium with neon show an even more extended crystallization process compared to above isotopic mixtures. Additionally, the crystal is strongly altered in favor of the equilibrium lattice structure of neon.
The cones of nonnegative polynomials and sums of squares arise as central objects in convex algebraic geometry and have their origin in the seminal work of Hilbert ([Hil88]). Depending on the number of variables n and the degree d of the polynomials, Hilbert famously characterizes all cases of equality between the cone of nonnegative polynomials and the cone of sums of squares. This equality precisely holds for bivariate forms, quadratic forms and ternary quartics ([Hil88]). Since then, a lot of work has been done in understanding the difference between these two cones, which has major consequences for many practical applications such as for polynomial optimization problems. Roughly speaking, minimizing polynomial functions (constrained as well as unconstrained) can be done efficiently whenever certain nonnegative polynomials can be written as sums of squares (see Section 2.3 for the precise relationship). The underlying reason is the fundamental difference that checking nonnegativity of polynomials is an NP-hard problem whenever the degree is greater or equal than four ([BCSS98]), whereas checking whether a polynomial can be written as a sum of squares is a semidefinite feasibility problem (see Section 2.2). Although the complexity status of the semidefinite feasibility problem is still an open problem, it is polynomial for fixed number of variables. Hence, understanding the difference between nonnegative polynomials and sums of squares is highly desirable both from a theoretical and a practical viewpoint.
HIV vaccine preclinical testing is difficult because HIV’s only relevant hosts are humans and no correlates of protection are known. To this end, we are working on the humanization of different mouse strains with human peripheral blood mononuclear cells (PBMCs) as well as human hematopoietic stem cells (HSC) to generate a useful small animal model.
We generated immune deficient mice (NOD Scid IL2gc -/- /NOD Rag1-/- IL2gc -/-) expressing human MHC class II (HLA-DQ8) on a mouse class II deficient background (Ab-/-). Here, the human HLA-DQ8 should interact with the matching T cell receptors of transferred matching human PBMCs and therefore could support the functionality of the transferred human CD4+ cells in the mice.
Mice that were adoptively transferred with human HLA-DQ8 PBMCs only showed engraftment of CD3+ T cells. Surprisingly, the presence of HLA class II did not significantly change the repopulation rates in the mice. Also, the presence of HLA class II did not advance B cell engraftment, such that humoral immune responses were undetectable. However, the overall survival of DQ8-expressing mice was significantly prolonged, compared to mice expressing mouse MHC class II molecules, and correlated with an increased time span until onset of GvHD.
To avoid GVHD and to increase and maintain the level of human cell reconstitution over a long period of time, the same mouse strains were reconstituted with human HSC. Compared to PBMC-repopulated mice, HSC-reconstituted mice develop almost all subpopulations of the human immune system detectable at week 12 after HSC transfer. These mice developed adaptive immune responses after Tetanus Toxoide (TT) immunizations. In addition, we are testing the susceptibility of these humanized mice to different HIV strains with a detailed look at immune responses.
Tuning and optimization of the field distribution for 4-rod radio frequency quadrupole linacs
(2014)
In this thesis, the tuning process of the 4-rod Radio Frequency Quadrupole has been analyzed and a theory for the prediction of the tuning plate's influence on the longitudinal voltage distribution was developed together with RF design options for the optimization of the fringe fields.
The basic principles of the RFQ's particle dynamics and resonant behavior are introduced in the theory part of this thesis. All studies that are presented are based on the work on four RFQs of recent linac projects. These RFQs are described in one chapter. Here, the projects are introduced together with details about the RFQ parameters and performance. In the meantime two of these RFQs are in full operation at NSCL at MSU and FNAL. One is operating in the test phase of the MedAustron Cancer Therapy Center and the fourth one for LANL is about to be built. The longitudinal voltage distribution has been studied in detail with a focus on the influence of the RF design with tuning elements and parameters like the electrodes overlap or the distance between stems. The theory for simulation methods for the field flatness that were developed as part of this thesis, as well as its simulation with CST MWS have been analyzed and compared to measurements. The lumped circuit model has proven to predict results with an accuracy that can be used in the tuning process of 4-rod RFQs. Together with results from the tuning studies, the studies on the fringe fields of the 4-rod structure lead to a proposal for a 4-rod RFQ model with an improved field distribution in the transverse and longitudinal electric field.
Fast nuclei are ionizing radiation which can cause deleterious effects to irradiated cells. The modelling of the interactions of such ions with matter and the related effects are very important to physics, radiobiology, medicine and space science and technology. A powerful method to study the interactions of ionizing radiation with biological systems was developed in the field of microdosimetry. Microdosimetry spectra characterize the energy deposition to objects of cellular size, i.e., a few micrometers.
In the present thesis the interaction of ions with tissue-like media was investigated using the Monte Carlo model for Heavy-Ion Therapy (MCHIT) developed at the Frankfurt Institute for Advanced Studies. MCHIT is a Geant4-based application intended to benchmark the physical models of Geant4 and investigate the physical properties of therapeutic ion beams. We have implemented new features in MCHIT in order to calculate microdosimetric quantities characterizing the radiation fields of accelerated nucleons and nuclei. The results of our Monte Carlo simulations were compared with recent experimental microdosimetry data.
In addition to microdosimetry calculations with MCHIT, we also investigated the biological properties of ion beams, e.g. their relative biological effectiveness (RBE), by means of the modified Microdosimetric-Kinetic model (MKM). The MKM uses microdosimetry spectra in describing cell response to radiation. MCHIT+MKM allowed us to study the physical and biological properties of ion beams. The main results of the thesis are as follows:
MCHIT is able to describe the spatial distribution of the physical dose in tissue-like media and microdosimetry spectra for ions with energies relevant to space research and ion-beam cancer therapy; MCHIT+MKM predicts a reduction of the biological effectiveness of ions propagating in extended medium due to nuclear fragmentation reactions; We predicted favourable biological dose-depth profiles for monoenergetic helium and lithium beams similar to the one for carbon beam. Well-adjusted biological dose distributions for H-1, He-4, C-12 and O-16 with a very flat spread-out Bragg peak (SOBP) plateau were calculated with MCHIT+MKM; MCHIT+MKM predicts less damage to healthy tissues in the entrance channel for SOBP He-4 and C-12 beams compared to H-1 and O-16 ones. No definitive advantages for oxygen ions with respect to carbon were found.
Bei ca. 95% der chronisch myeloischen Leukämie (CML) und 20-30% der akuten lymphatischen Leukämie (ALL) des Erwachsenen liegt eine reziproke Chromosomentranslokation t(9;22)(q34;q11) vor, in deren Rahmen das BCR (Breakpoint Cluster Region) Gen auf Chromosom 22 mit dem ABL (Abelson-Leukämie-Virus) Gen auf Chromosom 9 fusioniert. Auf Chromosom 22 gibt es zwei verschiedene Bruchpunkte, die somit zur Bildung von unterschiedlichen Fusionsgenen führen. Bei der CML findet man den sogenannten „großen“ Bruchpunkt (M-bcr), während bei der Ph+ ALL der sogenannte „kleine“ Bruchpunkt (m-bcr) vorkommt. Das hybride Fusionsgen auf Chromosom 22q+ (Philadelphia-Chromosom) kodiert für das jeweilige BCR/ABL Protein, während das Fusionsgen auf Chromosom 9q+ für das reziproke ABL/BCR Protein kodiert. Das ABL-Protein ist eine Nicht-Rezeptor Tyrosinkinase, die eine wichtige Rolle in der Signaltransduktion und der Regulation des Zellwachstums spielt. Im BCR/ABL Fusionsprotein wird die Kinase-Aktivität von ABL, die im Normalfall streng reguliert ist, durch die Fusion mit BCR konstitutiv aktiv. Dadurch kommt es zur Deregulierung intrazellulärer Signalwege, welche die maligne Transformation hämatopoetischer Zellen verursacht. Eine zielgerichtete Inhibierung von BCR/ABL mittels ABL-Kinase-Inhibitoren induziert Apoptose in BCR/ABL transformierten Zellen, was eine komplette Remission im größten Teil Ph+ Leukämie Patienten zur Folge hat.
Mathematical modeling of Arabidopsis thaliana with focus on network decomposition and reduction
(2014)
Systems biology has become an important research field during the last decade. It focusses on the understanding of the systems which emit the measured data. An important part of this research field is the network analysis, investigating biological networks. An essential point of the inspection of these network models is their validation, i.e., the successful comparison of predicted properties to measured data. Here especially Petri nets have shown their usefulness as modeling technique, coming with sound analysis methods and an intuitive representation of biological network data.
A very important tool for network validation is the analysis of the Transition-invariants (TI), which represent possible steady-state pathways, and the investigation of the liveness property. The computational complexity of the determination of both, TI and liveness property, often hamper their investigation.
To investigate this issue, a metabolic network model is created. It describes the core metabolism of Arabidopsis thaliana, and it is solely based on data from the literature. The model is too complex to determine the TI and the liveness property.
Several strategies are followed to enable an analysis and validation of the network. A network decomposition is utilized in two different ways: manually, motivated by idea to preserve the integrity of biological pathways, and automatically, motivated by the idea to minimize the number of crossing edges. As a decomposition may not be preserving important properties like the coveredness, a network reduction approach is suggested, which is mathematically proven to conserve these important properties. To deal with the large amount of data coming from the TI analysis, new organizational structures are proposed. The liveness property is investigated by reducing the complexity of the calculation method and adapting it to biological networks.
The results obtained by these approaches suggest a valid network model. In conclusion, the proposed approaches and strategies can be used in combination to allow the validation and analysis of highly complex biological networks.
Cancer is a disease characterized by uncontrolled cell growth and the capacity to disseminate to distant organs. The properties of cancers are caused by genetic and epigenetic alterations when compared to their normal counterparts. Genetic mutations occur in oncogenes and tumor suppressor genes and are the initial drivers of cellular transformation (Lengauer et al., 1998; Vogelstein and Kinzler, 2004). In addition, epigenetic alterations, which influence the expression of oncogenes and tumor suppressor genes independently from sequence alterations, are also involved in the transformation process (Esteller and Herman, 2001; Sharma et al., 2010). Genetic alterations and epigenetic regulatory signals cooperate in tumor etiology. Glioblastoma multiforme (GBM) is a frequent and aggressive malignant brain tumor in humans. The median survival of GBM patients is about 15 months after diagnosis. Like in other cancers, genetic and epigenetic alterations can be detected in GBM. Genetic alterations in GBM affect cell growth, apoptosis, angiogenesis, and invasion; however, epigenetic alterations in GBM also affect the expression of oncogenes or tumor suppresser genes that increase tumor malignancy (Nagarajan and Costello, 2009).
Reprogramming is a cellular process in which somatic cells can be induced to assume the properties of less differentiated stem cells. This process can be mediated through epigenetic modifications of the genome of somatic cells by the action of four defined transcription factors (Oct4, Sox2, Klf4 and Myc) or by the action of the miR 302/367 cluster (Anokye-Danso et al., 2011; Takahashi and Yamanaka, 2006; Takahashi et al., 2007) and result in the generation of induced pluripotent stem cells (iPS cells). Reprogramming of somatic cells by the miR 302/367 cluster can generate nontumorigenic iPS cells through the inhibition of the epithelial to mesenchymal transition (EMT), cell cycle regulatory genes and epigenetic modifiers (Lin and Ying, 2013).
We consider a class of nonautonomous nonlinear competitive parabolic systems on bounded radial domains under Neumann or Dirichlet boundary conditions. We show that, if the initial profiles satisfy a reflection inequality with respect to a hyperplane, then bounded positive solutions are asymptotically (in time) foliated Schwarz symmetric with respect to antipodal points. Additionally, a related result for (positive and sign changing solutions) of scalar equations with Neumann or Dirichlet boundary conditions is given. The asymptotic shape of solutions to cooperative systems is also discussed.
A multiple filter test for the detection of rate changes in renewal processes with varying variance
(2014)
The thesis provides novel procedures in the statistical field of change point detection in time series.
Motivated by a variety of neuronal spike train patterns, a broad stochastic point process model is introduced. This model features points in time (change points), where the associated event rate changes. For purposes of change point detection, filtered derivative processes (MOSUM) are studied. Functional limit theorems for the filtered derivative processes are derived. These results are used to support novel procedures for change point detection; in particular, multiple filters (bandwidths) are applied simultaneously in oder to detect change points in different time scales.
The human endothelin receptors, ETA and ETB, are two members of the G-protein coupled receptors family (GPCRs) and they are key players in cardiovascular regulation. The characterization of their functionality in vitro has been limited by the possibility to obtain high quality samples using conventional expression systems. The Cell-Free expression system is an alternative technique for the production of membrane protein as well as GPCRs and can overcome some of the limitations that are commonly encountered using an in vivo approach. Cell-Free expression protocols for the two receptors ETA and ETB have been optimized by implementing post- and co-translational association to lipid bilayers. The efficiency of the reconstitution or association to liposomes and nanodiscs has systematically been studied and the ligand binding properties of the two receptors have been analyzed using a set of different complementary techniques. In several different conditions a high affinity binding of the peptide ligand ET-1 to both endothelin receptors could be obtained and the highest activity values were detected in sample prepared using a co-translational approach in presence of nanodiscs. Furthermore, the characteristic differential binding pattern of selected agonists and antagonists to the two receptors was confirmed. In samples obtained from several Cell-Free expression conditions, two intrinsic properties of the functionally folded ETB receptor, such as the proteolytic processing based on conformational recognition as well as the formation of SDS-resistant complexes with the peptide ligand ET-1, were detected. ETA and ETB are able to induce in vivo the activation of hetrotrimeric G proteins upon stimulation with an agonist, leading to the dissociation of the heterotrimeric complex and the exchange of GDP to GTP in the Galpha subunit. The Cell-Free expression system was chosen for the production of two G alpha subunit, Galpha s and Galpha q. Soluble expression of the two proteins was achieved and the production of active Galpha s was confirmed using fluorescent as well as radioactive assays. In conclusion, the obtained results document a new process for the production of ligand binding competent endothelin receptors, as well as Galpha proteins, using a Cell-Free expression system. The combination of this expression system and the nanodiscs technology appears to be a promising tool for the further characterization of membrane proteins as well as GPCRs.
Alzheimer’s disease (AD) is a common, age associated neurodegenerative disease that manifests as progressive dementia and is characterized by accumulation of the amyloid beta (Aβ) peptide which is a processing product of a transmembrane protein termed Alzheimer Amyloid Precursor Protein (APP). The Aβ peptide is generated by a sequential proteolytic processing of APP by two distinct proteases that are termed β- and γ-secretase. The β-secretase, also called BACE-1 or memapsin 2, belongs to the family of aspartyl proteases. BACE-1 evidently cleaves APP in an acidic endosomal compartment after endocytosis of APP, thereby facilitating Aβ peptide generation.
Sorting of transmembrane proteins is generally controlled by sorting signals in the cytoplasmic domains of the cargo proteins. The short cytoplasmic tail of BACE-1 with 23 amino acids contains a sorting signal of the acidic cluster, di-leucine (ACDL) type. The two Leu residues in this determinant are important for the clathrin mediated endocytosis of BACE-1, whereas the acidic residues together with the Leu are required for the endosomal sorting and recycling of BACE-1 back to the plasma membrane. The ACDL motif binds to the members of the GGA (Golgi-localized γ ear-containg ARF- binding proteins) family (GGA1-GGA3) that are involved in the sorting of BACE-1.
One of the major aims of this study was to address the role of flotillins in the intracellular sorting of BACE-1. This study shows that flotillin-1 directly binds to the di-leucine motif in the cytoplasmic tail of BACE-1, whereas flotillin-2 only shows an association mediated by flotillin-1. Flotillin-1 competes with GGA2 for the binding to BACE-1 tail, and thus influences the endosomal sorting of BACE-1. Importantly, depletion of flotillins results in an altered localization of the wildtype BACE-1, whereas the plasma membrane resident Leu to Ala (LLAA) mutant is not affected. Flotillin knockdown results in an accumulation of BACE-1, implicating reduced degradation and enhanced stability of this protease. Thus, flotillins appear to be important for the cellular targeting of BACE-1 and also influence the amyloidogenic processing of APP, as demonstrated by an increase in the amyloidogenic C-99 processing fragments.
When flotillin depleted cells were subjected to apoptotic stresses including Aβ25-35 synthetic peptide (inducer of the extrinsic apoptosis pathway) or several chemotherapeutic agents (staurosporine, brefeldin A, doxorubicin, carboplatin and paclitaxel: intrinsic apoptosis pathway) and cytotoxicity was determined, various apoptotic markers were activated in flotillin depleted cells. Caspase-3 and GGA3 are well accepted apoptosis markers and an enhanced caspase-3 cleavage was detected upon STS induced apoptosis in SH-SY5Y, HeLa, and HaCaT cell lines and increased GGA3 cleavage was observed in MCF7 cell line.
One of the major reasons for the apoptotic sensitivity in the absence of flotillins was a PI3K/Akt signaling defect. Neuroblastoma cells depleted of flotillins showed diminished levels of total Akt, phospho-Akt and phospho-ERK upon STS induced apoptosis. Since PI3K/Akt was the primary survival pathway affected upon STS induced apoptosis, ectopic expression of Akt in neuroblastoma cell line reduced caspase-3 cleavage and retarded apoptosis.
The direct downstream target of Akt is FOXO3a, whose localization was investigated in flotillin depleted cells. A major proportion of FOXO3a was localized in the nucleus of flotillin knockdown cells, implicating that FOXOs are active in these cells and subsequently trigger the transcription of death genes. Strikingly, an essential anti-apoptotic molecule and a major cancer target, Mcl-1, was inherently downregulated in flotillin knockdown cells. Mcl-1 is a chief member of the Bcl-2 family as it plays a pivotal role in cell survival and it is a critical protein in cancer therapeutics as suppression of Mcl-1 protein can curtail the survival and growth of tumorous cells.
Neuroblastoma cells were rescued from undergoing permanent damage due to STS induced apoptosis by overexpression of anti-apoptotic Bcl-2. Phorbol esters are well known PKC activators, and pre-treatment of neuroblastoma cells with phorbol esters along with staurosporine reduced caspase-3 cleavage.
These results demonstrate that absence of flotillins can sensitize cellular systems to apoptosis induction. The two main characteristics of cancer cells include resistance to apoptosis and unresponsiveness to chemotherapeutic agents. It is a well established fact that impaired apoptosis is central to tumour development. This study implicates that the downregulation of flotillin function can trigger cellular susceptibility and enhances apoptosis in response to conventional chemotherapeutic agents. Therefore, flotillins can serve as vital regulators in providing a more rational approach in molecular-targeted therapies for receding cancer growth and survival.
5-lipoxygenase (5-LO) is an enzyme with a substantial role in inflammatory processes. In vitro kinase assays using [32P]-ATP in combination with mutagenesis have revealed that serine residues 271, 523 and 663 can be phosphorylated by MK2, PKA and ERK2 kinases, respectively. A few available reports regarding 5-LO protein sequence have covered up to 30% of the sequence after amino acid sequencing including Ser663. In LCMS/MS analyses of 5-LO tryptic digests from different cellular sources different peptides have been detected; however, none of the three phosphorylations has been detected and only Ser663 was included in the covered sequence.
As there was no comprehensive mass spectrometric analysis of 5-LO, the purpose of this study was to optimize the experimental conditions under which detection of the aforementioned phosphorylation events, as well as other possible post-translational modifications (PTMs), would be feasible. Matrix-Assisted Laser Desorption/Ionization Mass Spectrometry (MALDI-MS) was used for peptide analysis of 5-LO cleaved either by chemical reagents or by proteases. Sequence coverage of 5-LO could be enhanced to be close to completion by combination of results from digestions by trypsin, AspN and chymotrypsin. In-gel trypsin digestion followed by in-solution AspN digestion proved to be a useful sample treatment for reproducible detection of the Ser271-containing peptide.
Nevertheless, in none of the examined cleavage protocols the sequence around Ser523 was detected reproducibly or with acceptable signal intensity for subsequent peptide fragmentation. Propionic anhydride and sulfo-NHS-SS-biotin cross-linker (EZ-linkTM), were used for derivatization of lysine side chains and hindrance of lysine residue recognition by trypsin. Phosphopeptide enrichment became possible after tryptic digestion of these samples, not only due to formation of an individual Ser523-containing peptide, but also because TiO2-mediated enrichment, which is performed in acidic pH, was not impaired by positively charged free lysine side chains. Additionally, biotinylation of lysine residues was exploited for an intermediate enrichment step of the lysine containing peptides, prior to TiO2 phosphopeptide enrichment.
MALDI-MS analysis after in-vitro phosphorylation of 5-LO by the three kinases showed that Ser271 was phosphorylated in the MK2 and PKA kinase assays, while Ser523 was phosphorylated only in the PKA kinase assay. Surpisingly, no phosphopeptides were detected in the in-vitro kinase assays with ERK2, even though the unmodified counterpart of the Ser663-containing peptide was easily detected. The detection limit for each of the three phosphorylation sites was determined by the use of custom made phosphopeptides and an amount of 0.06 pmol of phosphopeptide in 1 μg 5-LO (representing 0.5% phosphorylation rate) was sufficient in all cases for successful enrichment and detection by MS.
In-vitro kinase assays with [32P]-ATP were performed for some kinases that were expected to phosphorylate 5-LO according to in-silico data. Three members of the Src tyrosine kinase family (Fgr, Hck and Yes) and the Ser/Thr specific kinase DNA-PK used 5-LO as their substrate and mainly residues at the N-terminal part of 5-LO were detected phosphorylated by MS (e.g. Y42, Y53). Additional in-vitro assays for recombinant 5-LO modification included incubation with glutathione or compound U73122, previously described as inhibitor of 5-LO.
Since in-vitro assays might have generated artifacts, a method for 5-LO purification from human cells was sought, in order to examine the modification state of the protein in the cellular context. ATP-agarose affinity purification and anti-5-LO immunoprecipitation proved inappropriate for sample purification for MALDI-MS analysis. Consequently, two human cell lines that are able to express 5-LO (Rec-1 Blymphocytes and MM6 monocytes) were transduced with a DNA cassette that contained recombinant human 5-LO sequence with an attached N-terminal FLAG-tag. Anti-FLAG immunoprecipitation was then performed effectively in cell lysates and the precipitated FLAG-5-LO was separated by SDS-PAGE before MALDI-MS analysis.
The examined cell stimuli were expected to result to phosphorylation of 5-LO at Ser523 by PKA in Rec-1 cells and to phosphorylation of Ser271 and/or Ser663 in MM6 cells by activated MK2 and ERK2, respectively. Additionally, under the conditions of MM6 cell stimulation, Fgr, Hck and Yes kinases, which phosphorylated 5-LO in vitro, were expected to be activated and the possibility of 5-LO phosphorylation on tyrosine was investigated. Although immunoblotting results indicated that all the aforementioned phosphorylation events existed in the examined samples, MALDI-MS analysis verified only phosphorylation on Ser271 in differentiated MM6 cells, interestingly regardless of cell stimulation.
Finally, the primary amine derivatization procedure by EZ-linkTM was utilized for MS analysis of lysine rich proteins. In the past, chemical propionylation of histones had been employed prior to trypsin digestion; however it was easily confused in MS with combinations of other PTMs (e.g. acetylation, methylation). Moreover, propionylation is a PTM for histone H3 and this information was lost. Consequently, the EZ-link reagent was more useful for analysis of histones, as unambiguous assignment of PTMs and detection of native propionylation on bovine H3 became possible.
Low-energy effective models for two-flavor quantum chromodynamics and the universality hypothesis
(2014)
Die Untersuchung der Natur auf extremen Längenskalen hat seit jeher zu bahnbrechenden Einsichten und Innovationen geführt. Insbesondere zu unserem heutigen Verständnis, dass Nukleonen (Protonen und Neutronen) aus Quarks zusammengesetzt sind, die infolge der starken Wechselwirkung, vermittelt durch Gluonenaustausch, gebunden sind. Mit dem Aufkommen des Quarkmodells wurde bald die Quantenchromodynamik (QCD) erfolgreich in der Beschreibung vieler messbarer Eigenschaften der starken Wechselwirkung. Um es mit Goethe zu sagen: mit den modernen Hochenergie-Beschleuniger-Experimenten wird versucht unser Verständnis davon zu verbessern, was die Welt im Innersten zusammenhält. Am Large Hadron Collider (LHC) werden beispielsweise Protonen derart beschleunigt und miteinander zur Kollision gebracht, dass bislang unerreichte Energiedichten auftreten, infolge derer Temperatur und baryochemisches Potential Werte annehmen, die mit denen des frühen Universums vergleichbar sind. Es gibt sowohl theoretische als auch experimentelle Hinweise darauf, dass hadronische Materie mit zunehmender Temperatur und/oder zunehmendem baryochemischen Potentials einen Phasenübergang durchläuft, hin zu einem exotischen Zustand, der als Quark-Gluon-Plasma bekannt ist. Dieser Übergang wird begleitet von einem sogenannten chiralen Übergang. Es ist eine wichtige Frage, ob es sich bei diesem chiralen Übergang um einen echten Phasenübergang (von erster bzw. zweiter Ordnung) handelt, oder ob ein sogenannter crossover vorliegt. Einige Resultate deuten auf einen crossover für verschwindendes baryochemisches Potential und einen Phasenübergang erster Ordnung für verschwindende Temperatur hin, lassen jedoch noch keinen endgültigen Schluss zu, ob dies tatsächlich der Realität entspricht. Wenn ja, so liegt die Annahme nahe, dass ein kritischer Endpunkt existiert, an dem der chirale Übergang von zweiter Ordnung ist. In der Tat existiert ein kritischer Endpunkt in einigen theoretischen Zugängen zur Beschreibung des chiralen Phasenübergangs, deren Aussagekraft seit jeher lebhaft diskutiert wird. Ein zentrales Ziel des zukünftigen CBM-Experiments an der GSI in Darmstadt ist es, die Existenz im Experiment zu überprüfen.
In der Nähe des QCD-(Phasen)übergangs ist es die Abwesenheit jeglicher perturbativer Entwicklungsparameter, die exakte analytische Berechnungen verbietet. Das gleiche gilt für realistische effektive Modelle für QCD. Nichtperturbative Methoden sind daher unverzichtbar für die Untersuchung des QCD-Phasendiagramms. Zu den populärsten dieser Zugänge gehören Gitter-QCD, Resummierungsverfahren, der Dyson-Schwinger-Formalismus, sowie die Funktionale Renormierungsgruppe (FRG). All diese Methoden ergänzen sich gegenseitig und werden zum Teil auch miteinander kombiniert. Eine der Stärken der FRG-Methode ist, dass sie nicht nur erfolgreich auf effektive Modelle angewendet werden kann, sondern auch auf QCD selbst. Für letztere Ab-Initio-Rechnungen sind die aus effektiven Modellen für QCD gewonnenen Resultate von grossem Wert.
Der Schwerpunkt der vorliegenden Arbeit liegt auf der Fragestellung von welcher Ordnung der chirale Phasenübergang im Fall von genau zwei leichten Quarksorten ist. Problemstellungen wie die Suche nach einer Antwort auf die Frage nach den Bedingungen für die Existenz eines Phasenübergangs zweiter Ordnung, die Bestimmung der Universalitätsklasse in diesem Fall etc. erfordern Wissen aus verschiedenen Gebieten.
Kapitel 1 besteht aus einer allgemeinen Einleitung.
In Kapitel 2 stellen wir zunächst einige allgemeine Aspekte von Phasenübergängen dar, die von besonderer Relevanz für das Verständnis des Renormierungsgruppen-Zugangs zu ebendiesen sind. Unser Fokus liegt hierbei auf einer kritischen Untersuchung der Universalitätshypothese. Insbesondere die Rechtfertigung des linearen Sigma-Modells als effektive Theorie für den chiralen Ordnungsparameter beruht auf der Gültigkeit selbiger.
Kapitel 3 beschäftigt sich mit dem chiralen Phasenübergang von einem allgemeinen Standpunkt aus. Wir ergünzen wohlbekannte Fakten durch eine detaillierte Diskussion der sogenannten O(4)-Hypothese. Die Überprüfung der Gültigkeit selbiger wird schließlich in Kapitel 6 und 7 in Angriff genommen.
In Kapitel 4 stellen wir die von uns benutzte FRG-Methode vor. Außerdem diskutieren wir den Zusammenhang zwischen effektiven Theorien für QCD und der QCD selbst.
Kapitel 5 behandelt ein mathematisches Thema, das für alle unserer Untersuchungen unabdingbar ist, nämlich die systematische Konstruktion polynomialer Invarianten zu einer gegebenen Symmetrie. Wir präsentieren einen einfachen, jedoch neuartigen, Algorithmus für die praktische Konstruktion von Invarianten einer gegebenen polynomialen Ordnung.
Kapitel 6 widmet sich Renormierungsgruppen-Studien einer Reihe dimensional reduzierter Theorien. Von zentralem Interesse ist hierbei das lineare Sigma-Modell, insbesondere in Anwesenheit der axialen Anomalie. Es stellt sich heraus, dass die Fixpunkt-Struktur des letzteren vergleichsweise kompliziert ist und ein tieferes Verständnis der zugrundeliegenden Methode sowie ihrer Annahmen erfordert. Dies führt uns zu einer sorgfältigen Analyse der Fixpunkt-Struktur von Modellen verschiedenster Symmetrien. Im Zusammenhang mit der Untersuchung des Einflusses von Vektor- und Axial-Vektor-Mesonen stoßen wir hierbei auf eine neue Universalitä}tsklasse.
Während wenig Spielraum für die Wahl der Symmetriegruppe der effektiven Theorie für den chiralen Ordnungsparameter besteht, ist die Identifizierung der Ordnungsparameter-Komponenten mit den relevanten mesonischen Freiheitsgraden hochgradig nichttrivial. Diese Wahl entspricht der Wahl einer Darstellung der Gruppe und kann zur Zeit nicht eindeutig aus der QCD hergeleitet werden. Es ist daher unerlässlich, verschiedene Möglichkeiten auszutesten. Eine wohlbekannte Wahl besteht darin, das Pion und seinen chiralen Partner, das Sigma-Meson, der O(4)-Darstellung für SU(2)_A x SU(2)_V zuzuordnen, welche einen Phasenübergang zweiter Ordnung erlaubt. Dieses Szenario ist jedoch nur dann sinnvoll, wenn nahe der kritischen Temperatur alle anderen Mesonen entsprechend schwer sind. Im Fall von genau zwei leichten Quarkmassen erfordert dies eine hinreichend große Anomaliestärke. Berücksichtigt man zusätzlich zum Pion und Sigma-Meson auch das Eta-Meson und das a_0-Meson, liefern unsere derzeitigen expliziten Rechnungen keinen Nachweis für die Existenz eines Phasenübergang zweiter Ordnung. Stattdessen spricht die Abwesenheit eines physikalischen (hinsichtlich der Massen) infrarot-stabilen Fixpunktes für einen fluktuationsinduzierten Phasenübergang erster Ordnung. Dieses Ergebnis ist auch zu erwarten (jedoch nicht impliziert), allein durch die Existenz zweier quadratischer Invarianten. Es besteht jedoch immer noch eine hypothetische Chance auf einen Phasenübergang zweiter Ordnung in der SU(2)_A x U(2)_V -Universalitätsklasse. Dies wäre der Fall, wenn der entsprechende von uns gefundene unphysikalische infrarot-stabile Fixpunkt physikalisch werden sollte in höherer Trunkierungsordnung. Interessanterweise finden wir bei endlicher Temperatur für gewisse Parameter einen Phasenübergang zweiter Ordnung. Es ist unklar, ob diese Wahl der Parameter in den Gültigkeitsbereich der dimensional reduzierten Theorie fällt.
Erst vor kurzem (Ende September 2013) wurde die Existenz eines infrarot-stabilen U(2)_A x U(2)_V-symmetrischen Fixpunkts durch Pelissetto und Vicari verifiziert (die zugehörige anomale Dimension ist mit 0.12 angegeben). Dieses Resultat war sehr
überraschend, da für zwei leichte Quarksorten und abwesende Anomalie ein Phasenübergang erster Ordnung relativ gesichert erschien, insbesondere durch die Epsilon-Entwicklung. Offensichtlich versagt letztere jedoch im Limes D=3, also für drei räumliche Dimensionen, da lediglich Fixpunkte gefunden werden können, die auch nahe D=4 existieren. Inspiriert durch diesen wichtigen Fund führen wir eine FRG-Fixpunktstudie in lokaler Potential-Näherung und hoher Trunkierungsordnung (bis zu zehnter Ordnung in den Feldern) durch. Die Stabilitätsanalyse besitzt jedoch leider keine Aussagekraft, da die Stabilitätsmatrix für den Gaußschen Fixpunkt marginale Eigenwerte besitzt. Wir sind überzeugt davon, dass dies nicht mehr der Fall ist, wenn man über die lokale Potential-Näherung hinausgeht und eine nichtverschwindende anomale Dimension zulässt. Die bisherigen Resultate verdeutlichen die Limitierungen der lokalen Potential-Näherung und der Epsilon-Entwicklung, auf denen unsere Untersuchungen zur Universalitätshypothese in weiten Teilen beruhen. Systematische Untersuchungen der Fixpunktstruktur von Modellen mit acht Ordnungsparameter-Komponenten wurden in der Literatur im Rahmen der Epsilon-Entwicklung durchgeführt und im Rahmen dieser Dissertation innerhalb der lokalen Potential-Näherung. Die meisten der Vorhersagen der Epsilon-Entwicklung konnten bestätigt werden, einige hingegen werden in Frage gestellt durch das Auftauchen marginaler Stabilitätsmatrix-Eigenwerte.
Einige wichtige Fragestellungen können nicht im Rahmen einer dimensional reduzierten Theorie behandelt werden, da die explizite Temperaturabhängigkeit in diesem Fall eliminiert wurde.
Insbesondere ist es in diesem Fall nicht möglich, die Stärke eines Phasenübergangs erster Ordnung vorherzusagen, da diese von Observablen (Meson-Massen und die Pion-Zerfallskonstante im Vakuum) abhängen, an die man bei verschwindender Temperatur fitten muss. Dieser Umstand führt uns zu solchen FRG-Studien, in denen die Temperatur als expliziter Parameter verbleibt.
Ein beträchtlicher Teil der für die vorliegende Dissertation zur Verfügung stehenden Arbeitszeit wurde darauf verwendet, eigene Implementierungen geeigneter Algorithmen zur numerischen Lösung der auftretenden partiellen Differentialgleichungen zu finden. Exemplarische Routinen (welche ausschließlich wohlbekannte Methoden nutzen) sind in einem Anhang zur Verfügung gestellt. Das Hauptziel der vorliegenden Arbeit, die Anwendung auf effektive Modelle für QCD, wird in Kapitel 7 präsentiert. Unsere (vorläufigen) FRG-Studien des linearen Sigma-Modells mit axialer Anomalie bei nichtverschwindender Temperatur erlauben verschiedene Szenarien. Sowohl einen extrem schwach ausgeprägten, als auch einen sehr deutlichen Phasenübergang erster Ordnung, ganz abhängig von der Wahl der Ultraviolett-Abschneideskala und oben genannter Parameter. Sogar ein Phasenübergang zweiter Ordnung scheint möglich für gewisse Parameterwerte. Um verlässliche Schlussfolgerungen zu ziehen, sind weitere Untersuchungen nötig und bereits im Gange. In Kapitel 7 verifizieren wir außerdem bereits bekannte numerische Resultate für das Quark-Meson-Modell.
Die Dissertation besteht aus drei thematisch zusammenhängenden Forschungspapieren, in denen zeitstetige Konsum-, Investment- und Versicherungsprobleme über den Lebenszyklus betrachtet werden. Ein besonderer Fokus liegt auf realistischen Features wie stochastischem Sterberisiko und nicht-replizierbarem Einkommen. In der ersten Forschungsarbeit untersuche ich die Relevanz von stochastischem Sterberisiko. Dabei zeige ich, dass eine Sprungkomponente in der Sterberate die optimalen Entscheidungen der Agenten und das Wohlfahrtslevel signifikant beeinflusst. Eine Diffusionskomponente ist hingegen vernachlässigbar. In dem zweiten Forschungspapier untersuchen wir die Risikolebensversicherungsnachfrage einer Familie, dessen Alleinverdiener stochastischem Sterberisiko ausgesetzt ist. Wir achten insbesondere auf eine realistische Modellierung der Versicherung. Wir zeigen, dass dadurch junge Agenten dem Versicherungsmarkt fern bleiben und die Versicherungsnachfrage mit dem Alter steigt, im Gegensatz zu Modellen mit einfachen stetig-veränderbaren Versicherungen. Weiterhin verstärken langlaufende Versicherungsverträge die negativen Effekte von Einkommensschocks und werden daher von risikoaversen Agenten weniger abgeschlossen. In der dritten Forschungsarbeit untersuche ich die Critical Illness Versicherungsnachfrage eines Agenten in einem Modell mit stochastischem Sterberisiko und Gesundheitsausgaben. Die Versicherung übernimmt dabei die zusätzlichen Gesundheitskosten, die bei einem Sprung entstehen. Fast alle Agenten schließen solch eine Versicherung vor dem Rentenalter ab, selbst wenn diese sehr kostspielig ist. Insbesondere Agenten mit geringen Gesundheitsausgaben und hohem Einkommen haben eine hohe Versicherungsnachfrage.
Tumor development usually follows predictable paths where tumor cells acquire common characteristics and features known as the hallmarks of cancer. Recently, additional characteristics have been added to these hallmarks since solid tumors are composed of a very heterogeneous population of transformed, formerly normal tissue cells and stromal cells, e.g. immune cells and fibroblasts. Compelling evidence suggests that stromal cells and tumor cells maintain a symbiotic relationship to build up the tumor microenvironment and to fuel tumor growth. In cancer therapies, common features of tumors such as unrestricted cell growth, suppression of immunological responses, and the ability to form new blood vessels (angiogenesis) have emerged as the main targets of interest. The lipid mediator prostaglandin E2 (PGE2) is known to promote all these features and thus, is connected to cancer progression in general. Its synthesis is triggered in response to stress factors or during inflammation. Inducible PGE2 production relies on the enzymes cyclooxygenase 2 (COX-2) and microsomal prostanglandin E synthase 1 (mPGES-1), which are simultaneously expressed in response to a variety of different stimuli and are functionally coupled. Inhibition of COX-2 with non-steroidal antiinflammatory drugs (NSAIDs) for cancer treatment is, however, limited by cardiovascular risks, since selective COX-2 inhibition disrupts the prostacyclin/thromboxane balance. Therefore targeting mPGES-1 downstream of COX-2 for PGE2 inhibition was evaluated in this work in different steps of carcinogenesis. Knockdown of mPGES-1 in DU145 prostate cancer cells revealed that the mPGES-1 status did not affect growth of monolayer tumor cells, but significantly impaired 3D growth of multi-cellular tumor spheroids (MCTS). Spheroid formation induced COX-2 in DU145 and other prostate cancer spheroids. High levels of PGE2 were detected in supernatants of DU145 MCTS as opposed to monolayer DU145 cells. Pharmacological inhibition of COX-2 and mPGES-1 confirmed the pivotal role of PGE2 for DU145 MCTS growth. Besides promoting spheroid growth, MCTS-derived PGE2 also inhibited cytotoxic T lymphocyte (CTL) activation. When investigating the mechanisms of COX-2 induction during spheroid formation, the typical tumor microenvironmental factors such as glucose deprivation, hypoxia or tumor cell apoptosis failed to enhance COX-2. Interestingly, when interfering with apoptosis in DU145 spheroids, the pan-caspase inhibitor Z-VAD-FMK triggered a Summary 12 shift towards necrosis, thus enhancing COX-2 expression. Coculturing viable DU145 monolayer cells with isolated heat-shocked-treated necrotic DU145 cells, but not with necrotic cell supernatants, induced COX-2 and PGE2, confirming the impact of necrosis for MCTS growth and CTL inhibition. As mentioned, in vivo tumors are very heterogenous mixtures of tumor cells and stromal cells e.g. immune cells. Hence, the interaction of the immune system with tumors was investigated in further experiments. When coculturing MCF-7 breast cancer spheroids with human peripheral blood mononuclear cells (PBMCs), only low levels of PGE2 were detected, since MCF-7 cells did not upregulate COX-2 during spheroid formation and did not induce PGE2 production by PBMCs. Under inflammatory conditions, by adding the toll-like receptor 4 (TLR4) agonist lipopolysaccharide (LPS) to cocultures, PGE2 production was triggered, spheroid sizes were reduced, and numbers of high levels of granzyme B expressing (GrBhi) CTLs were increased, while CD80 expression by tumor-associated phagocytes was also elevated. Inhibition of CD80 but not CD86 diminished numbers of GrBhi CTLs and attenuated spheroid lysis. To determine the role of ctivation-induced PGE2 production, use of the COX-2 inhibitor celecoxib and the experimental mPGES-1 inhibitor C3 further increased CD80 expression. Addition of PGE2, the prostaglandin E2 (EP2) receptor agonist butaprost, and the phosphodiesterase 4 (PDE4) inhibitor rolipram reduced LPS/C3-triggered CD80 expression, confirming the impact of COX- 2/mPGES-1-derived PGE2 on shaping phagocyte phenotypes in an EP2/cAMP-dependent manner. In a spontaneous breast cancer model (MMTV-PyMT), mPGES-1-deficiency significantly delayed tumor growth in mice, confirming an overall protumorigenic role of mPGES-1 in breast cancer development in vivo. However in tumors of mPGES-1-/- mice, tumor-infiltrating phagocytes expressed low levels of CD80 similar to their wildtype counterparts. These data suggest that the immunosuppressive microenvironment does not allow for immunostimulatory effects by mPGES-1 inhibition without an activating stimulus. Evidences in this study recommend the application of mPGES-1 inhibitors for treating cancer diseases, since mPGES-1 promotes tumor growth in multiple steps of carcinogenesis, ranging from well-characterized effects of tumor cell growth to immune suppression of CTL activity and phagocyte polarization. Regarding the latter, blunting PGE2 during immune activation may limit the tumor-favoring features of inflammation and improve the efficiency of TLR4 based immune therapies.
This thesis is structured into 7 chapters:
• Chapter 2 gives an overview of the ultrashort high intensity laser interaction with matter. The laser interaction with an induced plasma is described, starting from the kinematics of single electron motion, followed by collective electron effects and the ponderamotive motion in the laser focus and the plasma transparency for the laser beam. The three different mechanisms prepared to accelerate and propagate electrons through matter are discussed. The following indirect acceleration of protons is explained by the Target Normal Sheath Acceleration (TNSA) mechanism. Finally some possible applications of laser accelerated protons are explained briefly.
• Chapter 3 deals with the modeling of geometry and field mapping of magnetic lens. Initial proton and electron distributions, fitted to PHELIX measured data are generated, a brief description of employed codes and used techniques in simulation is given, and the aberrations at the solenoid focal spot is studied.
• Chapter 4 presents a simulation study for suggested corrections to optimize the proton beam as a later beam source. Two tools have been employed in these suggested corrections, an aperture placed at the solenoid focal spot as energy selection tool, and a scattering foil placed in the proton beam to smooth the radial energy beam profile correlation at the focal spot due to chromatic aberrations. Another suggested correction has been investigated, to optimize the beam radius at the focal spot by lens geometry controlling.
• Chapter 5 presents a simulation study for the de-neutralization problem in TNSA caused by the fringing fields of pulsed magnetic solenoid and quadrupole. In this simulation, we followed an electrostatic model, wherethe evolution of both, self and mutual fields through the pulsed magnetic solenoid could be found, which is not the case in the quadrupole and only the growth of self fields could be found. The field mapping of magnetic elements is generated by the Matlab program, while the TraceWin code is employed to study the tracking through magnetic elements.
• Chapter 6 describes the PHELIX laser parameters at GSI with chirp pulse amplification technique (CPA), and Gafchromic Radiochromic film RCF) as a spatial energy resolver film detector. The results of experiments with laser proton acceleration, which were performed in two experimental areas at GSI (Z6 area and PHELIX Laser Hall (PLH)), are presented in section 6.3.
• Chapter 7 includes the main results of this work, conclusions and gives a perspective for future experimental activities.
Die zentralen Objekte der Dissertation sind Translationsflächen. Dabei handelt es sich um Riemann’sche Flächen, die aus in die euklidische Ebene eingebetteten Polygonen durch Verkleben von parallelen gleichlangen Seiten entstehen. Zwei Translationsflächen sind gleich, wenn es möglich ist, die Polygone durch ”Zerschneiden und mittels Translationen neu Zusammenkleben“ ineinander zu überführen. Die Gruppe GL_2(R) operiert auf der Menge der Translationsflächen via der linearen Abbildungen auf den Polygonen. Der Stabilisator einer Translationsfläche X unter dieser Operation wird die Veech-Gruppe von X genannt und mit SL(X) bezeichnet. Die Veech-Gruppe ist eine diskrete Untergruppe von SL_2(R) und damit eine Fuchs’sche Gruppe.
Fuchs’sche Gruppen werden je nach ihrer Limesmenge in elementare und nicht-elementare Gruppen eingeteilt. Letztere wiederum unterteilt man in Gruppen erster oder zweiter Art. Fuchs’sche Gruppen mit endlichem co-Volumen heißen Gitter und sind genau die endlich erzeugten Gruppen erster Art. Translationsflächen, deren Veech-Gruppe ein Gitter ist, heißen Veech-Flächen und sind von besonderem Interesse, da für sie die Veech Alternative gilt.
Ein feineres Maß für die Größe einer Fuchs’schen Gruppe ist der kritische Exponent. Er ist definiert als das Infimum aller reellen Zahlen, für die die Poincaré Reihe konvergiert und liegt für alle unendlichen Fuchs’schen Gruppen zwischen 0 und 1. Hauptziel der Dissertation ist der Beweis von Theorem 1. Es gibt Translationsflächen, für die der kritische Exponent ihrer Veech-Gruppe echt zwischen 1/2 und 1 liegt.
Der kritische Exponent von elementaren Gruppen ist höchstens 1/2, Translationsflächen mit elementaren Veech-Gruppen sind also als Kandidaten für das Theorem ausgeschlossen. Der kritische Exponent von Gittern ist 1. Also scheiden auch Veech-Flächen für das Theorem aus.
Bis zum Jahr 2003 waren Gitter die einzigen bekannten nicht-elementaren Veech-Gruppen. McMullen klassifizierte die Veech-Flächen vom Geschlecht 2 und zeigte, dass jede solche Fläche, die nur eine Singularität besitzt, in der GL_2(R)-Bahn der Fläche L_D liegt, die aus einem L-förmigen Polygon mit geeigneten von D abhängigen Seitenlängen entsteht.
Während auch heute noch keine Translationsfläche mit Veech-Gruppe zweiter Art bekannt ist, fanden McMullen und unabhängig davon Hubert und Schmidt Konstruktionen unendlich erzeugter Veech-Gruppen erster Art. Eine Abschätzung des kritischen Exponenten dieser Gruppen war 10 Jahre lang eine wichtige offene Frage, die nun durch Theorem 1 beantwortet wird.
Zentral in der Konstruktion von Hubert und Schmidt sind spezielle Punkte, nämlich Verbindungspunkte. Hubert und Schmidt konstruieren Translationsflächen, deren Veech-Gruppen kommensurabel zum Stabilisator SL(X;P) von P sind und damit den gleichen kritischen Exponenten haben. Für Verbindungspunkte mit unendlicher SL(X)- Bahn (diese Punkte heißen nicht-periodisch) ist SL(X;P) unendlich erzeugt und von erster Art.
Wir zeigen Theorem 1, indem wir zeigen, dass für jedes D kongruent 0 mod 4, (kein Quadrat), und jeden nicht-periodischen Verbindungspunkt P in L_D der kritische Exponent der Gruppe SL(L_D;P) echt zwischen 1/2 und 1 liegt.
Eine natürliche Frage in diesem Zusammenhang ist die Abhängigkeit von P: Punkte Q in der SL(L_D)-Bahn von P sind auch er nicht-periodische Verbindungspunkte und die zugehö̈rigen Gruppen SL(L_D;P) und SL(L_D;Q) sind konjugiert zueinander. Daher widmen wir uns in Kapitel 4 der Bestimmung der Bahnen nicht-periodischer Verbindungspunkte.
Die Verbindungspunkte haben die Form P=(x_r+x_iw;y_r+y_iw) mit x_r,x_i,y_r,y_i aus Q. Wir zeigen, dass der Hauptnenner N(P) dieser (gekürzten) Brüche eine Invariante der Bahn ist. Daraus folgt:
Theorem 2. Es gibt unendlich viele verschiedene Bahnen von Verbindungspunkten von L_D.
Wir kennen die Operation der horizontalen und der vertikalen Scherungen A und B aus SL(L_D). Im Spezialfall D=8 erzeugen diese beiden Elemente die ganze Gruppe und wir geben je ein Verfahren an, um eine untere und eine obere Schranke an die Anzahl der Bahnen von nicht-periodischen Verbindungspunkten P mit fixiertem Hauptnenner N(P) zu finden. Damit zeigen wir:
Theorem 3. Die Menge der Verbindungspunkte P mit festem Wert N(P) zerfällt in eine endliche Anzahl von SL(L_8)-Bahnen.
Im Beweis von Theorem 1 ist es nötig, die Nicht-Mittelbarkeit eines Graphen zu zeigen. Da wir nur sehr wenige Informationen über dessen Struktur in unserer konkreten Situation haben, entwickeln wir in Kapitel 1 die folgende Methode:
Theorem 4. Sei G ein Graph, den man durch Weglassen von Kanten in einen Wald G′ ohne Blätter überführen kann, bei dem das Supremum der Längen von zusammenhängenden Valenz-2-Teilgraphen von G′ beschränkt ist. Dann ist G nicht mittelbar.
Um diese Methode anzuwenden, ordnen wir jeder Ecke P von G ein Komplexitätsmaß s(P) zu und weisen nach, dass dieser Wert für die Operation von Worten in A- und B-Potenzen mit wachsender Wortlänge ”tendenziell wächst“.
The term compensation is widely used in every-day language, in psychological research, and also discussed in the context of Attention Deficit Hyperactivity Disorder (ADHD). However, few studies have looked at psychological compensation in ADHD systematically and theory based. Compensation can be inferred if a deficit (i.e., a mismatch between skill and environmental demand) is counterbalanced by the investment of more effort, the utilization of latent or the acquisition of new skills. Based on the application of a theoretical framework (Bäckman & Dixon, 1992) to ADHD, I developed the following aims: (1) To reassess the awareness of deficits in ADHD and (2) to explore psychological compensation in a group with ADHD that accomplishes high achievement.
The results of Study 1 showed that children with ADHD did not overestimate their own skills compared to a group matched for academic achievement. In Study 2, college students with ADHD reported higher achievement motivation compared to college students without ADHD. Furthermore, results indicated that women with ADHD compensate by adopting compensatory effort and obsessive-compulsive behavior. Study 3 showed that female college students compensate for possible deficits in solving a flanker task by being overly cautious, which may reflect more obsessive-compulsive behavior.
The studies are discussed within the framework of psychological compensation. They add to the understanding of compensation in ADHD by (1) the reassessment of awareness of deficits in ADHD by including a group without ADHD but with low achievement, and by (2) suggesting that overly cautious behavior could be a form of psychological compensation in females with ADHD enabling them to enter college, leading to a late diagnosis and to good performance in cognitive tasks (i.e., flanker task).
Limitations are, that I did not test all components of the theoretical framework in one study and that I did not include adults with ADHD that did not enter college in Study 2 and 3 to test if achievement motivation or overly cautious behavior explains why some adults with ADHD gain admittance to higher education and show good performance in cognitive tasks and others do not.
The phylogeny of the genus Gazella and the phylogeography and population genetics of arabian species
(2014)
Biodiversity is caused by a fundamental evolutionary process: speciation. When species can spread into new habitats and are allowed to colonize new ecological niches, speciation can become accelerated and is then called radiation. This can happen, e.g., when formerly separated land masses become connected. A prime example of such a scenario is the Arabian Peninsula that connects Africa and Asia since the Oligocene (approx. 30 Ma ago). Since then, the peninsula promoted several faunal exchanges between both continents. The mammalian genus Gazella is an excellent candidate for investigating this faunal exchange. Species are distributed on both, the African and Asian continent as well as on the Arabian Peninsula that is located in between. The aim of my thesis was to cast new light on the evolution and speciation of the genus and, furthermore, to evaluate the currently problematic taxonomy to infer suggestions for improved conservation actions for threatened gazelle species. Therefore, I investigated the taxon Gazella genetically and identified factors that promoted the speciation of this diverse genus. I assessed intraspecific genetic variability for species that inhabited the Arabian Peninsula to infer the past demography of those species and to estimate the history of species divergence and past population parameters.
In the first part of my thesis I inferred a mitochondrial phylogeny based on cytochrome b gene sequences using samples of all nine extant species of Gazella and also of closely related taxa (chapter 2). Besides the monophyly of the genus Gazella two reciprocally monophyletic clades were detected that evolved in allopatry: one predominantly African and one predominantly Asian clade. Within both clades species pairs could be inferred with species being ecologically adapted to different habitats: one species is a desert-dweller (probably the ancestral character state combination), while the other one is adapted to rather mountainous and humid habitats. These adaptations also correlate with the behavior of the species with the mountainous forms being sedentary, territorial and living in small groups and the desert forms being migratory, non-territorial and living in larger herds.
The second part of my thesis focuses on the Arabian gazelle species. In a study about G. subgutturosa I could show that the Arabian form G. marica (sand gazelle)—previously recognized as a subspecies of G. subgutturosa—is genetically distinct from the nominate form (chapter 3). Moreover, a phylogenetic tree based on cytochrome b gene sequences revealed a polyphyly of G. subgutturosa and G. marica with sand gazelles being more closely related to G. leptoceros and G. cuvieri of North Africa. Consequently, I suggested the restoration to full species level for G. marica corroborating earlier conservation practices of breeding both taxa separately in captivity.
In case of G. dorcas such a genetic differentiation could not be detected (chapter 4). Despite the large distribution range from Mali in the west to Saudi Arabia in the east only low genetic variation was detectable in mitochondrial sequence data. Statistically parsimony network analyses revealed pronounced haplotype sharing across regions. Using a coalescence approach I observed a steep population decline that started about 25,000 years ago and which is still ongoing. The decline could be correlated with human hunting activities in the Sahara. Hence, hunting of G. dorcas (already in ancient times) had a much larger impact on gazelle populations than previously thought and even led to the extinction of the Arabian form of G. dorcas.
In chapter 5 of my thesis I provided a rigorous test to genetically distinguish between the potential species G. gazella and G. arabica. Previously recognized as a single species mitochondrial sequence analyses provided first hints for the separation of both taxa. But without the investigation of nuclear loci the observed pattern could also be the result of male biased dispersal combined with female philopatry. Therefore, I amplified mitochondrial sequence markers and nuclear microsatellite loci for both taxa and found support for the earlier view of two separate species. No signs of recurrent gene flow could be detected between neighboring populations of G. arabica and G. gazella. The split of both species could be estimated one million years ago and the recommendation of breeding both taxa separately in captivity for conservation purposes is fully justified.
Several populations of G. arabica suffer from a severe decline. In chapter 6 I asked whether the population occurring on the Farasan archipelago—being at stable individual numbers for decades—may serve as potential source for future reintroduction on the Arabian mainland, although the gazelles show a reduced body size. Analyzing the genetic differentiation of Farasan gazelles, a genetic cluster could be inferred being endemic to the archipelago. However, only approx. 70% of Farasan individuals were assigned to this specific cluster, while the others showed at least intermediate or even complete assignment to the mainland cluster. This indicates ongoing introgression that is probably mediated by human translocations of gazelles from and onto the islands. Considering the uniform dwarfism of Farasan gazelles, reasons for the smaller body size might be direct consequences of resource limitations, i.e., phenotypic plasticity. If the population decline on the mainland will hold on Farasan gazelles could serve as stocks for future reintroductions.
In this thesis hard probes are studied in the partonic transport model BAMPS (Boltzmann Approach to MultiParton Scatterings). Employing Monte Carlo techniques, this model describes the 3+1 dimensional evolution of the quark gluon plasma phase in ultra-relativistic heavy-ion collisions by propagating all particles in space and time and carrying out their collisions according to the Boltzmann equation. Since hard probes are produced in hard processes with a large momentum transfer, the value of the running coupling is small and their interactions should be describable within perturbative QCD (pQCD). This work focuses on open heavy flavor, but also addresses the suppression of light parton jets, in particular to highlight differences due to the mass. For light partons, radiative processes are the dominant contribution to their energy loss. For heavy quarks, we show that also binary interactions with a running coupling and an improved Debye screening matched to hard-thermal-loop calculations play an important role. Furthermore, the impact of the mass in radiative interactions, prominently named the dead cone effect, and the interplay with the Landau-Pomeranchuk-Migdal (LPM) effect are studied in great detail. Since the transport model BAMPS has access to all medium properties and the space time information of heavy quarks, it is the ideal tool to study the dissociation and regeneration of J/psi mesons, which is also investigated in this thesis.
The objective of the present doctoral thesis was to investigate the occurrence, distribution, and behaviour of six hydrophilic ethers: ethyl tert-butyl ether (ETBE), 1,4-dioxane, ethylene glycol dimethyl ether (monoglyme), diethylene glycol dimethyl ether (diglyme), triethylene glycol dimethyl ether (triglyme), and tetraethylene glycol dimethyl ether (tetraglyme) in surface-, waste-, ground- and drinking water samples. Solid phase extraction and gas chromatography/mass spectrometry were used to analyze the six hydrophilic ethers. Altogether more than 150 surface water samples, almost 100 of each groundwater and wastewater samples, and 10 raw and drinking water samples were analyzed during the research project.
Initially, the method was validated in order to simultaneously determine the analytes of interest in various aquatic environments. A solid phase extraction method that uses coconut charcoal (Resprep® activated coconut charcoal, Restek) or carbon molecular sieve material (SupelcleanTM Envi-CarbTM Plus, Supelco) for analyte absorption were found suitable for determination of ETBE, 1,4-dioxane, and glymes in surface-, drinking-, ground- and wastewater samples. Precision and accuracy of both methods was demonstrated for all analytes of interest. The recovery of target compounds from the ultrapure water spiked at 1.0 µg L−1 was between 86.8 % and 98.2 %, with relative standard deviation below 6 %. The samples spiked at 10.0 µg L−1 gave slightly higher recovery of 90.6 % to 112.2 % with a relative standard deviation below 3.4 % for each analyte. Detection and quantification limits in ultrapure water and surface waters were furthermore established. The limit of quantitation (LOQ) in ultrapure water ranged between 0.024 µg L−1 to 0.057 µg L−1 using Restek cartridges, and 0.030 µg L−1 to 0.069 µg L−1 using Supelco cartridges. In the surface water samples the calculated LOQ was 0.032 µg L−1 to 0.067µg L−1 using coconut charcoal material and 0.032 µg L−1 to 0.052 µg L−1 using the carbon molecular sieve material. Moreover, stability of the unpreserved and preserved water samples as well as the extracts was determined. Preservation of samples with sodium bisulfate (at 1 gram per Liter) resulted in much better stability of the ethers in water samples. Subsequently, 27 samples obtained from seven surface water bodies in Germany (Rivers Rhine, Lippe, Main, Oder, Rur, Schwarzbach and Wesel-Datteln Canal) were analyzed for the six hydrophilic ethers. ETBE was present in only two surface waters (Rhine River and Wesel-Datteln Canal) with concentrations close to the LOQ (up to 0.065 µg L−1). 1,4-Dioxane was detected in all of the water samples at concentrations reaching 1.93 µg L–1. Monoglyme was identified only in the Main and Rhine Rivers at the maximum concentration of 0.114 µg L–1 and 0.427 µg L–1, respectively. Very high concentrations (up to 1.73 µg L−1) of diglyme, triglyme, and tetraglyme were detected in the samples from the Oder River. These glymes were also detected in the Rhine River; however the concentrations did not exceed 0.200 µg L–1. Furthermore, tetraglyme was detected in the Main River at an average concentration of 0.409 µg L–1 (n = 6) and in one sample from the Rur River at 0.192 µg L–1.
Four sampling campaigns were conducted at the Oderbruch polder between October 2009 and May 2012, in order to study the behavior of the hydrophilic ethers and organophosphates during riverbank filtration and in the anoxic aquifer. Moreover the suitability of these target compounds was assessed for their use as groundwater organic tracers. At the time of each sampling campaign, concentrations of triglyme and tetraglyme in the Oder River were between 20–185 ng L–1 (n = 4) and 273¬–1576 ng L–1 (n = 4). Monoglyme, diglyme, and 1,4-dioxane were analyzed only during the two last sampling campaigns. At that time, the concentration of diglyme in Oder River was 65¬–94 ng L-1 (n = 2) and 1,4-dioxane 1610¬–3290 ng L–1 (n = 2). In the drainage ditch, following bank filtration, concentrations of ethers ranged between 1090 ng L–1 and 1467 ng L–1 for 1,4-dioxane, 23¬ng L–1 and 41 ng L–1 for diglyme, 37 ng L–1 and 149 ng L–1 for triglyme, and 496 ng L–1 and 1403 ng L–1 for tetraglyme. In the anoxic aquifer, 1,4-dioxane showed the greatest persistence during the groundwater passage. At the distance of 1150 m from the river and an estimated groundwater age of 41.9 years, a concentration above 200 ng L−1 was detected. A positive correlation was found for the inorganic tracer chloride (Cl−) with 1,4-dioxane and tetraglyme. Similarities in the behavior of Cl− and the organic compound suggested that 1,4-dioxane and tetraglyme are controlled by the same hydraulic process and therefore can be used as additional tracers to study the dynamics of the groundwater system. These results show that high concentrations of ethers are present in the surface water and are not removed during bank filtration processes. Moreover, the hydrophilic ethers persist in the anoxic aquifer and little or no degradation is expected, supporting, their possible application as organic tracers.
A separate sampling project was conducted for 1,4-dioxane that focused primarily on its fate in the aquatic environment. This study provided missing information on the extent of water pollution with 1,4-dioxane is Germany. Numerous waste-, surface-, ground- and drinking water samples were collected in order to determine the persistence of 1,4-dioxane in the aquatic environment. The occurrence of 1,4-dioxane was determined in wastewater samples from four municipal sewage treatment plants (STP). The influent and effluent samples were collected during weekly campaigns. The average influent concentrations in all four plants ranged from 262 ± 32 ng L−1 to 834 ± 480 ng L−1, whereas the average effluents concentrations were between 267 ± 35 ng L−1 and 62,260 ± 36,000 ng L−1. The source of increased 1,4-dioxane concentrations in one of the effluents was identified to originate from impurities in the methanol used in the postanoxic denitrification process. Spatial and temporal distribution of 1,4-dioxane in the river Main, Rhine, and Oder was also examined. Concentrations reaching 2,200 ng L−1 in the Oder River, and 860 ng L−1 in both Main and Rhine River were detected. The average load during the sampling was estimated to be 6.5 kg d−1 in the Main, 34.1 kg d−1 in the Oder, and 134.5 kg d−1 in the Rhine River. In all of the sampled rivers, concentrations of 1,4-dioxane increased with distance from the mouth of the river and were found to negatively correlate with the discharge of the river. In order to determine if 1,4-dioxane can reach drinking water supplies, samples from a Rhine River bank filtration site and potable water from two drinking water production facilities were analyzed for the presence of 1,4-dioxane in the raw water and finished potable water. The raw water (following bank filtration) contained 650 ng L−1 to 670 ng L−1 of 1,4-dioxane, whereas the concentration in the finished drinking water fell only to 600 ng L−1 and 490 ng L−1, respectively.
During the final project, investigations of the source identification of high glyme concentrations in the Oder River were carried out. During four sampling campaigns between January, 2012 and April, 2013, 50 samples from the Oder River in the Oderbruch region and Poland were collected. During the first two samplings in the Oderbruch polder, glymes were detected at concentration reaching 0.07 µg L-1 (diglyme), 0.54 µg L−1 (triglyme) and 1.73 µg L−1 (tetraglyme) in the Oder River. The extensive sampling campaign of the Oder River (about 500 km) in Poland helped to identify the area of possible glyme entry into the river. During that sampling the maximum concentrations of triglyme and tetraglyme were 0.46 µg L−1 and 2.21 µg L−1, respectively. A closer investigation of the identified area of pollution, helped to determine the possible sources of glymes in the Oder River. Hence, the final sampling focused on the Kaczawa River, a left tributary of the Oder River and Czarna Woda, a left tributary of Kaczawa River. Moreover, samples from an industrial wastewater treatment plant were collected. Samples from Czarna Woda stream and Kaczawa River contained even higher concentrations of diglyme, triglyme, and tetraglyme, reaching 5.18 µg L−1, 12.87 µg L−1 and 80.81 µg L−1, respectively. Finally, three water samples from a wastewater treatment plant receiving influents from a copper smelter were analyzed. Diglyme, triglyme, and tetraglyme were present at an average concentration of 569 µg L−1, 4300 µg L−1, and 65900 µg L−1, respectively in the wastewater. Further research helped to identify the source of the glymes in the wastewater. The gas desulfurization process – Solinox implemented in the nearby copper smelter uses glymes as physical absorption medium for sulfur dioxide.
Results of this doctoral research provide important information about the occurrence, distribution, and behavior of hydrophilic ethers: 1,4-dioxane, monoglyme, diglyme, triglyme, and tetraglyme in the aquatic environment. A method capable of analyzing a wide range of ether compounds: from a volatile ETBE to a high molecular weight tetraglyme was validated. 1,4-Dioxane and tetraglyme were found to be applicable as organic tracers, since they are not easily attenuated during bank filtration and the anoxic groundwater passage. The extent of water pollution with 1,4-dioxane was shown in waste-, surface-, ground-, and drinking waters. One source of extremely high concentrations of 1,4-dioxane in a municipal sewage treatment plant applying postanoxic denitrification was identified, however more information is needed on the entry of 1,4-dioxane into surface waters. Moreover, 1,4-dioxane was present in drinking water samples from river bank filtration, which demonstrates its persistence in the aquatic environment and its low degradation potential during bank filtration and subsequent water treatment. Furthermore, this was the first study that focused primarily on identifying sources of glymes in surface waters. Glymes find a widespread use in industrial sectors, hence establishing their origin in the surface water is difficult (as with 1,4-dioxane). In this work, a gas desulphurization process was identified to be a dominating source of glyme pollution in the Oder River.
In this thesis, different physical and electrical aspects of silicon microstrip sensors and low-mass multi-line readout cables have been investigated. These silicon microstrip sensors and readout cables will be used in the Silicon Tracking System (STS) of the fixed-target heavy-ion Compressed Baryonic Matter (CBM) experiment which is under development at the upcoming Facility for Antiproton and ion Research (FAIR) in Darmstadt, Germany. The highly segmented low-mass tracking system is a central CBM detector system to resolve the high tracking densities of charged particles originating from beam-target interactions. Considering the low material budget requirement the double-sided silicon microstrip detectors have been used in several planar tracking stations. The readout electronics is planned to be installed at the periphery of the tracking stations along with the cooling system. Low-mass multi-line readout cables shall bridge the distance between the microstrip sensors and the readout electronics. The CBM running operational scenario suggests that some parts of the tracking stations are expected to be exposed to a total integrated particle fluence of the order of 1e14 neq/cm2. After 1e14 neq/cm2 the damaged modules in the tracking stations will be replaced. Thus radiation hard sensor is an important requirement for the sensors. Moreover, to cope with the high reaction rates, free-streaming (triggerless) readout electronics with online event reconstruction must be used which require high signal-to-noise (SNR) ratio (i.e., high signal efficiency, low noise contributions). Therefore, reduction in noise is a major goal of the sensor and cable development.
For better insight into the different aspects of the silicon microstrip sensors and multi-line readout cables, the simulation study has been performed using SYNOPSYS TCAD tools. 3D models of the silicon microstrip sensors and the readout cables were implemented which is motivated by the stereoscopic construction of the silicon microstrip sensors. For the evaluation of the performance of the silicon microstrip sensors in the harsh radiation environment during experimental operation, a radiation damage model has been included. It reproduces the behavior of the irradiated CBM prototype sensors. In addition to the static characteristics, the interstrip parameters relevant to understand strip isolation and cross-talk issues have been extracted. The transient simulations have been performed to estimate the charge collection performance of the irradiated sensors. The signal transmission in the readout cables has been evaluated with the finite element simulation tool RAPHAEL. Based on the performance of the front-end electronics used for early prototyping in the CBM experiment, capacitive and resistive noise contributions from the silicon microstrip sensors and multi-line readout cables have been extracted.
To validate the aforementioned simulations, numerous tests have been performed both on the multi-line readout cables and silicon microstrip sensors. Characterizations of multi-line readout cables and silicon microstrip sensors in laboratory conditions have been found to agree reasonably well with the simulations. Considering the expected radiation environment the behavior of silicon microstrip sensors have been studied especially in terms of noise and charge collection efficiency. Source-scan of the silicon microstrip sensors using 241Am is presented. In order to test a first system of detector stations including the data acquisition system, slow control and online monitoring software and for track reconstruction, in-beam tests have been performed at the COSY synchrotron of the Research Center Juelich, Germany. Further, different design parameters have been suggested to improve the sensor and readout cable design on the basis of the simulations and the measurements. Many of these parameters have been implemented in the new prototypes under production. These new prototypes will be tested in-beam by the end of 2013.
Imitation paradigms are used in various domains of developmental psychological research to assess various cognitive processes such as memory (deferred imitation), action perception and action understanding (mainly direct imitation), as well as categorization and learning about objects (deferred imitation with a change in target objects and generalized imitation). Although these processes are most likely not independent from each other, their relations are still largely unclear. On the one hand, deferred imitation studies have shown that infants' performance improves with increasing age, resulting in the reproduction of more target actions after longer delay intervals. On the other hand, imitation studies focusing on infants' action understanding have found that infants do not necessarily imitate the model's exact actions – actions or action steps that seem to be irrational or irrelevant are omitted by infants under certain circumstances (selective imitation). Additionally, findings of imitation studies that require a transfer of the target actions to novel objects have demonstrated that infants do not only learn about actions, but also about objects, when they engage in imitation.
The present dissertation aims at integrating different perspectives of imitation research by testing 12- and 18-month-old infants in deferred imitation tests consisting of functional vs. arbitrary target actions, and by combining deferred imitation with eye tracking in half of the experiments. A deferred imitation paradigm was chosen to assess memory performance. Systematic variation of target action characteristics enabled the assessment of infants' imitation pattern, i.e., if they would imitate one kind of target actions more frequently than the other. Functionality was chosen as the action characteristic in focus because function is an object's most important property, thus this variation might shed some light on infants' learning about objects in the context of an imitation test. The main goal of the eye tracking experiments was to tackle the relations between infants' visual attention to, and deferred imitation of, different kinds of target actions.
The behavioral experiments revealed that both 12- and 18-month-olds imitated significantly more functional than arbitrary target actions after a delay of 30 minutes. In addition, while 12-month-olds showed a memory effect only for functional actions, 18-month-olds showed a memory effect for both kinds of actions. Thus, 12-month-olds imitated strictly selectively, and 18-month-olds imitated more exactly. This shows that the well established memory effect is modulated by target action functionality, which affects 12- and 18-month-olds' imitation differently. Furthermore, when retested after a two weeks delay, 18-month-olds' performance rates of functional and arbitrary target actions decreased parallel. This suggests that selective imitation is not affected by the duration of the retention interval, and that selection of target actions takes place at an earlier stage of action perception and memory processes.
In the eye tracking experiments, both 12- and 18-month-olds' imitation patterns replicated the findings of the behavioral experiments, showing consistently higher imitation rates of functional than arbitrary target actions. Contrary to this, infants' fixation times to the target actions were not affected by target action functionality. This contrast was supported by statistical analyses that found no clear correspondence between visual attention to and deferred imitation of target actions. This suggests that selective imitation cannot be explained by selective visual attention. Nevertheless, finer-grained analyses of gaze and imitation data in the 18 months old group suggested that infants' increased attention to the social-communicative context of the imitation task was related to more exact imitation, i.e. imitation of not only functional, but also arbitrary target actions.
The findings are discussed against the background of imitation theories, with regard to the relations between different cognitive processes underlying infants' imitation, such as memory, action perception and learning about objects.
The work presented in this thesis is devoted to two classes of mathematical population genetics models, namely the Kingman-coalescent and the Beta-coalescents. Chapters 2, 3 and 4 of the thesis include results concerned with the first model, whereas Chapter 5 presents contributions to the second class of models.
Lichens are present in most land ecosystems, frequently occupying habitats where few other organisms are able to survive. Their contribution to the ecosystems in terms of biomass and ground cover increases with latitude and altitude, being, together with bryophytes, the most conspicuous component of alpine and polar landscapes. Whereas some polar lichens have reduced distributions and are restricted to high latitudes, most of them have very wide distributional ranges, which oven extend over several climatic regions. Many of them are common to Polar Regions of both hemispheres, a distributional pattern that has been denominated as bipolar, antitropical or amphitropical. Bipolar distributions are not exclusive to lichens, but common to many groups of organisms. The bipolar element in lichens is exceptional as it includes a large number of species, while in most other land organisms it includes genera or families but very seldom species.
In this dissertation I use the bipolar lichen Cetraria aculeata to give a first insight into the phylogeography of this biogeographic element in lichens. I discuss how and when the disjunct distribution of C. aculeata came to be, and try to partial out the roles that historical and ecological processes played in shaping its distribution.
Sampling was designed to cover a wide geographic extension. The main e"ort was made to collect in boreal, temperate and tropical mountain ranges in North and South America, as well to include Mediterranean populations in which specimens with deviant morphologies are observed.
I found that Cetraria aculeata forms a genetically congruent taxon. Although whether it should include C. muricata remains unsolved, I excluded all specimens identified as the latter from our analyses. Thee populations of both algal and fungal symbionts have a strong geographic structure. The study of the lichen fungus suggested that the species originated in the Eurasian continent and later expanded to acquire its current distribution during the Pleistocene. The results showed that all American populations originated from an ancestral population, more similar to the extant Arctic populations than to the Mediterranean ones.
The comparison between the structure of fungal and algal populations showed a high degree of coherence between them. However, the similarity in photobiont use between Arctic and Antarctic populations suggests that photobiont use responds not only to a history of codispersal in vegetative propagula, but it is also a result of a selective process related to climate. Since this climatic pattern of similarity is also found in the community of Alphaproteobacteria associated with C. aculeata, we concluded that lichens might be able to accommodate or to respond to different environmental conditions by selectively associating with different symbiotic partners.
Lastly, we found the Mediterranean populations of C. aculeata to be genetically differentiated in algal and fungal symbionts from the rest of the populations. While we found no grounds to believe that the overgrown morphs encountered in the region are due to the association with different algal lineages, I believe that a switch in photobiont use might be responsible for the pattern of genetic isolation encountered. Furthermore, I suggest that the Mediterranean and bipolar C. aculeata could be two different species, since both are ecologically, genetically and at least in part morphologically divergent.
Natural products (NPs) have been a rich source for pharmaceutically used anti-infectives and other drugs. However, the application of anti-infectives inevitably causes the development of resistant and multiresistant pathogens, which have to be treated with novel anti-infectives. The industrial research for novel anti-infectives has been concentrating on members of the bacterial Actinomycetales for a long time. Due to several reasons, e.g. the rediscovery of already known NPs, pharmaceutical companies abandoned their NP-research and focused on drug development based on combinatorial chemistry. However, the limited structural diversity of merely synthetic compound libraries has not been a fruitful source for bioactive compounds. Hence the discovery of novel bioactive NPs as a source for anti-infectives is still of economical and humanitarian interest and will remain to be an important branch of research in the future. One strategy to circumvent the rediscovery of bioactive NPs is the analysis of yet unexplored bacterial taxa. Based on this assumption, this work aimed at the discovery of novel NPs from the entomopathogenic bacterial genera Xenorhabdus and Photorhabdus and other promising taxa, as well as the investigation of their biosynthesis. ...