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Die Forschungsfrage dieser Arbeit untersucht die Veränderungen in der sicherheits- und verteidigungspolitischen Agenda von Bündnis 90/Die Grünen seit dem Ausbruch des Ukraine-Krieges 2022. Die Analyse zeigt, dass die Grünen ihre Agenda angepasst haben, jedoch ihre politische Kultur beibehalten. Obwohl sie sich neuen sicherheitspolitischen Herausforderungen stellen, bleiben ihre pazifistischen Grundprinzipien erhalten. Es wurde eine Reihe von Veränderungen festgestellt, darunter eine verstärkte Unterstützung für militärische Maßnahmen, jedoch bleibt die Priorität bei nicht-militärischen Ansätzen wie Diplomatie und humanitärer Hilfe. Die Ergebnisse zeigen, dass die Grünen eine pragmatischere Betrachtung der Sicherheitspolitik angenommen haben, ohne ihre grundlegenden Werte zu verlieren. Die Erkenntnisse dieser Arbeit bieten eine Grundlage für zukünftige Forschungen zur Entwicklung der sicherheitspolitischen Agenda der Grünen und zur öffentlichen Wahrnehmung dieser Veränderungen.
Over three decades the works of Frankfurt School member Theodor W. Adorno played an important role in the didactic conceptualization of popular music in Germany. This resulted in a predominantly analytical, ethic-centred and, in the end, pejorative agenda. Educationalists who advocated an affirmative approach to popular music needed to formulate “new” objectives that would serve as a true alternative to the highly elaborated Adornian framework. Though affirmative approaches finally became prevalent, the didactic situation remained delicate, since the teaching of popular music was also subject to general debates on how school education shall be constituted. Subsequently, the subject “popular music” became more and more tied to overall educational goals, whereas the objective dimension was increasingly ignored. The paper aims to reconstruct the complex path from critical to post-critical didactic efforts, finally addressing current issues, especially the notion of popular music as cultural practice. The “paradigm shift” towards affirmation is demonstrated on the basis of both theoretical works and curricular sources.
Suchtvereinbarungen sind Maßnahmen struktureller schulischer Suchtprävention und Teil des umfassenderen Arbeitsfeldes schulischer Gesundheitsförderung. Die Idee, das aus der betrieblichen Gesundheitsförderung stammende Konzept der Suchtvereinbarung für die schulische Suchtprävention nutzbar zu machen, kam ursprünglich aus der Schweiz und verbreitete sich von da aus rasch im deutschsprachigen Raum. In Baden-Württemberg sind seit Mitte der 90er Jahre schulische Suchtvereinbarungen entwickelt worden, häufig aus Anlass aktueller Vorkommnisse. In Hessen wurde die Idee erst etwas später aufgegriffen. Die erste schulische Suchtvereinbarung in Frankfurt am Main wurde von der Bergius-Schule, einer Beruflichen Schule (Fachrichtungen Chemie, Physik, Biologie, Wirtschaft und Verwaltung sowie Ernährung und Hauswirtschaft) entwickelt und Anfang 2004 endgültig in Kraft gesetzt. Als zweite Schule gab sich Anfang 2006 die Ludwig-Ehrhard-Schule eine Suchtvereinbarung, mehrere weitere Schulen sind auf dem Weg.
Aim: Long noncoding RNAs (lncRNAs) belong to the interface of epigenetics and exhibit diverse functions. Their features depend on their sequence, genomic location and tertiary structure. The aim was to identify novel lncRNAs and characterise their physiological functions and mechanisms in endothelial cells. Three different approaches were performed:
The hypothesis that pseudogene-annotated lncRNA NONHSAT073641 regulates the expression of their parental gene platelet activating factor acetylhydrolase 1b regulatory subunit 1 (PAFAH1B1) was examined.
The physiological functions and in vivo relevance of most lncRNAs are still unknown, therefore a part of this work aimed to identify lncRNAs in response to a pathophysiological stimulus (high amplitude stretch) in endothelial cells.
The long intergenic noncoding RNA antisense to S1PR1 (LISPR1) gene, is located within the promotor of sphingosine-1-phosphate receptor 1 (S1PR1) and shares a part of the promotor region. This study examined additionally the hypothesis that LISPR1 controls the S1PR1 expression in endothelial cells.
Methods: The angiogenic functions of NONHSAT073641 and LISPR1 were examined with spheroid-outgrowth and scratch wound assays. Furthermore, stretch experiments were performed in order to identify differently expressed lncRNAs in human umbilical vein endothelial cells (HUVECs). In addition, the in vivo relevance of both lncRNAs was examined in samples from pulmonary arterial hypertension patients. Knockdown (e.g. LNA GapmeRs), knockout (CRISPR/ Cas9) and overexpression experiments (e.g. CRISPR activation) were performed to analyse target genes. The molecular mechanism of LISPR1 was investigated with RNA and Chromatin immunoprecipitation.
Results: NONHSAT073641 and PAFAH1B1 exhibited angiogenic function in endothelial cells. It could be observed that NONHSAT073641 is not regulating the expression of PAFAH1B1. The pro-angiogenic feature of PAFAH1B1 might be attributed to the target gene matrix Gla protein (MGP). NONHSAT073641 and PAFAH1B1 were significantly induced in CTEPH samples and might be important in the development of this disease. It could be speculated that NONHSAT073641 is regulating the expression of the cell-cycle regulator BCL2L11 as has been investigated in mice.
LISPR1 is a cis-acting lncRNA which maintains S1PR1 gene transcription by intercepting the transcriptional repressor ZNF354C and enabling Polymerase II (PolII) to bind. ZNF354C regulates S1PR1 expression in HUVECs. However, the role of ZNF354C in pulmonary arterial hypertension (PAH) is unknown. LISPR1 and S1P1 receptor were both significantly depleted in COPD samples. It can be assumed that due to higher S1P production, the signalling is attenuated through reduction of the lncRNA LIPSR1 and thus the receptor S1P1.
The stretch experiments present a possible in vitro model in order to mimic the condition of endothelial cells during high blood pressure, such as in PAH. Referring to published data, it could be confirmed that stretching of endothelial cells alters the gene expression, which is on the other hand linked to cardiovascular disease. In cardiovascular disease mechanical stretch altered genes, which are participating in the vascular remodelling process. The role of differently expressed lncRNAs (TGFβ2-AS1, CTD-2033D15.2, INHBA-AS1, RP11-393I2.4, TAPT1-AS1, TPM1-AS1, CFLAR-AS1 and HIF1α-AS2) upon mechanical stretch is yet not clarified.
Conclusion: NONHSAT073641 and LISPR1 are important for the endothelial angiogenic function. Both lncRNAs were deregulated in PAH samples. The pathophysiological stimulus had an impact on the expression of different lncRNAs (e.g. TGFβ2-AS1) and pathways (e.g. TGF-β) in endothelial cells.
Fucoxanthin chlorophyll proteins (Fcps), the light-harvesting antennas of heterokont algae, are encoded by a multigene family and are highly similar with respect to their molecular masses as well as to their pigmentation, making it difficult to purify single Fcps. In this study, a hexa-histidine tag was genetically added to the C-terminus of the FcpA protein of the pennate diatom Phaeodactylum tricornutum. A transgenic strain expressing the recombinant His-tagged FcpA protein in addition to the endogenous wild type Fcps was created. This strategy allowed, for the first time, the purification of a specific, stable trimeric Fcp complex. In addition, a pool of various trimeric Fcps was also purified from the wild-type cells using sucrose density gradient ultracentrifugation and gel filtration. In both the His-tagged and the wild-type Fcps, excitation energy coupling between fucoxanthin and chlorophyll a was intact and the existence of a chlorophyll a/fucoxanthin excitonic dimer was demonstrated using circular dichroism spectroscopy. Mass spectrometric analyses of the trimeric His-tagged complex indicated that it is composed of FcpA and FcpE polypeptides. It is confirmed here that a trimer is the basic organizational unit of Fcps in P. tricornutum. From circular dichroism spectra, it is proposed that the organization of the pigments on the polypeptide backbone of Fcps is a conserved feature in the case of chlorophyll a/c containing algae.
In the framework of this thesis the intense low energy ion beam transport was investigated. Especially, the beam transport in toroidal magnetic field configurations was discussed, as it may allow the accumulation of high intensive beams in the future. One of the specific tasks is to design an injection system that can be used for the proposed low energy accumulator ring. This thesis regarding beam transport investigations is related to the larger research fields, storage rings used in accelerator physics and non-neutral plasmas. The proposal of building a storage ring with longitudinal guiding magnetic fields was made. Due to natural transversal focussing in magnetic fields it is possible to accumulate very intense charged particle beams, a subject of interest within the physics community. A simulation code (TBT) was written to describe the particle motion in curved segments. Particle in Cell techniques were utilized to simulate a multi particle dynamics. This code allows the user to generate different particle distributions as input parameter. A possibility of reading an external data file was made available so that a measured distribution can be used to compare simulation results with measured ones. A second order cloud in cell method was used to calculate charge density and in turn to solve Poisson’s equation. The circular toroidal coordinate system was used. The drift motion and gyrating motion was proved to be consistent with analytical values. Further simulations were performed to study the self field effects on beam transport. The experiments with single toroidal segments find niche in the work. The experiments were performed to compare the simulation results and gain practical experience. The toroidal segment has similar dimensions (major axis R = 1:3 m, minor axis r = 0:1 m, arc angle 30°) as for a full scale ring design. The main difference lies in the magnetic field strength. The available segments can be operated at room temperature producing 0:6T on axis maximum magnetic field, while for the storage ring design this value is in the range of 5T. The preparatory experiments consisted of building and characterization of the ion source in a first step. Along with the momentum spectrometer and emittance scanner the beam properties were studied. Low mass ion beams He+ and mixed p, H2+, H3+ beams were analyzed. The proton beam consisting of a 48% H+ fraction was extracted regularly and used for further experiments. A moderate beam energy of 10 keV was chosen as operational energy for which 3.08 mA proton beam current was measured. In the second stage, beams were transported through a solenoid and the phase space distribution was measured as a function of the magnetic field for different beam energies. The phase-space as distributions measured in a first stage were simulated backward and then again forward transported through the solenoid. The simulated results were then compared with the measured distribution. The LINTRA transport program was used. The phase-space distribution was further simulated for transport experiments in a toroidal magnetic field. The experiments with a single toroidal segment give basic results necessary to compare the results between transport code (TBT) and measurements. The optical diagnostic provides measurements which can be well compared with the simulated results. A digital camera with a magnetic shield was used to record images in jpeg file format. A subroutine was written to analyze an image file to give the intensity distribution of a given image file. The integrated profile in vertical and horizontal direction was used to calculate the vertical drift and the beam size. The simulated values were in good agreement with the measured ones. The injection system needs most care. The transport program that was used to simulate the beam in the toroid was also used to design the injection system. The injection system with its special field configurations was designed to perform experiments with room temperature segments. The main point to tackle was to smoothly bring the charged particles generated outside the trap into the acceptance of the ring. The designed system consists of two sources, one representing a ring beam and the other one the injection beam. While simulations showed a clear way, how to inject the particle beam via a well positioned solenoid and in combination with a transverse electric field element causing an ExB drift into the main ring acceptance. After construction of these injection elements it will be very important to measure the robustness of such a system with respect to the beam stability- especially of the injection channel.
Diatoms contribute largely to the total primary production of the ecosphere and are key players in global biogeochemical cycles. Their chloroplasts are surrounded by four membranes owing to their secondary endosymbiotic origin. Their thylakoids are arranged into three parallel bands and differentiation of thylakoid membranes into grana or stroma is not observed. The fucoxanthin chlorophyll a/c binding proteins act as the light harvesting proteins and play a role in photoprotection during excess light as well. The diatom genome encodes three different families of antenna proteins. Family I are the classical light harvesting proteins called "Lhcf". Family II are the red algae related Lhca-R1/2 proteins called "Lhcr" and family III are the photoprotective LI818 related proteins called "Lhcx".
All known Fcps have a molecular weight in the range of 17-23 kDa. They are membrane proteins and have shorter loops and termini compared to LHCs of higher plants and are therefore extremely hydrophobic. This makes the isolation of single specific Fcps using routine protein purification techniques difficult.
The purification of a specific Fcp containing complex has not been achieved so far and until this is done several questions concerning light harvesting antenna systems of diatoms cannot be answered. For e.g. Which proteins interact specifically? Are various Fcps differently pigmented? Which pigments interact with each other and how? Which proteins contribute to photosystem specific antenna systems? Can pure Fcps be reconstituted into crystals like LHCII proteins? In order to answer these questions specific Fcp containing complexes have to be purified. ...
This paper addresses the problem ofconstraints for relative quantifier sope, in partiular in inverse linking readings wherecertain scope orders are exluded. We show how to account for such restrictions in the Tree Adjoining Grammar (TAG) framework by adopting a notion offlexible composition. In the semantics we use for TAG we introduce quantifier sets that group quantifiers that are "glued" together in the sense that no other quantifieran scopally intervene between them. Theflexible composition approach allows us to obtain the desired quantifier sets and thereby the desiredconstraints for quantifier sope.
The species, Bactrospora lamprospora (Nyl.) Lendemer is treated as a synonym of B. metabola (Nyl.) Egea & Torrente. The comparission of characters of all accessible materials and type specimens confirmed that B. lamprospora is conspecific with B. metabola. The distinguishing characters of B. metabola from other species in this group are initially a Homalotropa-type ascospores becomes muriform at maturity, with up to 24–30 transverse septa and ascospore size of 48–105 × 7–14 μm.
Endothelial dysfunction plays an important role in different pathological conditions, but whether endothelial cell death contributes to the development and progression of certain pathological conditions is rather unclear. Here we found that endothelial cells undergo cell death during pathologies such as LPS-induced sepsis and in models of hindlimb, renal and cardiac ischemia-reperfusion injury. Analyses of mice lacking endothelial key cell death regulators such as TAK1, RIPK3 and Caspase 8 gave us insight in the role of endothelial cell death in these pathological models. For example, increased endothelial necroptosis along with basal inflammation in lungs of TAK1ECKO mice affects susceptibility to LPS-induced sepsis and mortality, which correlated with elevated IFN-gamma and MIP-2 serum levels. Furthermore, we found that inhibition of RIPK3-mediated endothelial necroptosis could reduce the susceptibility of TAK1ECKO mice to LPS-induced sepsis and mortality. In ischemia or ischemia-reperfusion models, inhibition of RIPK3-mediated endothelial necroptosis did not reduce injury in the heart after ischemia, nor did it have any effect on organ function post-injury in the kidney or the heart. Inhibition of necroptosis also did not alter vascularization processes in hindlimb post-ischemia. Taken together, endothelial necroptosis contributes to increased sepsis severity and progression whereas inhibition of endothelial necroptosis can ameliorate susceptibility to sepsis in the absence of endothelial TAK1. Inhibition of endothelial necroptosis however does not play an important role during ischemia or ischemia-reperfusion induced organ injury.