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Neuropsychiatric disorders are complex, highly heritable but incompletely understood disorders. The clinical and genetic heterogeneity of these disorders poses a significant challenge to the identification of disorder related biomarkers. Besides significant progress in unveiling the genetic basis of these disorders, the underlying causes and biological mechanisms remain obscure. With the advancement in the array, sequencing, and big data technologies, a huge amount of data is generated from individuals across different platforms and in various data structures. But there is a paucity of bioinformatics tools that can integrate this plethora of data. Therefore, there is a need to develop an integrative bioinformatics data analysis tool that combines biological and clinical data from different data types to better understand the underlying genetics.
This thesis presents a bioinformatics pipeline implementing data from different platforms to provide a thorough understanding of the genetic etiology of a neuropsychiatric quantitative as well as a qualitative trait of interest. Throughout the thesis, we present two aspects: one is the development and architecture of the bioinformatics pipeline named MApping the Genetics of neuropsychiatric traits to the molecular NETworks of the human brain (MAGNET). The other part demonstrates the implementation and usefulness of MAGNET analysing large Autism Spectrum Disorder (ASD) cohorts.
MAGNET is a freely available command-line tool available on GitHub (https://github.com/SheenYo/MAGNET). It is implemented within one framework using data integration approaches based on state-of-the-art algorithms and software to ultimately identify the genes and pathways genetically associated with a trait of interest. MAGNET provides an edge over the existing tools since it performs a comprehensive analysis taking care of the data handling and parsing steps necessary to communicate between the different APIs (Application Program Interface). Thus, this avoids the in-between data handling steps required by researchers to provide output from one analysis to the next. Moreover, depending on the size of the dataset users can deduce important information regarding their trait of interest within a time frame of a few days. Besides gaining insights into genetic associations, one of the central features is the mapping of the associated genes onto developing human brain implementing transcriptome data of 16 different brain regions starting from the 5th post-conceptional week to over 40 years of age.
In the second part as proof of concept, we implemented MAGNET on two ASD cohorts. ASD is a group of psychiatric disorders. Clinically, ASD is characterized by the following psychopathology: A) limitations in social interaction and communication, and B) restricted, repetitive behavior. The etiology of this disorder is extremely complex due to its heterogeneous clinical traits and genetics. Therefore, to date, no reliable biomarkers are identified. Here, the aim is to characterize the genetic architecture of ASD taking into account the two aforementioned ASD diagnostic domains. As well as to investigate if these domains are genetically linked or independent of each other. Moreover, we addressed the question if these traits share genetic risk with the categorical diagnosis of ASD and how much of the phenotypic variance of these traits can be explained by the underlying genetics.
We included affected individuals from two ASD cohorts, i.e. the Autism Genome Project (AGP) and a German cohort consisting of 2,735 and 705 families respectively. MAGNET was applied to each of the ASD subdomains as a quantitative dependent variable. MAGNET is divided into five main sections i.e. (1) quality check of the genotype data, (2) imputation of missing genotype data, (3) association analysis of genotype and trait data, (4) gene-based analysis, and (5) enrichment analysis using gene expression data from the human brain.
MAGNET was applied to each of the individual traits in each cohort to perform quality control of the genetic data and imputed the missing data in an automated fashion. MAGNET identified 292 known and new ASD risk genes. These genes were subsequently assigned to biological signaling pathways and gene ontologies via MAGNET. The underlying biological mechanisms converged with respect to neuronal transmission and development processes. By reconciling these genes with the transcriptome of the developing human brain, MAGNET was able to identify that the significant genes associated with the subdomains are expressed at specific time points in brain areas such as the hippocampus, amygdala, and cortical regions. Further, we found that ASD subdomains related to domain A but not
to domain B have a shared genetic etiology.
Currently, due to the misuse of antibiotics, we are facing a major public health problem. The resistance to antibiotics of certain bacterial strains makes the treatment of infections very complex.
In this context, the present thesis project concerns the study of a bacterial efflux complex capable of transporting antibiotics from the cytoplasm to the outside of the cell. This complex is composed of an inner-membrane Major Facilitator Superfamily (MFS) transporter (EmrB, E. coli multidrug resistance), a channel of the outer membrane TolC (Tolerance to Colicin E1) and a periplasmic adapter (EmrA, E. coli multidrug resistance). Unlike RND-type efflux systems (such as AcrAB-TolC), little is known about the MFS-type EmrAB-TolC system. It is therefore important to study the entire complex on a structural and functional level, to analyse the marked differences between these two types of transport systems. The goal of my thesis project was to study at least one EmrAB-TolC complex from a structural point of view. For my studies the aim was to isolate the complex directly from bacteria overexpressing the three protein partners. In a first step, 15 homologous EmrAB-TolC systems were identified and their corresponding genes amplified from genomic DNA of different Gram-negative bacteria. Among the genes of the 15 systems, the genes coding for the E. coli and V. cholerae systems were further studied. The expression vectors encoded fluorescent markers for the monitoring of the expression levels of different proteins and for studying the formation of complexes. In a first step, the different protein expression levels (EmrB-mRFP1 and EmrA-sfGFP) were studied for several expression strains of E. coli by measuring the red and green fluorescence levels and by Western blot (anti-His, Myc, and Strep for EmrB, EmrA, and TolC). The E. coli strain C41(DE3) was best suited for co-expression of EmrAB-TolC. In a second step, the FSEC (Fluorescence detection Size Exclusion Chromatography) methodology was used to identify a complex suitable for structural study. Thus this method enabled the observation that the EmrAB-TolC complex of E. coli was produced in higher amount than that of V. cholerae. The final co-purification protocol consists in perfoming a gentle lysis of the bacteria using lysozyme, then after solubilization with DDM, the purification is started by a Ni2+-NTA affinity chromatography step followed by a size exclusion chromatography step. Finally, the fractions containing the three protein partners are used for the detergent-exchange by amphipol A8-35 before the structural study by electron microscopy. Negative stain EM-micrographs displayed elongated objects with a length of 33 nm in side view. An average image of EmrAB-TolC shows similarities to that of the AcrAB-TolC complex observed under similar conditions. Similarities included the characteristic densities of TolC. Whereas differences were found in the lower part of EmrAB which is thinner than the lower part of AcrAB. The densities visible above the amphipol-ring correspond to EmrA, which displays a channel-like structure as in AcrA. The channel however seems to extend further towards the amphipol belt. Since EmrB does not have an extended periplasmic domain as the RND proteins have, these densities are therefore solely assigned to EmrA. EmrA, on the other side, contacts TolC akin to the interaction of AcrA/MexA to their cognate outer membrane channels (TolC/OprM) in a ‘tip-to-tip’ fashion.
The functional and molecular role of transglutaminase 2 in hematopoietic stem and progenitor cells
(2023)
Long-term repopulating hematopoietic stem cells (LT-HSCs) that reside in the bone marrow (BM) give rise to all blood cell types including erythrocytes, leukocytes and platelets. LT-HSCs are mainly quiescent during steady state hematopoiesis. LT-HSCs can process self-renewal to expand and maintain stemness, or commit to differentiation into short-term (ST) repopulating HSC and multipotent progenitors (MPPs). MPPs differentiate into oligopotent lineagerestricted progenitors which eventually produce all mature blood cell lineages, and thereby regenerate hematopoietic system.
Previous studies have shown in transcription profiles and quantitative PCR (qPCR) analysis that transglutaminase 2 (Tgm2) is one of the most upregulated genes in quiescent LT-HSCs in comparison to active HSCs, mobilized HSCs, ST-HSCs, MPPs, as well as leukemic stem cells (LSC). However, the reason why Tgm2 is strongly upregulated in dormant mouse LTHSCs and what the role of Tgm2 is in LT-HSCs has not been investigated yet.
Tgm2, encoded by the Tgm2 gene, is a multi-functional protein within the transglutaminase family. It has been found to be widely expressed inside and outside the cells. It consists of four domains and two functionally exclusive forms that are regulated by the Ca2+ and GTP concentration. Besides the most well-known transglutaminase enzymatic activity for transamidation, deamidation and crosslinking, Tgm2 acts also as a GTPase/ATPase, kinase, adhesion/scaffold protein, as well as disulfide isomerase. The role of Tgm2 in hematopoiesis remains elusive. Accordingly, the aim of this dissertation is to investigate the role of Tgm2 in murine hematopoiesis, especially in murine LT-HSCs.
Firstly, the expression of Tgm2 was analyzed in highly purified murine hematopoietic stem and progenitor cell (HSPC) populations. Low input label-free mass spectrometric proteomics and WES protein analysis confirmed the highly specific expression of Tgm2 in LT-HSCs at protein level. Already at the state of MPPs, Tgm2 protein was almost absent with further decline towards oligopotent progenitors. These results indicated Tgm2 as a specific protein marker for LT-HSCs, justifying the future generation of a fluorescent reporter mouse line based on endogenous Tgm2 tagging.
To delineate the functional and molecular role of Tgm2 in LT-HSCs, a conditional Tgm2 knockout mouse model was generated using the Mx1-Cre/loxP system, with the loxP sites flanking the coding exons of the catalytic domain of Tgm2. After PolyIC-mediated induction, a more than 95% knockout efficiency was observed in purified LT-HSCs and the protein expression of Tgm2 was confirmed to be vanished in the purified LT-HSCs from conditional Tgm2-KO mice. Conditional knockout mice are viable and show no aberrant organ functions.
In steady state condition, the distribution of mature blood cell lineages and immunophenotypically-defined HSPC populations within the BM, the mitochondrial potential of HSPCs reflected by the non-invasive cationic dye JC-1, as well as the cell cycle status of HSPCs mirrored by the intracellular Ki67 staining did not show any significant variations upon loss of Tgm2. However, the in vitro continuous observation of prospectivly isolated LT-HSCs by time-lapse microscopy-based cell tracking revealed a delayed entry into cell cycle with a two fold increased apoptosis rate after knocking out Tgm2, indicating Tgm2 expression might be essential for survival of LT-HSCs. Moreover, while the absence of Tgm2 in LT-HSCs did not influence differentiation and lineage choice in vitro, overexpression of Tgm2 in LT-HSCs resulted in an increase of the most immature subpopulation upon cultivation. All these features were not observed in Tgm2-deleted MPPs, suggesting Tgm2 playing a specific function at the level of LT-HSCs. Upon stress hematopoiesis, induced by the administration of 5-fluorouracil (5-FU), there was a trend towards delayed recovery of LT-HSCs lacking Tgm2. Although Tgm2 express specificly in LT-HSCs, two rounds of competitive BM serial transplantation displayed an equal overall engraftment and multi-lineage reconstitution of LT-HSCs from Tgm2-WT and Tgm2-KO mice in peripheral blood (PB), BM and spleens. Interestingly, LT-HSCs from Tgm2-KO mice reconstituted to more myeloid cells and fewer B cells in the first four weeks after primary transplantation, which disappeared at later time points.
Gene expression profiling and simultaneous single cell proteo-genomic profiling indicated that HSPCs and LT-HSCs from Tgm2-KO mice were transcriptionally more active. A heterogeneity of Tgm2 expression within Tgm2-WT LT-HSCs was revealed by single cell data. Commonly up-regulated genes in Tgm2-KO LT-HSCs and MPPs were significantly involved in regulation of transcription from RNA polymerase II promoter in response to stress, positive regulation of cell death as well as negative regulation of mitogen-activated protein kinase (MAPK) signaling pathways. In Tgm2-KO LT-HSCs, 136 up-regulated genes demonstrated an enrichment of genes involved in apoptosis, as well as negative regulation of MAPK signaling pathway.
Taken together, this dissertation shows that Tgm2 protein is highly specifically expressed in LT-HSCs, but not in subsequent progenitor populations. However, Tgm2 is not essential for differentiation and maturation of myeloid lineages, the proliferation and the long-term multilineage reconstitution potential of LT-HSCs after transplantation. Tgm2 might be involved in accurate stress response of LT-HSCs and the transition from LT-HSCs into MPPs, meaning that the absence of Tgm2 results in poor survival, myeloid bias upon transplantation, as well as slower recovery upon chemotherapeutic treatment.
Metal-organic frameworks (MOFs) have emerged as a promising class of crystalline porous inorganic-organic hybrid materials showing a wide range of applications. In order to realize the integration of MOFs into specific devices, this thesis mainly focuses on the controlled growth and the properties of highly oriented surface-mounted metal-organic frameworks (SURMOFs).
The stepwise layer-by-layer (LbL) growth method exhibits vast advantages for the controllable growth of SURMOFs regarding the crystallite orientation, film thickness and homogeneity. However, up to date, only a few MOFs have been demonstrated to be suited for this protocol. So the first project of this thesis was designed to extend the applicability of the LbL growth. To this end, a semi-rigid linker based [Cu2(sdb)2(bipy)] (sdb = 4,4’-sulfonylbiphenyl dicarboxylate; bipy = 4,4’-bipyridine) MOF was chosen. Employing the LbL growth, [Cu2(sdb)2(bipy)] SURMOFs were successfully grown onto both pyridyl- and carboxyl-terminated surfaces at the temperature range of 15-65 °C. Interestingly, the orientation of the SURMOFs largely depends on temperature on both surfaces. At low temperatures (below 40 °C), SURMOFs with exclusive [010] orientation are obtained. In contrast, at high temperatures (40-65 °C), [001] oriented SURMOF growth is favored. A novel growth mode was demonstrated, which is, instead of surface chemistry, the temperature-induced ripening processes and the tendency to minimize surface energies can dominate the SURMOF growth.
Inspired by the advantages of LbL deposition of isoreticular SURMOFs, the second project was conceived to grow multivariate SURMOFs (MTV-SURMOFs) using mixed dicarboxylate linkers. We advance a hypothesis that linker acidity (expressed by the pKa values) may have an influence on the oriented growth of MTV-SURMOFs. To test the hypothesis, seven isoreticular [Cu2L2(dabco)] (L = single kind of dicarboxylate linker; dabco = 1,4-diazabicyclo[2.2.2]octane) SURMOFs were grown onto pyridyl-terminated surfaces at 60 °C. The quality of [001] orientation is greatly affected by the acidity of the linkers. With this observation, we deposited a series of [Cu2Lm2(dabco)] (Lm = mixed dicarboxylate linkers) SURMOFs under the same conditions. [Cu2Lm2(dabco)] SURMOFs with exclusive [001] orientation are obtained when the growth solution contains two linkers of relatively high pKa value or more than two kinds of linkers (independent of the pKa values), while the mixtures of ligands with relatively low pKa values or a high content of low pKa valued linkers can result in mis-oriented growth of SURMOFs with unexpected [100] orientation.
Moreover, the LbL growth shows enormous potential in the rational construction of functional SURMOFs. Therefore, the third project of this thesis was devised to deposit SURMOFs containing redox-active species. For this, the 4,4’-biphenyldicarboxylic acid (H2(bpdc)) linker was functionalized with ferrocene (Fc) and dimethyl ferrocene (Me2Fc) moieties. [Cu2(bpdc-amide-Fc)2(dabco)] SURMOF (Fc-SURMOF) is perfectly grown along the [100] direction, while mis-oriented growth of [Cu2(bpdc-amide-Me2Fc)2(dabco)] SURMOF (Me2Fc-SURMOF) was observed. Surprisingly, Fc-SURMOF shows excellent electrochemical properties due to the reversible oxidation and reduction of the ferrocene moieties in the oriented pores, while the Me2Fc-SURMOF was found to be a closely packed insulating layer since no extensive charge transfer is observed. A diffusion controlled mechanism of redox reaction is proposed, where the diffusion of the counter anions in the pores limits the current.
Besides the LbL growth protocol, the spin-coating technique is also promising for the oriented growth of SURMOFs. Driven by the specific applications, the fourth project of this thesis was planned to grow functional SURMOFs containing catalytically active units. The Keggin-type polyoxometalates (POMs) with high catalytic activities were chosen to functionalize the HKUST-1 SURMOFs. Combining the technique with methanol vapor induced growth, a series of POM functionalized HKUST-1 SURMOFs (denoted as POM@HKUST-1 SURMOFs) were controllably deposited onto pyridyl-terminated surfaces. The SURMOFs exhibit great potential as electrocatalysts in electrochemical devices due to the excellent redox properties of POMs. In addition, the PTA@HKUST-1 (PTA = phosphotungstic acid) SURMOF can be employed as an ideal platform for the selective loading of methylene blue (MB) dye with high efficiency. Owing to the strong binding between the dye molecules and the framework, the MB dye cannot be desorbed by ion exchange and MB loaded PTA@HKUST-1 SURMOF shows reliable redox properties under inert conditions, further confirming the application potential in electrochemical devices.
Cryo-electron tomography (CET) is a unique technique to visualize biological objects under near-to-native conditions at near-atomic resolution. CET provides three-dimensional (3D) snapshots of the cellular proteome, in which the spatial relations between macromolecular complexes in their near native cellular context can be explored. Due to the limitation of the electron dose applicable on biological samples, the achievable resolution of a tomogram is restricted to a few nanometers, higher resolution can be achieved by averaging of structures occurring in multiples. For this purpose, computational techniques such as template matching, sub-tomogram averaging and classification are essential for a meaningful processing of CET data.
This thesis introduces the techniques of template matching and sub-tomogram averaging and their applications on real biological data sets. Subsequently, the problem of reference bias, which restricts the applicability of those techniques, is addressed. Two methods that estimate the reference bias in Fourier and real space are demonstrated. The real space method, which we have named the “M-free” score, provides a reliable estimation of the reference bias, which gives access to the reliability of the template matching or sub-tomogram averaging process. Thus, the “M-free” score makes those approaches more applicable to structural biology. Furthermore, a classification algorithm based on Neural Networks (NN) called “KerDenSOM3D” is introduced, which is implemented in 3D and compensates for the missing-wedge. This approach helps extracting different structural states of macromolecular complexes or increasing the class purity of data sets by eliminating outliers. A comprehensive comparison with other classification methods shows superior performance of KerDenSOM3D.
Terahertz (THz) radiation lies between the micro and far-infrared range in the electromagnetic spectrum. Compared with microwave and millimeter waves, it has a larger signal bandwidth and extremely narrow antenna beam. Thus, it is easier to achieve high-resolution for imaging and detection applications. The unique properties, such as penetration for majority non-polar materials, non-ionizing characteristic and the spectral fingerprint of materials, makes THz imaging an appealing artifice in the military, biomedical, astronomical communications, and other areas. However, THz radiation’s current low power level and detection sensitivity block THz imaging system from including fewer optical elements than the visible or infrared range. This leads to imaging resolution, contrast, and imaging field of view degenerate and makes the aberration more serious. THz imaging based on the space Fourier spectrum detection is developed in this thesis to achieve high-quality imaging. The main concept of Fourier imaging is by recording the field distribution in the Fourier plane (focal plane) of the imaging system; the information of the target is obtained. The numerical processing method is needed to extract the amplitude and phase information of the imaged target. With additional process, three-dimensional (3D) information can be obtained based on the phase information. The novel recording and reconstructing ways of the Fourier imaging system enables it to have a higher resolution, better contrast, and broader field of view than conventional imaging systems such as microscopy and plane to plane telescopic imaging system.
The work presented in this thesis consists of two imaging systems, one is working at 300 GHz based on the fundamental heterodyne detection of the THz radiation, the other is operated at 600 GHz by utilizing the sub harmonic heterodyne detection technique. The realization and test of the heterodyne detection are based on the THz antenna-coupled field-effect transistor (TeraFET) detector developed by Dr. Alvydas Lisauskas. Both systems use two synchronized electronic multiplier chains to radiate the THz waves. One radiation works as the local oscillator (LO), the other works as illumination with a slight frequency shift, the radiations are mixed on the detector scanning in the Fourier plane to record the complex Fourier spectrum of the imaged target. The LO has the same frequency range as the illuminating radiation for fundamental heterodyne detection but half the frequency range for the sub-harmonic heterodyne detection. The 2-mm resolution, 60-dB contrast, and 5.5-cm diameter imaging area at 300 GHz and the of 500-μm resolution, 40-dB contrast, and 3.5-cm diameter imaging area at 600 GHz are achieved (the 300-GHz illuminating radiation has the approximate power of 600 μW , the 600-GHz illuminating radiation has the approximate power of 60 μW ).
The thesis consists of 6 parts. After the introduction, the second chapter expands on the topic of Fourier optics from a theoretical point of view and the simulations of the Fourier imaging system. First, the theory of the electromagnetic field propagation in free space and through an optical system are investigated to elicit the Fourier transform function of the imaging system. The simulation is used for theoretical considerations and the implementation of a Fourier optic script that allows for numerical investigations on reconstruction. The preliminary imaging field of view and resolution are also demonstrated. The third chapter describes the Fourier imaging system at 300 GHz based on the fundamental heterodyne detection, including the experimental setup, the 2D, and 3D imaging results. The following fourth chapter reports the integration of the TeraFET detector with two substrate lenses (one is a Si lens on the back-side Si substrate, the other is a wax/PTFE lens on the front side containing the bonding wires) for sub-harmonic heterodyne detection at 600 GHz. The characteristic of the wax/PTFE lens at THz range is presented. After that, the compared imaging results between the detector with and without the wax/PTFE lens are shown. The fifth chapter extends the demonstration on the lateral and depth resolution of the Fourier imaging system in detail and uses the experimental results at 600 GHz to validate the analytical predictions. The comparison of the resolution between the Fourier imaging system and the conventional microscopy system proves that the Fourier imaging system has better imaging quality under the same system configuration. The last chapter in this thesis concludes on the findings of the THz Fourier imaging and gives an outlook for the enhancement of the Fourier imaging system at THz range.
Alzheimer’s disease (AD) is the major cause of dementia. It is characterized by the accumulation of abnormal proteins (amyloid-β plaque and neurofibrillary tangles) leading to loss of synapses, dendrites, neurons, memory and cognition. Sporadic late-onset AD is the major type of AD characterized by unclear etiology and a lack of disease-modifying therapy. To understand this disease, an alternative AD hypothesis has been proposed: AD may resemble diabetes in the brain or “diabetes type 3”. This hypothesis is supported by the fact that (1) brain glucose hypometabolism precedes AD clinical symptoms and (2) diabetes increases the risk of AD. To test this hypothesis, wild-type rats receiving intracerebroventricular administration of streptozotocin (icv-STZ) were used as a model. Streptozotocin (STZ) is a glucosamine-nitrosourea compound commonly used to induce experimental diabetes by peripheral administration. A similar pathological mechanism to peripheral STZ is then proposed to explain icv-STZ toxicity: insulin receptor signaling impairment results in glucose hypometabolism leading to cognitive deficits.
Objective: Icv-STZ model seems promising as a toxin-induced, non-transgenic AD model with the possibility to connect AD and diabetes mellitus (DM), one of the risk factors for AD. However, the mechanisms of how icv-STZ induced AD-like symptoms are unclear. Therefore, using microdialysis as the main technique, we tested 2 AD hypotheses in this model: (1) the glucose hypometabolism as an alternative AD hypothesis and (2) the cholinergic deficit as an important characteristic of AD pathology. Hippocampus was chosen because cholinergic function in this region is severely affected in AD. In comparison, the striatum was chosen because it contains cholinergic interneurons and is less affected in AD.
Methods: In this study, we used male Wistar rats of 190-220 g body weight (5 weeks of age). The rats were injected intracerebrally with STZ at a dose of 3 mg/kg (2x1.5 mg/kg; „high dose“) and 0.6 mg/kg („low dose“) with saline as control. After 21 days, samples were collected to investigate cholinergic and metabolic changes using histology, biochemistry, and neurochemistry. Brain injury was confirmed using GFAP staining and Fluoro jade staining in the hippocampus. Mitochondrial toxicity was investigated by measurement of mitochondrial
respiratory function in both hippocampus and striatum. Cholinergic markers such as acetylcholinesterase (AChE) activity, choline acetyltransferase (ChAT) activity, and choline transporter (CHT-1) activity, commonly known as high-affinity choline uptake (HACU), were measured in both hippocampus and striatum using a spectrophotometer and a scintillator.
Microdialysis is the main technique in our study. It was done in awake animals under behavioral or pharmacological stimulation. We used a self-built probe with a semi-permeable membrane (pore size of 30 kDa) that was implanted in either hippocampus or striatum. The probes were then perfused with artificial cerebrospinal fluid (aCSF) supplemented with 0.1 μM neostigmine for extracellular acetylcholine level measurement. During the perfusion, small hydrophilic compounds from brain extracellular space diffuse into the dialysates. Dialysates of 15 minutes intervals were collected for 90 minutes and used for analysis. After collection of dialysates for the first 90 minutes (basal data), rats were moved to an open field box (35x32x20 cm) for behavioral stimulation. After collection of the second 90 minute dialysates, the rats were transferred back to the microdialysis cage and dialysates were collected for another 90 minutes. On day 2, after collection of dialysates under basal conditions, 1 μM scopolamine was added to the perfusion solution for stimulation of acetylcholine release. The dialysates were also collected for 90 min followed by another 90 min of dialysis without scopolamine. The microdialysate samples were then analyzed as follows. ACh level was measured by HPLC-ECD. Glucose metabolites (glucose, lactate, pyruvate) were measured by a CMA-600 microanalyzer. An alternative energy metabolite (beta-hydroxybutyrate/BHB) was measured by GC-MS. Choline and glycerol as membrane breakdown markers were also measured by HPLC-ECD and CMA-600 microanalyzer, respectively. Markers of oxidative stress (isoprostanes) were measured using a commercially available ELISA kit.
...
The purpose of this thesis is to examine the passage regime of the Turkish Straits against the background of the evolution of international law, and to discuss the problems of the passage of warships through them in light of the invasion of the Crimean Peninsula by Russia in 2014. With that objective in mind, the thesis reconsiders the history of the straits regime.
The Turkish Straits are regulated by the Montreux Convention of 1936 which contains restrictive and complex provisions regarding the passage of warships. The Straits took their place as “the Straits question” for centuries and today their importance is enhanced by their geostrategic location in the international arena. They have gained greater significance especially since the resolution of Soviet Russia in 1991, as they have become one of the most important and busiest energy corridors of the world. Due to the increase in the transportation of oil, natural gas and other products from the Caspian region through the Straits, the dense traffic and the regulation of the traffic in the Straits has become a key issue between Turkey and user states. Furthermore, the implementation of restrictive provisions for warships caused many debates during the Second World War, the impact of the restrictive provisions of the Convention on the South Ossetia War in August 2008, and the invasion of the Crimean Peninsula in 2014 attracted additional international attention. The Straits took their place on the global agenda of the great powers, especially those of NATO, the United States (US) and Russia. These events have resulted in ongoing and intensive discussions over the revision of the Convention.
Although no legal amendment or modification demand to the Montreux Convention has yet arisen, the new order and geopolitical interests in the Black Sea region show that the Montreux passage regime will continue to be debated by the world’s powers under any given political circumstances. For the time being, however, there will be no alternative route with a view at an adaptation to contemporary needs but methods of treaty modification below the threshold of formal revision as, most importantly, the integration of subsequent practice and subsequent agreement into treaty interpretation.
Ziel der Studie: Eine psychische Komorbidität spielt im Kontext mit weiteren persönlichen, sozialen und beruflichen Faktoren bei der Ermittlung des spezifischen Rehabilitationsbedarfs der Patienten in Deutschland eine immer bedeutendere Rolle. Um die Zuweisung von Patienten zu einer Rehabilitationsform besser ausdifferenzieren zu können, soll im Rahmen dieser retrospektiven Analyse ermittelt werden, von welchem der beiden untersuchten Rehabilitationskonzepte (OR/VMO) Patienten mit psychischer Komorbidität unter Berücksichtigung von Geschlecht, Erwerbsstatus und orthopädischer Hauptdiagnose stärker profitieren.
Methodik: Mittels der Screening-Fragebögen HADS-A, HADS-D, SIMBO und BPI sowie eines Klinikfragebogens zu Beginn der Rehabilitation wurden Angaben von 913 Probanden (529 m/384 w) ausgewertet. Hiervon wurden 43 % der OR und 57 % der VMO zugewiesen. So wurde die Häufigkeitsverteilung der Faktoren psychische Komorbidität, Geschlecht, Erwerbsstatus und orthopädische Hauptdiagnose festgestellt. Mittels HADS wurde am Ende der Therapie der Benefit durch Vergleich der Scorewert-Mediane ermittelt.
Ergebnisse: Häufigkeitsverteilungen und die Entwicklung der HADS-Scores zeigen, dass die im Vorfeld erfolgte Einteilung gemäß psychischer Komorbidität korrekt war. Frauen waren häufiger von einer psychischen Komorbidität betroffen und erzielten in der VMO größere Erfolge. Bezüglich der orthopädischen Hauptdiagnose ergab sich eine hohe Prävalenz von HWS- und LWS-Beschwerden. Beim Erwerbsstatus (Arbeits(un)fähigkeit, Arbeitslosigkeit, berufliche Problemlage) zeigte sich ein diffuseres Bild, das keine generalisierende Aussage bezüglich der arbeitsweltbezogenen Faktoren zulässt.
Schlussfolgerungen: Das Vorliegen einer psychischen Komorbidität stellt einen zielführenden Indikator dar, der als eines der Hauptzuweisungskriterien zur VMO beizubehalten ist. Auch das weibliche Geschlecht in Verbindung mit dem Vorliegen einer psychischen Komorbidität ist als adäquates Kriterium anzusehen. Bezüglich der orthopädischen Hauptdiagnose können insbesondere HWS-Beschwerden als Zuweisungskriterium geeignet sein. Aufgrund der sehr heterogenen Ergebnisse hinsichtlich der Aspekte des Erwerbsstatus lässt sich festhalten, dass diesbezüglich eine Zuweisung zu einem arbeitsweltbezogenen Therapiekonzept (z. B. MBOR) zielführender erscheint.
In dieser Arbeit wurden thermodynamische Eigenschaften eines chiralen Quark Meson Modelles untersucht. Das chirale Quark Meson Model beschreibt die starke Wechselwirkung über den Austausch von Mesonen und zudem die thermische und dichteabhängige Entwicklung der Quarkmassen im Medium über die chirale Symmetrie.Im SU(2) Model wurde zunächst in mean field approximation gearbeitet, um im Anschluss den divergenten Vakuumterm mit einzubeziehen. Nach eingehender Untersuchung der Ergebnisse, wurden dann die thermischen Mesonenfluktuationen studiert. In beiden Ansätzen verschiebt die Nullpunktsenergie den chiralen Phasenübergang zu höheren Temperaturen, wodurch die Massen bei höheren Temperaturen entarten. Beide Ansätze wurden dann zu einem gemeinsamen Modell kombiniert, um den Einfluss der Mesonenfluktuationen auf Ordnungsparameter, Massen und thermodynamische Grössen zu untersuchen. Als Fazit der Studie kann behauptet werden, dass sich der Einfluss der Mesonenfluktuationen in grösserem Maÿ auf die Thermodynamik, als auf den Ordnungsparameter und die Massen auswirkt. Im SU(3) Modell wurden ebenfalls regularisiert und zudem Vektormesonen mitberücksichtigt, welche die Repulsion zwischen den einzelnen Freiheitsgraden modelliert. Die Zustandsgleichung wird durch den Vakuum Term etwas softer und zeigt ein ähnliches Verhalten im niederen Energiebereich. Untersucht wurde neben der Temperatur T, die Elektron Baryon Rate Ye, die Sigma Meson Masse noch der Einfluss der Vektorkopplung. Aus der Zustandsgleichung konntendann Isentropen im T-mu Phasendiagramm errechnet werden, welche in naher Zukunft Aufschluss über eine dritte Familie von kompakten Sternen in Zusammenhang mit der entsprechenden Supernova Explosion geben könnte. Um die Existenz von kompakten Sternen genauer zu analysieren, wurde das chiraleSU(3) Quark Meson Modell bei T = 0 benutzt, um über die aus dem Formalismusgewonnenen Grössen Druck und Energiedichte die Tolmann-Oppenheimer-Volkoff zu lösen. Diese stellen die Masse-Radius Beziehungen kompakter Objekte dar. Auf der Suche nach Twin Stern Lösungen aus dem chiralen SU(3) Quark Meson Model wurde zunächst ein Modell für Hybridsterne entwickelt. Im untersuchten Parameterbereich fanden wir Hybrid Stern Lösungen, bei welchen der Einfluss der Quarkmaterie auf die Stabilität des Sternes untersucht wurde, denn das Einsetzen des Phasenüberganges übt einen zusätzlichen gravitativen Zug auf die hadronische Kruste aus. Der Stern ist stabil, wenn der Druck der Quarkmaterie diesem zusätzlichen Zug standzuhalten vermag. Für einen zu grossen Sprung in der Energiedichte werden die Lösungen jedoch instabil. Zwillingssterne waren nicht unter den Lösungen, da der Übergangsdruck relativklein sein muss, während der Energiedichtesprung eher gross sein sollte. Das Auftreten zweier stabiler Äste in der Masse Radius Relation kann allerdingsmit dem SU(3) Modell und entsprechendem chiralen Phasenübergang modelliert werden. Für einen gewissen Parameterbereich einhergehend mit kleinem Wert des Vakuum Druckes B konnten Nicht-Linearitäten in der Zustangsgleichungzur Lösung der TOV Gleichung beitragen. Im Weitern ist das Zusammenspiel der Vektorkopplung und der Sigma Mesonen Masse einflussreich auf die Lösungen, welche auf Kausalität, Stabilität und neben der 2 Sonnenmassen Bedingung noch auf Restriktionen vom millisecond pulsar PSR J1748-2446ad untersucht wurden.Mit Weltraummissionen wie etwa NICER (Neutron star Interior CompositionExploreR) sollte die Radiusbestimmung kompakter Objekte in Zukunft bis auf einen Kilometer genau bestimmt werden können. Die Entdeckung von zweiSternen mit der gleichen Masse und unterschiedlichen Radien wäre in der Tat ein Beweis für die Existenz von Zwillingssternen, welche dann die Theorie des Phasenüberganges in dichter Materie untermauern würde. Das Kollaps-Szenario eines Zwillingssternes würde weiteren Aufschluss über Neutrino-Emmissivität, Gamma-ray burster und Gravitationswellen Signale geben können. Dynamische Simulationen in allgemein relativistischem Kontext für compact star merger mit den hier diskutierten Zustandsgleichungen sind bereits in Planung, um Eigenschaftenwie beispielsweise das Temperatur- und Dichteprofil solcher Objekte genauer zu analysieren.
In dieser Dissertation wird die Parametrisierung von subgitterskaligen (SGS) Prozessen in Atmosphärenmodellen untersucht. Die Arbeit befasst sich mit den stochastisch angetriebenen Flachwassergleichungen, im ersten Teil in einer räumlichen Dimension und im zweiten Teil in zwei Dimensionen. Die Einteilung in aufgelöste und SGS-Variable erfolgt in beiden Fällen über lokale räumliche Mittel der Ursprungsvariable und deren Abweichungen vom lokalen Mittel.
Im eindimensionalen Fall liegt zwischen den Variablen eine deutliche Separation der charakteristischen Zeitskalen vor, wodurch die Anwendung der stochastischen Moden Reduktion (SMR) ermöglicht wird. Die SMR generiert ein reduziertes Modell der aufgelösten Variable mit einer stochastischen SGS-Parametrisierung, im Folgenden auch Schließung genannt. Die SMR-Schließung basiert auf den Grundgleichungen des Flachwassermodells und ist numerisch effizient einsetzbar, da sie nur eine geringe Anzahl von benachbarten Zellen koppelt. Sie verbessert die Ergebnisse des reduzierten Modells und übertrifft die Ergebnisse zweier zum Vergleich untersuchter empirischer stochastischer Schließungen. Den größten Zugewinn liefert sie im Energiespektrum, insbesondere für kleine Skalen. Das Ergebnis der SMR-Schließung kann verbessert werden, indem die Amplitude der stochastischen Schließungskomponente gedämpft wird. Die SMR-Schließung ist skalenabhängig im Sinne der räumlichen Modellauflösung. Untersucht wird die Schließung bei Halbierung und Viertelung der räumlichen Auflösung, wo sie ihre Überlegenheit gegenüber den empirischen Schließungen wiederholt bestätigt.
Im Unterschied zum eindimensionalen Fall ist in zwei Dimensionen auch die Corioliskraft enthalten und eine räumliche Divergenz der Schwerewellen möglich. Zwischen der aufgelösten und der SGS-Variable kommt es erneut zu einer Separation der charakteristischen Zeitskalen. Die Separation ist allerdings weniger stark ausgeprägt als im eindimensionalen Fall. Grund hierfür ist das Auftreten einer lang korrelierten geostrophisch balancierten Mode, welche auch auf die SGS-Variable projiziert. Das Vorgehen zur Bestimmung der SMR-Schließung für das zweidimensionale Modell verläuft analog zum eindimensionalen Fall. Es werden die Ergebnisse des hoch aufgelösten Referenzmodells und zweier Modelle ohne SGS-Schließung verglichen.
This Ph. D. thesis with the title "Characterisation of laser-driven radiation beams: Gamma-ray dosimetry and Monte Carlo simulations of optimised target geometry for record-breaking efficiency of MeV gamma-sources" is dedicated to the study of the acceleration of electrons by intense sub-picosecond laser pulses propagating in a sub-millimeter plasma with near-critical electron density (NCD) and resulting generation of the gamma bremsstrahlung and positrons in the targets of different materials and thickness.
Laser-driven particle acceleration is an area of increasing scientific interest since the recent development of short pulse, high-intensity laser systems. The interaction of intense high-energy, short-pulse lasers with solid targets leads to the production of high-energy electrons in the relativistic laser intensity regime of more than 1018 W /cm2. These electrons play the leading role in the first stage of the interaction of laser with matter, which leads to the creation of laser sources of particles and radiation. Therefore, the optimisation of the electron beam parameters in the direction of increasing the effective temperature and beam charge, together with a slight divergence, plays a decisive role, especially for further detection and characterisation of laser-driven photon and positron beams.
In the context of this work, experiments were carried out at the PHELIX laser system (Petawatt High-Energy Laser for Heavy Ion eXperiments) at GSI Helmholtz Center for Heavy-Ion Research GmbH in Darmstadt, Germany. This thesis presents a thermoluminescence dosimetry (TLD) based method for the measurement of bremsstrahlung spectra in the energy range from 30 keV to 100 MeV. The results of the TLD measurements reinforced the observed tendency towards the strong increase of the mean electron energy and number of super-ponderomotive electrons. In the case of laser interaction with long-scale NCD-plasmas, the dose caused by the gamma-radiation measured in the direction of the laser pulse propagation showed a 1000-fold increase compared to the high contrast shots onto plane foils and doses measured perpendicular to the laser propagation direction for all used combinations of targets and laser parameters.
In this thesis I present novel characterisation method using a combination of TLD measurements and Monte Carlo FLUKA simulations applicable to laser-driven beams. The thermoluminescence detector-based spectrometry method for simultaneous detection of electrons and photons from relativistic laser-induced plasmas initially developed by Behrens et al. (Behrens et al., 2003) and further applied in experiments at PHELIX laser (Horst et al., 2015) delivered good spectral information from keV energies up to some MeV, but as it was presented in (Horst et al., 2015) this method was not really suitable to resolve the content of photon spectra above 10 MeV because of the dominant presence of electrons. Therefore, I created new evaluation method of the incident electron spectra from the readings of TLDs. For this purpose, by means of MatLab programming language an unfolding algorithm was written. It was based on a sequential enumeration of matching data series of the dose values measured by the dosimeters and calculated with of FLUKA-simulations. The significant advantage of this method is the ability to obtain the spectrum of incident electrons in the low energy range from 1 keV, which is very difficult to measure reliably using traditional electron spectrometers.
The results of the evaluation of the effective temperature of super-ponderomotive electrons retrieved from the measured TLD-doses by means of the Monte-Carlo simulations demonstrated, that application of low density polymer foam layers irradiated by the relativistic sub-ps laser pulse provided a strong increase of the electron effective temperature from 1.5 - 2 MeV in the case of the relativistic laser interaction with a metallic foil up to 13 MeV for the laser shots onto the pre-ionized foam and more than 10 times higher charge carried by relativistic electrons.
The progressive simulation method of whole electron spectra described with two -temperatures Maxwellian distribution function has been developed and the results of dose simulations were compared with the acquired experimental data. The advanced feature of this method, which distinguishes it from the results of the simulation of the photon spectrum using the interaction with the target of mono-energetic electron beams (Nilgün Demir, 2013; Nilgün Demir, 2019) or the initial electron spectrum expressed as a function of one electron temperature (Fiorini, 2012), is the ability to simulate the initial electron spectrum described by the Maxwellian distribution function with two temperatures.
The important objective of this thesis was dedicated to the study and characterisation of laser-driven photon beams. In addition to this, the positron beams were evaluated. The investigation of bremsstrahlung photons and positrons spectra from high Z targets by varying the target thickness from 10 µm to 4 mm in simulated models of the interactions of electron spectra with Maxwellian distribution functions allowed to define an optimal thickness when the fluences of photons and positrons are maximal. Furthermore based on the results of FLUKA simulations the gold material was found to be the most suitable for the future experiments as e − γ target because of its highest bremsstrahlung yield.
Additionally Monte Carlo simulations were performed applying the obtained electron beam parameters from the electron acceleration process in laser-plasma interactions simulated with particle-in-cell (PIC) code for two laser energies of 20 J and 200 J. The corresponding electron spectra were imported into a Monte Carlo code FLUKA to simulate the production process of bremsstrahlung photons and positrons in Au converter. FLUKA simulations showed the record conversion of efficiency in MeV gammas can reach 10%, which reinforces the generation of positrons. The obtained results demonstrate the advantages of long-scale plasmas of near critical density (NCD) to increase the parameters of MeV particles and photon beams generated in relativistic laser-plasma interaction. The efficiency of the laser-driven generation of MeV electrons and photons by application of low-density polymer foams is essentially enhanced.
In der vorliegenden Arbeit wurde das Zinkfinger-µ-Protein HVO_2753 des halophilen Archaeons Haloferax volcanii hinsichtlich seiner biologischen Funktion und seiner Struktur charakterisiert.
Zinkfinger-µ-Proteine wurden bisher nur sehr wenig untersucht, während ihnen jedoch in den letzten Jahren steigendes Interesse entgegengebracht wird. Im Genom von H. volcanii sind mehr als 40 solcher Zinkfinger-µ-Proteine codiert. Von diesen besitzt mit HVO_2753 lediglich eines nicht nur zwei, sondern vier der charakteristischen C(P)XCG-Muster, was für die Anwesenheit von zwei Zinkfinger-Motiven spricht. Während Homologe von HVO_2753 in vielen Euryachaeota vorkommen und manche davon als Zink-Ribbon RNA-Bindeproteine annotiert sind, ist über ihre Funktion jedoch nichts bekannt. Zur Charakterisierung des Proteins wurde zunächst eine in frame-Deletionsmutante seines Gens erstellt und diese einer phänotypischen Charakterisierung unterzogen. Die Mutante wies, verglichen mit dem Wildtyp, keine Unterschiede im Wachstum in Komplexmedium oder in synthetischem Medium mit Glukose als Kohlenstoffquelle auf. Ein schweres Defizit konnte jedoch sowohl bei der Adhäsion und Biofilmbildung als auch der Schwärmfähigkeit der Deletionsmutante festgestellt werden. Während die Schwärmfähigkeit des Wildtyps durch plasmidische Expression von HVO_2753 in der Deletionsmutante teilweise wiederhergestellt werden konnte, war eine solche Komplementation bei der Biofilmbildung nicht möglich. Die Analyse der Relevanz ausgewählter Aminosäuren, wie beispielsweise das jeweils erste Cystein in jedem C(P)XCG-Muster zeigte, dass die Substitution jeder einzelnen der getesteten Aminosäuren einen Funktionsverlust des Proteins nach sich zieht. Die Untersuchung des HVO_2753-Transkripts mittels Northern Blot-Analyse bestätigte erste Hinweise aus vorangegangenen dRNA- und RNA-Seq-Studien, die eine Co-Transkription von HVO_2753 mit dem Nachbargen HVO_2752, das für den Translations-Elongationsfaktor aEF-1 beta codiert, aufzeigten. Daraufhin erfolgte eine Untersuchung des Ribosomenprofils, bei der keine Unterschiede zwischen der Deletionsmutante und der Überexpressionsmutante von HVO_2753 festgestellt werden konnten.
Eine Variante von HVO_2753 mit N-terminalem Hexahistidin-Tag wurde homolog überproduziert und aufgereinigt. Die Überproduktion und Aufreinigung wurden im Zuge dieser Arbeit weiter, speziell für HVO_2753, optimiert. So konnten große Mengen von HVO_2753n überproduziert und bei nativen Salzbedingungen mittels Nickel-Affinitätschromatographie und anschließender Größenausschlusschromatographie aufgereinigt werden. Eine massenspektrometrische Analyse bestätigte sowohl das Molekulargewicht als auch die Abwesenheit posttranslationaler Modifikationen. Die Untersuchung der Menge an gebundenem Zink im Protein erfolgte beim Zink-Assay mit Hilfe des hochsensitiven und hochspezifischen Fluorophors ZnAF-2F. Dabei konnte gezeigt werden, dass überraschenderweise lediglich ein Zink-Ion in HVO_2753 gebunden vorliegt.
Zur weiteren Funktionsaufklärung erfolgte eine Interaktionspartnersuche. Hierfür wurde HVO_2753 überproduziert, ein in vivo-Crosslink und anschließend eine native Aufreinung durchgeführt. Die massenspektrometrische Analyse ausgewählter Fraktionen nach der Größenausschlusschromatographie ergaben eine Vielzahl an möglichen Bindepartnern. Besonders häufig wurde hier die GalE family Epimerase/Dehydratase gefunden. Eine weitere Methode zur Suche nach Interaktionspartnern richtete sich auf RNAs. Hier konnten mittels eines eigens entwickelten Protokolls neben RNAs des Translationsapparates auch mehrfach die tRNA(Glu) gefunden werden.
Zusätzlich sollte die Transkriptomanalyse mittels RNA-Sequenzierung Unterschiede zwischen Wildtyp, Deletionsmutante und Komplementationsmutante aufzeigen. Hier wurden weitreichende Auswirkungen der Deletion von HVO_2753 gefunden. Zahlreiche Gene in mehreren Operons zur Motilität und Chemotaxis lagen in der Deletionsmutante stark herunterreguliert vor, während die Gene einiger Metallionen-Transporter und der Eisen(III)-Siderophor-Biosynthese hochreguliert vorlagen. In der Komplementationsmutante konnten nur von den letzteren Genen Transkriptlevel vergleichbar mit denen des Wildtyps wiedergefunden werden.
In dieser Arbeit konnte gezeigt werden, dass das kleine Zinkfinger-Protein HVO_2753 eine essenzielle Rolle in der positiven Regulation der Motilität, Chemotaxis und der Adhäsion bzw. Biofilmbildung spielt. Gleichzeitig übt HVO_2753 eine negative Regulation auf den Metallionen-Transport und die Biosynthese des Eisen(III)-Siderophors aus.
Konuskronen verankerter Zahnersatz hat sich seit mehreren Jahrzehnten als hervorragende Therapieform zur Versorgung des reduzierten Restgebisses bewährt und verbindet zahlreiche Vorteile des festsitzenden mit denjenigen des herausnehmbaren Zahnersatzes. Vor dem Hintergrund einer steigenden Relevanz ästhetischer Versorgungen sowie einer größer werdenden Ablehnung der Patienten hinsichtlich der Verwendung metallischer Werkstoffe, gewann das Ziel, auch kombiniert festsitzend-herausnehmbaren Zahnersatz metallfrei zu fertigen, zunehmend an Bedeutung. Ziel der vorliegenden prospektiven klinischen Studie war die Evaluation des klinischen Langzeitverhaltens von keramischen Primärkronen aus IPS Empress 2® kombiniert mit Sekundärkronen und Prothesengerüsten aus faserverstärktem Kunststoff (Vectris®) sowie die Untersuchung der Patientenzufriedenheit. Als Kontrollgruppe dienten keramische Primärkronen mit Sekundärkronen aus Galvanogold und metallischen Gerüsten. Dazu wurden 29 Patienten mit insgesamt 37 Konusprothesen auf 165 keramischen Primärkronen versorgt, 27 (73%) Prothesen entfielen auf die Kontrollgruppe und 10 (27%) Prothesen auf die Testgruppe. Eingebunden in ein Recall-System, wurden die Patienten in halbjährigen Abständen über einen Zeitraum von 5 Jahren nachuntersucht. Zur Evaluation der Patientenzufriedenheit erhielten die Studienteilnehmer jeweils vor Therapiebeginn, nach Fertigstellung der Konusprothesen und im einjährigen Abstand einen Fragebogen. Die Zeit unter Risiko betrug durchschnittlich 59 ± 22 Monate (min. 16, max. 96 Monate), Befragungen hinsichtlich der Patientenzufriedenheit wurden über 46 ± 18 Monate durchgeführt (min. 15, max. 66 Monate). Beide Gruppen zeigten eine vergleichbar hohe Reparaturanfälligkeit. 88,9% der Restaurationen in der Kontrollgruppe, sowie 90% der Restaurationen in der Testgruppe mussten mindestens einmal instand gesetzt werden (Mann-Whitney-U-Test, p = 0,121). Auch das Schadensrisiko der vollkeramischen Primärkronen zeigte keine statistischen Unterschiede (Testgruppe: 10,81%; Kontrollgruppe: 10,16%; exakter Fisher-Test, p > 0,05). Die Häufigkeit einer Neuanfertigung der Konusprothese war bei der Test-Gruppe (40%) höher als bei der Kontroll-Gruppe (14,8%), ein statistisch signifikanter Unterschied war zwischen beiden Gruppen nicht nachzuweisen (exakter Fisher-Test, p = 0,16). Die Erfolgsrate zeigte in Abhängigkeit der Zeit unter Risiko jedoch ab 2,5 Jahren schlechtere Werte bei metallfreien Prothesen als bei der Kontrollgruppe, nach etwa 5 Jahren nahm dieser Unterschied deutlich zu (Kontrollgruppe: 86%, Testgruppe: 24%) und unterschied sich statistisch signifikant (Log-Rank-Test, p=0,041). Bei drei der 128 Galvano-Matrizen kam es zu einer Beschädigung an den Sekundärstrukturen, bei 9 von 37 Matrizen aus glasfaserverstärktem Kunststoff trat ein Schaden auf. Dieser Unterschied war statistisch hochsignifikant und belegt, dass Vectris®-Mesostrukturen eher zum Versagen neigen als Galvano-Sekundärkronen (exakter Fisher-Test, p = 0,00008). Im Gegensatz zu den durchaus unterschiedlichen klinischen Ergebnissen und den unbefriedigend hohen Reparaturzahlen war die Patientenzufriedenheit mit den jeweiligen Studienprothesen für beide Gruppen vergleichbar gut. Zu keinem Zeitpunkt zeigte sich eine relevante Personenzahl in einer der Gruppen mit dem erhaltenen Zahnersatz unzufrieden. So war in der Testgruppe initial lediglich eine Person unzufrieden, änderte diese Einstellung jedoch im Rahmen der weiteren Kontrollen. Eine weitere Person war anfangs zufrieden, dann vorübergehend unzufrieden, um im Weiteren erneut ihre Zufriedenheit zu äußern. Für die Metallgruppe ergab sich lediglich in der letzten Nachkontrolle eine Person, die unzufrieden mit dem Zahnersatz war. Statistisch signifikante Unterschiede zwischen den Gruppen waren somit zu keinem Zeitpunkt nachzuweisen (exakter Fisher-Test, alle p > 0,05). Die vorliegende Untersuchung bestätigt, dass sich die Verwendung keramischer Primärkronen in Doppelkronenrestaurationen prinzipiell bewährt und die Anforderungen an die gestellten Parameter wie Haftkraftstabilität, Biokompatibilität und Ästhetik erfüllt. Jedoch weist die Lithiumdisilikat-Glaskeramik IPS Empress 2® eine unzureichende Stabilität auf, für diesen Indikationsbereich sind daher ausschließlich hochfeste Zirkoniumdioxid-Keramiken zu empfehlen. Mit diesem Material ist ein wesentlich geringeres Reparaturrisiko zu erwarten. Als Matrizenwerkstoff zeigten galvanogeformte Sekundärkappen sehr gute klinische Ergebnisse. Die hohe Passungspräzision, welches durch die intraorale Fügung erreicht wird, gewährleistet eine ideale Lagerung des Zahnersatzes und reduziert kinetikbedingte Schäden auf ein Minimum. Das Ziel der Untersuchung, die dauerhafte klinische Bewährung metallfreier Konusprothesen aus dem Glasfaserverbundmaterial Vectris® nachzuweisen, konnte nicht erreicht werden. Die Ergebnisse dieser prospektiven klinischen Studie belegen eine Überlegenheit der metallischen Konusprothese. Somit bedarf die Realisation einer klinisch verlässlichen metallfreien Konusprothese noch erheblichen Forschungs- und Entwicklungsbedarf. Insbesondere die Substitution von galvanogeformten Feingoldmatrizen stellt eine große Herausforderung dar.
Modern computational molecular quantum chemical studies, such as the present one, typically employ a wide range of theoretical techniques. The latter are often rather complicated and one should not generally expect that an experimental scientist in the area of physical chemistry, a potential reader of this work, should be familiar with all these techniques. To simplify the reading of the Thesis and to make it self-sufficient, it is supplied with an overview of the employed theoretical methodologies (Chapter 1). The overview explains basic quantum-chemical terminology referred to throughout the Thesis, introduces theoretical foundations of the methods and outlines their properties and limitations. In Part 1.1 of Chapter 1, methods for the solution of the molecular Schrödinger equation are introduced, while in the subsequent Parts 1.2 and 1.3 methods for the solution of the electronic Schrödinger equation are presented to find the ground and excited states, respectively. Part 1.4 is dedicated to basis-set effects which are omnipresent in electronic-structure calculations. It contains a number of unusual insights and concepts proposed by the author and, thus, may be insightful also to experts in quantum chemistry.
In Chapter 2, the phenomenon of acetone-water proton exchange catalyzed by tubular as well as amorphous aggregates of calix[4]hydroquinone (CHQ) macromolecules, which has been observed previously in NMR experiments (Ref. D1D), is investigated by means of correlated quantum-chemical methods. The first part of the study (Section 2.3-2.7) considers concerted proton transfer, assisted by several initially neutral OH-groups in the hydrogen-bonded networks of CHQ aggregates. The second part of the study (Section 2.8-2.13) is dedicated to a second mechanism of proton exchange: step-wise proton transfer via formation of ionic intermediates resulting from CHQ pre-dissociation. CHQ application-specific as well as general conclusions, relevant to the main topic of the Thesis (i.e. influence of specific microsolvation on the considered proton transfer processes), are presented in Section 2.14.
The phenomenon of dual fluorescence observed in clusters of methyl 4-N,N-dimethylaminobenzoate ester (DMABME) and two water molecules in the gas phase, is studied in Chapter 3. Experimentally, the dual fluorescence was detected in experiments combining optical and ground-state ion-depletion infrared spectroscopies in ultracold molecular beams (Ref. D2D). In Section 3.3, calculated ground-state infrared spectra are presented that allow to identify the structures of those isomers, which are present in the gas-phase, as well as the structure of the isomer responsible for dual fluorescence. To further understand the reaction mechanism of dual fluorescence, excited-state potential energy surfaces of the identified isomers were computed along the relevant twisted intermolecular charge-transfer formation coordinate and the mechanism of energy dissipation in these complexes was investigated (Section 3.4-3.5) (Ref. D3D). A brief summary of the main results of this chapter and conclusions are given in Section 3.6. Finally, in Section 3.7 a complementary benchmark study of the quality of ground-state potential energy surfaces of prototypical hydrogen-bonded systems (ammonia-water and formic acid-water dimers) obtained at the level of BSSE-corrected MP2 combined with moderate basis sets, has been conducted. The quality of potential energy surfaces was tested with respect to basis-set size, level of electron correlation and anharmonicity effects and the applied methodology to identify the IR spectrum of hydrated DMABME complexes (Section 3.3) has been found to be sufficient to uniquely assign the IR spectra.
The members of the multidrug/oligosaccharidyl-lipid/polysaccharide (MOP) transporter superfamily mediate export of a wealth of molecules of physiological and pharmacological importance. According to the Transporter Classification Database (TCDB), the MOP superfamily is mainly categorized into six distantly related families functionally characterized families: the multidrug and toxic compound extrusion (MATE), the polysaccharide transporter (PST), the oligosaccharidyl-lipid flippase (OLF), the mouse virulence factor (MVF) the agrocin 84 antibiotic exporter (AgnG), and the progressive ankylosis (Ank) family. Among these, the multidrug resistance MATE family transporters are most ubiquitous, being present in all domains of life: Archaea, Bacteria and Eukarya. As secondary active transporters, they utilize transmembrane electrochemical ion gradients of Na+ and/or H+ in order to drive the efflux of xenobiotics or cytotoxic metabolic waste products with specificity mainly for polyaromatic and cationic substrates. Active efflux of drugs and toxic compounds carried out by multidrug transporters is one of the strategies developed by bacterial pathogens to confer multidrug resistance. MATE proteins provide resistance to, e.g., fluoroquinolone, aminoglycoside antibiotics, and anticancer chemotherapeutical agents, thus serving as promising pharmacological targets for tackling a severe global health issue. Based on their amino acid sequence similarity, the MATE family members are classified into the NorM, the DNA-damage-inducible protein F (DinF), and the eukaryotic subfamilies. Structural information on the alternate conformational states and knowledge of the detailed mechanism of the MATE transport are of great importance for the structure-aided drug design. Over the past decade, the crystal structures of representative members of the NorM, DinF and eukaryotic subfamilies have been presented. They all share similar overall architecture comprising 12 transmembrane helices (TMs) divided into two domains, the N-terminal domain (TMs 1-6) and the C-terminal domain (TMs 7-12), connected by a cytoplasmic loop between TM6 and TM7 (Fig. II.1). Since all available MATE family structures are known only in V-shaped outward-facing states with the central binding cavity open towards the extracellular side, a detailed understanding of the complete transport cycle has remained elusive. In order to elucidate the underlying steps of the MATE transport mechanism, structures of distinct intermediates, particularly inward-facing conformation, are required.In my PhD project, structural and functional studies have been performed on a MATE family (DinF subfamily) transporter, PfMATE, from the hyperthermophilic and anaerobic archaeon Pyrococcus furiosus. This protein was produced homologously in Pyrococcus furiosus as well as heterologously in Escherichia coli, and used for the subsequent purification and crystallization trials by the vapor diffusion (VD) and lipidic cubic phase (LCP) method. To the best of my knowledge, PfMATE is the first example of a successful homologous production of a membrane protein in P. furiosus. Due to the very low final amount of the purified protein from the native source, the heterologously produced PfMATE samples were typically used for the extensive structural studies. Crystal structures of PfMATE have been previously determined in an outward-facing conformation in two distinct states (bent and straight) defined on the arrangement of TM1. A pH dependent conformational transition of this helix regulated by the protonation state of the conserved aspartate residue Asp41 was proposed. However, it has been discussed controversially, leading to the hypothesis about TM1 bending to be rather affected by interactions with exogenous lipids (monoolein) present under the crystallization conditions. Based on these open questions, an experimental approach to investigate the role of lipids as structural and functional modulators of PfMATE has been taken in the course of my PhD project. The interplay between membrane proteins and lipids can affect membrane protein topology, structure and function. Considering differences between archaeal and bacterial lipid composition, cultivation of P. furiosus cells and extraction of its lipids was followed by the mass spectrometry (MS) based lipidomics for identification of individual lipid species in the archaeal extract. In order to assess the effects of lipids on PfMATE, different lipid molecules were used for co-purification and co-crystallization trials. This dissertation presents a workflow leading to the structure determination of a MATE transporter in the long sought-after inward-facing state, which has been achieved upon purification and crystallization of the heterologously produced PfMATE in the presence of lipids from its native source P. furiosus. Also, the PfMATE outward-facing state obtained from the crystals grown at the acidic pH conditions sheds light on the previously proposed pH-dependent structural alterations within TM1. It is interesting to note that the inward and outward-facing states of PfMATE were obtained from the crystals grown under similar conditions, but in the presence and absence of native lipids, respectively. This observation supports the hypothesis about physiologically relevant lipids to act as conformational modulators or/and a new class of substrates, expanding the substrate spectrum of the MATE family transporters. Comparative analysis of two PfMATE states reveals that transition from the outward to the inward-facing state involves rigid body movements of TMs 2-6 and 8-12 to form an inverted V, facilitated by a loose binding of TMs 1 and 7 to their respective bundles and their conformational flexibility. Local fluctuations within TM1 in the inward-facing structure, including bending and unwinding in the intracellular half of the helix, invoke its highly flexible nature, which is suitable for ion and substrate gating.
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B-cell acute lymphoblastic leukaemia (B-ALL) is characterized by the overproduction of lymphoblasts in the bone marrow (BM), and it is the most common cancer in children while being comparatively uncommon in adults. On the other hand, in chronic myeloid leukaemia (CML), 70% of cases are found in patients older than 50 years, making it uncommon in children. All CML cases and up to 3% of paediatric B- ALL (and 25% of adult B-ALL) cases are due to fusion gene BCR-ABL1, which gives rise to the cytoplasmatic, constitutively active oncoprotein, tyrosine kinase BCR-ABL1 through a reciprocal translocation between chromosomes 9 and 22. The constitutively active BCR-ABL tyrosine kinase leads to deregulation of different signal transduction pathways such as cell growth, proliferation and cell survival. The role of the bone marrow microenvironment (BMM) can mediate disease initiation (only in mice), progression, therapy resistance, and relapse, as has been increasingly recognized over the last two decades. In general, the BMM is a very complex arrangement of various cell types such as osteoblasts, osteoclasts, endothelial cells, adipocytes, mesenchymal stromal cells, macrophages and several others. In addition, the BMM is composed of multiple chemical and mechanical factors and extra cellular matrix (ECM) proteins which contribute to the BMM’s features influencing leukaemia behaviour. Considering the incidence of B-ALL and CML in children and in adults respectively, we hypothesized that the young and/or an aged BMM might also play a previously unrecognized role in the aggressiveness of B-ALL and CML. We proposed that BM, transduced with BCR-ABL1-expressing retrovirus in the murine transduction/transplantation model of B-ALL, transplanted into young versus old recipient mice would lead to a more aggressive disease in young mice, and similarly CML would be more aggressive in old recipient mice. In close recapitulation with the human incidence, induction of CML led to a significantly shorted survival in old recipient mice. On the other hand, induction of B-ALL showed a shortened survival in young compared to old syngeneic mice, as well as in a xenotransplantation model. Among the highly heterogenous composition of the BMM, we implicate young BM macrophages as a supportive niche for B-ALL cells. The results were found to be mostly due to potential soluble factors differentially secreted from young and old macrophages. Therefore, we hypothesized that the chemokine CXCL13, which has been demonstrated to play a role in B cell migration and act as a diagnostic marker in the cerebrospinal fluid of patients with neuroborreliosis, might be responsible for the observed phenotype. CXCL13 was found to be more highly expressed in healthy and leukaemic young mice as well as in conditioned medium of young macrophages. Using a variety of in vitro experiments, CXCL13 showed to significantly increase the proliferation and the migration of leukaemia cells when exposed to young macrophages, and the phenotype was rescued while using a CXCL13 neutralizing antibody. The CXCL13 role was also confirmed in vivo, since macrophage ablation led to a prolongation of survival in young mice and a reduction of CXCL13 levels. The use of an additional mouse model, leukaemia cells with CXCR5 deficiency, led to a significant prolongation of survival of young mice, confirming the importance of the CXCL13-CXCR5 axis in B-ALL. In line with our murine results, we found that human macrophages and CXCL13 levels were higher in pediatric B-ALL patients than in adults. Consistent with our murine data, the expression level of CXCR5 may act as a prognostic marker in B-ALL, as well as a predictive marker for central nervous system relapse in human B-ALL. The overall findings show that a young BMM, and in particular macrophages, influences B-ALL progression. We specifically identified CXCL13, secreted by young macrophages, as a promoter of proliferation of B-ALL cells, influencing survival in B-ALL via CXCR5. The CXCR5-CXCL13 axis may be relevant in human B-ALL, and higher CXCR5 expression in human B-ALL may act as a predictive marker.
Diese Thesis befasst sich mit dem Problem korrelierter Elektronensysteme in realen Materialien. Ausgangspunkt hierbei ist die quantenmechanische Beschreibung dieser Systeme im Rahmen der sogenannten Kohn-Scham Dichtefunktionaltheorie, welche die Elektronen der Kristallsysteme als effektiv nicht-wechselwirkende Teilchen beschreibt.
Während diese Modellierung im Falle vieler Materialklassen erfolgreich ist, unterscheiden sich die korrelierten Elektronensysteme dadurch, dass der kollektive Charakter der Elektronendynamik nicht zu vernachlässigen ist.
Um diese Korrelationseffekte genauer zu untersuchen, verwenden wir in dieser Arbeit das Hubbard-Modell, welches mit der projektiven Wannierfunktionsmethode aus der Kohn-Scham Dichtefunktionaltheorie konstruiert werden kann.
Das Hubbard-Modell umfasst hierbei nur die lokale Elektron-Elektron-Wechselwirkung auf einem Gitter. Auch wenn das Modell augenscheinlich sehr simpel ist, existieren exakte Lösungen nur in bestimmten Grenzfällen. Dies macht die Entwicklung approximativer Ansätze erforderlich, wobei die Weiterentwicklung der sogenannten Two-Particle Self-Consistent Methode (TPSC) eine zentrale Rolle dieser Arbeit einnimmt.
Bei TPSC handelt es sich um eine Vielteilchenmethode, die in der Sprache funktionaler Ableitungen und sogenannter conserving approximations hergeleitet werden kann.
Der zentrale Gedanke dabei ist, den effektiven Wechselwirkungsvertex als statisch und lokal zu approximieren. Dies wiederum erlaubt die Bewegungsgleichung des Systems
erheblich zu vereinfachen, sodass eine numerische approximative Lösung des Hubbard-Modells möglich wird. Vorsetzung hierbei ist nur, dass sich das System in der normalleitenden Phase befindet und die bei Phasenübergängen entstehenden Fluktuationen nicht zu groß sind.
Während diese Methode ursprünglich von Y. M. Vilk und A.-M. Tremblay für das Ein-Orbital Hubbard-Modell entwickelt wurde, stellen wir in dieser Arbeit eine Erweiterung auf Viel-Orbital-Systeme vor.
Im Falle mehrerer Orbitale treten in der TPSC-Herleitung einzelne Komplikationen auf, die mit weiteren Approximationen behandelt werden müssen. Diese werden anhand eines einfachen Zwei-Orbital Modell-Systems diskutiert und die TPSC-Ergebnisse werden darüber hinaus mit den Ergebnissen der etablierten dynamischen Molekularfeldnährung verglichen.
In diesem Zusammenhang werden auch mögliche zukünftige Erweiterungen bzw. Verbesserungen von TPSC diskutiert.
Ein weiterer wichtiger Aspekt ist die Anwendung von TPSC auf reale Materialien.
In diesem Zusammenhang werden in dieser Arbeit die supraleitenden Eigenschaften der organischen K-(ET)2X Systeme untersucht. Hierbei lassen die TPSC-Resultate darauf schließen, dass das populäre Dimer-Modell, welches zur Beschreibung dieser Materialien herangezogen wird, nicht genügt um die experimentell bestimmten kritischen Temperaturen zu erklären und dass das komplexere Molekülmodell weitere exotische supraleitende Lösungen zulässt.
Schließlich untersuchen wir außerdem die elektronischen Eigenschaften des eisenbasierten Supraleiters LiFeAs und diskutieren inwieweit nicht-lokale Korrelationseffekte, welche durch TPSC aufgelöst werden können, die experimentellen Daten reproduzieren.
Prognostische Faktoren und das Outcome von Patienten mit einem primären Glioblastom sind in der Fachliteratur gut beschrieben. Im Gegensatz dazu gibt es wenige vergleichbare Informationen zu Patienten mit einem sekundären Glioblastom. Das Ziel dieser Arbeit war es, das Outcome von Patienten mit einem sekundären Glioblastom zu beurteilen und prognostische Faktoren in Be-zug auf das Gesamtüberleben zu identifizieren.
Dazu wurde die interne Datenbank des Universitätsklinikums Frankfurt/Main von Patienten mit Hirntumoren retrospektiv nach klinischen Daten durchsucht. Alle Patienten hatten ein histologisch gesichertes WHO Grad II oder III Gliom und anschließend ein WHO Grad IV sekundäres Glioblastom. Paraffiniertes Hirntumorgewebe wurde auf Mutationen der Isocitrat Dehydrogenase-1 (IDH1) mittels einer immunhistochemischen Färbung mit einem R132H (clone H09) spezifischen Antikörper untersucht. Eine uni- und multivariate statistische Analyse wurde durchgeführt, um Faktoren zu ermitteln, die potentiell das Gesamt-überleben beeinflussen könnten.
Es wurden 45 Patienten mit einem histologisch gesicherten sekundären Glioblastom untersucht. Das mediane Alter betrug 41 Jahre. 14 Patienten unterzogen sich einer radiologisch kompletten Resektion des sekundären Glioblastoms, 31 Patienten wurden subtotal reseziert oder biopsiert. Initial ist bei 37 Patienten ein astrozytärer Tumor nachgewiesen worden und die restlichen Patienten litten an Oligodendrogliomen oder gemischten Gliomen; bei der initialen Diagnose wurden 17 WHO Grad II und 28 WHO Grad III Tumoren fest-gestellt. Die mediane Zeit zwischen Ursprungstumor und dem Auftreten des sekundären Glioblastoms betrug 158,9 Wochen. Das mediane Gesamtüberleben betrug 445 Tage nach der Diagnose eines sekundären Glioblastoms. Mutationen des IDH1 (R132H) Proteins wurden bei 24 Patienten festgestellt und fehlten bei 17 Patienten; bei 4 Patienten konnte keine IDH1 immunhistochemische Färbung durchgeführt werden.
In der univariaten Analyse konnte der Zeitraum zwischen initialer Läsion und dem Progress zu einem sekundären Glioblastom als statistisch signifikanter Einflussfaktor identifiziert werden- Patienten mit einem Zeitraum von mehr als 2 Jahren hatten ein besseres Gesamtüberleben (460 vs. 327 Tage, p = 0,011). Außerdem konnte bei Patienten, die eine kombinierte Radiochemotherapie bekamen, ein besseres Gesamtüberleben nachgewiesen werden als bei Patienten, welche ausschließlich eine Therapieform erhielten (611 vs. 380 Tage, p < 0,001). Weiterhin konnten ein WHO Grad II Ursprungstumor (472 vs. 421 Tage, p = 0,05) und eine Frontalllappenlokalisation des Glioblastoms (472 vs. 425 Ta-ge, p = 0,031) das Überleben steigern.
In der multivariaten Analyse konnte gezeigt werden, dass die Mutation des IDH1 (R132H) Proteins in statistisch signifikanter Weise mit einem längeren Gesamtüberleben assoziiert war (p = 0,012); statistische Signifikanz für ein län-geres Gesamtüberleben bei Patienten mit initial einem WHO Grad II (p = 0,047) und einer Frontallappenlokalisation des Glioblastoms (p = 0,042) stellte sich auch ein. In Bezug auf die Patienten spezifischen Daten wurden zwei Prognosegruppen erstellt; Patienten in der guten Prognosegruppe scheinen einen Benefit von einer totalen Tumorresektion zu haben (p = 0,02), während eine Resektion für die andere Prognosegruppe keine große Rolle spielte (p = 0,926).
Trotz des relativ geringen Erkrankungsalters haben sekundäre Glioblastom Patienten eine schlechte Prognose. Die Ergebnisse dieser Arbeit unterstreichen die Wichtigkeit und den prognostischen Wert der IDH1 Diagnostik, die Notwendigkeit einer kombinierten Radiochemotherapie und eine Risikostratifizierung für eine Prognoseabschätzung anhand der Patienten spezifischen Einflussfaktoren.