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Institute
- Institut für Biochemie (5)
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In this thesis, it was the subject to build a setup to study the interaction of clusters with intense laser light. A magnetron sputter cluster ion source was built to create metal clusters for the planned investigations. Furthermore, a linear Paul trap setup was built in order to allow the investigation of the mentioned interaction at one specific cluster size. The whole apparatus was characterized and first experiments were performed.
Novel heterocyclic alpha-phosphinoamino acids, by structural relationship named 3-phosphaprolines, were obtained by cyclocondensation of 2-phenylphosphinoethylamines with glyoxylic, pyruvic or phenylglyoxylic acid at room temperature in diethylether. The reactions proceed via primary attack of the P-lone electron pair, as shown by the synthesis of phosphonium glycolates from tertiary phosphines and glyoxylic acid, and addition of PH at the carbonyl group. The ring closure proceeds by replacement of the hydroxy by the amino group and is kinetically controlled. NMR monitoring of the phosphaprolines in CD3OD over several days indicates changes of the diastereoisomer ratios leading to higher contents of the more stable trans-diastereoisomers. The zwitterionic compounds are soluble in part in CD3OD, DMF or DMSO, are somewhat sensitive to air in solution and may undergo hydrolysis with larger amounts of water. The structures are proved by multinuclear NMR spectra and two crystal structure analyses. Suitable phosphaprolines as well phosphonium glycolates and Ni(COD)2 allow to generate precatalysts, activated by NaH for the oligomerisation of ethylene to mainly linear products with methyl and vinyl end groups. Some additional investigations with phosphinophenolates, another type of P-C-C-O- ligands, were performed for comparison. Precatalysts prepared from 2-phosphinophenolesters and Ni(COD)2 at room temperature were characterized by multinuclear NMR but decomposed on heating to stable nickel cis-bis(P,O-chelate) complexes. Heating precatalysts generated from a phosphinophenolester or phosphinophenols and Ni(COD)2 in the presence of ethylene under pressure led to linear ethylene oligomers. These reactions are much faster than the above mentioned conversions with NaH activated P,O-Ni-catalysts. In the presence of 9-decenol with unprotected remote hydroxyl group incorporation of a small amount of isolated hydroxyoctyl side groups takes place, detected by 13C NMR spectroscopy. Finally it is stated that the development of a facile synthesis and the characterization of the properties of the phosphaprolines pave the way for derivatisation and further studies with these novel types of amino acids.
Interactive Visualization for the Exploration of Aligned Biological Networks and Their Evolution
(2011)
Network Visualization is a widely used tool in biology. The biological networks, as protein-interaction-networks are important for many aspects in life. Today biologists use the comparison of networks of different species (network alignment) to understand the networks in more detail and to understand the underlying evolution. The goal of this work is to develop a visualization software that is able to visualize network alignments and also their evolution. The presented software is the first software for such visualization tasks. It uses 3D graphics and also animations for the dynamic visualization of evolution. This work consists of a review of the Related Work, a chapter about our Graph-based Approach for Interactive Visualization of Evolving Network Alignments, an explanation of the Graph Layout Algorithm and some hints for the Software System.
Transition metal complexes play a crucial role in antitumor therapy. Complexes of platinum, ruthenium as well as lanthanum and gallium have been investigated in preclinical as well as in clinical studies. The best known platinum(II) agents approved worldwide, cisplatin or carboplatin, are used in nearly 50% of all cancer therapies. This work focused on the development of new metal-based drugs that could act against human cancer cells. It was motivated in part by previous work with Cu(II) complexes, reporting new coordination compounds of SOD mimicking and cytotoxic activities. On the basis of this work we chose several commercially available heterocyclic ligands to synthesize new metal ion complexes in search of their interesting biological activity. New as well as previously reported Cu(II), Co(II), Pt(II) and Zn(II) complexes were synthesized using various ligands (1-6). Almost all chelating 2:1 ligand-metal complexes were obtained generally in water at room temperature in the reaction of metal(II) chloride with corresponding aromatic nitrogen ligands bearing an O-carboxylate group ligand. The synthesized chelating complexes were characterized by the use of spectroscopic methods, elemental analyses and HPLC chromatography and some by X-ray crystallography. Such coordination compounds are easily formed by transition metals with free orbitals d that can accept the donor electron pairs. The coordination is through the heterocyclic nitrogen and carboxylate oxygen donor atoms, which was shown by analysis of the characteristic functional groups in the IR spectra. The d-d transitions and absorption of visible light in Cu(II) and Co(II) complexes make them highly colored, blue, green or green-blue, respectively. The configuration of the coordination center was established in some cases by X-ray crystallography. Most of the already published structures possess the trans configuration. This led to the assumption that other uncrystallized complexes were also trans configured. However, X-ray data of the Cu(II) complex of 5 showed quite unexpectedly the cis configuration. On the other hand, the LC/MS experiments with the Pt(II) complex of 5 indicated that this complex exists in two isomeric forms, i.e., cis and trans at the Pt(II) center. Through the use of density functional calculations we optimized the structures and calculated the energies and dipole moments. The differences in energy for all complexes were about 6 to 15-fold lower when compared to cis and transplatin. The DFT calculations confirmed that the trans-isomers are more stable than their cis-isomers. UV-Vis stability studies with most of the synthesized complexes as well as some other Cu(II) complexes were performed to study the spectral changes over 24 h in addition of glutathione, a tripeptide present in the cancer cells and ascorbate that were added to the incubations. The results indicated time-dependent changes and instability of the complexes in the cells and their possible decomposition to lose the ligand and release the metal ion. In the case of Cu(II) complexes, reduction of Cu(II) to Cu(I) may take place. New species such as GSSG could arise and the complexes may decarboxylate, but these structures were not elucidated. The synthesized coordination metal(II) complexes were tested for their potential antiproliferative activities by using the crystal violet staining method in a panel of human cancer cell lines. Out of all complexes, three Pt(II) complexes of 2, 5 and 6 showed satisfactory activity and for these complexes the IC50 values were additionally determined in new RT-4, DAN-G and MCF-7 cancer cell lines. Interestingly, the active complexes were the chelating trans complexes which is quite unexpected, based on the difference in activities between cis and transplatin. All of the complexes were tested for their potential antimicrobial activities in comparison to the standard antibiotics on such bacterial strains as Staphylococcus aureus, Bacillus subtilis, Escherichia coli, Pseudomonas aeruginosa and yeast Candida maltosa. Co(II) complexes have been especially known to act against bacterial strains. The activity of the Co(II) complexes was indeed the highest of all metal(II) complexes. The ligand 2 (a nicotinic acid isomer) was also found active. This fact could explain why some antibacterial activity was found in the MIC assay. In addition to the complexes synthesized in this work, several novel heterocyclic metal(II) complexes of copper, ruthenium, platinum, gallium, osmium and lanthanum from other research groups were screened for their antiproliferative activity, some of which exhibited very potent activity in the cancer cell lines. In conclusion, Pt(II) complexes with bis-chelating heterocyclic carboxylate ligands represent a particularly interesting new class of compounds from the view point of their structural and biological properties.
In this thesis, a stereoscopic camera system is presented that is designed for the use on parabolic flights for the investigation of dusty plasmas under microgravity conditions. This camera system consists of three synchronously triggered high-speed cameras observing a common volume of approximately (15 × 15 × 15) mm³ size. In this volume, the three-dimensional trajectories of a large number of particles surrounded by a dense dust cloud were reconstructed. For this task an intricate set of reconstruction algorithms has been developed, including a four-frame linking algorithm and a complex combined 2D/3D tracking algorithm for a reliable tracking of 3D particles. Furthermore, these algorithms effectively suppress so-called ghost particles in the evaluation process which are reconstructed from falsely identified 2D particle correspondences. Dusty plasmas under microgravity conditions are of special interest due to their complex structure and the variety of observable dynamic phenomena. Under typical discharge conditions, a central dust-free void is formed, surrounded by a dense particle cloud. Since the void is inherently dust-free, particles shot into the void can be uniquely identified and used to probe plasma properties inside this region. In the dust cloud itself, processes like self-excited dust-density waves can be observed under suitable experimental conditions. Using the presented camera setup and reconstruction algorithms, two parts of a dusty plasma under microgravity on parabolic flights are investigated. Initially, the force field creating and sustaining the central void is deduced and characterized. The combination of ion drag and electric field force is measured and compared to current models of the ion drag, showing a good agreement with these models. While previous investigations on the forces were limited to two-dimensional slices through the void, our measurements represent the first three-dimensional quantitative analysis of a large fraction of the void region. From this analysis the structure of the force field is determined and separated into a radial and a non-radial (or orthogonal) contribution. It is shown that the radial contribution dominates in the central void, while non-radial forces increase in magnitude close to the void edge. The radial domination is also observed in the velocity distribution of the probe particles which is significantly shifted to radially outward directed velocities for particles leaving the void. Assuming a strictly radial force profile in the horizontal mid-plane of the void, the friction coefficient determining the interaction of the probe particles with the neutral gas background is experimentally determined and shown to match the theoretical expectation. Subsequently, particles at the outer surface of the dust cloud are reconstructed. There, the particles are found to oscillate due to dust-density waves propagating through the high-density dust cloud. For the investigation of the correlation between waves and oscillating particles, the instantaneous wave and oscillation properties are determined and the instantaneous phase difference is obtained. Modeling the probe particles as driven, damped harmonic oscillators, these phase differences between waves and particles are interpreted with respect to the resonance frequency of the oscillating particles. Spatial variations of the phase difference are observed that may be attributed to different frequencies of the dust-density waves, or to changes of the resonance frequency induced by changing local plasma parameters. From a few measurements of particles oscillating at their resonance frequency, information about the surrounding plasma or properties of the particles themselves can be deduced. However, a larger number of reconstructed trajectories is necessary in order to interpret the phase differences on a reliable data basis. The presented camera setup in combination with the evaluation algorithms is a flexible system for the investigation of three-dimensional dusty plasmas. Its robust construction allows the operation of the system in challenging environments such as on parabolic flights, where spatial limitations and vibrations produced by the aircraft make special demands on such a diagnostic tool. This versatility makes our stereoscopic camera setup and the reconstruction process a suitable standard diagnostic for the application with dusty plasmas; this system will therefore be used in future research amongst other things for the investigation of boundary layers in extended three-dimensional dust clouds under microgravity.
Self-similar sets are a class of fractals which can be rigorously defined and treated by mathematical methods. Their theory has been developed in n-dimensional space, but we have just a few good examples of self-similar sets in three-dimensional space. This thesis has two different aims. First, to extend fractal constructions from two-dimensional space to three-dimensional space. Second, to study some of the properties of these fractals such as finite type, disk-likeness, ball-likeness, and the Hausdorff dimension of boundaries. We will use the neighbor graph tool for creating new fractals, and studying their properties.
Triple helix-forming oligonucleotides (TFOs) are one of the most specific DNA duplex binding agents and offer new perspectives towards oligonucleotide-mediated gene regulation and manipulation. However, the poor thermodynamic stability of DNA triplexes under physiological conditions limits a successful application in the antigene strategy. Thus, the conjugation of TFOs with small triplex-specific binding ligands is a promising approach to stabilize the formed complexes and to enhance their overall binding affinity. The present study focused on the synthesis of novel TFO conjugates with triplex-binding indolo[3,2-b]quinoline derivatives (PIQ) and on their ability to form and stabilize intermolecular triplexes through their recognition of a duplex target. During the course of the work the thermodynamics of conjugate binding and structural aspects of drug-DNA interactions have been characterized by a variety of spectroscopic and calorimetric techniques.
Protein quality control systems are essential for the viability and growth of all living organisms. They protect the cell from irreversible protein aggregation. Because the frequency of protein misfolding, which ultimately results in protein aggregation, varies with the environmental conditions, the amount and activity of protein quality systems have to be accurately adapted to the rate of protein misfolding. The main goal of this thesis was to gain detailed molecular insights into the transcriptional and post-translational regulation of these protein quality control networks in the ecologically, medically and industrially important phylum of low GC, Gram-positive bacteria. In these bacteria the core protein quality control systems are under the transcriptional control of the global repressor CtsR. In a first study it was demonstrated that the arginine kinase McsB is not responsible for the regulation of CtsR activity during heat stress, as was concluded by others on the basis of previous in vitro data. Rather, it was demonstrated that CtsR acts as an intrinsic thermosensor that adapts its activity to the surrounding temperature. CtsR displays a decreased DNA binding at higher temperatures, which leads to induction of transcription of the protein quality control systems under these conditions. This CtsR feature is conserved in all low GC, Gram-positive bacteria. However, the CtsR proteins of various low GC, Gram-positive species do not have the same temperature optima. CtsR responds to heat in a species-specific manner according to their corresponding growth temperature. Detailed analysis revealed that a highly conserved tetra-glycine loop within the winged helix-turn-helix domain of CtsR is responsible for thermosensing. Dual control of CtsR activity during different stresses was demonstrated for the first time in this work. In addition to heat-dependent de-repression, CtsR is inactivated by thiol-specific stress conditions. This latter de-repression depends on a molecular redox-switch that is independent of CtsR auto-regulation. In Bacillus subtilis and its closest relatives the McsA/McsB stress-sensing complex is responsible for CtsR de-repression during redox stress conditions. McsA is able to sense the redox state of the cell via its highly conserved cysteine residues. When these cysteines are reduced, McsA is able to bind and inhibit McsB. But when these cysteine residues are oxidized, McsB is released from McsA. Thereby, McsB is activated and removes CtsR from the DNA. However, the McsA/McsB complex is not present in all low GC, Gram-positive bacteria. In the species lacking this complex, ClpE is able to act as a redox-sensor probably via its highly conserved N-terminal zinc finger domain. When these cysteine residues are oxidized, ClpE is activated which results in CtsR de-repression. In addition to the transcriptional regulation of CtsR low GC, Gram-positive protein quality control systems are regulated post-transcriptionally. The expression of the McsA/McsB adaptor pair is regulated by CtsR. However, McsB activity is also tightly regulated by three different regulatory proteins (McsA/ClpC/YwlE). McsB is needed to target specific substrates to ClpC, either for refolding or degradation by the ClpCP protease. It was demonstrated that only the auto- phosphorylated form of McsB is able to bind to its substrates. This McsB function is inhibited in non-stressed cells by a direct interaction with ClpC. Consequently, McsB is activated by a release from ClpC during protein stress. In addition, McsB activation depends on the presence of its activator McsA. Accordingly, McsB cannot be activated as an adaptor protein during thiol-specific stress because McsA is no longer able to bind to McsB under these conditions. However, also active McsB is subject to post-translational control. Activated McsB is either de-phosphorylated by McaP or degraded by ClpCP ensuring an appropriate shut-down of the McsB adaptor. Both McaP and ClpC inhibit McsB activity with different intensities. ClpC possesses a stronger impact on McsB activity than McaP but both proteins are needed for an adequate silencing of McsB activity. In addition, it was shown for the first time that B. subtilis McsB is a global adaptor that influences the stability of multiple proteins. The B. subtilis ClpC protein is unlike most members of the Hsp100 family because it not only requires several adaptor proteins for substrate recognition but also for its general ATP- dependent activity. Biochemical analysis revealed how ClpC is activated by distinct adaptor proteins. McsB modulates ClpC activity by regulatory phosphorylation of arginine residues. Moreover, McaP (formerly YwlE) was identified as an arginine phosphatase that modulates the McsB mediated ClpC activity. MecA, another known adaptor protein for ClpC, activates ClpC independently of these arginine phosphorylations, which demonstrates the existence of multiple pathways for ClpC activation.
The dissertation aims at developing means to integrate conservation and development in biosphere reserves in Madagascar. Despite a multitude of concepts such as UNESCO biosphere reserves, Integrated Conservation and Development Projects and community-based natural resource management, gaps between conservation and development remain to exist. In a qualitative case study in Mananara-Nord and Sahamalaza Iles-Radama Biosphere Reserves in Madagascar data was collected on biosphere reserve management, local use of natural resources and socio-cultural aspects that influence natural resource use. Furthermore, natural values local people associate with the forest were investigated. Analysis revealed that management capacities constitute a limiting factor in biosphere reserve management. Collaboration between management, local people and international organisations fosters the achievement of both conservation and development. However, collaboration is only possible if (i) clear rules are formulated and (ii) partners have a vision in common. Based on the theory of social capital, newly introduced and locally existent rules/institutions having an influence on the use of natural resource were categorized in bonding, linking and bridging social capital. Furthermore, the perception of natural values was classified in instrumental and non-instrumental values and assigned to ecosystem services identifying the importance of nature for human well-being. With the capabilities approach Amartya Sen defined human well-being as the achievement of those capabilities a person considers valuable. This includes aspects that assure livelihoods on the one hand and aspects that are conducive to well-being on the other, thus both being relevant for development. In the dissertation capabilities are based on both instrumental and non-instrumental natural values and consequently offer an opportunity to demonstrate and characterise the relationship between nature and human well-being. Social and natural values provide orientation for a biosphere reserve management. The category bonding social capital (social values) describes local socio-cultural aspects in communities and their importance for collaborative processes. Natural values provide the management with guiding principles to foster nature conservation and to integrate locally existent capabilities. Supporting and furthering these capabilities enables the development of new capabilities of all concerned persons. The dissertation demonstrates various possibilities to build bridges between (i) nature conservation and development, (ii) natural and social sciences, (iii) formal regulations and local socio-cultural aspects and (iv) diverse actors. Implementation of a social monitoring is recommended together with local stewards and Malagasy students to collect information about the perception of natural and social values and use them as guiding principles for biosphere reserves. Collaboration with national and international scientific institutions can foster this process.
Northern peatlands are ecosystems with unique hydrological properties, storing about 400-500 Gt of carbon. As the production rate of organic material is higher than its decomposition, which is slowed down in the wet and cold environment, peatlands store a great amount of carbon. Carbon assimilated from the atmosphere during photosynthesis by plants is partly lost due to autotrophic and heterotrophic respiration as carbon dioxide (CO2), as methane (CH4) or/and as dissolved organic carbon. The proportion of each carbon component is strongly controlled by environmental conditions as temperature, radiation, precipitation and subsequent water table changes and active role of vegetation. With predicted changes in the global climate, changes in the influence of environmental parameters on peatland ecology are expected. Thus thorough research is essential for a better understanding of mechanisms which influence carbon cycling in peatlands. In this thesis, various components of the carbon cycle were studied at two boreal peatland sites (Ust Pojeg in Komi Republic in Russian Federation and Salmisuo in Eastern Finland) using the micrometeorological eddy covariance method. The focus was placed on the temporal changes of the controlling parameters, ranging from a few days during short snow thawing through the rest of the year. At the Salmisuo site, two measurement seasons allowed to address possible inter-annual variation. We observed that diurnal variations in methane emissions which are typically controlled by vegetation during the growing season, might appear during snow melt as a result of the influence of physical factors rather than biological factors. The diurnal pattern in methane emissions was caused by the interaction of the freeze-thaw cycle and near urface turbulence. During the night time, when surface temperatures fell below zero and caused formation of the ice layer, methane emissions were only around 0.8 mg m-2 h-1, however after the increase in temperature and melting of the ice layer they reached peak values of around 3 mg m-2 h-1. The near surface turbulence had a significant influence on methane emissions, however only after the thawing of the ice layer. The effect of changing environmental parameters over the year was further elaborated on a carbon dioxide time series from the Ust Pojeg site. The generally accepted effects of temperature on ecosystem respiration during the night are not stable throughout the year and can change rapidly during the growing season. Using moving window regression analysis I could show that the strength of the exponential relationship between ecosystem respiration and temperature is changing during the year. This was in correspondence with recent publications elaborating on sub-seasonal changes of the controlling parameters. In general, measurements from the Ust Pojeg site represent estimates of annual CO2 and CH4 fluxes with an annual carbon balance of -94.5 g C m-2 and a new contribution to the quantification of trace gases emissions from a Russian boreal peatland. The inter-annual comparison of net ecosystem exchange (NEE) measurements with previously published data on CH4 and DOC flux from the Salmisuo site showed that the NEE of CO2 is the most important component of the carbon balance at this site. However, primary production was not responsible for the inter-annual changes in NEE. Rather, the effects of water table position during the year had a strong influence on ecosystem respiration, which was probably due to the influence on soil respiration, and higher NEE was observed during the year with smaller primary production, but higher water table levels. The effects of higher precipitation and higher water table during the wet year were shown to increase CH4 flux and the export of DOC, but their effects could not compensate for changes in ecosystem respiration. In the presented thesis intra- and inter- annual changes in carbon flux components and their controls, in our case attributed mostly to hydrological conditions in combination with other environmental parameters as temperature and the role of peatland vegetation, are discussed.
The key objective of this dissertation is to study the expected impact of the introduction of the Social Health Insurance (SHI) on the public hospital management and to develop recommendations that will improve this management. In addition to the key objective, this study aims to analyze the health sector financing in Syria, to outline problems affecting on management of public hospitals in Syria. Furthermore, it aims to study the various countries' experience with SHI and analyze key components of the Syrian SHI.
The present work provides new insight concerning histidine phosphorylation in proteins, which is an essential regulatory posttranslational modification. To study histidine phosphorylation, a newly developed NMR approach, the HNP experiment, is presented in this thesis. The HNP experiment provides specific experimental evidence of phosphorylated histidines in proteins. It allows for the determination of the regiochemistry of phosphohistidines on the basis of three individual peak patterns for distinguishing all three phosphohistidines i.e. 1- and 3-phosphohistidine and 1,3-diphosphohistidine. This novel NMR approach allows the investigation of histidine phosphorylation in proteins under physiological conditions without resorting to chemical shift comparisons, reference compounds, or radioactively labelled phosphate. In this thesis, histidine phosphorylation in the regulatory domains PRDI and PRDII of the Bacillus subtilis antiterminator protein GlcT was intensely studied. GlcT is a transcription factor, which regulates the phosphotransferase system (PTS) by modulating the expression level of PTS-enzymes (Enzyme I, HPr, Enzyme II) on a transcriptional level. Upon the phosphorylation of conserved histidines in PRDI and PRDII, the function of GlcT is regulated through its aggregation state. In this thesis, it is shown that histidines in both PRDs are primarily phosphorylated at their N(Epsilon-2), forming 3-phosphohistidine. In addition, we found, by newly optimized mass spectrometry conditions, that both PRDs are dominantly onefold phosphorylated. By using tandem mass spectrometry to study PRDI, we identified histidine 170, which is the second of two conserved histidines (His 111 and His 170), as the phosphorylation site. In this thesis, it is also shown through comprehensive mutational studies that both conserved histidines (His 218 and His 279) in PRDII can be individually phosphorylated. This is in good agreement with mass spectrometry results that indicated an additional twofold phosphorylation in PRDII. This can be explained as follows: an intra-domain phosphate transfer between both conserved histidines in PRDII might be involved in the phosphorylation reaction, finally leading to a mainly onefold phosphorylated PRDII at one of the two conserved histidines. This minor twofold phosphorylation has also been found in PRDI. However, the specific peak pattern in the HNP-spectra of PRDI strongly suggest that this additional phosphorylation originates from a 1,3-diphosphohistidine, most likely at histidine 170. Furthermore, for the first time the existence of 1,3-diphosphohistidine in a protein was found. We also show that the phosphorylation of PRDI can be achieved in the absence of Enzyme II which is in contrast to the literature. Shown by analytical gel filtration, the monomeric aggregation state of PRDI obtained upon Enzyme II-free phosphorylation is identical to the monomeric aggregation state which was proposed for the Enzyme II-dependent phosphorylation of GlcT. As shown in this thesis, the combined results of HNP-NMR, mass spectrometry and analytical gel filtration deepen our understanding of regulatory histidine phosphorylation in the individual PRDI and PRDII domains of the Bacillus sub- tilis GlcT. I anticipate that this approach will be applicable to study histidine phosphorylations in other phosphoproteins.
District hospitals are the only solution to guarantee basic health care including life-saving surgeries and hospitalisations in rural SSA areas. Neither regional nor national hospitals, financially and geographically out of reach for the majority of the population, nor rural health care centres, mostly staffed with a nurse only, can cover these tasks adequately. However, only little research exists on care giving processes, cost and efficiency of district hospitals in SSA. The general problem in health economics is that limited resources should be used in order to maximise health effects. This dissertation evaluates the actual treatment pathways and their average provider’s cost per patient for four different diagnoses at Nouna district hospital in Burkina Faso. A total of 95 patient records was analysed in detail and discussed with the health personnel in charge. Cost information for the year 2005 was taken from the well-established provider cost information system. Cost were broken down to the different sequences of the treatment pathway and summed up at the end. Average provider’s cost for paediatric Malaria were U$ 6.71 for outpatients, US$ 60.59 for inpatients with anaemia and US$ 75.11 for inpatients with neurological affection. Average provider’s cost for treating hypertension were US$ 67.94 per year. Average cost for hernia cure were US$ 146.85 under local anaesthesia, US$ 153.08 under spinal anaesthesia and US$ 169.78 under general anaesthesia. Average provider’s cost for Caesarean sections were US$ 140.15 under spinal anaesthesia and US$ 180.41 under general anaesthesia. This means that cost per patient are comparable to or even lower than provider’s cost found for other SSA setting in the literature. Cost would decrease between 20% (a hypertensive outpatient) and 46% for Malaria with neurological affection as complication, if utilisation rates rose from actually 20 to 80%. Patients paid between 35 and 94% of total provider’s cost in form of user fees. If fees would not change and the utilisation rate increased to 80%, cost-recovery for the considered diseases would then be between 63 and 117%. Although this would not allow the hospital to break even in its current configuration, the cost-recovery rate would be considerably higher, especially when taking into account that a full cost analysis was done including all investment cost. The introduction of clinical pathways based on the actual treatment pathways is suggested to improve process structure and documentation and to standardise the treatment according to national and international guidelines.
Tidal flats represent the transition zone between the terrestrial and marine realm. They are subject to pronounced dynamics due to distinct tidal and seasonal variations of physical, chemical, and biological parameters significantly influencing redox-sensitive element cycles. Thus, redox-sensitive trace metals may be suitable indicators for variations in bioproductivity and microbial activity. Therefore, seasonal and tidal dynamics of manganese, iron, molybdenum, uranium, and vanadium were studied in the water column and sediments of tidal systems of the German Wadden Sea (southern North Sea) in the years 2007 to 2009 involving also previously analysed data from year 2002. To demonstrate the response of the trace metal cycles on phytoplankton blooms and enhanced biological activity time series data of nutrients and phytoplankton dynamics were also involved in this study. Pronounced cycling is seen for pelagic manganese revealing distinctly higher values during low tide. Complex seasonal cycling showing maxima of dissolved manganese in spring and late summer and a depletion period in early summer is caused by benthic-pelagic coupling and reflection of exhaustion and replenishing periods in the surface sediments. Vanadium dynamics are coupled to the manganese cycling due to vanadium scavenging and release during manganese oxide formation and reduction, respectively. Molybdenum and uranium behave almost conservatively following changes in salinity and thus, being slightly enhanced during high tide. Deviations from conservative behaviour are found to occur during breakdowns of summer phytoplankton blooms. In the following, significant enrichments of manganese, molybdenum, iron, and uranium are observed in the shallow pore waters. These coherences are assumed to be caused by a tight coupling of geochemical, biological, and sedimentological processes. Intense release of organic matter during the breakdowns of algae blooms leads together with enhanced bacterial activity in summer to the formation of organic- and trace metal-rich aggregates which are deposited and incorporated into the tidal surface sediments. Microbial decomposition of the aggregates and corresponding shifts in redox-conditions effect a release of dissolved trace metals into the pore water. Subsequently, the trace metals are fixed in the sediment as sulphides, adsorbed to organic compounds or released to the overlying bottom water. Furthermore, two tidal systems, one from the East Frisian and one from the North Frisian Wadden Sea are compared. Although, both areas show different hydrodynamical, sedimentological, and ecological conditions similar manganese dynamics are observed implying that this is a common behaviour in the entire Wadden Sea. However, distinct quantitative differences appear showing a 6-fold higher level of dissolved manganese in the water column of the East Frisian area. This is explained by a higher manganese release from tidal flat sediments and a larger sediment area/water volume ratio compared to the North Frisian area. Detailed time-series data of the nutrients phosphate, silica, and nitrite+nitrate are used to verify model simulations and to calculate nutrient export budgets considering tidal and seasonal variations. The model results imply an export of nutrients from the tidal flats into the open waters of the German Bight which is in the same order of magnitude as the combined discharge of the rivers Elbe, Weser, and Ems. To investigate the importance of the Wadden Sea as a potential manganese source for the North Sea, transects were carried out into several tidal flat areas of the North Frisian Wadden Sea. The results suggest that the North Frisian Wadden Sea is a less important source for dissolved manganese compared to the East Frisian area. In contrary, the export of particulate manganese seems to be more important showing distinctly higher concentrations in the North Frisian study areas in summer. The influence of sediment permeability and bioturbation on trace metal budgets of the pore waters are investigated in natural and experimentally manipulated tidal flat sediments. Advective pore water transport in highly permeable sandy sediments and bioturbation promote exchange processes at the sediment/water interface probably leading to reduced nutrient and trace metal enrichments in the shallow pore waters. Furthermore, the penetration of oxygen into deeper sediment layers induces a release of sulphidic bound molybdenum to the pore water. During laboratory experiments with natural anoxic sediments an effective oxidative molybdenum release is determined during resuspension of the sediments in oxic seawater. Thus, pronounced sediment resuspension during storm events is suggested to cause significant release of molybdate from displaced anoxic sediment components thereby enhancing the molybdate level of the open water column. In addition to the examination of recent biogeochemical processes, the paleo-environmental influence on geochemical and microbiological processes in Holocene and Pleistocene sediments of the East Frisian study area were analysed in an interdisciplinary study. It is found that the microbial abundance and activity are higher in the Holocene than in the Pleistocene sediments. However, this is mainly caused by present environmental conditions. The impact of the paleo-environment on the microbiology is less pronounced. The lithological succession affects hydrological processes which enable the transfer of electron donors and acceptors for present early diagenetic processes into deep sediment layers. The paleo-environmental imprint is still detectable but the modern biogeochemical processes dominate in the sediment-pore water system.
Staphylococcus aureus is a pathogenic bacterium infecting the human host. It’s multifaced adaptation to various environmental conditions is mediated by a tight regulation of the virulence factors influencing the host’s immune system. In this thesis two regulators of gene expression were analysed: (i) the global influence of the two-component system SaePQRS and (ii) the regulation of superantigen gene expression by the alternative sigma factor σB. At the outset of this thesis, single target genes induced by SaeRS were known (hla, hlb, cap5, fnbA, coa). In order to get a general idea of the Sae-regulon, the influence of SaePQRS on gene-expression was analysed in two strain backgrounds by proteomics and transcriptomics aproaches. Recapitulatory, expression of at least 18 secreted and two covalently cell-wall bound proteins was decreased following inactivation of the Sae-system. Sae-dependently expressed were, amongst others, well decribed virulence factors like the y-hemolysins HlgA, HlgB, HlgC, LukM and LukF, the innate immune system modulating proteins Efb, CHIPS and SCIN-B as well as the enterotoxin SEB. SaeR acts as an activator of its target genes. Some proteins were detected in increased amounts in the extracellular proteome of the Sae-deficient strain. However, these changes did not occur at the transcriptional level. The expression of virulence factors is determined by other global regulators. No influence of SaePQRS on the transcription of five substancial regulators, namely the Agr-system and its effector molecule RNAIII, the alternative sigma factor σB, the two-component system ArlRS and the DNA-binding protein SarA, could be shown. In the second part of this thesis the issue was broached to the regulation of gene-expression of a subgroup of virulence factors, the superantigens (SAgs) of S. aureus by SaePQRS and σB. In contrast to their well described molecule structure and function, the regulation of their gene expression was largely unknown. Six different S. aureus strains (two laboratory strains and four clinical isolates) encoding one to seven SAg-genes each, were used for analysis of a total of twelve SAgs regarding their transcription and mitogenic activity. The transcriptional units were characterized using Northern-Blotting. The expression of SAgs could be correlated to the respective growth phase. While egc-SAgs were expressed mainly at low optical densities, seb was induced during late growth phase. In contrast, the transcription of sea, seh, sek, tst and sep remained constant and growth-phase independent. The transcriptional dataset was verified using T-cell proliferation assays. The expression of seh, tst and the egc-operon was dependent on σB. A potential σB-dependent promotor could be identified preceeding seo, the first gene of the egc-operon. In contrast, the expression of seb was increased in sigB-deficient background. This might be due to indirect effects. Expression of seb required SaePQRS. Transcriptional datasets were verified by Immuno-Blotting and T-cell-proliferation assays. In conclusion, the same mutation in sigB but in different strain backgrounds could result in opposite phenotypes with respect to their mitogenic activity. Besides well characterized virulence factors, some secreted proteins with so far unknown function belong to the Sae-regulon. Given that the influence of SaePQRS was restricted to virulence factors and induced especially modulators of the innate immune system, it can be assumed, that these proteins potentially play a role in virulence of S. aureus. In the third part of this thesis, one of these potential new virulence factors, namely SACOL0908, was analysed in detail. In cooperation with the group of Prof. Stehle, Tübingen, the crystal structure was solved. The protein folding of SACOL0908 is new with only minor similarities to described protein structures. Recombinantly expressed SACOL0908 binds to granulocytes. These cells belong to the innate immune system, incorporate bacteria by phagocytosis and kill them. The receptor for SACOL0908 on the surface of granulocytes could not be identified using immunoprecipitation, antibody-blocking assays and functional assays in cooperation with the group of Prof. Peschel, Tübingen. The gene encoding SACOL0908 was deleted in two S. aureus strain backgrounds (COL and Newman). These mutants are currently in use to characterize their phenotype in mouse-infection studies.
Background: Alcohol consumption accounts for a high burden of disease. The general population of West Pomerania has been characterized as a population at risk with a high prevalence of behavioural risk factors such as alcohol risk drinking. This is reflected by the high proportion of patients being admitted to general hospitals due to alcohol-attributable diseases. The aims of the present dissertation were (a) to analyze dose-response relations between volume of alcohol drinking and the risk of diseases with different alcohol-attributable fractions (AAF) in general hospital inpatients (study 1); (b) to assess motivation to change drinking behaviour and motivation to seek help for alcohol problems during their hospital stay as well as changes in motivation to change drinking behaviour, motivation to seek help and changes in daily alcohol consumption across time according to diseases with different AAFs (study 2); and (c) to investigate the association of fatty liver disease (FLD) with blood pressure and hypertension in a general population sample and to test for the specific contribution of alcohol consumption to this association (study 3). Methods: For studies 1 and 2, data from 'Early Intervention at General Hospitals', a randomized controlled trial to test the effectiveness of brief intervention for alcohol problem drinking in general hospitals, were used. Study 1 comprised data from 846 inpatients, study 2 comprised data from 294 inpatients aged 18 to 64 years with alcohol problem drinking and alcohol-attributable diseases from four general hospitals in West Pomerania. Hospital diagnoses were classified according to their AAF: (1) diseases wholly attributable to alcohol consumption by definition (AAF=1), (2) diseases partially attributable to alcohol consumption (AAF<1), and (3) diseases with no relation to alcohol consumption or where alcohol consumption has been found to be a protective factor (AAF=0). Study 3 encompassed data from the 'Study of Health in Pomerania', a general population sample of 3191 adults aged 20-79 years. FLD was defined using ultrasound in combination with increased serum alanine aminotransferase levels. Results: Analyses showed that 46.8% of the general hospital inpatients had a disease attributable to alcohol consumption. There was a dose-response relationship between volume of alcohol drinking and the risk of diseases with different AAFs. Inpatients consuming >120 g and inpatients consuming 61-120 g of pure alcohol per day revealed significantly higher odds for diseases with AAF=1 compared to inpatients consuming 31-60 g of pure alcohol per day with odds ratios (OR) of 6.3 (95% CI 3.6-11.3) and 2.9 (95% CI 1.6-5.1), respectively. Regarding diseases with AAF<1, inpatients consuming >120 g of pure alcohol per day had significantly higher odds compared to inpatients consuming 31-60 g of pure alcohol per day (OR 2.0, CI 1.2-3.4). Analyses on motivation to change drinking behaviour and on motivation to seek help at hospitalization revealed that motivation to change drinking behaviour was higher among inpatients with alcohol-attributable diseases than among inpatients without alcohol-attributable diseases (p<.001). Among inpatients with AAF=1, motivation to seek help was higher than among inpatients with AAF<1 and AAF=0 (p<.001). While motivation to change drinking behaviour remained stable within one year after hospitalization in all three AAF groups, motivation to seek help decreased in this time period. The volume of alcohol consumed decreased in all three AAF groups within one year after hospitalization. Data from the general population study revealed that FLD was associated with blood pressure and hypertension at baseline and at five-year examination follow-up. For example, the chance of hypertension at both time points was threefold higher in individuals with FLD (OR 2.8, CI 1.3-6.2; OR 3.1, CI 1.7-5.8, respectively) compared to individuals without FLD. Analyses further revealed that the association of FLD with blood pressure and hypertension was independent of alcohol consumption. Conclusion: The results of the present dissertation provide relevant implications for public health. In view of the high proportion of general hospital inpatients with alcohol-attributable diseases, a screening procedure for problem drinking is needed. Furthermore, appropriate interventions considering the inpatient’s motivational level have to be implemented. The concept of AAFs to classify disease conditions according to their causal relationship with alcohol consumption might be a tool to detect inpatients with problem drinking. The results regarding FLD and its association with blood pressure and hypertension demonstrate that it is important to pay attention to alcohol-attributable diseases in the general population and that alcohol-attributable diseases are associated with subsequent serious sequelae. The results of the present work further indicate that the concept to distinguish between alcoholic and non-alcoholic origin of FLD might be obsolete and should be replaced by a concept that regards FLD as a multifactorial disease condition.
Decision making in everyday purchase situations requires mental processing of factors that are related to the items on display. These influencing factors – called persuasive information – can take various forms, like the price level, the design of the package or the display of certain product attributes. Despite the existence of persuasive information trying to influence our buying behavior, almost nothing is known about the underlying neural mechanisms responsible for processing this information. In this thesis functional magnetic resonance imaging was used to investigate neural activity correlated with product related persuasive information. As persuasive information organic, light and regular labeled food was chosen. The 1st experiment investigated the neural correlates of visually inspected organic and regular labeled food and the influence on willingness to pay (WTP) for the displayed items. It was hypothesized that organic compared to regular labeled food will be perceived as more rewarding which should be visible by an increased activity in the ventral striatum as a central area for reward processing and by a heightened WTP. As organic label information the national German eco emblem 'Bio-Siegel' was chosen (for stimuli details see 2.1). As there is no emblem indicating regular food, an artificially created logo was used for indicating a conventional product. 40 well- known food products (e.g. milk, bread, eggs etc.) were presented to the subjects. These products were marked with the organic emblem and the same 40 products with the regular label. We found that visual inspection of organic labeled food indeed led to an increase in neural activity in the ventral striatum and to a heightened WTP, suggesting a higher subjective value for these products. The 2nd experiment investigated the neural correlates of actually administered food stimuli labeled organic, light or regular and the influence on expected and experienced taste. For organic compared to regular labeled food we hypothesized an increase in expected and experienced taste pleasantness. Furthermore, light compared to regular labeled food should lead to a decrease in expected and perceived pleasantness and intensity ratings. During the active tasting process this should be accompanied by an increase in reward-related (e.g. organic vs. regular; regular vs. light) areas like the ventral striatum medial orbitofrontal cortex or aversion-related (e.g. regular vs. organic; light vs. regular) areas as the lateral orbitofrontal cortex (lOFC) and operculum/insula. As organic label information the national German eco emblem 'Bio-Siegel' was chosen. Light label information was issued in form of the internationally used 'Bewusst-Wählen®' ('Healthy Choice') label (for stimuli details see 2.2). However, inside the scanner the written forms 'Bio', 'Light' or 'Normal' (indicating regular food) were chosen. Subjects were randomly assigned in two groups and were either confronted with the organic or the regular label (organic group) or with the light or the regular label (light group) but otherwise identical milk drink. The results show that organic compared to regular labeling of identical food stimuli indeed led to an increase in expected and experienced taste pleasantness for organic labeled food. Light compared to regular labeling of identical food stimuli led to a decrease in expected and experienced taste pleasantness and intensity for light labeled food. Moreover, taste-related activity was found in aversion related areas like the operculum insula and the lOFC for food labeled regular compared to organic and in reward-related areas like the ventral striatum for food labeled regular compared to light. The results show that persuasive food-related information influences human cognition on the behavioral and neural level; the effects were shown during visual and gustatory evaluation of the stimuli. Taken together the results demonstrate that the same stimulus can vary dramatically in personal valuation depending on the applied information.
Background: Cardiovascular diseases are the leading cause of death worldwide. Subclinical alterations of the cardiovascular system, such as increased exercise blood pressure or an endothelial dysfunction confer a higher risk of manifest cardiovascular diseases and incident events. Detecting associations between circulating markers of the endocrine-metabolic system and the subclinical cardiovascular phenotypes could be useful to better understand cardiovascular disease progression and to improve risk prediction for manifest cardiovascular diseases. Methods: The associations between (a) serum thyroid-stimulating hormone and increased exercise blood pressure, (b) serum hemoglobin A1c and endothelial dysfunction as well as (c) serum insulin-like growth factor I and endothelial dysfunction were studied using cross-sectional data from around 1400 subjects aged 25 to 85 years collected during the 5-year follow-up of the population-based Study of Health in Pomerania (SHIP-1). Increased exercise blood pressure was defined as a value above the sex- and age-specific 80th percentile measured at the 100 W stage of a symptom-limited bicycle ergometry test. Endothelial dysfunction was defined as an impaired flow-mediated dilation measured as a continuous decrease or below the median of sex-specific distribution. Non-fasting blood samples were drawn from the cubital vein in the supine position. Results: The odds for increased systolic exercise blood pressure (odds ratio 1.24, 95% confidence interval 0.88; 1.76) and diastolic exercise blood pressure (odds ratio 0.98, 95% confidence interval 0.70; 1.39) as well as for exercise-induced increase of systolic and diastolic blood pressure were not significantly different between subjects with high and low serum thyroid-stimulating hormone levels within the reference range. In women without current use of antihypertensive medication, increasing serum hemoglobin A1c levels were associated with decreasing flow-mediated dilation levels (ß = -1.17, 95% confidence interval -2.03; -0.30). Such an association was not found in men. In men, logistic regression analysis revealed an odds ratio of 1.27 (95% confidence interval 1.07; 1.51) for decreased flow-mediated dilation for each decrement of serum insulin-like growth factor I standard deviation. In women, no significant association between serum insulin-like growth factor I levels and flow-mediated dilation was observed (odds ratio 0.88, 95% confidence interval 0.74; 1.05). Conclusions: Based on the presented results it is concluded that (a) serum thyroid-stimulating hormone levels are not associated with exercise blood pressure in the general population, (b) higher serum hemoglobin A1c levels in non-diabetic subjects are inversely associated with flow-mediated dilation in women without antihypertensive medication, but not in men, and (c) lower serum insulin-like growth factor I levels are associated with impaired endothelial function in men, but not in women. Therefore the metabolic marker hemoglobin A1c and the endocrine marker insulin-like growth factor I might be markers facilitating the identification of subjects at high risk of subclinical cardiovascular alterations.
The pUS3, a serine/threonine protein kinase that is conserved in Alphaherpesvirinae may play an important in phosphorylation and regulation of the activities of viral and cellular proteins. It has also been proposed that pUS3 affects virulence. Whereas many studies of the pUS3 functions of HSV-1 and PrV, a closely related homolog of BHV-1 have supported these assumptions, the role of BHV-1pUS3 is not yet fully understood so far. The aims of this study therefore were to investigate the functions of BHV-1pUS3 for virus replication in cultured cells, effect on apoptosis and identification of protein interactions with cellular proteins and addressed the function of the aminoterminal region by generating a short isoform of BHV-1pUS3 which corresponds in size to the natural short isoforms of PrVpUS3 and HSV-1pUS3. Results of the study are briefly summarized here: -BHV-1pUS3 is, although not essential, beneficial for infectious replication of BHV-1 in-vitro. It also supports direct cell-to-cell spread of BHV-1/Aus12 and prevents the formation of electron dense aggregates with embedded capsids in nuclei of BHV-1 infected cells, a phenotype that may affect nuclear egress of BHV-1 nucleocapsids. -The protein, independent from other BHV-1 encoded functions, located mainly to the nuclei of cells. -In contrast to functions of pUS3 in PrV and HSV-1, the protein of BHV-1 has no anti-apoptotic activity. -Biologically active BHV-1pUS3 physically interacts with the cellular SET protein and overexpression of SET, independent from the expression of the protein, inhibits productive BHV-1 replication in a dose dependent manner. -The aminoterminal 101 amino acids of the protein are dispensable for all in-vitro functions tested whereas kinase activity is required.
This thesis aims at bridging the gap of deficient understanding of effective buffer zone management. The overall research goal of the thesis is to evaluate buffer zone effectiveness and to identify factors influencing effective buffer zone management in forest biosphere reserves. To address the multi-facetted issue of buffer zone effectiveness an integrative research design was applied. To answer the raised research questions a combination of social science (quantitative and qualitative approaches) and natural science (remote sensing) was chosen. To gain global insights into buffer zone management (research question 1) the quantitative approach of social science research was chosen. As part of a global telephone survey of BR management conducted by the research project in which the thesis was embedded, BR managers were asked to evaluate different management aspects. Between July and December 2006, managers from 225 BRs in 79 countries were interviewed, which corresponds to an overall response rate of 42 %. Answers were statistically analyzed using SPSS 17.0. To obtain detailed information of factors influencing buffer zone management (research question 2) the qualitative social science research approach was applied. A case study was conducted in the Lore Lindu Biosphere Reserve, Sulawesi, Indonesia between March and May 2008. Following the snowball sampling approach 47 semi-structured interviews and seven group discussions were carried out representing the local, sub-national, and national level associated with the BR management. These interviews and discussions provide important insights into the institutional dimensions and their interaction within the context of BR management including e.g. implementation of rules and the distribution of responsibilities for buffer zone management. Interviews were conducted in the national language Bahasa Indonesia, fully recorded, and subsequently transcribed and translated into English. Analysis was carried out with ATLAS.ti to specify categories and to formulate theorems. To evaluate buffer zone effectiveness in terms of reducing deforestation in the core area of Lore Lindu Biosphere Reserve (research question 1), satellite image analysis was performed using a GIS. A time series of LANDSAT scenes from 1972, 1983, 1999, 2002, and 2007 was used to classify homogeneous areas of forest cover to ultimately detect deforestation. Deforestation rate was computed for the periods before and after management establishment in 1998. The combination of all three research methods provided important insights into buffer zone management of BRs. Thus, based on these findings, recommendations to improve buffer zone management (research question 3) could be drawn. Overall, the evaluation of buffer zones depicts their importance for BR management effectiveness. Analysis revealed buffer zone effectiveness as important success factor, while it explicitly depends on both the implementation of the BR concept at the national level and coordination of stakeholders on the local level. As more and more PAs create buffer zones to integrate the local people, they may face similar problems. The case study from Lore Lindu exhibited important preconditions for successful buffer zone management. From a methodological perspective the thesis calls for the need of integrated research approaches across disciplines to adequately assess both buffer zone and PA effectiveness. Generally, it is recommended to pay special attention to pre-Seville BRs in the future, since most of these BRs still lack the three zone scheme. Analysis of the case study area revealed particular weaknesses in implementing central elements for effective BR management, such as the four goals of the Seville Strategy, even 15 years after inauguration. Thus, the thesis shows that not only the quantity of PAs but also the quality of its management and thus effectiveness is an important indicator for global conservation targets. Finally, it can be summarized that the idea of establishing buffer zones within BRs and PAs in general, is the right way forward to enhance PA effectiveness and to achieve global reduction of biodiversity loss. Integrating the people living within and adjacent to PAs, must be given more attention in the future. Establishment of buffer zones, where this integration and cooperation is a necessity, should be the central conservation measure, not only within BRs but also within PAs in general.