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Pulsed electron-electron double resonance (PELDOR), also called Double Electron-Electron Resonance, (DEER) is a pulsed EPR technique that can provide structural information of biomolecules, such as proteins or nucleic acids, complementary to other structure determination methods by measuring long distances (from 1.5 up to 10 nm) between two paramagnetic labels. Incorporation of the rigid Ç-label pairwise into DNA or RNA molecules enables the determination not only of the distance but also of the mutual orientation between the two Ç-labels by multi-frequency orientation-selective PELDOR data (X-, Q- and G-band frequencies). Thus, information about the orientation of secondary structure elements of nucleic acids can be revealed and used as additional angular information for structure determination. Since Ç does not have motion independent from the helix where it resides, the conformational flexibility of the nucleic acid molecule can be directly determined. This thesis demonstrates the advancement of PELDOR spectroscopy, beyond its original scope of distance measurements, to determine the mutual orientation between two rigid spin labels towards the characterization of the conformational space sampled by highly flexible nucleic acid molecules. Applications of the methodology are shown on two systems: a three-way junction, namely a cocaine aptamer in its bound-state, and a two-way junction, namely a bent DNA.
More in detail, the conformational changes of the cocaine aptamer upon cocaine binding were investigated by analysis of the distance distributions. The cocaine-bound and the unbound states could be differentiated by their conformational flexibility, which decreases in the presence of the ligand. Moreover, the obtained distance distributions revealed a small change in the mean distance between the two spin labels upon cocaine binding. This indicates a ligand-induced conformational change, which presumably originates at the junction where cocaine is known to bind. The investigation of the relative orientation between the two spin-labeled helices of the aptamer revealed further structural insights into the conformational dynamics of the cocaine-bound state. The angular information from the orientation-selective PELDOR data and the a priori knowledge about the secondary structure of the aptamer were helpful in obtaining a molecular model describing its global folding and flexibility. In spite of a large flexible aptamer, the kink angle between the Ç-labeled helices was found to be rather well-defined.
As for the bent DNA molecule, a two-step protocol was proposed to investigate the conformational flexibility. In the first step, a database with all the possible conformers was created, using available restraints from NMR and distance restraints derived from PELDOR. In a second step, a weighted ensemble of these conformers fitting the multi-frequency PELDOR data was built. The uniqueness of the obtained structural ensemble was checked by validation against an independent PELDOR data set recorded at a higher magnetic field strength. In addition, the kink and twist angle pairs were determined and the resulting structural ensemble was compared with the conformational space deduced both from FRET experiments and from the structure determined by the NMR restraints alone.
Overall, this thesis underlines the potential of using PELDOR spectroscopy combined with rigid spin labels in the context of structure determination of nucleic acids in order to determine the relative orientation between two helices, the conformational flexibility and the conformational changes of nucleic acid molecules upon ligand binding.
Algae as primary producers are highly important in aquatic ecosystems and provide a variety of environmental and anthropogenic services. In small lotic ecosystems in agriculturally influenced landscapes, algae are often the main constituent of the base of the food web and they contribute considerably to biodiversity. Within these small lotic ecosystems, algae are influenced by both natural stressors, such as flow regime and dry-out events, and anthropogenic factors. Agricultural practices especially influence algal communities by introducing plant protection products (PPP) and fertilizers into the water. The impacts of these exposures and how they affect planktonic algae in particular are not yet well studied in small lotic ecosystems. However, the protection of algae as primary producers is of high relevance and was thus included in official biomonitoring programs such as the European Water Framework Directive (WFD) or in risk assessment of e.g. PPPs. Hence, this thesis addresses this knowledge gap and links new information on algal communities in small lotic ecosystems with biomonitoring and risk assessment.
Data was gathered from small ditches and streams in central Germany as well as from laboratory algal assays. A technique to rapidly classify and quantify planktonic and benthic algae based on their photopigment concentration (measured via delayed fluorescence - DF) in ecological and ecotoxicological studies was assessed, both in the laboratory and in the field. This research provides insight into planktonic and benthic algal communities in small streams and ditches in order to improve management and protection strategies in the face of increased agricultural chemical input. ...
The political, the urban, and the cosmopolitan : the 1970s generation in Romanian-German poetry
(2010)
This study is an introduction to the body of work produced by the German poets who were born during or after World War II in Romania and whose almost simultaneous debut lies in the relatively liberal period 1965 – 1971. Helped onto the Romanian-German literary scene by a propitious environment and informed by the socialist ideology they were born “into,” the poets born between 1942 and 1955 formed a remarkable generation unit which sought to significantly renew German-language literature in Romania. Rejecting identification with the insulary Romanian-German communities, the young poets strove to create a socially and politically relevant verse expressing an urban and cosmopolitan attitude. The growing nationalist rhetoric and isolationist stance of Romania's regime and the material and psychological hardships endured by its population through the 1970s and 80s forced the generation to revise its incipient enthusiasm for Romanian socialism. Increasingly, the poets' work came to depict the threatened existence of the German minority and the harsh general living conditions in Romania and to provide an alternative to the absurd official proclamations of a “golden age” under Ceauşescu, despite the poetry's growing reliance on obscuring literary techniques. The emigration of most of the generation members in the mid to late 1980s brought about the eventual unravelling of the generation unit and marks the end of my study. By following the evolution of three themes – social and political engagement, the German minority, and the urban environment – which define the poets as a generation throughout their literary careers in Romania, the analysis illuminates not only the generation's development from identification with Romanian socialism and rejection of the German minority to criticism of the country's policies and a renewed interest in the fate of the German community but also the changing possibilities and limits of literary expression under communism. In addition to providing an introduction to the body of work created by the 1970s generation in Romania, the study also expands the understanding of German literature in the 20th century by providing new material on literature written under totalitarianism and of intercultural German literature.
Cells within a tissue form highly complex, cellular interactions. This architecture is lost in twodimensional cell cultures. To close the gap between two-dimensional cell cultures and in vivo tissues, three-dimensional cell cultures were developed. Three-dimensional cellular aggregates such as spheroids, organoids, or embryoid bodies have been established as an essential tool in many different aspects of life science, including tumour biology, drug screening and embryonic development. To fully take advantage of the third dimension, imaging techniques are essential. The emerging field of “imagebased systems biology” exploits the information in images and builds a connection between experimental and theoretical investigation of biological processes at a spatio-temporal level. Such interdisciplinary approaches strongly depend on the development of protocols to establish threedimensional cell cultures, innovations in sample preparation, well-suited imaging techniques and quantitative segmentation methods.
Although three-dimensional cell cultures and image-based systems biology provide a great potential, two-dimensional methods are still not completely replaced by three-dimensional methods. The knowledge about many biological processes relies on two-dimensional experiments. This is mainly due to methodical and technical hurdles. Therefore, this thesis provides a significant contribution to overcome these hurdles and to further develop three-dimensional cell cultures. I established computational as well as experimental methods related to three-dimensional cellular aggregates and investigated fundamental, cellular processes such as adhesion, growth and differentiation.
Cancer cells, in general and especially Rhabdomyosarcoma (RMS) cells have been reported to be highly susceptible to oxidative stress. Based on this knowledge we examined whether the inhibition of the two main antioxidant defense pathways, i.e. the thioredoxin (TRX) and the glutathione (GSH) system, represents a possible new strategy to induce cell death in RMS. To do so, we combined the -glutamylcysteine synthetase (γGCL) inhibitor buthionine sulfoximine (BSO) or the cystine/glutamate antiporter (xc-) inhibitor erastin (ERA), both GSH depleting enzymes, with the thioredoxinreductase (TrxR) inhibitor auranofin (AUR) to evaluate synergistic cell death in the alveolar RMS (ARMS) cell line RH30 and the embryonal RMS (ERMS) cells RD.
Furthermore, we tried to unravel the underlying molecular mechanisms of AUR/BSO or AUR/ERA treatment in RMS cells. Thereby we showed that AUR/BSO as well as AUR/ERA treatment leads to proteasome inhibition characterized by the accumulation of ubiquitinated proteins, which is in agreement with the already published ability of AUR to inhibit proteasomeassociated deubiquitinases (DUBs) aside from TrxR. As a consequence, the protein levels of ubiquitinated short-lived proteins, like NOXA and MCL-1, increase upon treatment with AUR/BSO or AUR/ERA. Consistently, we could detect an increased binding of NOXA to MCL-1. Interestingly, not only NOXA protein levels but also mRNA levels rise upon treatment, pointing to a transcriptional regulation of pro-apoptotic NOXA through AUR/BSO or AUR/ERA combination treatment. The fact that siRNA mediated knockdown of NOXA rescues cells from combination treatment-induced cell death strengthens the role of NOXA as an important regulator of cell death induction. Apart from proteasome inhibition and subsequent NOXA accumulation, AUR cooperates with BSO or ERA to trigger BAX/BAK activation, which is needed for cell death induction, too. Additionally, loss of mitochondrial membrane potential (MMP) as well as caspase activation and PARP cleavage is detected after treatment of RMS cells with AUR/BSO or AUR/ERA.
Except of apoptotic cell death we also detected features of iron-dependent ferroptosis after treatment with AUR/BSO or AUR/ERA. This is not surprising, since BSO and ERA already have been described to induce ferroptotic cell death. Although lipid peroxidation takes place in both cell lines, only in RH30 cells, cell death seems to be partially ferroptosis-dependent, since especially in this cell line AUR/BSO- or AUR/ERA-induced cell death can be rescued with different ferroptosis inhibitors.
Although both combination treatments, AUR/BSO as well as AUR/ERA, induce production of reactive oxygen species (ROS), only the thiol-containing ROS scavengers GSH and its precursor N-acetylcysteine (NAC), but not the non-thiolcontaining antioxidant α-Tocopherol (α-Toc), consistently prevent proteasome inhibition, NOXA accumulation and cell death.
Additionally, we demonstrated that BSO and ERA abolish AUR-mediated upregulation of GSH thereby releasing the AUR cytotoxic effect on RMS cells, in line with the described ability of cysteines to inhibit the function of AUR. Together, this points to the conclusion that GSH depletion, rather than an increase in ROS levels, is important for AUR/BSO- or AUR/ERA-induced cell death.
In conclusion, through revealing that the antitumor activity of AUR is enhanced in combination with GSH depleting agents, we identified redox homeostasis as a new and promising target for the treatment of RMS cells.
In the first part of the thesis we investigate Lyapunov exponents for general flat vector bundles over Riemann surfaces and we describe properties of Lyapunov exponents on special loci of the moduli space of flat vector bundles. In the second part of the thesis we show how the knowledge of Lyapunov exponent over a sporadic Teichmüller curve can be used to compute the algebraic equation of the associated universal family of curves.
The metabolome of any live cell consists of several hundred, if not thousands of different molecules at any given moment, be it a relatively small bacterial cell or a whole multicellular organism. Although there are continuous attempts to differentiate between primary and secondary metabolites, the borders often blur in the eye of almost perfect interconvertability of all such matter. With chemistry and physics dominating this domain of biology it is an interdisciplinary endeavor to tackle the questions surrounding the workings of the metabolic pathways involved, searching for answers that ultimately help us to better understand life and find solutions to problems that affect us humans. One area of biochemistry that serves as a formidable example of the intertwined primary and secondary metabolic pathways are fatty acids, essential components of bacterial membranes, sources of energy and carbon but also important building blocks of several natural products. The second area to be mentioned is the metabolism of amino acids, the basic components of proteins and enzymes, which also serve as precursors to a diverse set of metabolites with many biological purposes.
This work focuses on these two areas of biochemistry, as several intermediates of their metabolism serve as building blocks for complex secondary metabolites whence many interesting and bioactive natural products are derived. The powerful and relatively novel tool of click-chemistry is employed to track azide-labeled precursors of primary and secondary metabolism in various bacterial strains to observe biochemistry at work and adds to the knowledge gained through other methods. The methods presented in this work serve the observation of fatty acid biosynthesis, degradation, modification and transport through direct ligation of azido fatty acids with cyclooctynes on one hand, leading to a revision of fatty acid transport in general. On the other hand a cleavable azide-reactive resin is devised to generally track the fate of azidated compounds through the myriads of metabolic pathways offered by entomopathogenic bacteria possessing a rich secondary metabolism. The resulting findings led to the identification of several antimicrobial peptides, amides and other compounds of which many had remained so far undetected in the strains that underwent investigation, underlining the worth of this method for future metabolomic research and beyond.
The role of the homeobox transcription factor Meis2b in zebrafish heart development and asymmetry
(2018)
Zebrafish heart development: The heart of the zebrafish is the first organ to form and function during embryonic development, and is composed by one atrium and one ventricle. Between 5-17 somites stage, the cardiomyocyte precursors form the bilateral cardiac fields in the anterior lateral plate mesoderm (ALMP); where the endocardial precursors are located anterior to the cardiac fields (Zeng, Wilm et al. 2007). Then, the pools of endocardial andmyocardial precursors fuse at the midline and form the heart disc; where atrial cardiomyocytes are located around, the ventricular cardiomyocytes are located in the centerof the heart disc, and the future endocardium is located in a ventral position relative to the cardiomyocytes (Bakkers 2011). After the heart disc is formed, the cardiomyocyte progenitors start to migrate and rotate asymmetrically to form the heart tube (de Campos-Baptista, Holtzman et al. 2008, Rohr, Otten et al. 2008, Smith, Chocron et al. 2008). This process is followed by a rightward bending of the heart tube, and the arterial and venous poles rotate at different speed and directions (a process known as heart looping) (Smith, Chocron et al. 2008). The heart looping process results in a ventricle located on the right side and a more posterior atrium located on the left side with respect to the midline; at this point the atrium and ventricle are separated by a fine segment called the atrioventricular canal, where the valves will be formed (Staudt and Stainier 2012). The second heart field (SHF) is a pool of cardiac progenitors that are specified later during the formation of the heart disc and until the heart looping stages. The SHF contributes withcells to the distal side of the ventricle, the outflow and inflow tracts, and is important for the specification of the cardiac conduction system (de Pater, Clijsters et al. 2009, Hami, Grimes et al. 2011, Zhou, Cashman et al. 2011, Witzel, Jungblut et al. 2012, Guner-Ataman, Paffett-Lugassy et al. 2013)....
Whereas many writers across all times and cultures have written about the potential aesthetic effects of music experiences which could be labeled as absorption, only limited empirical research has been done on the state aspects of this fascinating aspect of human involvement. What is more, there are still few tested models which explain how people can be absorbed by a piece of music as well as continue to be third-person observers monitoring and even reflecting on that same musical experience (cf. Bryant & Veroff, 2007; Dewey, 2005; Wolf, 2013).
Adopting a dual process approach (Dietrich, 2004; Evans & Stanovich, 2013; Lewis, Tamborini & Weber, 2014; Mukhopadhyay, 2014; Schwarz, 2011; Smith & Neumann, 2005) – in which human thinking, emotion, and routes to appraisal are defined in terms of an interplay between two distinct systems of psychological processing – this thesis aimed to examine a) the cognitive mechanisms underlying the essential yet poorly understood paradox of losing oneself in the music on the one hand, and the act of meta-awareness (i.e., rational and controlled sense of self) on the other, b) its corresponding psycho-phenomenological profile(s) when listening intentionally to self-chosen music, and c) the different potential of state and trait aspects of absorption and meta-awareness in predicting three indicators of the aesthetic response to music: enjoyment (a purely pleasurable response), lasting impression (a meaningful response related to mixed emotion), and behavioral intention (future-planned seeking/ avoidance response). Moreover, a dynamically-conceived conceptualization of absorption was proposed in terms of a temporary phase taking place amidst a variety of other cognitive responses to music, including concentration, mind wandering, and mindfulness. Finally, a questionnaire commonly-used for assessing alterations in consciousness (Phenomenology of Consciousness Inventory; Pekala, 1991) was evaluated in the context of music listening, before using it in the development of a self-report questionnaire aimed at measuring absorptive states in or by music. To this end, a quantitative empirical research method (state and trait questionnaires) was employed in a series of online surveys, using self-selected music as well as pre-determined music by the researcher as stimulus, together approaching a naturalistic listening setting.
Situated within an overarching neurocognitive model for music engagement and consistent with several aesthetic theories converging (Benson, 1993; Dewey, 2005; Wolf, 2013), aesthetic absorption was conceptualized as, and later confirmed to be, structured by experiential and meta-consciousness or – in terms of dual process terminology – intuitive type I and reflective type II processing. Two forms of music absorption were empirically identified and labeled as zoning in and tuning in (cf. Schooler, 2007). These experience profiles distinguished themselves significantly in terms of the degree in which a music listener maintained his or her meta-awareness, assessed via volitional control, rationality, self-awareness, and memory of the previous event. The overall pattern of consciousness parameters of both types of absorbed listening are suggestive of a unique interchanging between brain networks for intuitive processing and areas related to self-reference, -awareness and -control. The distinction between zoning in and tuning in was further found to be strongly related to the quality of affective state (i.e., positive vs. mixed emotions). These emotions modulate the experiential intensity of absorption, suggesting this experience to be an affect-biased type of attention. Based on the feelings-as-information theory (Schwarz, 2011), postulating that positive emotions (e.g., happiness) are differently processed than negatively-tinted types of emotions (e.g., nostalgia), it was concluded that music-induced rumination (a negatively-valenced experience related to the self and represented by the feeling of sadness) ‘competes’ with higher-order functions relevant to meta-awareness. From this perspective, the two found absorption types match conceptually with the positively-tinged self-reflection and negatively-tinged self-rumination as two different types of self-focused introspection (Takano & Tanno, 2009; Trapnell & Campbell, 1999). Further examining the construct’s latent structure, it was shown that being absorbed by music is a continuous phenomenon; a matter of ‘more-or-less’ involvement rather than a ‘unique state of mind’. This finding cautions against subtyping absorption experiences as being qualitatively distinct, and assuming it to be guided by ‘special’ mechanisms. Consequently, determining ‘music absorbers’ is a matter of imprecise estimation rather than being marked by a clear observable onset. Finally, as expected, an absorbed state of mind – operationalized here as a multidimensional bifactor model – completely mediated the effect of trait absorption, and was a good predictor for enjoyment, lasting impression, and behavioral intention. Whereas absorption and enjoyment were found to have a mutual positive effect on each other, absorption and meta-awareness were found to be unrelated to each other. Also, meta-awareness contributed little to aesthetic appreciation. The results confirm the need for a dynamic approach to the relationship between state absorption and enjoyment; the one-directional approach common in many research reports does not seem to fully capture the relationship between them. Future research should examine whether the same applies for absorption and meta-awareness, preferably making use of more advanced measures for the latter.
Taken together, this dissertation shows the potential of including the interplay between the trait and state constructs of absorption and meta-awareness in order to better understand the mechanisms underlying aesthetic experiences with music. The present work demonstrated that these two constructs should not be conflated, but, in terms of dual processing, that they represent different levels of consciousness. Moreover, this thesis underlined the power of absorption not only to evoke short-lived pleasurable experiences, but also to stimulate long-lasting impressions. Knowing more about absorbed listening and its potential effects, learning to consciously recognize it as it happens, and perhaps regulate and maintain its positive consequences (i.e., savoring), could further improve the way we engage ourselves with music or other aesthetic objects. Only then could we engage in behavior that we’re sure would make us happy rather than seeking out experiences which we hope would make us happy.
Finally, dual process approach and measures provided by research on altered-states-of-consciousness (ASC) experiences offer new and fruitful perspectives to conceptualize aesthetic absorption and examine its mechanisms. Several major research questions lie ahead in understanding the phenomenological experience and aesthetic role of absorption, including the future comparison between subjective experiences of ASCs across varying music and non-music induction methods (e.g., hypnosis), listening conditions (e.g., live concert experience), and musical ‘cultures’ (human societies, musical styles, classes).
A lot of software systems today need to make real-time decisions to optimize an objective of interest. This could be maximizing the click-through rate of an ad displayed on a web page or profit for an online trading software. The performance of these systems is crucial for the parties involved. Although great progress has been made over the years in understanding such online systems and devising efficient algorithms, a fine-grained analysis and problem specific solutions are often missing. This dissertation focuses on two such specific problems: bandit learning and pricing in gross-substitutes markets.
Bandit learning problems are a prominent class of sequential learning problems with several real-world applications. The classical algorithms proposed for these problems, although optimal in a theoretical sense often tend to overlook model-specific proper- ties. With this as our motivation, we explore several sequential learning models and give efficient algorithms for them. Our approaches, inspired by several classical works, incorporate the model-specific properties to derive better performance bounds.
The second part of the thesis investigates an important class of price update strategies in static markets. Specifically, we investigate the effectiveness of these strategies in terms of the total revenue generated by the sellers and the convergence of the resulting dynamics to market equilibrium. We further extend this study to a class of dynamic markets. Interestingly, in contrast to most prior works on this topic, we demonstrate that these price update dynamics may be interpreted as resulting from revenue optimizing actions of the sellers. No such interpretation was known previously. As a part of this investigation, we also study some specialized forms of no-regret dynamics and prediction techniques for supply estimation. These approaches based on learning algorithms are shown to be particularly effective in dynamic markets.