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Background: Sedentary behavior (SB) is a modifiable behavior with increasing prevalence worldwide. There is emerging evidence that time spend in SB and the manner in which SB is accumulated over time is associated with cardiovascular and cardiometabolic health. The requirement for SB data to be accurately measured is minimization, or at least accurate quantification of human-related sources of measurement errors such as accelerometer measurement reactivity (AMR). The present thesis was to examine SB and their associations with cardiovascular and cardiometabolic health, and to focus on challenges related to the assessment of SB. The first aim of the thesis was to identify patterns of SB describing how individuals accumulate their time spend in SB day-by-day over one week, and to examine how these patterns are associated with cardiorespiratory fitness as a marker for cardiovascular health (paper 1). The second aim of the thesis was to examine the multiple types of SB, and how this is associated with a clustered cardiometabolic risk score (CMRS; paper 2). The third aim of the thesis was to examine AMR and the reproducibility in SB and physical activity (PA) in two measurement periods, and to quantify AMR as a confounder for the estimation of the reproducibility of SB and PA data (paper 3).
Methods: The three papers were based on data of two different studies. For study 1, 1165 individuals aged 40 to 75 years were recruited in three different settings. Among these, 582 participated in a cardiovascular risk factor screening program including cardiopulmonary exercise testing. For the analyses of paper 1, 170 participants were eligible, agreed to wear an accelerometer, fulfilled the wearing regime, and completed the study period by wearing the accelerometer for seven consecutive days. Patterns in accelerometer data were classified based on time spent in SB per day applying growth mixture modeling. Model‐implied class‐specific peak oxygen uptake (VO2peak) means were compared using adjusted equality test of means (paper 1). The underlying study of paper 2 and 3 were based on data of a pilot study aiming to investigate the feasibility of a brief tailored letter intervention to increase PA and to reduce SB during leisure time. Among the individuals who agreed to be contacted again in study 1, a random sample of those aged between 40 and 65 years was drawn. Of those, 175 attended in a cardiovascular examination program. Assessment included giving blood sample, standardized measurement of blood pressure, waist circumference, body weight, and height at baseline, and after twelve months. Further, they agreed to complete a paper-pencil questionnaire on SB (Last 7-d Sedentary Behavior Questionnaire, SIT-Q-7d) and PA (International Physical Activity Questionnaire, IPAQ), and to receive seven-day accelerometery at baseline, and after 12 months. In addition, self-administered assessments were conducted at months one, three, four, and six after baseline. Only individuals of a random subsample (= intervention group) received up to three letters tailored to their self-reported SB and PA at months one, three, and four. For paper 2, associations between SBs and a clustered cardiometabolic risk score (CMRS) were analyzed using linear as well as quantile regression. To account for missing values at baseline, multiple imputations using chained equations were performed resulting in a total sample of 173 participants. Paper 3 comprised data of 136 individuals who participated at the baseline and twelve months assessments, and fulfilled the wearing regime. AMR was examined using latent growth modeling in each measurement period. Intraclass correlations (ICC) were calculated to examine the reproducibility of SB and PA data using two-level mixed-effects linear regression analyses.
Results: Results of paper 1 revealed four patterns of SB: 'High, stable', 'Low, increase', 'Low, decrease', and 'High, decrease'. Persons in the class 'High, stable' had significantly lower VO2peak values (M = 25.0 mL/kg/min, SD = 0.6) compared to persons in the class 'Low, increase' (M = 30.5 mL/kg/min, SD = 3.6; p = 0.001), in the class 'Low, decrease' (M = 30.1 mL/kg/min, SD = 5.0; p = 0.009), and in the class High, decrease' (M = 29.6 mL/kg/min, SD = 5.9; p = 0.032), respectively. No differences among the other classes were found. In paper 2, results revealed that the only factor positively associated with a CMRS in all regression models was watching television. Depending on the regression analysis approach used, other leisure-time SBs showed inconsistent (using a computer), or no associations (reading and socializing) with a CMRS. In paper 3, results revealed that time spent in SB increased (baseline: b = 2.3 min/d; after 12 months: b = 3.8 min/d), and time spent in light PA decreased (b = 2.0 min/day; b = 3.3 min/d). However, moderate-to-vigorous PA remained unchanged. Accelerometer wear time was reduced (b = 4.6 min/d) only at baseline. The ICC coefficients ranged from 0.42 (95% CI = 0.29 - 0.57) for accelerometer wear time to 0.70 (95% CI = 0.61 - 0.78) for moderate-to-vigorous PA. None of the regression models identified a reactivity indicator as a confounder for the reproducibility of SB and PA data.
Conclusions: The present thesis highlights SB in the field of cardiovascular and cardiometabolic research that have implications for future research. Individuals sit for different purposes and durations in multiple life domains, and the time spent in SB is accumulated in different patterns over time. Therefore, research should consider the fact that SB is embedded in an individual's daily life routine, hence might have differential effects on cardiovascular and cardiometabolic health. Further, methodological aspects have to be considered when dealing with SB. In order to detect how SB is 'independently' associated to an individual's health, an accurate measurement of SB is fundamental. Therefore, human-related sources of bias such as AMR should be taken into account when either planning studies or when interpreting data drawn from analysis of SB data.
In this thesis, we elaborate upon Bayesian changepoint analysis, whereby our focus is on three big topics: approximate sampling via MCMC, exact inference and uncertainty quantification. Besides, modeling matters are discussed in an ongoing fashion. Our findings are underpinned through several changepoint examples with a focus on a well-log drilling data.
Hyperoxia is a well-known cause of cerebral white matter injury in preterm infants with male sex being an independent and critical risk factor for poor neurodevelopmental outcome. We investigated the underlying mechanisms behind such a sex dependent difference in oligodendrocyte progenitor cells (OPCs). Our findings demonstrate that oxidative stress severely affects cellular functions related to energy metabolism, stress response, and maturation in male derived oligodendrocyte progenitor cells (OPCs) whereas the female cells remain largely unaffected. This impairment of maturation is accompanied by the downregulation of nucleoporin and nuclear lamina proteins. We identify Nup133, which regulates OPC maturation as a major target protein affected by hyperoxia in male cells and that this differential response is mediated by an inverse Nup133 regulation in the male and female cells. It also regulates mitochondrial function and oxidative stress response through its downstream target Nuclear respiratory factor 1 (Nrf1). Additionally, the presence of 17-β estradiol and higher amounts of fetal zone steroids (precursors for maternal estrogen synthesis during fetal development) confer resistance to the female cells mediated by the estrogen receptor alpha (ERα) along with Nup133. Both Nup133 and ERα regulate mitochondrial function and oxidative stress response by transcriptional regulation of Nrf1. These findings establish prominent sex based differences and the molecular mechanisms involved in differential response of OPCs towards oxidative stress and the important role of Nup133 in mediating a severe negative outcome in the male cells.
In our retrospective study we researched for possible injuries to the eye and orbit in patients who suffered from polytrauma. We assessed 6,000 patients with severe trauma, who were treated at the Unfallkrankenhaus Berlin (UKB) between February 2006 and August 2014. Out of them, 1,061 maxillofacial CT scans were performed additionally to a whole-body scan as further injuries to eye and/or orbit could clinically not be excluded. We used a systemic diagnostic workup to examine the frequency and severity of a trauma to osseous and soft tissue structures of the orbit. For the assessment of the bony orbital walls we included the detection of a fracture gap, a rough dislocation of bony fragments as well as the detonation of osseous sutures between facial bones. Concerning the orbital soft tissue structures we looked at injuries of the ocular globe including the lens, extraocular muscles, optic nerve and orbital vessels. Complementary, we collected clinical data of eye examinations of our patients by using the medical information system (MIS) software medico. We appraised the ophthalmic diagnostic findings based on three criteria: the intraocular pressure (IOP), the vision and eye movements and recorded whether surgery or conservative treatment was conducted.
Out of 1,061 maxillofacial CT images, 811 were excluded. 668 patients did not have a trauma to the midface and 143 patients only showed fractures of the nose and/or jaw. The remaining 250 patients revealed traumata to the orbit: 149 CT scans showed fractures of the orbital cavity without participation of soft tissue structures. Three patients presented with pure soft tissue traumata to the eye and 98 scans displayed combined injuries of bones and orbital soft tissue structures. The right orbit was concerned in 35.6%, the left orbit in 32.8% and both orbits in 31.6% of cases. The prevailing type of fracture was the single wall fracture, followed by two- and three-walled fractures. In the majority of cases the orbital roof, floor or lateral wall were concerned. Besides blow-out fractures, we detected characteristic fractures as the tripod fracture and Le Fort 2°. Regarding the soft tissue traumata of 101 CT scans, we detected an unshaped vitreous body in 23.8% and a (partially) ruptured globe in 6.9%. The ocular lens was dislocated in six cases (5.9%). A foreign body pre-orbital and within the conus was found three times. Considering the extraocular muscles, we discovered that 44.6% of muscles were dislocated. In 7.9% extraocular muscles were pierced by bone, in one case the muscle was pierced by a foreign body. Searching for structural alterations of the optic nerve, 12.9% of 101 scans presented an elongated optic nerve and 9.9% revealed an altered morphology. One nerve was transected by a metallic foreign body. Upon closer inspection of orbital vessels, we detected 9.9% prominent ophthalmic veins and 5.9% posttraumatic dCCF out of 101 CT scans. The results of the clinical eye examinations showed that 19.2% of the collective of 250 patients presented with an increased IOP. 4.8% of 250 patients had a reduced or lost vision and 10% of patients had suffered from a limited ocular movement after trauma to the midface.
In conclusion, approximately 9.5% from 1,061 polytrauma patients presented with associated orbital injuries. Ocular injuries are not often given immediate concern as patients with life-threatening conditions need to be stabilized first. Undetected serious eye injuries might lead to a reduced or lost vision, which could result in severe limitations of quality of life. The results of our study speak in favor for early ophthalmological consultations and radiological imaging. Diagnostic and treatment of possible orbital injuries should be remembered in a polytrauma patient.
Phenolics and its derivatives are aromatic compounds with a wide range of industrial applications. Gallic acid, protocatechuic acid, catechol or pyrogallol are only a few examples of industrially relevant aromatics. The production of bulk fine chemicals primarily for chemical and pharmaceutical industry has put a strong emphasis on optimizing manufacturing conditions. Commercial production of many chemicals is still based on organic chemical synthesis using petroleum derivatives as starting material. Since these processes are considered environmentally unfriendly and posing an irresponsible strain on limited fossil resources, much attention is paid to the development of new microbial factories for the bioproduction of industrially relevant chemicals using renewable sources or organic pollutants as starting material. Arxula adeninivoras is a non-conventional yeast possessing attractive properties for industrial application such as thermo- and osmotolerance. Another major advantage of this organism is its broad substrate spectrum with tannin at the forefront. The present project is dedicated to the study of the tannic acid degradation pathway in A. adeninivorans. Two genes encoding enzymes annotated as gallic acid decarboxylase (AGDC1) and catechol-1,2-dioxygenase (ACDO1) have been selected and investigated. Both enzymes were characterized and their function in tannin catabolism analyzed.
The proteasome is a major part of the ubiquitin-proteasome-system playing an important role in cell homeostasis due to its protein quality control function. Moreover, the proteasome is involved in cell cycle regulation and in the regulation of transcription factors. Upon induction of interferons, or treatment with lipopolysaccharides, an isoform of the standard-proteasome is composed, named immunoproteasome (i-proteasome). The i-proteasome is constitutively expressed in immune cells and deficiency of proteolytic subunits of this multiprotein complex has been associated with a poor outcome during infectious diseases. I-proteasome-deficiency has been shown to result in reduced MHC class I presentation. Using mice which are deficient for all three proteolytic active subunits LMP2, MECL-1 and LMP7, we could demonstrate that i-proteasome-deficiency lead to an altered recruitment of immune cells to the CNS when challenged with the intracellular parasite Toxoplasma gondii, resulting in increased frequencies of neutrophils and other cells of myeloid origin. The shift to reduced frequencies of CD45highCD11blow lymphocytes can be further explained by a decreased migratory capacity of i-proteasome-deficient CD8+ T cells. In contrast to previous studies using other pathogens, effector function of CD8+ as well as CD4+ T cells, measured by frequencies of IFNγ, TNF, IL-2 and granzyme B producing cells, were not impaired in these mice, whereas induction of CD4+ Tregs was strongly reduced. In addition, we found that parasite control was comparable to control mice and that i-proteasome deletion caused an overall pro-inflammatory cytokine milieu within the brain. Our results indicate that i-proteasome-deficiency lead to prolonged tissue inflammation during T. gondii infection which could be an explanation for the more severe course of disease observed in these mice.
The Src homology domain containing phosphatase 2 (SHP2) is a tyrosine phosphatase modulating several signaling pathways and therefore has an influence in cell cycle, differentiation, proliferation and cell activation. However, SHP2 is assumed to play a negative role during T-cell activation as the phosphatase has been shown to inhibit T-cell receptor-induced signaling cascades. Although, various gain-of-function mutations in the SH2 or PTP domain of this phosphatase, such as D61Y, have been associated with myeloproliferative diseases such as juvenile myelomonocytic leukemia (JMML), effects of such mutations on T cells have not been addressed in scientific literature so far. Therefore, in the second part of this thesis we could demonstrate that D61Y mutation in the SH2 domain of SHP2 did not cause JMML pathology when only introduced into T cells. Especially in aged mice, T cells of SHP2 mutant mice showed an increased expression of cell adhesion molecule CD44. In accordance with these findings, we observed increased influenza A virus-specific T cells in the bone marrow of SHP2 D61Y mutant mice, indicating a role of the phosphatase in memory formation or maintenance of CD8+ Tem. Although SHP2D61Y mice revealed a comparable viral clearance, IFNγ production of virus experienced CD4+ and CD8+ T cells was diminished compared to control mice, underlining a negative involvement of the phosphatase in the JAK/STAT1 signaling axis as suggested before by studies using mice with SHP2-/- T cells.
With this thesis, studies which form the bedrock for the long term goal of first wall heat load control and optimization for the advanced stellarator Wendelstein 7-X are developed, described and put into context. It is laid out how reconstruction of features of the edge magnetic field from plasma facing component heat loads is an important first step and can successfully be achieved by artificial neural networks. A detailed study of plasma facing component heat load distribution, potential overloads and overload mitigation possibilities is made in first order approximation of the impact of the main plasma dynamic effects.
In this doctoral thesis, algorithms are presented that are designed for the investigation in the mesopause region between the upper Mesosphere and Lower Thermosphere (MLT). The photochemical models are proposed and applied to represent the oxygen airglow and the oxygen photochemistry in the MLT. Atomic oxygen, O, in the ground state, O(3P), is of special interest because it is a reactive trace gas actively contributing to the Earth’s airglow. The retrievals of O(3P) concentrations, [O(3P)], are based on the nightglow time series of the green line emission measured remotely as in the first part of this thesis and the individual profiles of multiple nightglow emissions of O and molecular oxygen (O2) measured in situ as in the second part of this thesis. To process the complete spectral time series measured by using the satellite-borne instrument SCIAMACHY (SCanning Imaging Absorption spectroMeter for Atmospheric CHartographY), an intricate set of algorithms is developed and applied with the regularized total least squares minimization approach to estimate a set of the optimal regularization parameters and to retrieve a corresponding set of vertical Volume Emission Rate (VER) profiles. Furthermore, these algorithms take emissions of another origin and the Earth's shape into account. Considering not identified states of O2, the established photochemical models are adjusted resulting in two model modifications. Both model modifications are employed to retrieve the [O(3P)] time series on the basis of the VER time series in the MLT. The model input parameters vary in the atmosphere that motivated to propose these two model modifications and to employ available sources of the input parameters. One semi-empirical model, one general circulation model and the satellite-borne instrument SABER (Sounding of the Atmosphere using Broadband Emission Radiometry) are employed as sources of the reference [O(3P)] and input parameters time series. The SABER instrument employed as a source of the input parameters is preferred according to the comparison of the retrieved and reference [O(3P)] time series. Studying the impact of the 11-year solar cycle on O(3P) in the MLT, an algorithm is developed and applied with the Levenberg-Marquardt algorithm to estimate the optimal fit parameters step-wise. The results of the O(3P) sensitivity analysis obtained with respect to the solar activity forcing at the 11 year and 27 day time scales and the lunar gravitational forcing agree with the reference model simulations. The hypothesis regarding vertical shifts between different of Meinel bands at least partly caused by the hydroxyl radical (OH*) quenching with O(3P) is confirmed experimentally. Based on the conclusion drawn in the first part of this thesis that the data sets’ self-consistency is high as for the averaged SABER and SCIAMACHY measurements, a comprehensive set of available data with a higher level of the data sets’ self-consistency is employed in the second part of this thesis. Multiple airglow emissions measured in situ during four campaigns are employed to propose the Multiple Airglow Chemistry (MAC) model. Processed emissions are the Herzberg I, Chamberlain, Atmospheric and Infrared Atmospheric band emissions of O2 and the green line emission of O. Considering all widely known and additionally complemented reactions, the MAC model is proposed to represent the oxygen airglow and the oxygen photochemistry in the MLT. The presented MAC model is based on the hypothesis of Slanger et al. (2004) stating that higher excited states of O2 are coupled with each other through vibronic de-excitation caused by collisions among molecules of this group of O2 states in the MLT. This hypothesis is modified excluding the singlet Herzberg state of O2 from the group of O2 states considered by Slanger et al. (2004). The MAC calculations are carried out sequentially starting with higher excited O2 states to provide the retrieved output concentrations of these O2 states as the input concentrations to the next calculation steps. The final step is only based on concentrations of all species, whereas each of the earlier steps is based on a corresponding VER profile besides of the input concentrations. The oxygen photochemistry in the MLT is represented by all species considered at the final step that makes it possible to adopt the MAC reactions in a general circulation model. Four modifications of the MAC model, i.e. including or excluding the triplet Herzberg states of O2 and including or excluding ozone and odd hydrogen (hydrogen, OH* and hydroperoxy radical), lead to negligible differences in the retrieved [O(3P)] profiles. Based on the MAC calculations verified and validated on the basis of the four rocket campaigns, one of the effective modifications of the MAC model (excluding the triplet Herzberg states of O2, ozone and odd hydrogen) is further reduced to the most effective modification. This implies that for the [O(3P)] retrieval only the O2 Atmospheric band emission, temperature and concentrations of molecular nitrogen (N2) and O2 are sufficient to apply. Calculations carried out by using the most effective modification of the MAC model are verified and validated on the basis of self-consistent in situ measurements obtained simultaneously. The MAC model enables identifying precursors of (1) the three lowest O2 valence states and (2) the second excited O state responsible for (1) the Atmospheric and Infrared Atmospheric band emissions of O2 and (2) the green line emission of O, respectively. Particularly, the singlet Herzberg state of O2 is identified as the major precursor of the second excited O state resulting in the green line emission. In focus of potential further research is an extension of the MAC model with vibrationally excited states of O2 and ionized species.
Microbial cell factories have been largely exploited for the controlled production of recombinant proteins, including industrial enzymes and biopharmaceuticals. The advent of high-throughput ‘-omics’ techniques have boosted the design of these production systems due to their valuable contribution to the field of systems metabolic engineering, a discipline integrating metabolic engineering with systems and synthetic biology. In order to thrive, the field of systems metabolic engineering needs absolute proteomics data to be generated, as proteins are the central players in the complex metabolic and adaptational networks. Due to advent of mass spectrometry-based proteomics, a substantial amount of absolute proteomic data became available in the past decade. However, membrane proteins remained inaccessible to these efforts.
Nonetheless, comparative studies targeting the membrane proteome have been quite successful in characterizing physiological processes. Hence, label-free proteomics was used in a study (Quesada-Ganuza et al, 2019 – Article I) to identify and optimize PrsA in Bacillus subtilis, for improved yield of amylase. Amylase is one of the most relevant enzymes in the biotechnological sector. By employing a label-free mass spectrometry approach targeting the membrane proteome of this bacterium, relative changes in heterologous and native levels of PrsA could be quantified. The results of this study evidenced that each PrsA shows different relative abundancies, but with no relevant impact in the yield of amylase.
Even though relative protein quantification can already provide a good visualization of the physiological changes occurring between different conditions, they are not sufficient to understand how resources are allocated in the cell under certain physiological conditions. Therefore, a global method for absolute membrane protein quantification remains the biggest requirement for systems metabolic engineering.
Hence, with this work, we successfully developed a mass spectrometry-based approach enabling the absolute quantification of membrane proteins (Antelo-Varela et al, 2019 – Article II). This study was also performed in the Gram-positive model organism Bacillus subtilis, regarded as a prolific microbial cell factory. The method developed in this work combines the comprehensiveness of shotgun proteomics with the sensitivity and accuracy of targeted mass spectrometry. Fundamental to the method is that it relies on the application of a correction and an enrichment factor to calibrate absolute membrane protein abundances derived from shotgun mass spectrometry. This has permitted, for the first time reported, the calculation of absolute membrane protein abundances in a living organism.
The newly developed approach enabled to accurately quantify ~40% of the predicted proteome of this bacterium, offering a clear visualization of the physiological rearrangements occurring upon the onset of osmotic stress. In addition, this work also provides evidence for new membrane protein stoichiometries.
Overall, this study enabled the development of a straightforward methodology long-needed in the scientific and biotechnological community and, for the first time reported, providing absolute abundances of one of the most puzzling fractions of the cell – the membrane proteome.
The next step of the work summarized here was to implement the afore described method to a biotechnological relevant strain, as absolute membrane protein abundances are essential to understand the fundamental principles of protein secretion and production stress. Hence, this work was applied in a genome-reduced B. subtilis strain, ‘midiBacillus’, expressing the major staphylococcal antigen IsaA (Antelo-Varela et al, submitted – Article III). The employed absolute membrane protein quantification methodology enabled the analysis of physiological rearrangements occurring upon the induction of heterologous protein production. This work showed that, even though IsaA was successfully secreted into the growth medium, one of the main requirements for the biotechnological sector, it was still partly accumulated in the cell membrane of this bacterium. This led to an exacerbated physiological response where membrane proteins involved in the management of secretion stress were activated. In addition, this study also showed that a rearrangement of the cell’s translocation machinery occurs upon induction of production, where a ‘game’ of in- and decrease of transporters takes place.
Anticipating the impact of genetic and environmental insults, such as the ones caused by production stress, is essential for the field of systems metabolic engineering. Thus, the highly accurate and comprehensive dataset generated during this work can be implemented in predictive mathematical models, thereby contributing in the rational design of next-generation secretion systems.
In phylogenetics, evolutionary relationships of different species are represented by phylogenetic trees.
In this thesis, we are mainly concerned with the reconstruction of ancestral sequences and the accuracy of this reconstruction given a rooted binary phylogenetic tree.
For example, we wish to estimate the DNA sequences of the ancestors given the observed DNA sequences of today living species.
In particular, we are interested in reconstructing the DNA sequence of the last common ancestor of all species under consideration. Note that this last common ancestor corresponds to the root of the tree.
There exist various methods for the reconstruction of ancestral sequences.
A widely used principle for ancestral sequence reconstruction is the principle of parsimony (Maximum Parsimony).
This principle means that the simplest explanation it the best.
Applied to the reconstruction of ancestral sequences this means that a sequence which requires the fewest evolutionary changes along the tree is reconstructed.
Thus, the number of changes is minimized, which explains the name of Maximum Parsimony.
Instead of estimating a whole DNA sequence, Maximum Parsimony considers each position in the sequence separately. Thus in the following, each sequence position is regarded separately, and we call a single position in a sequence state.
It can happen that the state of the last common ancestor is reconstructed unambiguously, for example as A. On the other hand, Maximum Parsimony might be indecisive between two DNA nucleotides, say for example A and C.
In this case, the last common ancestor will be reconstructed as {A,C}.
Therefore we consider, after an introduction and some preliminary definitions, the following question in Section 3: how many present-day species need to be in a certain state, for example A, such that the Maximum Parsimony estimate of the last common ancestor is also {A}?
The answer of this question depends on the tree topology as well as on the number of different states.
In Section 4, we provide a sufficient condition for Maximum Parsimony to recover the ancestral state at the root correctly from the observed states at the leaves.
The so-called reconstruction accuracy for the reconstruction of ancestral states is introduced in Section 5. The reconstruction accuracy is the probability that the true root state is indeed reconstructed and always takes two processes into account: on the one hand the approach to reconstruct ancestral states, and on the other hand the way how the states evolve along the edges of the tree. The latter is given by an evolutionary model.
In the present thesis, we focus on a simple symmetric model, the Neyman model.
The symmetry of the model means for example that a change from A to C is equally likely than a change from C to A.
Intuitively, one could expect that the reconstruction accuracy it the highest when all present-day species are taken into account. However, it has long been known that the reconstruction accuracy improves when some taxa are disregarded for the estimation.
Therefore, the question if there exits at least a lower bound for the reconstruction accuracy arises, i.e. if it is best to consider all today living species instead of just one for the reconstruction.
This is bad news for Maximum Parsimony as a criterion for ancestral state reconstruction, and therefore the question if there exists at least a lower bound for the reconstruction accuracy arises.
In Section 5, we start with considering ultrametric trees, which are trees where the expected number of substitutions from the root to each leaf is the same.
For such trees, we investigate a lower bound for the reconstruction accuracy, when the number of different states at the leaves of the tree is 3 or 4.
Subsequently in Section 6, in order to generalize this result, we introduce a new method for ancestral state reconstruction: the coin-toss method.
We obtain new results for the reconstruction accuracy of Maximum Parsimony by relating Maximum Parsimony to the coin-toss method.
Some of these results do not require the underlying tree to be ultrametric.
Then, in Section 7 we investigate the influence of specific tree topologies on the reconstruction accuracy of Maximum Parsimony. In particular, we consider balanced and imbalanced trees as the balance of a tree may have an influence on the reconstruction accuracy.
We end by introducing the Colless index in Section 8, an index which measures the degree of balance a rooted binary tree can have, and analyze its extremal properties.
The aim of the present dissertation was to investigate the biological and chemical potential of two European mushroom species: Fomitopsis betulina and Calvatia gigantea. For this purpose, different extracts of both fungi were tested for: antimicrobial, antifungal, cytotoxic, in vitro wound healing, and anti-adhesive properties. Bioassay-guided fractionation led to the isolation of bioactive compounds, altogether 20 compounds were isolated and identified. The compounds were obtained from the ethyl acetate extracts, they included triterpenes, sterols and aromatic compounds. The separated substances from both fungi were proved for biological activities, some of them showed antimicrobial and cytotoxic activities.
Microalgae are aquatic, unicellular, eukaryotic organisms, which perform photosynthesis. They have gained interest within the last decades not only for biofuel production due to their high amount of lipids, but also for pharmaceutical and for nutraceutical purposes. Interesting compounds are proteins, carbohydrates, or pigments, such as carotenoids. However, microalgae possess strong and rigid cell walls, which hinder a sufficient and yet, gentle extraction of those valuable compounds. Although standard extraction techniques are available, several shortcomings occur, e.g. high energy demand, use of environmentally harmful solvents or alteration of compounds due to heat or chemicals. Therefore, an alternative method is needed, which is able to address these disadvantages. Physical plasmas were thus studied to answer the question whether they are able to disintegrate the cell walls of microalgae effectively and yet, without degradation of the extractives.
First step of the thesis was to find a suitable plasma source that has an effect on the cell walls because plasma effects, such as electric fields, shockwaves, UV light emission, and the generation of reactive species can be tailored with the respective setup. It was found that spark discharges are most effective for the extraction of Chlorella vulgaris, which was chosen as model organism. All extraction yields were compared to reference methods, whereat microwave radiation was found to be the most effective reference method and were hence, applied for comparative studies.
For the next step, proteins were selected as targets to answer the question, which differences can be determined between plasms-treated and microwave-radiated proteins are observable although the extraction yields were equal. Furthermore, plasma effects, especially the effects of reactive species on the extracted proteins had to be studied. Findings indicate that heat sensitive proteins, such as photosystem-related proteins, or histones are better extractable with spark discharges than with microwave exposure and the effect of reactive species is only minor.
The last step was to determine, which plasma effect is responsible for the observed cell wall disintegration. Therefore, the tensile strength of Chlorella vulgaris was determined and compared to the shockwave pressure, which is generated from the spark channel. It was proven that the shockwave pressure exceeds by far the tensile strength of the microalgae an can be thus held responsible for mechanism for cell wall rupture.
In this thesis, it was found that spark discharges are a promising alternative for the extraction of valuable compounds from microalgae. The discharges are not only effective, but also gentle enough for sensitive compounds, such as proteins or pigments.
In this work, we theoretically investigate both aspects of charge-transferring atom-surface collisions: local-moment-type correlations and emission of secondary electrons from surfaces. Ideally, one chooses an approach that keeps as many electronic and lattice degrees of freedom at an ab-initio level as possible. In practice, however, this sophistication is hard to maintain. In this work, we do not aim to perform a description from first principles which could utilize density functional theory or quantum-chemical techniques. Instead, we keep only the most important degrees of freedom of the scattering process and use effective models for them. These are basically the Anderson-impurity model leading to time-dependent Anderson-Newns Hamiltonians and Gadzuk’s semiempirical approach to describe the projectile-target interaction from classical image shifts. In direct comparison with the description from first principles, the semiempirical approach offers a flexible basis for the modeling of a great variety of projectile-target combinations. The addition of further effective models to increase the general quality of the results is possible since the approach is very modular. The clear physical interpretation of each effective model, as well as the requirement for only a few and generally available parameters are further advantages of this approach. Rewritten in terms of Coleman’s pseudo-particle operators, the model is then numerically analyzed. This is done within a non-crossing approximation for the hybridization self-energies which are utilized by contour-ordered Green functions for each relevant electronic state of the projectile.
From a biopharmaceutical point of view, poor oral bioavailability of a drug is one of the greatest challenges for formulation scientists. The majority of new chemical entities (NCEs) are weakly basic drugs. Consequently, these drugs exhibit pH-dependent solubility, being higher under acidic conditions in the fasted stomach and lower under neutral conditions in the small intestine, the main site of drug absorption. For theses compounds, pH-dependent precipitation testing represents a key parameter during early development stages. In this development phase, the amount of drug available is limited, and fast and detailed investigations of simulated drug solubility are desired. Therefore, an automated small-scale in vitro transfer model, simulating drug transfer from a donor (stomach; simulated gastric fluid, SGF pH 2.0) to an acceptor (small intestine; fasted state simulated intestinal fluid, FaSSIF-phosphate pH 6.5) compartment, has been developed. In contrast to the originally published transfer model, this model allowed a detailed investigation of drug supersaturation and precipitation in a small-scale, feasible for pre-formulation purposes, through miniaturization and automation in an in-line analytical set-up. In-line drug concentration analysis in turbid samples, due to pH-dependent drug precipitation, was achieved by a pre-filtration step, the use of flow-through cuvettes and the application of UV derivative spectroscopy. Compared to the common procedure of manual sampling followed by HPLC-UV analysis for concentration determination, the supersaturation and precipitation of the model drug ketoconazole was more accurately captured by the newly developed in-line analytical set-up. In addition, the newly developed small-scale model was compared to a USP II-based transfer model, representing an established scale of the transfer model. Using a physiologically relevant simulated gastric emptying rate of 5 min half-time, supersaturation and precipitation of the model drugs ketoconazole and a new chemical entity from the research laboratories of Merck Healthcare KGaA, MSC-A, were observed to be highly comparable. Following miniaturization and automation, the developed small-scale model was used to establish eight physiologically relevant test-sets. These test-sets were used to assess the impact of gastrointestinal (GI) variability, i.e. gastric pH, gastric emptying, and GI fluid volumes, on supersaturation and precipitation of two weakly basic model compounds, ketoconazole and MSC-A. The experiments revealed that variations in all GI parameters investigated affected the in vitro supersaturation and precipitation of ketoconazole. For example, faster gastric emptying yielded higher supersaturation and faster precipitation of ketoconazole. In contrast, MSC-A supersaturation and precipitation was only affected by variability in gastric pH. Consequently, the effect of varying GI parameters was found to be drug-specific. Elevated gastric pH, as it can result from co-medication with acid-reducing drugs, resulted in lower degrees of supersaturation for both substances. For ketoconazole, this result is in agreement with the observation that the oral bioavailability of ketoconazole is lowered when proton pump inhibitors are co-administered. In addition to the physiological considerations, the small-scale model developed herein was used to establish an in vitro screening assay for precipitation inhibitors (PIs). The use of PIs represents one option of reducing the process of pH-dependent drug precipitation during simulated GI transfer. For this purpose, ketoconazole and five orally administered kinase inhibitors (i.e. pazopanib, gefitinib, lapatinib, vemurafenib, and MSC-A) were analyzed with and without the polymeric PIs HPMC, HPMCAS, PVPK17 and K30, PEG6000, and Soluplus® in the small-scale transfer model. This screening revealed that at least one effective PI could be identified for each model drug. Moreover, HPMCAS and Soluplus® were the most effective PIs. Another outcome of these studies was that gefitinib expressed highly variable amorphous precipitation which was confirmed by powder X-ray diffraction (PXRD). During the transfer model experiments, the intermediate amorphous and supersaturated state of gefitinib was stabilized using HPMCAS and Soluplus®. After the polymer investigations, the impact of the buffer species in the simulated intestinal medium on drug supersaturation and precipitation was assessed. Since luminal fluids are mainly buffered by hydrogen carbonate ions, a USP II-based transfer model equipped with the pHysio-grad® device was proposed. This allowed the use of a complex bicarbonate buffer for the preparation of FaSSIF-bicarbonate in an in vitro transfer model. Results of transfer model experiments using standard phosphate-based FaSSIF and a more physiologically relevant bicarbonate-based FaSSIF were compared. Therefore, ketoconazole, pazopanib, and lapatinib were analyzed with and without the precipitation inhibitor HPMCAS. While HPMCAS was found to be an effective precipitation inhibitor for all drugs in FaSSIF-phosphate, the effect in FaSSIF-bicarbonate was much less pronounced. Additionally, performed rat PK studies revealed that HPMCAS did not increase the exposure of any of the model compounds significantly, indicating that the transfer model employing bicarbonate-buffered FaSSIF was more predictive compared to the model using phosphate-buffered FaSSIF. The in vitro and in vivo results of these studies demonstrated that the supersaturation precipitation of poorly soluble weakly basic drugs can be significantly affected by GI variability. Furthermore, the use of the automated small-scale transfer model enabled the identification of effective precipitation inhibitors for the model drugs involved in these studies. At the same time the buffer species has been observed to be especially important to reliably predict the in vivo solubility/dissolution behavior of HPMCAS and the weakly basic model drugs.
We all know the experience of different demands on ourselves. As a parent, we want to be there for our children, and in pursuit of our career, we want to invest as much time as possible. If we are committed to both being a good parent and pursuing a career, it may be impossible to satisfy the demands stemming from both commitments. It is in such moments in which our, what I call, practical identities are conflicted that our will is in a state of volitional disunity. In this dissertation, I discuss how a person may best cope with volitional disunity.
I define practical identities in line with Christine M. Korsgaard as self-descriptions under which a person finds her life worth living and her actions worth undertaking; examples of such self-descriptions are being a parent, an employee, a hobbyist pianist, the friend of Charlotte, etc. Practical identities provide the person with ideals that form a decision-making framework for her deliberations about what to do. The standard analysis of volitional disunity, is that it causes a person to not know what to do as her identities, as guides, point her in conflicting, even opposite, directions. The solutions proposed in the literature always include, what I call, the Unification Ideal: a person has to prioritize her identities by deciding which is more important to her. By unifying her identities in this way, she constitutes who she is and wants to be thereby providing herself with a clear decision-making framework regarding the question of what to do.
In this dissertation however, I argue that a person does not need to overcome her volitional disunity through unification per se. In order to know what to do, a person could also explore the disunity that defines her will, which includes that she could accept the volitional disunity as hers. I base this Exploration Ideal on two assumptions about human nature: 1) we have inner responses to how we act and 2) we are opaque to ourselves. Since a person cannot always know in advance whether she will be happy with a commitment by turning her attention inwards, she can explore who she wants to be and who she can be through the bodily, psychological, and emotive responses she has to her actions. These responses, however, are not the ultimate authority. This authority stays with her practical identities in light of which she can evaluate these inner responses. Thus, a person exposed to volitional disunity should strive to explore this disunity, how she wants it to define her and whether it is constitutive of who she is (Exploration Ideal) instead of trying to overcome the disunity by striving for unification (Unification Ideal).
Bats (Chiroptera) form the second largest order of mammals and with over 1,250 species, they represent about 20% of all mammalian species worldwide. They are the only mammals with true and sustained flight and distributed all over the world except the arctic regions. Moreover, bats entered specific ecological niches and with their food spectra, they reduce different arthropod populations as well as disperse seeds and pollen of plant species in various regions and habitats.
Bats also have a crucial role in spreading high-pathogenic and zoonotic viruses, harbor in general more viruses (zoonotic and non-zoonotic), and, related to the species, number even more than rodents. However, clinical symptoms of viral diseases are rarely reported in bat communities. Also seroconversions after infection were not reported for a variety of viruses found in bats. Since the incidence of virus-positive bats estimated in passive surveillance studies is usually very low, it is a question how such viruses can use bats as reservoir hosts. There is obviously a special evolutionary relationship between the pathogens and bats as hosts, which are based on possibly physiologic adaptations also in resistance and immunity.
In this thesis, the two lyssaviruses, European Bat Lyssavirus 1 and 2 (EBLV-1 and -2) were chosen as a model to investigate the immune response of European bats against viral infection in vitro. Lyssaviruses are the causative agents of rabies, a fatal zoonotic disease with neurotropic characteristics.
One main question to investigate was in which way bats act as reservoir host and developed a high disease resistance. The present thesis is based on three hypotheses about innate immune response against lyssavirus infection:
A) In bats specific peripheral resistance mechanisms evolved which reduce the risk of systemic viral infection after a hypothesized airborne transmission and infection via nasal epithelium supported by the social structure of and communication within bat communities.
B) The co-evolution of EBLV and the innate resistance of bats resulted in a very effective type I interferon response to inhibit a systemic lyssavirus infection.
C) The specific physiology of body temperature of bats with daily torpor depresses the viral replication but favours the type I interferon response.
To analyze the interferon-based resistance mechanisms, the type I interferon (IFN) genes of two European bats species (Eptesicus serotinus and Myotis myotis) were cloned and sequenced. Using established cell lines from the respiratory nasal epithelium (MmNep), olfactory nasal epithelium (MmNol), and Bulbus olfactorius brain (MmBr), the type I IFN response along a possible airborne infection route was investigated. The anti-viral effects and induction of IFNs/interferon stimulated genes (ISGs) in each cell line were also investigated in detail after infection in vitro. Finally, the influence of different temperatures on lyssavirus replication was analyzed in cell culture experiments.
The results indicated that (a) along the hypothesized airborne infection route the susceptibility for lyssavirus infections is decreased, (b) the type I IFN activity in contrast is increased contributing to a limitation of lyssavirus replication and (c) an obvious influences of varying cultivation temperatures on the resistance against lyssavirus infections, which favor the IFN response and repressing lyssavirus replication.
The result from these in vitro studies supports the hypothesis of a special co-evolution between lyssaviruses and bats. However, in vivo studies on the relevance in infected animals are missing so far. This model could also explain the generally limited pathogenicity of bat-associated viruses.
Reversible posttranslational modifications play an important role during the regulation of many central processes in bacterial cells. Protein phosphorylation, in particular, can influence signal transduction processes and thus enables a distinct reaction of the cell to different stress and environmental conditions. In the case of the human pathogen Staphylococcus aureus, protein phosphorylation is involved in the adaptation to changing conditions during colonisation of human hosts. For this reason, the investigation of phosphorylations in S. aureus allows a better understanding of pathophysiology and virulence of this organism. Apart from stable phosphorylations at the amino acids serine, threonine and tyrosine, insights into energy-rich phosphorylations, for instance at arginine residues, gain more and more scientific attention. For this reason, one purpose of this study was the investigation of incidence and physiological relevance of this protein modification at a global scale. Firstly, the analysis of this modification was methodically optimised resulting in the identification of eight arginine phosphorylations in wild type cells of S. aureus COL. Secondly, the deletion mutant ΔptpB missing the gene that codes for an arginine phosphatase, was analysed. The characterisation of PtpB in vitro proved its activity and specificity towards arginine phosphorylations. This enabled the global analysis of the phosphoproteome with a focus on arginine phosphorylations. In addition to the optimisation of the phosphopeptide enrichment as part of the sample preparation, the data analysis process was adapted to the special challenges of energy-rich phosphorylations. Here, classical database search was extended by spectral library based analyses. In addition, synthetic peptides allow the generation of high quality mass spectra and the verification of database based evaluation strategies to ensure the quality of the spectral library. Next, S. aureus COL was cultivated under various conditions and several subcellular fractions were analysed with the aim to cover a broad part of the proteome. The combination of the spectra of synthetic peptides, the spectra of non-phosphorylated peptides from extensive cultivation experiments and the spectra of enriched phosphopeptides rendered the construction of a spectral library possible. This contained 2,270 proteins out of which 392 were found to be phosphorylated. A comparison of the database based analysis with spectral library based analysis showed the advantages of the latter when comparing the reproducibility of biological replicates. Thereby a permanent issue in phosphoproteomics was investigated. Hence, spectral libraries were used for the analysis of the phosphoproteome of S. aureus under control and stress conditions. 215 arginine phosphosites were identified within the mutant under control conditions and 117 under oxidative stress conditions. Oxidative stress was chosen because phenotypic characterisation of the mutant revealed that the most distinct growth changes in comparison with the wild type occurred after oxidative stress. These phenotypic changes were quantitatively approached in the last part of this work. Total proteome quantification of the wild type and mutant under control and stress conditions revealed an influence of the ptpB deletion on amino acid metabolism, oxidative stress response and virulence. The quantification of phosphopeptides by means of a combination of spectral library with Census based analysis finally confirmed the observations made during total proteome quantification.
Matrix-product-state based methods, in particular the density-matrix renormalization group, are used to numerically investigate several one-dimensional systems, focusing on models with symmetry-protected topological phases that generalize the spin-1 Haldane chain. In the first part, ground state properties such as topological order parameters and the criticality at quantum phase transitions are studied.
The second part deals with dynamic properties of spin chains. Using time-dependent matrix-product-state calculations, the dynamic structure factor, and the transport properties of contacted spin chains are analyzed.
Peatlands are wetland ecosystems covering a relatively small area of the World (~3%), but at the same time storing excessive amounts of carbon for a very long time (equivalent to the four times global annual net primary production). As carbon sinks, peatlands work in spite of their slow growth, absorbing carbon dioxide (CO2) through the photosynthetic activity of the peatland plants and their low growth rates, and because high groundwater table removes oxygen from the soil and slows down the decomposition of the dead plant matter. Because of the relative lack of the oxygen in the peat, especially compared to the mineral soils, methanogen populations in the peatlands are abundant, and releasing methane (CH4), a potent greenhouse gas, to the atmosphere. Therefore, peatlands are generally at the same time significant carbon sinks and stores as well as the methane sources. The balance among the two peatland gass fluxes (CO2 and CH4) will dictate the impact of any given peatland on the global climate and primarily driven by hydrology, in the form of the groundwater table levels.
Because of the slow decomposition rates, and from radiocarbon dating of the peat as well as the subfossil records buried in it, carbon stored in peatlands is locked for a very long time (centuries to millennia). It is, therefore, crucial to gain insights into the development of peatlands and their gas balance through time. One way to get both is by studying peatland hydrology in the form of the groundwater table levels and their historical variations. Unfortunately, intensive monitoring of peatland groundwater table, when available, is an only a recent endeavor. Therefore, we need to employ proxies to reconstruct the past by leveraging the present. In statistics, proxy variables are often used when the observations of the variable of interest, are either missing or too difficult to obtain.
In this thesis, I tested whether we can use the radial growth of the Scots pines growing on peat as proxies to the peatland hydrology. To that end, I studied growth responses of the peatland Scots pines. Other proxies can and are used for the reconstructions of the groundwater table levels, but tree-growth is widely used as one of the proxies to reconstruct past environments which is at the same time annually resolved.
First, I examined the growth ecology of the peatland Scots pines by looking at their intra-annual development and trying to find relationships between it and environmental factors while at the same time comparing it with the Scots pines growing at the forest sites. I first tried with wood anatomy and found that, unfortunately, peatland Scots pines do not form enough wood cells, and consequently do not have high temporal resolution, necessary to investigate the intra-annual patterns of the radial growth. Initial results from wood anatomical investigations were interesting none-the-less, indicating that peatland Scots pines might have smaller cell features than the Scots pines from forests, but might at the same time maintain Early/Latewood ratios of those same features.
After I found that wood anatomical series were not resolved enough I decided to go with dendrometers, linear displacement sensors which constantly monitor the variations of stem radius, to get insights into the intra-annual growth patterns of the peatland Scots pines. Before using dendrometers for ecological investigations, I was involved in implementing routines commonly used in the analysis of the dendrometer signals and bringing them to R in the form of the dendrometeR package.
At one peatland complex, I installed dendrometers on ten trees in total at both peatland and forest sites and compared the pattern of the standardized signal. I inferred from the comparisons and classifications that the signal from two sites was indistinguishable for the dendrometer series shorter than five days. Furthermore, the most important environmental factor driving the radial variation at the peatland site was hydrological, daily relative humidity, indicating further that peatland hydrology might indeed be the driver behind peatland Scots pine growth.
Finally, I looked at the growth responses of peatland Scots pines from central Estonia using dendrochronological methods. Peatland hydrology, in the form of the groundwater table levels, was indeed the environmental factor with the strongest, and also stationary, correlations with the radial growth of the peatland Scots pine. That relationship indicated that peatland Scots pines are indeed possible proxies for reconstructing past levels of the peatland groundwater tables.
My study further indicated that the growth response of the peatland Scots pines was non-linear, further complicating the reconstructions of the past peatland hydrology. However, the strength of the growth response was proportional to the general hydrological regime, expressed as median groundwater table level. As the hydrological regime of the peatland does not vary considerably on the annual scales, but more on decadal it might be more appropriate to find another, independent, proxy to the hydrological regime first, and than use annually resolved radial growth of the peatland Scots pine to reconstruct past levels of the peatland groundwater table.
Understanding the fundamental mechanisms in the extracellular matrix of cells (ECM) is crucial for the development of drugs and biomaterials. Therefore, an atomistic model of the extracellular matrix is a cost-efficient way to observe influences of drugs, test the effect of mutations or misfolds in proteins or study the properties of fibril or network-forming peptides.
With this thesis, a refined molecular model of an adhesion complex is proposed that contains collagen, fibronectin and the cell receptor integrin. During the building of the model, major new insights are given for each of these proteins and a powerful protein-folding algorithm is
developed.
The present work focusses on the mosquito populations of two zoological gardens in Germany with the aim to better understand mosquito biology of native species and to contribute to a greater awareness of mosquito and mosquito-borne disease agent surveillance in zoos. For this purpose, data on species composition, blood meal patterns and mosquito-borne pathogens were analysed. The investigated zoological gardens differed not only in their sizes and animal stocks, but also in their surrounding environments. The 160 ha Tierpark Berlin is located in a densely populated urban area, while the 15 ha Zoological Garden Eberswalde is surrounded by forest.
To gain an overview about the mosquito fauna of both zoos, adult specimens were caught by aspirating and EVS-trapping during the 2016 season. In addition, larval stages were collected from their breeding sites located in the zoo areas. In total, 2,257 mosquitoes were sampled, belonging to 20 taxa. Seasonal differences between the zoos were documented, both in terms of species composition and the relative abundance of mosquito species collected. As the studied zoos were located in the same climatic region and both locations provided similar breeding sites, differences in species composition were attributed to the entry of mosquitoes from surrounding landscapes. Influencing factors could have been the different sizes of the zoos and variations in the potential host animal populations.
According to the vector potential of most frequently collected taxa in the Zoological Garden Eberswalde (Annulipes Group, Culiseta annulata), TAHV, USUV, WNV, filariae and avian malaria parasites appear to have the highest risk of being transmitted at this location. In the Tierpark Berlin, Aedes vexans was the most frequently collected mosquito species, suggesting a theoretical risk for the transmission of a broader spectrum of pathogens due to covered vector competences. Pathogens such as BATV, SINV, TAHV, USUV and filarial worms could be of major importance regarding transmission risk to zoo animals, as they had previously been found to circulate Germany. In addition, avian malaria parasites represent a considerable risk for susceptible exotic bird species in Berlin.
Since the blood-feeding behaviour of vector-competent mosquito species has a major influence on the transmission of a mosquito-associated pathogen, the analysis of blood meal patterns is crucial to better understand vector-pathogen cycles. Therefore, blood meals of blood-fed mosquitoes caught in 2016 and 2017 by aspirating and EVS-trapping in the Tierpark Berlin and the Zoological Garden Eberswalde were analysed. The aim was to investigate to what extent native mosquito species accept exotic zoo animals, wild native animals and humans as blood hosts. In addition, it was examined whether the collected species are generalists or specialists when selecting vertebrates for blood feeding.
A total of 405 blood-fed mosquitoes from 16 taxa were collected. The genetic analysis of blood meals identified 56 host species, which – in addition to humans – mainly originated from mammals of the zoo animal populations. In agreement with the previous study on the mosquito fauna of the Tierpark Berlin and the Zoological Garden Eberswalde, the analysis of blood meals also showed differences between the two zoos. In the smaller Zoological Garden Eberswalde, a higher number of blood-fed mosquitoes was collected than in the Tierpark Berlin, probably caused by a higher host density in Eberswalde, which may have led to an overall higher mosquito density. However, no differences between both zoos were observed with respect to the blood feeding behaviour of the analysed mosquito species: Mosquitoes of both locations were rather generalistic, although species could be grouped according their blood meals into 'amphibian', 'non-human mammal' and, ‘non-human mammal and human' feeding species. The more random selection of hosts could indicate a low probability of effective pathogen transmission by applying the 'dilution effect'. Notwithstanding, since wild animals have also been accepted as hosts, pathogen transmission by bridge vectors from one vertebrate group to another could be relevant in the sampled zoos.
Adult mosquito specimens collected in 2016 and 2017 were screened for filarial nematodes, avian Haemosporidia and mosquito-borne viruses. Dirofilaria repens was detected in a mosquito from the Zoological Garden Eberswalde. Mosquitoes from Berlin and Eberswalde were tested positive for the nematode species S. tundra. Sindbis virus was found in a mosquito pool collected in the Tierpark Berlin, while no mosquito-associated viruses were detected in specimens collected in the Zoological Garden Eberswalde. Mosquitoes from both zoos were positive for the haemosporidian parasites Haemoproteus sp. and Leucocytozoon sp., and one documentation was made for avian Plasmodium sp. in the Tierpark Berlin.
The identified pathogens have the potential to cause disease in captive and wild animals, and some of them also in humans. Most of the mosquitoes tested positive had been collected in July, suggesting a high infection risk during this month. Since most pathogen detections were made from species belonging to the Cx. pipiens complex, species of this complex seem to be most relevant in the studied zoos when it comes to mosquito-borne pathogen transmission. Although mosquitoes are no proven vectors of most of the avian malaria parasite genera found, evidence for Haemoproteus sp. and Leucozytozoon sp. demonstrated a high prevalence of avian malaria parasites in the zoos.
In summary, the results of the three studies indicate regional differences both in the mosquito species composition and in the occurrence of mosquito-borne pathogens. However, no differences were found between the mosquito communities of both zoos concerning their blood feeding behaviour, suggesting that the general behaviour of the insects is location-independent.
Several potential disease agents were found in the collected mosquitoes, although not at high abundances. Whether these pathogens were found by chance in the two zoos or whether the particular zoo environment is a hot spot of arthropod-borne pathogens cannot be determined with the studies conducted. Nonetheless, it seems clear that zoological gardens are attractive to mosquito females not only in their search for breeding sites, but also when looking for blood hosts and places for mating or resting. These advantageous conditions also attract mosquito species that have their larval habitats outside the zoological gardens, which is why elimination of breeding sites on the zoo premises alone will not necessarily keep away all mosquitoes.
A closer collaboration between zoological gardens and entomologists could be beneficial for both. Zoo officials could benefit from being able to identify potential arthropod vectors on the zoo grounds and receiving information on circulating arthropod-borne disease agents, as well as on the animal species susceptible to those. For entomologists, zoological gardens are ideal research locations, as they provide an environment with a high diversity of habitats and potential blood hosts for haematophagous arthropods in a confined space.
Studying mosquito biology will become even more significant in the future, since in a world that is getting smaller, both potential vectors and pathogens are regularly introduced into areas where they did not occur before. Therefore, it would be desirable if more studies targeting ecological as well as infectiological aspects of vector species in zoological gardens in Germany were carried out.
Molybdenum dependent enzymes are involved in essential metabolic transformations in bacteria, plants, and human beings. The extreme instability of the molybdenum cofactor (Moco) prevents its use as an effective treatment for patients with a Moco deficiency. Therefore, the design, develop and execute the artificial molybdenum cofactor models are essential.
In the present thesis, the asymmetric molybdopterin (mpt) model precursors with oxygen functionality and various electronic structures and their Moco model complexes mimicking the natural cofactor have been synthesized and comprehensively investigated through multi-nuclear NMR, MS, IR, resonance Raman, X-ray crystallography, UV-Vis, and electrochemical methods. Notably, the asymmetrically substituted dithiolenes in this thesis are confirmed through a significant push-pull effect, which is tuning its electronic structure. The redox behavior of Moco model complexes was investigated by temperature-dependent cyclic voltammetry. Electronic and vibrational spectral studies were investigated in detail to understand substituents effect on the electronic structure of model complexes and to elucidate roles of mpt in catalysis. Since the model complexes can be considered as structural models for the Moco dependent oxidoreductases, catalytic oxygen atom transfer (OAT) reactions in DMSO/PPh3 were investigated.
The main focus of the present thesis was achieved through the development of various synthetic routes that address phosphonate bearing dithiolene ligands, inspiring the natural mpt. Simultaneously the Minisci protocol was applied for the synthesis of new pterin ketophosphonates, taking into consideration the essential aspects of the natural molybdopterin, including the phosphate anchor group. Even though some aspects of this protocol require further optimizations, but the mentioned synthetic route has exceptional potential and flexibility.
Phylogeny of the Koi herpesvirus and development of a vaccine against the Koi herpesvirus disease
(2019)
The aim of this presented dissertation was a stable, live attenuated and protective KHV usable as vaccine. Moreover this vaccine should by cost effective and easy to apply. Differentiation of infected and vaccinated animals was preferred by genetic and / or serological means. After achieving an attenuated virus, whole genome sequencing should be done to examine the genetic of the vaccine as one feature of biosafety. Besides biosafety additional knowledge on the virulence of Alloherpesviruses, especially of KHV was anticipated. Additionally the diagnostics of KHV and KHVD should be improved to increase reliability and to gain more insights into the relationship of different KHVs and hopefully to detect the source of an outbreak.
The term diabetes mellitus comprises a group of metabolic diseases all distinguished by their main characteristic hyperglycaemia. With a steadily increasing prevalence diabetes displays an enormous burden for patients and health systems and is therefore of special interest for research. The development of the two main types of diabetes, type 1 and type 2, is closely linked to the formation of reactive species, especially hydrogen peroxide, inside different compartments of pancreatic beta cells. However, these cells are especially vulnerable towards oxidative stress mediated by hydrogen peroxide due to a low expression of antioxidative enzymes.
The main aims of the present thesis were to analyse the intracellular generation and to enable the site-specific detection of hydrogen peroxide to evaluate its role in the delicate equilibrium between redox signalling and oxidative stress under certain pathophysiological conditions, and moreover to monitor its movement through compartments and subcellular membranes of insulin-producing cells. Additionally, a new methodology for an artificial site-specific generation of hydrogen peroxide inside living cells was developed.
The importance of investments by emerging country multinationals to industrialised economies has risen continuously as illustrated by the growing number of Chinese merger and acquisitions (M&A) of German Mittelstand firms. This dissertation aims to analyse the effects of institutional distances on the M&A process. To this end, William Scott’s concept of institutions is newly operationalized to investigate institutional distances on the intra-firm, regional and international level. Through interviews with involved firms, intermediaries and key persons with dual backgrounds, the effects on different dimensions of the subsidiaries’ embeddedness as well as various mechanisms of institutional work during and after the M&A are evaluated.
The advances in high-throughput sequencing technologies have revolutionized the possibilities for pathogen identification in cases of unknown disease origin. Diagnostic metagenomics allows the unbiased and simultaneous detection of almost all nucleic acids in a clinical sample, with the potential to provide pivotal insights into otherwise undeterminable causes of human or animal disease.
In this thesis, possibilities, pitfalls and the suitability of Ion Torrent and Illumina sequencing platforms for comprehensive use in diagnostic metagenomics were assessed and optimized procedures developed. Clinical field samples, undiagnosable by standard diagnostics, were taken as real-life examples for the investigations. The results show that cross-contamination due to index swapping and run-to-run-carryover constitute a major issue on Illumina platforms, severely compromising the correct interpretation of results for clinical specimens. In contrast, Ion Torrent platforms did not display any form of cross-contamination, however, the commercial library preparation method is less efficient. Combining the advantages of both platforms, customized Y adapters, facilitating highly efficient library preparation, were developed for Ion Torrent sequencing and applied in further experiments. The obstacles of strongly degraded RNA in formalin-fixed paraffin-embedded samples were identified and the workflow adapted to meet the requirements of smaller fragments. Additionally, it was shown that adequate sampling is a very important step, if not the most important step, in the workflow, as well as subsequent validation of the obtained results in terms of causation. The achievements in this study allow other researchers the application of a sensitive and optimized diagnostic metagenomics workflow.
Furthermore, the investigations on the clinical samples resulted in the discovery of a novel respirovirus with putative zoonotic potential, the first description of Borna disease virus 1 in human organ transplant recipients, and the discovery of a very distantly related novel ovine picornavirus. These discoveries build a basis for further research and expand the knowledge regarding new and emerging viruses.
In acinar cells, cellular organelles like zymogene granule, mitochondria, endoplasmic reticulum and lysosome functions in coordinate way in order to synthesize and secrets large amounts of digestive enzyme. Dysfunction of this organelle, results into enzyme activation within acinar cell; ultimately, acute pancreatitis. While previous studies reported that mitochondrial function is disrupt but mechanism of clearance of these mitochondria remains unknown during pancreatitis. Here we reported that PINK1 and Parkin mediated pathway is activated during pancreatitis and clears dysfunctional mitochondria in-vivo. PINK1 or Parkin deficient acinar cell had energy crisis, decreased ATP production and altered acinar cell fate in-vitro. Inhibiting clearance of dysfunctional mitochondria aggravates experimental pancreatitis severity and delays regeneration/recovery of exocrine tissue after disease via PARIS-PGC-1α pathway. While an attempt to explore therapeutic target of PARIS-PGC-1α pathway by treatment of SRT1720 rescued experimental pancreatitis. Together, PINK1 and Parkin, restricts exocrine pancreatic damage in pancreatitis and accelerates tissue recovery after disease.
The southern Baltic Sea embodies an incomparable geological archive of the tectonic evolution of the 450 Ma old Trans‐European Suture Zone (TESZ). This WNW to NW trending suture formed during the collision of Baltica and Avalonia and has accommodated the repeatedly changing stress regimes since then, as evidenced by numerous fault zones and systems. The German offshore part in the vicinity of Rügen Island is strongly block‐faulted, with each block showing a specific geological pattern, enabling the reconstruction of the structural evolution of the area.
The work of this thesis is part of the USO working group of the University of Greifswald and the Geological Survey of Mecklenburg‐Western Pomerania, which aims to build a unified three‐dimensional tectonic model of the southern Baltic Sea area. This thesis presents the results of new structural investigations of the Arkona, Wolin and Gryfice blocks north and east of Rügen. Especially, conflicting structural analyses in the previous work are united into a consistent model.
The integrated interpretation of 144 reprocessed seismic vintage lines (original Petrobaltic data) and 23 high resolution academic seismic sections (from the Universities of Hamburg and Bremen), with additional consideration of on‐ and offshore wells, revealed 19 seismostratigraphic horizons that subdivide the succession between the Proterozoic basement and the Upper Cretaceous. Up to 100 faults of superior fault zones and systems control the tectonic situation. Besides NW trending deep faults formed during the Palaeozoic, for instance the Wiek and Nord Jasmund faults, and NNW trending Mesozoic faults and flexures that belong to the Western Pomeranian Fault System, other major faults such as the Adler‐Kamień Fault Zone document the polyphase evolution of this area.
The restoration of selected seismic sections support the evaluation of separately generated faults and their reactivation, leading to a subdivision of the tectonic evolution of the area into six stages:
(1) The Caledonian Orogeny (Ordovician/Silurian) was accompanied by a NE‐SW compression, resulting in the formation of the TESZ and an accretionary wedge within the upper crust. (2) The following S to SW trending extension of the Variscan Foreland (Devonian/Carboniferous) triggered the
evolution of the Middle Devonian Old Red Rügen Basin south of the Wiek Fault. Further WNW to NW trending faults (e.g. Nord Jasmund Fault) subdivided the basin. (3) The advancing Variscan Orogeny (Late Carboniferous) caused an increasing NE‐SW orientated compression and subsequently reactivated faults and tilted blocks (e.g. Lohme Sub‐block). (4) The North German Basin and Mid Polish Trough formed by thermic subsidence in the S to SE of the research area during the Permo‐Carboniferous. Simultaneously, the evolution of the Gryfice Graben as part of the Teisseyre‐Tornquist Zone commenced. (5) Due to the Arctic‐North Atlantic Rifting an E‐W trending extension increased. Consequently, grabens such as the Gryfice Graben continued their subsidence. As the stress system rotated counter‐clockwise, the shear strength increased along the NE trending faults. The Western Pomeranian Fault System developed due to intense transtension during the Keuper and Jurassic, and is characterised by pull‐apart structures. (6) In the Upper Cretaceous, a NE‐SW compression, forced by the Africa‐Iberia‐Europe convergence, triggered the reactivation of faults and flexures as reverse ones, the inversion of grabens (e.g. Gryfice Graben), and the formation of anticlines, for instance at the Wolin Block.
This thesis combines the calculation of gridded time structure maps and a detailed fault pattern analysis, and represents the base for a velocity‐ and subsequently depth‐based 3D modelling.
Medical doctors sometimes make diagnoses in persons who are not their patients and who did not ask for their medical opinion, e.g., when an off-duty dermatologist diagnoses melanoma in a stranger, outside of the hospital setting. These diagnoses are referred to as unsolicited medical opinions.
The unsolicited medical opinion raises several ethical questions. Most importantly, it poses a moral challenge for the physician: a possible disease, which may lead to a serious loss of health, is recognised in a person who is not the physician’s patient, outside of the formal medical context. The fundamental ethical question addressed in this dissertation is: Does a medical doctor who makes a clinical diagnosis in a stranger, outside of the formal medical context, have an ethical obligation to offer an unsolicited medical opinion?
This ethical question involves some related questions: If physicians do have an ethical obligation to offer an unsolicited medical opinion, are there any limiting factors to this obligation, which would justify not acting? A more practical question is also raised: How should a physician approach the person in whom an unsolicited diagnosis is made?
The cumulative dissertation is based on three publications addressing the unsolicited medical opinion. Firstly, the unsolicited medical opinion is explored from the perspective of utilitarianism, and a utilitarian argument is made in favour of offering an unsolicited medical opinion. Secondly, the topic is placed in the context of the existing scientific literature and analysed from the perspective of several ethical theories: virtue ethics, care ethics, principlism and contract theory. Lastly, the unsolicited medical opinion is discussed in the context of “medically unknown symptoms”. As in the central argument of this thesis, a utilitarian principle is applied and an argument made in favour of an unsolicited mental health diagnosis.
Using validated analytical tools and optimized sampling procedures, it was possible to detect a vast number of metabolites from the extracellular space but also from the cytosol of B. subtilis. The results indicate that the complement of the analytical methods was suitable in the monitoring of the metabolome since it allowed a great coverage of physicochemical diverse metabolites. However, a wide number of unknown metabolites/features were also detected. Although broad databases exist that can help in the annotation of metabolites, further investigation is needed in their identification. In unpredictable changing conditions, bacterial cells possess appropriate adaptation strategies for a successful bacterial growth. These rely on sensing mechanisms that globally adjust gene expression via transcription and feedback regulations. The metabolic sensing mechanisms have emerged as key roles in the nutritional information and regulation of cell cycle processes. In this work, a new quality of information regarding the metabolism and adaptation to the absence of key signal mechanisms in B. subtilis was provided. Investigations of cells lacking Pyk uncovered alterations in the import of glucose and pyruvate from the nutritional media. These results gives insights to the pyruvate homeostasis mechanism but also brought new questions concerning the regulation of the CCR. Pyruvate wasn't susceptible to the glucose dependent CCR in Δpyk. The earlier in ux of pyruvate in these cells is in accordance to the newly discovered pyruvate transport mechanism. Also, it was speculated that the lower consumption of external glucose could be a consequence of the impairment of the PTS system in the mutant cells due to the accumulation of glycolytic metabolite FBP. In future studies, insights of the PTS system mechanism should be done in these conditions, that could comprise the determination of HPr phosphorylation and the HPrK activity. This study also arose new questions that should be address, that include the higher secretion of acetoin and 2,3-butanediol, and the lower accumulation of shikimate 3-phosphate by the mutant cells. In an untargeted metabolomic analysis, a vast number of altered features were suggested to be fatty acids metabolites, precursors of phospholipids and LTA. Complementary approaches should be done for the confirmation of these metabolites and the inspection of possible alterations in the membrane structure. In the study of LTA mutants, the accumulation of PG precursors provided a hint of altered cell wall assembly. Although by uorescence microscopy no clear changes were detected, the metabolic results emphasized the previous assumption of the affected hydrolytic activity occurring in the PG. For comprehensive knowledge of the cell wall it would be important to detect and identify more metabolites of the LTA anchor using optimized cromatographic method. These results could be complemented with other omics data sets studies which would help in the elucidation of these key regulatory systems mechanisms.
The bacterium Staphylococcus aureus is a notorious pathogen that causes dangerous and difficult-to-treat infections. This applies especially to methicillin-resistant S. aureus, better known as MRSA. MRSA infections were originally associated with healthcare settings as a consequence of clinical antibiotic therapy. However, in recent years MRSA infections have become more common among healthy individuals in the community. The community-associated (CA-)MRSA lineages are generally more aggressive than hospital-associated (HA-) lineages. Therefore, it is alarming that such CA-MRSA lineages are now emerging in hospitals. This raises the fundamental question of how CA-MRSA adapts to this new niche. Further, since the originally distinguishing features of CA- and HA-MRSA are losing discriminative value, it is important from a healthcare perspective to identify novel distinctive markers for early recognition and elimination of hospital-adapted CA-MRSA. In the present PhD research, these challenges were tackled with a ‘multi-omics’ approach focused on the USA300 lineage of MRSA, originally identified as CA, but now also causing hospital outbreaks. The results show that hospital-adapted USA300 isolates produce an altered spectrum of virulence factors, changed their metabolism, and exploit human immune cells as a protective environment against antibiotics. Importantly, hospital-adapted CA-MRSA strains can be recognized through distinctive patterns of gene expression and secreted virulence factors. Altogether, these observations show that the epidemic behaviour of MRSA is a multi-factorial trait, and they provide new insights into the missing links between epidemiology and pathophysiology of S. aureus. Moreover, they highlight the benefits of multi-omics technologies for protecting patients and frail individuals against the aggressive CA-MRSA.
Staphylococcus aureus is one of the commonly encountered bacteria of the human microbiome. Although mostly a seemingly harmless commensal microbe, S. aureus can act as an invasive pathogen with seriously devastating effects on its host’s health and wellbeing. A wide range of infections caused by this bacterium has been reported to affect diverse parts of the human body, including the skin, soft tissues and bones, as well as important organs like the heart, kidneys and lungs. Particularly, S. aureus is infamous for being a major causative agent of respiratory tract infections that may escalate up to necrotizing pneumonia. Due to its clinical relevance, this pathogen has been intensively studied for many years. Nonetheless, further research in this field is still needed, because of the high capacity of S. aureus to evolve drug resistance, its high genomic plasticity and adaptability and, not in the last place, the plethora of niches within the human body where it can thrive and survive. In this regard, there are still many uncertainties concerning the specific adaptations carried out by S. aureus during colonization and infection of the human body, the transition between both stages, and upon the invasion of different types of host cells. To shed more light on some of these adaptations, the research described in this thesis has employed in vitro models of infection that mimic particular conditions during the infectious process with special focus on the lung epithelium. The adaptations displayed by S. aureus were monitored using advanced proteomics. Furthermore, the analyses documented in this thesis included S. aureus strains with diverse backgrounds and epidemiology to take into account the genetic diversity encountered in this species.
Oils and fats from natural origin are sustainable sources for a broad range of economically relevant products in food, feed, fuel, oleochemical, and cosmetic industries. Thereby, a huge variety of lipids or lipid-derived products exist which distinguish themselves by their unique physical properties making them suitable for their individual applications. To obtain such functional lipids in an environmentally friendly manner, enzymes can be employed. In that context, lipases have been proven to be valuable biocatalysts in lipid modification, which are broadly applied in industry. Even though they have been implemented successfully in the dairy, baking, and detergent industries, there is an increasing demand for the expansion of their utilization. New technologies like protein engineering and the implementation of process development are employed in solving this task. Within the enzymes in lipid modification, lipases are the most applied catalysts and in this thesis their utilization was expanded successfully to the implementation of novel separation processes and the production of improved drug delivery matrices.
This thesis describes experiments with clusters stored in an electrostatic ion trap called Multi-reflection time-of-flight (MR-ToF) analyzer. These devices are established as mass separators and analyzers with high resolving powers and fast processing times. The objective was to characterize an experiment that utilizes such analyzer for cluster research, to this end a laser-ablation ion source was combined with an MR-ToF analyzer.
In the first part, an experiment scheme that combines two operating modes, namely in-trap lift operation and mirror operation, is presented and characterized for the present setup. For ion capture in-trap lift switching was employed and exit-side mirror switching for ejection with higher information content. Measurements were performed with small lead clusters to illustrate individual advantages of both techniques and the gain of combining them with focus on the ions’ ToF ejection window.
In the second part, a recently introduced method of ion separation by transversal ejection of unwanted species inside the trap was studied for the present setup. The ejection is performed by appropriate pulses of the potentials of deflector electrodes located in the trap. The various parameters affecting the selection effectivity and resolving power are illustrated with tin-cluster measurements, with resolving powers of up to several tens of thousands.
The third part presents the experiment in detail, with the construction of each component and measurements for its various performance parameters. Because the heart of the setup is the MR-ToF analyzer the characterization focuses on the trap. In addition, cluster ions were mass selected in the MR-ToF device and photodissociated. The charged fragments were stored and mass analyzed in a proof-of principle MS/MS experiment where both MS steps were performed in the MR-ToF operation mode.
Escherichia coli has been commonly used as a platform for recombinant protein production and accounts for approximately 30% of current biopharmaceuticals on the market. Nowadays, many recombinant proteins require post-translational modifications which E. coli normally cannot facilitate. Therefore, novel technological advancements are unceasingly being developed to improve the E. coli expression system. In this work, some of the most recently engineered platforms for the production of disulfide bond-containing proteins were used to study the E. coli proteome under heterologous protein production stress. The effects of protein secretion via the Sec and Tat translocation pathways were examined using a comparative LC-MS/MS analysis. The E. coli proteome responds to foreign protein production by activation of several overlapping stress responses with a high degree of interaction. In consequence, a number of important cellular processes such as cellular metabolism, protein transport, redox state of the cytoplasm and membrane structure are altered by the production stress. These changes lead to the reduction of cellular growth and recombinant product yields. Resolving the identified bottlenecks will increase the efficiency of recombinant protein expression processes in E. coli.
Brain aging even in healthy older adults is characterized by a decline in cognitive functions including memory, learning and attention. Among others, memory is one of the major cognitive functions affected by aging. Understanding the mechanisms underlying age-related memory decline may help pave the road for novel treatment strategies. Here, we tried to elucidate the neural correlates associated with memory decline using structural and functional neuroimaging and neuromodulation with transcranial direct current stimulation (tDCS).
Over the course of three studies, we investigated 1) the influence of white matter integrity and grey matter volume on memory performance in healthy older adults, 2) the role of functional coupling within the memory network in predicting memory performance and the impact of tDCS in modulating retrieval performance in healthy older adults, 3) the effect of tDCS over the sensorimotor cortex on cognitive performance in young adults.
MRI was used to study associations of cognitive performance with white matter integrity and grey matter volume, and examine their causal relationship in the course of aging. White matter integrity was assessed by acquiring diffusion tensor imaging (DTI) and performing deterministic tractography based on constrained spherical deconvolution. Grey matter volume was estimated using fully automated segmentation. Both white matter integrity and grey matter volume were correlated with behavioral data of a verbal episodic memory task. Percentage of correct answers at retrieval was used to measure memory performance (Manuscript 1). In addition, anodal tDCS (atDCS) (1 mA, 20 min) was applied over CP5 (left temporoparietal cortex) to modulate memory formation in healthy older adults. Participants underwent resting-state fMRI before the stimulation. Functional connectivity analysis was performed to determine whether functional coupling within the memory network predicted initial memory performance, and to examine its association to tDCS-induced enhancement effect (Manuscript 2). Finally, atDCS (1 mA, 20 min) was applied over C3 (left sensorimotor cortex) to explore the effect of tDCS over the sensorimotor cortex on cognitive performance in young adults. During the stimulation, participants performed three tasks; gestural task, attentional load task and simple reaction time task (Manuscript 3).
Results showed that volumes of the left dentate gyrus (DG) and tractography-based fractional anisotropy (FA) of individual fornix pathways were positively related to memory retrieval in older adults. Brain-behavior associations were observed for correct rejections rather than hits of memory performance, indicating specificity of memory network functioning for detecting false associations. Thus, the data suggested a particular role of neural integrity that promotes successful memory retrieval in older adults. Subsequent mediation analysis showed that left DG volume mediated the effect of fornix FA on memory performance (48%), corrected for age, revealing a crucial role of hippocampal pathway microstructure in modulating memory performance in older adults (Manuscript 1). tDCS results showed that atDCS led to better retrieval performance and increasing learning curves, indicating that brain stimulation can induce plasticity of episodic memory processes in older adults. Combining tDCS and fMRI, hippocampo-temporoparietal functional connectivity was positively associated with initial memory performance in healthy older adults and was positively correlated with the magnitude of individual tDCS-induced enhancement, suggesting that individual tDCS responsiveness may be determined by intrinsic network coupling (Manuscript 2). Finally, our findings suggested that atDCS over left sensorimotor cortex reduced reaction times in the gestural-verbal integration task, specifically for incongruent pairs of gestures and verbal expressions, indicating the role of sensorimotor cortex in gestural-verbal integration in young adults (Manuscript 3).
The results of all three studies may help to elucidate age-related structural deterioration and functional coupling network underlying cognitive processes in healthy adults. Furthermore, these studies emphasized the importance of interventions like tDCS in modulating cognitive performance, specifically episodic verbal memory and gestural-verbal integration. By unveiling the specific role of brain structures and functional network coupling as well as the role of tDCS in modulating cognitive performance, our results contribute to a better understanding of brain-behavior associations, and may help to develop clinical interventional approaches, tailored for specific cognitive functions in aging.
Hepeviruses are small viruses with a RNA-genome of positive polarity that form the family Hepeviridae. The family includes two genera: members of the genus Piscihepevirus were detected in fish species and members of the genus Orthohepevirus were found in different mammal and bird species. The genus Orthohepevirus contains four different species, namely Orthohepevirus A, B, C and D. The species Orthohepevirus A contains five human pathogenic genotypes, with three of them being zoonotic. The species Orthohepevirus C contains mammal-associated pathogens, which were identified in rats and carnivores. The human pathogenic genotypes are responsible for a self-limiting acute hepatitis in humans, which could become chronically in immunocompromised individuals. The main route of transmission is the consumption of undercooked meat and direct contact with HEV-positive excreta or blood. In Germany, hepatitis E is a notifiable disease since 2001 with an increased number of cases per year. Rats are the reservoir of rat-associated HEV (ratHEV), but also the zoonotic HEV-3 genotype was detected in rats. The European rabbit (Oryctolagus cuniculus) was identified as a reservoir host of a subgenotype of human pathogenic HEV-3 (HEV-3ra).
For the development of small mammal animal models, the objective of this study was to evaluate different small mammal populations for novel hepeviruses and to study the presence of HEV and sequence divergence of ratHEV and rabbitHEV in rat and rabbit populations from Europe.
Approximately 3000 rodents from Germany and the Czech Republic were screened by broad spectrum HEV-RT-PCR. As a result, 13 common voles (Microtus arvalis) and one bank vole (Myodes glareolus) were detected to be HEV-RNA positive. Comparison of the obtained sequences, complete genome determination and phylogenetic analysis indicated the finding of a novel common vole-associated HEV (cvHEV), which shows a high sequence divergence towards other members of the species Orthohepevirus C, but shares a high sequence similarity to a HEV-genome derived from a kestrel (Falco tinnunculus). The finding of cvHEV-RNA in a bank vole might be caused by a spillover infection. The cvHEV genome shares the hepevirus-typical open reading frames, but also has unique cvHEV-specific attributes in its genome.
The investigation of 420 Norway rats (Rattus norvegicus) and 88 Black rats (Rattus rattus) identified HEV-RNA in Norway rats from eight of nine and Black rats from two of four European countries. In a single Norway rat from Belgium, a HEV-3-strain with high sequence similarities to rabbitHEV (HEV-3ra), was detected. The investigation of zoo animals revealed a ratHEV spillover infection in a Syrian brown bear (Ursus arctos syriacus). This infection was most likely caused by ratHEV-infected free-living, wild rats from the same zoo.
Investigation of wild rabbit populations trapped in and around Frankfurt am Main, Germany, showed anti-HEV antibodies (34.7%) and rabbitHEV-RNA (25%). A high sequence similarity of rabbitHEV in the animals trapped at the urban site was observed, whereas a high sequence divergence was seen for the animals trapped at the rural trapping sites.
In conclusion, hepeviruses are widespread among different small mammal populations in Europe. The broad geographical distribution of these hepeviruses should be taken into account in further public health risk assessments. Further investigations are needed to characterize the presence of cvHEV in more detail, especially by taking the population dynamics of common voles into account. The detected HEV-strains could be taken as basis for the establishment of novel HEV-animal models, which might replace the so far used swine and non-human primate models.
For decades, evolutionary biologists have sought to understand the evolution of individual behaviour, physiology and ecology allowing organisms to cope to environmental change. One of the main challenges of current climate change is the unprecedent rate of temperature increase, as well as the increased occurence of extreme heat events. Interindividual response variability opens a whole new area of opportunities to understand how individual phenotypic traits are linked to individual response differences. In colour polymorphic species, colour honestly reflects an individual’s life-history strategy, and each morph may, therefore, represent an alternative life-history strategy. As such, colour polymorphic species, such as the Gouldian finch (Erythrura gouldiae), may be good models to assess how different strategies between morphs are linked to their espective responses to environmental variations. However, polymorphic species have mainly been disregarded for that purpose. In this context, the main aim of this thesis was to understand how the two morphs of the Gouldian finch respond through phenotypic plasticity to simulated heatwaves reaching thermocritical temperatures, and whether such differential responses may help to identify a ‘winner’ and a ‘loser’ morph in the light of climate change. To address these issues, we used an integrative approach including measurements of behavioural (Study 1), physiological (Study 2), and reproductive (Study 3) parameters. The novelty of our approach was to assess the immediate behavioural and physiological response variation of individuals of the two morphs longitudinally across different thermal conditions, as well as the postponed effects of this thermocritical heatwave exposure on their reproductive performance. In this study, although the behavioural responses generally did not differ between morphs or according to temperature intensity, the physiological and reproductive parameters differed in response to morph and temperature intensity. Blackheaded females, in particular, seem highly sensitive to thermocritical heatwaves, as they exhibited decreased body mass and increased oxidative damage during the thermocritical heatwaves, and advanced breeding initiation after these conditions, whereas these variables remained mostly unaffected in black-headed males and red-headed individuals. However, despite some response differences between morphs, both invested similarly in reproduction following intense heatwaves, and the offspring of both morphs were similarly affected. Based on these results, no morph therefore seems to appear more disadvantaged than the other following an intense heatwave, and red- and black-headed Gouldian finches may both be considered as climate stress ‘losers’.
Central to this thesis are so-called G-quadruplex (G4) nucleic acids. These unusual structures have recently moved into the scientific limelight - mostly due to their prevalence in the human genome. Incidentally, the vast majority of G4-prone sequences is found in telomeric regions and in the promoter sequences of a large number of cancer-related genes.
Furthermore, recent studies suggest a wide applicability of these structures as therapeutic and functional agents, though the technology is still in its infancy with only a few oligonucleotides in clinical trials. Notably, G-quadruplexes are highly polymorphous, exhibiting different topologies and conformations based on sequence, solution condition and molecularity. Therefore, rational design of such structures with specific, topology-encoded functions demands a comprehensive understanding of the underlying folding parameters.
As the folding process is the result of a whole orchestra of parameters with synergistic effects, the herein proposed approach to understand the G4 structural arrangement concentrates on native G4-forming sequences with well-defined topologies. Perturbations of these structures by rational nucleotide substitutions allow for the observation of discrete effects on the folding pathway and on the resulting overall topology.
The method chosen for primary investigation in the following studies on G4 architectures was Nuclear Magnetic Resonance (NMR) as it is the most powerful tool for structure elucidation in liquids. Unique to this technique, it permits the observation of discrete species in mixtures by distinct perturbations at the atomic level as well as valuable insights into the molecular dynamics.
The included publications study the effects of site-specific bromine substitutions on native quadruplex scaffolds, thereby successfully inducing new structures. These expand the G4 structural landscape but also enhance our understanding of the driving forces in G4 folding.
The purpose of this study was to compare the effect of culture on consumers’ attitudes toward Cause-Related marketing between Iran and Germany by answering the following questions:
A: What is consumer’s response concerning (1) skepticism toward CRM claim (2) attitude toward the CRM strategy, (3) attitude toward CRM brand personality, (4) attitude toward the CRM brand image and (5) CRM purchase intention (6) Warm glow? ; B: Do consumers respond differently to Cause-Related Marketing in Iran in comparison to Germany? C: Can cultural characteristics of the countries explain these differences? To answer the research questions, hypotheses were developed based on the literature which shape the research framework, in total containing 17 hypotheses. The data was gathered by questionnaire to make the research quantitative. By using convenience sampling, 564 responses were generated. The data was analysed by Structural Equation Modeling (SEM) and independent student t-test. Potential differences between Iran and Germany as well as moderation analysis are tested by critical ratio difference test as well as chi-square difference test using multiple- group analysis in AMOS. The results showed the importance of culture in applying CRM strategy. It can be said that CRM in a collectivistic culture like Iran can be successful as well as individualistic country like Germany. Although Iranian consumers were less familiar with this strategy, the benefits of CRM were similar in case of brand image and higher for purchase intention. The research found that emotions play a stronger role in Iran and it is more critical to evoke proper emotions by CRM campaign.
This thesis describes mass measurements at ISOLTRAP/ISOLDE/CERN in the region of the neutron-rich calcium isotopes. For the less exotic and more abundantly produced isotopes 51Ca and 52Ca the Penning trap based ToF-ICR technique could be used to validate the available mass data and to improve their precision. For the isotopes 53Ca and 54Ca, a Multi-Reflection Time-of-Flight Mass Spectrometer (MR-ToF MS) was used to determine the mass of these exotic isotopes for the first time experimentally. This also represents the first time an MR-ToF MS was applied to derive the masses of previously unknown radioactive ions from the high precision time-of-flight data that can be gathered with the device. The mass data was then used to benchmark the strength of the N=32 neutron subshell closure and at the same time to compare to state-of-the-art shell-model calculations.
Furthermore, the capability of the MR-ToF device to deliver isobarically pure beams to a subsequent experiment was developed further and studied in detail. The new technique is based on the in-trap lift, which is normally used to in- and eject ions into and from the device. With this new selective ejection technique after separation of the ion ensemble in the MR-ToF trap, no external components are required.
Additionally, a new stabilization system for voltages supplies, based on a PI-algorithm, was developed and thoroughly tested. The stabilized voltage supply was then used to supply the most sensitive mirror voltage of the MR-ToF MS to significantly increase the short term and long-term mass resolving power of the apparatus.
Deciphering the influence of Streptococcus pneumoniae global regulators on fitness and virulence
(2019)
Streptococcus pneumoniae (S. pneumoniae; the pneumococcus) is a Gram-positive, aerotolerant, and opportunistic bacteria, which colonizes the upper respiratory tract of human. S. pneumoniae can further migrate to other sterile parts of the body, and causes local as well as fatal infections like, pneumonia, septicaemia and meningitis. Due to incomplete amino acid pathways, pneumococci are auxotrophic for eight different amino acids including glutamine and arginine. The pneumococcus has adapted to the various host environmental conditions and a number of systems are dedicated for the transport and utilization of nutrients such as monosaccharides, amino acids and oligopeptides.
In this study the amino acid metabolism was characterised by 15N-isotopologue profiling in two different pneumococcal strains, D39 and TIGR4. Efficient uptake of a labelled amino acids mixture of 15N-labelled amino acids showed that S. pneumoniae has a preference for the amino acids transport instead of a de novo biosynthesis. It is known that glutamine (Gln) serves as main nitrogen source for S. pneumoniae. The 15N-labelled Gln used in this study demonstrated an efficient 15N-enrichment of Glu, Ala, Pro and Thr. Minor enrichment was seen for the amino acids Asp, Ile, Leu, Phe, Tyr, and Val. Remarkably, labelled Gly and Ser could be determined in strain TIGR4, whereas for strain D39 these two labelled amino acids were not detected. This confirms earlier studies with 13C-labelled glucose, which showed the biosynthesis of Ser out of Gly. Strain TIGR4 was able to grow in chemically-defined medium depleted of Gly confirming that Gly can be synthesized out of serine by the action of the enzyme serine hydroxymethyltransferase (SHMT).
The transcriptional regulator GlnR controls the Gln and Glu metabolism in S. pneumoniae. Hence, the impact of the repressor GlnR on amino acids metabolism was also studied. An increased 15N-enrichment was determined for Ala and Glu in both used pneumococcal strains, while an increased level of Pro was only measured in the isogenic glnR-mutant of non-encapsulated D39.
Arginine can also serve as nitrogen source in strain TIGR4. The arginine deiminase system metabolizes Arg into ornithine, carbamoyl phosphate and CO2 by the generation of 1 ATP and 2 mol NH3. Because of the truncation of the arcA gene strain D39 lacks arginine deiminase activity and has thus no functional ADS system. When 15N-Arg was added for growth, only in strain TIGR4, thirteen (13) labelled amino acids were detected with the highest enrichment for Ala, Glu and Thr. Genes coding for the enzymes of the arginine metabolism and for arginine uptake are regulated by the activator ArgR2 in strain TIGR4. Inactivation of ArgR2 was not accompanied by an enrichment of labelled amino acids, when the argR2-mutant was grown with 15N-labelled Arg indicative of the important role of ArgR2.
The bicistronic operon arcDT encoding the arginine/ornithine transporter ArcD and a putative peptidase ArcT belong to the peptidase family M20. The in silico comparison of structures revealed a significant homology of ArcT to PepV of L. delbrueckii and to Sapep of S. aureus known as carboxypeptidase. ArcT was heterologously expressed in E. coli and purified under reducing conditions. An enzymatic reaction was established and several dipeptides like Ala-Arg, Arg-Ala, and Ala-Asp were used as substrates. In addition, the dependency on divalent cations was analysed. Cleavage of the dipeptide Ala-Arg was detected in the presence of Mn2+ as cofactor under reducing conditions. Reduced peptidase activity was observed when Zn2+ was added. No cleavage of the tripeptide Ala-Ala-Arg could be shown indicating that ArcT acts as dipeptidase with the preference to the Arg residue at the C-terminal end.
Bacterial meningitis caused by S. pneumoniae was studied in an in vivo proteomic analysis. In a mouse meningitis model S. pneumoniae was isolated from the cerebrospinal fluid (CSF) by a filter extraction step. The MS analysis identified AliB and ComDE only from CSF isolated pneumococci indicating that these proteins are expressed under infection conditions. Mice infected with D39 wild-type and isogenic aliB, comDE and aliB-comDE double knockout mutants showed significantly less number of pleocytosis in the CSF and lower bacterial load in the blood compared to the wild-type. The results indicate that AliB and ComDE play an important role during meningitis.
Phenotypic characterization was carried out to identify differences between the wild-type and the aliB-, comDE- and aliB-comDE double mutants. Oxidative stress conditions were induced by the application of hydrogen peroxide or paraquat during growth in a chemically-defined medium similar to the CSF. No alteration in growth and survival of these mutants compared to the wild-type was observed suggesting that oxygen radicals play not an important role during the progression of meningitis. In addition, no differences of AliB expression was detected in the ComDE deficient D39. No impact of aliB and comDE-mutation on the expression of different virulence factors like pneumolysin or proteins involved in capsular biosynthesis was detected.
In vitro proteome analysis was performed to compare the wild-type to the AliB, and ComDE deficient D39 in the early and mid logarithmic growth phase. More than 70 % of theoretically expressed proteins were identified. In the aliB-mutant 33 proteins were differentally expressed in the early growth phase and 50 proteins differed during mid log growth. For the comDE mutant 24 and 11 proteins differed in expression in these two growth phases. Interestingly, high level of AliA expression was identified in all samples. The aliB-mutant had a decreased abundance of the proteins resembling an oligopeptide ABC transporter (AmiA, AmiC, AmiD, AmiE). In addition, another ABC transporter for iron transport encoded by spd_1607 to spd_ 1610 was higher expressed in the aliB-mutant. In the ComDE deficient mutant lower abundance of the Ami transporter sytem was identified. An increased abundance of proteins involved in the pyrimidine metabolism (PyrF, PyrE, PyrDb, PyrB and PyrR) was recognized only in the early growth phase of the comDE-mutant. These analyses demonstrate the marginal changes in protein synthesis during growth of S. pneumoniae. These studies demonstrated the adaptation of the proteome of S. pneumoniae to different growth conditions and the impact of regulatory proteins on the availability of carbon and nitrogen sources.
Profiling the activity and hepatotoxicity of flupirtine through medicinal chemistry approaches
(2019)
Drug induced liver injury (DILI) and tissue discoloration led to the recent discontinuation of the therapeutic use of the closely related drugs flupirtine and retigabine, respectively. Experience gained with these drugs strongly suggests that heterodimer, voltage‐gated potassium channels 2 and 3 (KV2/3) are valid targets for effective treatment of pain and epilepsy. Because the adverse effects are not related to the mechanism of action, it appears promising to investigate chemical modifications of these clinically validated, drug‐like leads. In the present retro metabolic drug design study, a series of 44 compounds were
synthesized and characterized with regards to KV7.2/3 opening activity and efficacy. The most active compounds displays excellent potency (EC50 = 4 nM) and efficacy (154%) as an Kv7.2/3 opener. Limited aqeous solubility hampered toxicity testing at concentrations higher than 63 μM, but this concentration was nontoxic to two hepatocellular cell ilnes (HEP‐G2 and TAMH) in culture.
In the present work high density helicon plasma discharges are created and characterized as a promising concept towards the realization of plasma wakefield accelerators to build up electric fields in the order of GV/m to accelerate electrons to energies in the TeV range with proton driving bunches. For such a concept plasma sources are needed that are able to maintain discharges with plasma densities of n_e = 7E20 m^-3 over long distances with a low variation in plasma density. Measurements at the PROMETHEUS-A device are performed for variable parameters, like magnetic induction, RF heating power and filling gas pressure. A CO2 laser interferometer, a laser induced fluorescence (LIF) diagnostic and a reaction rate model are combined to give a full picture. It is shown that in most cases the plasma density is centrally peaked with a high density region +- 5 mm from the center. The peak plasma density increases with increasing filling gas pressure, RF heating power and magnetic induction, limited by the number of neutral particles in low pressure discharges, by the transferred heating power and the increasing recombination and electron quenching rates of argon ions in high filling pressure cases. The increase in plasma density with increasing magnetic induction correlates to the direct proportionality in the helicon dispersion relation. For all investigated operational parameters the time evolution of the helicon discharge shows the same characteristics and is reliably reproducable inside the error bars. The electron temperature is determined by combining the collisional radiative model with line ratio measurements of two spontaneously emitted LIF lines. The low electron temperature regime of 1.2 eV < T_e < 1.4 eV and the electron temperature profiles are consistent with helicon wave heating via collisional power dissipation. The maximum plasma density of n_e = (6 +- 1)E20 m^-3 is measured at high RF power of P_RF = 24 kW, p_0 = 9 Pa filling gas pressure and a magnetic induction of B = 105 mT with a maximum electron temperature at 1.4 eV. At these operational parameters the plasma density peaking time and width are determined to be 270E-6 s and 50E-6 s, respectively. This shows that specific plasma density requirements for the use of a wakefield accelerator are reachable and the duration of the peak plasma density is more than sufficient for a relativistic particle to pass a 1 km long plasma cell. Additionally time-resolved LIF profile measurements for neutral and singly ionized argon were conducted to complement the previously evaluated measurements. The time resolution of the LIF diagnostic was chosen in a way to adequately represent the evolution of densities and to allow full profile measurements over one day. A resolution of 200E-6 s was chosen. The time-resolved neutral and ion metastable densities show hollow profiles with high densities at the edges over the first ms indicating higher ionization levels and increasing electron quenching rates. The metastable densities are highly determined by electron temperature, RF heating power and filling neutral gas pressure and do not reflect the neutral argon evolution. To investigate the influence of neutral depletion on the density evolution and maximum plasma density, the argon neutral and ion ground state densities are determined. Both time-resolved density profiles show a hollow profile with highest densities at the edges over a longer time interval of 3-4 ms. The penetration depths (ionization mean-free paths) indicate increased ionization of neutral argon while dissipating inwards, corresponding well to the theoretical value of lambda = 20 mm. This results in a depletion of neutrals in the center of the discharge, leading to a limitation and a fast decrease of plasma density after the neutrals are partially ionized. The shown refilling effect of neutral argon is too slow to have an important impact. At operation parameters for highest plasma density, the calculated ground states also show a fast increase in density at the end of the discharge after the RF-heating is switched off. This indicates recombination effects to these atomic states and higher ionization levels than ArII in the helicon discharge.
Global climate change is occurring all over the world, but in the Arctic the climate is changing more rapidly and drastically than in many other parts of our planet. Many species that are already at their climatic limit need to adapt to recent climate conditions or migrate in order to not go extinct. The possibilities of adaption include phenotypic plasticity and adaptation to various extents. This is also the case for white spruce P. glauca, which belongs to the conifers and thus in the largest group of gymnosperms still living today. Among the approx. 600 extant conifer species white spruce is one of the most widespread trees in North American boreal forests. Its range extends from 69° N in the Canadian Northwest Territories to the Great Lakes at about 44° N, where it occurs from sea level to an altitude of about 1520 m (Burns and Honkala, 1990). Site related, climate-dependent differences in white spruce reproduction can be seen as a strategy to survive under the harsh climatic conditions at Alaska's treelines: Besides sexual reproduction, the vegetative propagation occurs in the white spruce as an additional reproductive mechanism. This can be realized by "layering" when the lower branches of the tree crown touch the ground and develop roots to later grow as a separate individual with or without a connection to the mother tree. Known as other mechanisms of vegetative propagation are also the rooting of fallen trees which were not completely uprooted, and the "root suckering", in which new shoots sprout from the roots of the tree. However, the latter was not yet observed in the genus Picea. With the help of short, repetitive, non-coding sequences in the genome, which are therefore not subject to selection and are called microsatellites, these clones can be determined by genotyping.
For this purpose, using different polymorphic microsatellites, an individual multilocus genotype is created for each tree, by means of which it can be compared with all other trees of the same species.
In the first part of this work (article I), the occurrence of clones in three study areas at Alaskan treelines are examined and the reasons for their appearance in variable numbers are discussed. For this purpose, 2571 white spruces (P. glauca) were genotyped and their position was determined via differential GPS in the field. The percentage of clonal trees is higher in areas with harsh climatic conditions and correlates with the height of the lowest branches of the tree crown. This suggests that the vegetative propagation of white spruce is a backup strategy for times when climatic conditions hamper sexual reproduction. The correlation between clone numbers and tree crown height suggests "layering" as the main mechanism for cloning whereas selection for vegetative reproduction seems to be very unlikely shown by the results for genetic differentiation between the clonal and the singleton trees in this study.
In the second part of this work (articles II and III), the influence of environmental factors and phenotypic traits on the mycobiome of the needles (including all fungi living on (epiphytic) and in (endophytic) the needles) in our study areas in Alaska was investigated. The mycobiome of the white spruce needles was chosen as a proxy for the parasite infection rate by fungi and thus serves as a fitness parameter. For this purpose, all epiphytic and endophytic fungal species were analyzed by a metabarcoding analysis.
In article II, 48 trees of one study area at Alaska’s northern treeline (Brooks Range) were examined for differences in mycobiome due to genetic differentiation, phenotypic characteristics and / or habitat characteristics. The trees used for this study were sampled from two adjacent plots on a south-facing mountain slope with an elevation gradient from 875 to 950 meters above sea level. It could be shown that, in contrast to the trees genotype, the height above sea level, the mountain slope, as well as the height and age of the trees have a significant impact on the mycobiome. The genetic differentiation between the tree individuals, however, showed no significant effect.
Based on article II we examined the mycobiome composition of a total of 96 trees in 2 plots (16 trees each) at three sites in Alaska over a distance of 500 kilometers. Additionally, we sampled needles of two different ages for each tree (current year and three years old needles) summing up to 192 samples in total. The incentive of this study (article III) was to investigate the influence of origin and age of spruce needles on their mycobiome and if there is a genetic predisposition that is related to the fungal species community. In addition, the sampling design was improved by collecting needles from all four orientations (North, South, East and West) and sampling trees at a standardized distance to each other to avoid systematic errors. Comparable to article II the influence of the trees genetics on the species community of the epiphytic and endophytic fungi of the white spruce needles seems to be very unlikely. In contrast, a significant influence of the geographic origin and the needle age on the species structure of the needle inhabiting fungal species was found. The phenotypic tree traits height and dbh (diameter at breast height) had only minor influence and did in fact explain less than 2% of the mycobiome variance. Using Illumina sequencing, 10.2 million reads from the nucleotide sequence between the internal transcribed spacer (ITS) genes could be obtained, which yielded in 1575 ribotypes (called operational taxonomic unit, OTU) for the fungi. These were compared with a reference database to compare and assign them to known fungal species. For example, 942 OTUs with >95% similarity could be identified as known species, with 1975 samples identified on genus level and 2683 when determined to family level. The most pronounced difference between the two studies (article II and III) were due to the fungal species of the class of Pucciniomycetes, more specifically the genus Chrysomyxa which belongs to the rust fungi and is plant pathogenic. In the study of article II (sampling in 2012), Pucciniomycetes accounted for only a minor portion of the assigned DNA sequences. In the second study (article III, sampling in 2015) they accounted for more than half of all basidiomycetes found, which in turn contain 20.0% of all DNA sequences, the second largest phylum found beside Ascomycetes (51.4%).
Due to a variety of plasma sources in terms of type of discharge, energy yield, working gas or geometric factors, it is recommended to standardize the study protocol by choosing a plasma source and easy access to rugged tumor surfaces as demonstrated by the CAP-plasma-jet. The intention of the trial shall be to optimize the plasma jet for tumor site capability and operating room implementation.
It makes sense to start clinical trials in plasma medicine with the treatment of head and neck squamous cell carcinoma patients of infected wounds and ulcerations.
CAP is able to reduce contamination of cancer ulcerations and the typical fetid odor that often accompanies head and neck cancer patients. The intention of the trial shall be to evaluate the efficiency of decontamination in head and neck cancer ulcerations in terms of pathogenic species, amount of reduction and reliability.
Standardize study protocol:
Phase I, clinical explorative single-arm, randomized, open, multicenter
Primary objective
Reduction of microbial burden of cancer ulcerations by application of CAP
Secondary objective:
Reduction of tumor following local CAP application
Inclusion:
20 Patients suffering from locally advanced oral cavity carcinoma with open tumor surfaces, treated with palliative intention and no more curative treatment options
Exclusion:
No wish for treatment, no compliance and understanding the protocol of the clinical study
Efficacy:
reduction of microbial burden; Documentation of visible changes by photography; Pathohistological and biochemical examination of specimen, taken from the tumor area and control areas
Procedure:
Plasma is applied for 1 minute per cm², spot area of 3 mm diameter distance between nozzle and tumor surface of 14 mm. 3 times/week with a break of 1 week followed by a repeated cycle for another week.
Conclusion:
The most important intention of the trial from the clinician’s point of view shall be to make CAP-treatment an effective and well-accepted addition to standard cancer therapy based upon EBM at least in palliative medicine.
Streptococcus pneumoniae is one of the leading human pathogen causing morbidity and mortality worldwide. The pneumococcus can cause a variety of different diseases ranging from mild illnesses like otitis media and sinusitis to life-threatening diseases such as pneumonia, meningitis and sepsis. Mostly affected are infants, elderly and immune-suppressed patients. Although, there are vaccines against pneumococci available, still hundreds of thousands of people got infected each year. These vaccines are targeting the pneumococcal polysaccharide capsule. Because of the high number of different serotypes, it is not possible to generate a vaccine against all present serotypes. In the last years a shift to non-vaccine serotypes was noticed. This strengthens the need for the development of vaccines which do not target polysaccharides. Thus, proteins came into focus as potential new vaccine candidates or targets for drug treatment, because several proteins are highly conserved among different strains or even genera. Proteome analyses can give insights into the protein composition in a certain state of a bacterium. So, targets can be identified, which are especially expressed under infection-relevant conditions. Iron limitation is one of these conditions and the knowledge on iron acquisition in pneumococci is still limited. Iron is an essential trace element and as redox-active catalyst or as cofactor involved in various key metabolic pathway in nearly all living organisms and thus also in bacteria. For instance, iron is necessary during biosynthesis of amino acids and in electron transport as well as in DNA replication. Within the human host iron is extremely limited due to its high insolubility under physiological conditions, which is part of the nutritional immunity of its human host. Hence, bacteria had to evolve mechanism to overcome iron starvation. In this thesis the adaptation process triggered by iron limitation in the S. pneumoniae serotype 2 strain D39 was investigated in a global mass spectrometry-based proteome analysis.
In preceding growth experiments the pneumococcal growth was adapted to the needs of proteomic workflows. In order to investigate the pneumococcal response to iron limitation, the organic iron-chelating agent 2,2’-bipyridine (BIP) was applied. For the quantification of changes in protein abundances comparing stress to control conditions the very reliable and robust metabolic labeling technique Stable Isotope Labeling with Amino Acids in Cell Culture (SILAC) was used. This method requires the bacterial cultivation in a chemically defined medium, for which reason modified RPMI 1640 medium was chosen. A pooled protein extract with heavy labeled amino acids was applied as an internal standard, which included proteins expressed under control and stress condition, to control, BIP and BIP-iron-complex (BIP control experiment) samples. Samples were analyzed by liquid chromatography coupled directly to a tandem mass spectrometer. It is described that under iron-restricted conditions proteins associated to pathogenesis are higher abundant in pathogenic bacteria like Staphylococcus aureus. Hence, similar observations were expected also for the proteomic adaptation of S. pneumoniae, but the first results showed a reduction in protein abundance of virulence factors. In order to explain these results inductively-coupled-plasma mass spectrometry was executed to determine the iron concentration of chemically defined medium (CDM) used in this experiment. The analysis revealed a relatively low iron concentration of approximately 190 µg l-1. Therefore, the iron concentration of the complex medium THY, in which pneumococci are usually grown, was investigated. THY contains four-fold (740 µg l-1) more iron than the CDM. Subsequently, an additional iron limitation approach was carried out in THY. As SILAC is not applicable in complex media like THY, MaxLFQ was applied as quantification method in this case. Because two different media were used, an additional comparative proteome analysis with regard to the two investigated media was executed.
Comparing the protein composition in both cultivation media it became clear that pneumococci exhibit a totally different proteome depending on the medium. Major differences were found in metabolisms of amino acids, vitamins and cofactors as well as in pathogenesis-associated proteins. These differences have to be taken into account during the analyses of both iron limitation approaches. Overall, more proteins were identified and quantified in CDM samples. The pneumococcal adaptation to iron limitation in both media was different; especially, the alterations in protein abundances of virulence factors. In contrast to the iron limitation in CDM, proteins involved in pathogenesis were higher abundant under iron limitation in THY, which was the expected result. Because of proteomic changes of cell division and lipid metabolism involved proteins in iron-limited pneumococci in CDM, electron microscopic pictures were taken in order to proof cell morphology. The pictures showed an impaired cell division in iron-limited CDM, but not in THY medium. However, both datasets have similarities as well. Thus, the iron uptake protein PiuA is strongly increased in iron-restricted conditions and the abundance of the iron storage protein Dpr is significantly decreased in both datasets. Notably, PiuA and Dpr seem to have important roles during the pneumococcal adaptation to iron-restricted environments.
One the basis of these results, it could be shown that the proteomic response of pneumococci to iron limitation is strongly dependent to the initial iron concentration of the environment. Hence, pneumococci will adapt differently to varying niches and thus potential vaccine candidates should be expressed independently of the localization within the human host.
The first part of my work comprises empirical findings and theoretical foundations on stress in its historical development and socio-emotional and behavioural factors.
The first study of my dissertation focuses on the relationship between perceived stress in adolescence, the context variables of perceived helpfulness and competition and socio-emotional and behavioural strengths and difficulties (i.e., emotional problems, symptoms of hyperactivity, problems with peers, prosocial behaviour and conduct problems) from early to middle adolescence. I postulated a moderation or mediation of the effect of perceived stress on socio-emotional and behavioural strengths and difficulties through the two context variables. My hypotheses were tested using a latent moderating structural equation model (moderation analysis) and a multi-group structural equation model taking into account the gender and age of the students (mediation analysis). The theoretical basis of my first study is the transactional stress model by Lazarus and Folkman (1984).
The second study of my dissertation is dedicated to the question whether perceived stress is a moderator in the relationship between depressive symptoms in early adolescence and socio-emotional and behavioural strengths and difficulties in middle adolescence. Based on the cognitive vulnerability-transactional stress theory of Hankin and Abramson (2001), which assumes reciprocal and dynamic relationships between the individual and the environment, I investigated this question and tested the relationships using a latent moderating structural equation model.
The third study of my dissertation is based on Bronfenbrenner’s socio-ecological model (1975). Using a cross-lagged panel design, I investigate the within time and longitudinal relationships between variables of emotional (in-)stability (i.e., depressive symptoms, perceived stress and loneliness) and socio-environmental factors (i.e., sense of belonging, student-student and teacher-student-relationship) from early to middle adolescence.
At the end of my work there is a summary of all results, a discussion and an outlook for future research.
The goal of this thesis was to characterize the properties of tetramyristoyl cardiolipin (TMCL) and several environmental influences on it. This included investigating the pH and temperature dependency of TMCL as well as the influences of ROS on TMCL and exam-ining the lipid-protein interactions between TMCL and cytc. Furthermore, I extended the research to the analysis of binary mixtures composed of TMCL and dimyristoyl phosphati-dylcholine (DMPC). To this end, I investigated the samples with the aid of the Langmuir monolayer technique. This method allowed me to mimic interactions occurring at the membrane surface as it represents one membrane layer. The recording of π-A isotherms was also coupled with further other techniques like Brewster angle microscopy (BAM), Infrared Reflection-Absorption Spectroscopy (IRRAS), Grazing Incidence X-Ray Diffraction (GIXD) and Total Reflection X-Ray Fluorescence (TRXF) to enable a more comprehensive monolayer study. In addition, some systems were analyzed using Thin-layer Chromatography (TLC) and/or Differential Scanning Calorimetry (DSC) to be able to draw conclusions about sample composition or characteristic temperatures, respectively.
Immunogenicity and protectivity of surface-localized lipoproteins of Streptococcus pneumoniae
(2019)
Steptococcus pneumoniae (pneumococcus) represents a common colonizer of the human upper respiratory tract (URT). However, under certain conditions, for example following viral infections, or in indiciduals with a weakened immune system, including young children, elderly and immunocompromised persons, it can cause a wide range of life-threatening diseases, such as pneumonia, meningitis or sepsis. Based on the polysaccharide capsule that surrounds the bacterium, pneumococci are classified into so far 98 different serotypes. Prevention of S. pneumoniae infections was achieved by the development of pneumococcal polysaccharide-based (PPSV) vaccines. However, these vaccines have important limitations, including high manufacturing costs and restricted serotype coverage facilitating replacement by non-vaccine serotypes. Aiming for the development of a serotype-independent vaccine, the potential of surface-exposed and highly conserved pneumococcal lipoproteins was evaluated for being targeted as a future protein-based vaccine. Therefore, selected lipoproteins were examined i) for their surface abundance and accessibility, ii) for their presence in clinically relevant S. pneumoniae strains, and iii) for their immunogenicity. Finally, based on these initial screenings, the most promising candidates were selected to analyze their protective efficacy in a moude model of colonization. DacB and PnrA were identified as highly abundant lipoproteins on the pneumococcal surface. They showed to be immunogenic both during natural infection using convalescent patient sera and when given to mice as a subunit vaccine formulation. Following intranasal immunization and challenge of mice with two heterologous S. pneumoniae strains, both proteins reduced the pneumococcal load in the nasopharynx. The protection correlated with increased production of IL-17A indicative for a Th17-mediated immunity, which is strongly suggested to play a critical role in preventing pneumococcal colonization and infection. Lipoproteins are triggering innate receptors on antigen-presenting cells, thereby linking innate with adaptive immune responses. Therefore, lipidated proteins were evaluated for their potential to be used as an adjuvant for vaccination. Lipidation clearly enhanced humoral immune responses to DacB and PnrA without the need of an additional adjuvant. However, an additional adjuvant was required to confer protection against pneumococcal colonization. In conclusion, Lipoproteins are interesting candidates for future protein-based vaccine strategies because they are highly conserved, abundant and immunogenic. PnrA and DacB were identified as potential candidates, since they induced protection against pneumococcal colonization, which in turn may lead to a decline in infections and transmission.