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Pulsed electron-electron double resonance (PELDOR) is a well established method concerning nanometer distance measurements involving two nitroxide spin-labels. In this thesis the applicability of this method to count the number of spins is tested. Furthermore, this work explored the limits, up to which PELDOR data obtained on copper(II)-nitroxide complexes can be quantitatively interpreted. Spin counting provides access to oligomerization studies – monitoring the assembly of homo- or hetero-oligomers from singly labeled compounds. The experimental calibration was performed using model systems, which contain one to four nitroxide radicals. The results show that monomers, dimers, trimers, and tetramers can be distinguished within an error of 5% in the number of spins. Moreover, a detailed analysis of the distance distributions in model complexes revealed that more than one distance can be extracted from complexes bearing several spins, as for example three different distances were resolved in a model tetramer – the other three possible distances being symmetry related. Furthermore, systems exhibiting mixtures of oligomeric states complicate the analysis of the data, because the average number of spin centers contributes nonlinearly to the signal and different relaxation behavior of the oligomers has to be treated explicitly. Experiments solving these problems are proposed in the thesis. Thus, for the first time spin counting has been experimentally calibrated using fully characterized test systems bearing up to four spins. Moreover, the behavior of mixtures was quantitatively interpreted. In addition, it has been shown that several spin-spin distances within a molecule can be extracted from a single dataset. In the second part of the thesis PELDOR experiments on a spin-labeled copper(II)-porphyrin have been quantitatively analyzed. Metal-nitroxide distance measurements are a valuable tool for the triangulation of paramagnetic metal ions. Therefore, X-band PELDOR experiments at different frequencies have been performed. The data exhibits only weak orientation selection, but a fast damping of the oscillation. The experimental data has been interpreted based upon quantitative simulations. The influence of orientation selection, conformational flexibility, spin-density distribution, exchange interaction J, as well as anisotropy and strains of the g-tensor has been examined. An estimate of the spin-density delocalization has been obtained by density functional theory calculations. The dipolar interaction tensor was calculated from the point-charge model, the extension of the point-dipole approximation to several spin bearing centers. Even assuming asymmetric spin distributions induced by an ensemble of asymmetrically distorted porphyrins the effect of delocalization on the PELDOR time trace is weak. The observed damping of dipolar oscillations has been only reproduced by simulations, if a small distribution in J was assumed. It has been shown that the experimental damping of dipolar modulations is not solely due to conformational heterogeneity. In conclusion the quantitative interpretation of PELDOR data is extended to copper-nitroxide- and multi-spin-systems. The influence of the mean distance, of the number of coupled spins, of the conformational flexibility, of spin-density distribution and of the electronic structure of the spin centers has been analyzed using model systems. The insights on model compounds mimicking spin-labeled biomacromolecules – in oligomeric or metal bound states – calibrate the method with respect to the information that can be deduced from the experimental data. The resulting in-depth understanding allows correlating experimental results (from for example biological systems) with models of structure and dynamics. It also opens new fields for PELDOR as for example triangulation of metal centers and oligomerization studies. In general, this thesis has demonstrated that modern pulsed electron paramagnetic resonance techniques in combination with quantitative data analysis can contribute to a detailed insight into molecular structure and dynamics.
Extracts of Boswellia serrata, also known as Indian frankincense, have been used to treat inflammatory diseases in the Indian ayurvedic medicine or Chinese traditional medicine (TCM) for over 3000 years, but the molecular mechanisms of the anti-inflammatory effects are still not well understood. It is obvious that the boswellic acids, the major compounds in the extracts, are responsible for the efficacy. This work employed a protein fishing technique to identify putative targets of boswellic acids at different stages within the inflammatory cascade. For fishing experiments, boswellic acids were immobilized to sepharose and incubated with cell lysates. After washing and boiling, fished proteins were separated by SDS-PAGE and analysed by MALDI-TOF-MS. CatG, DNA-PK and the protein kinase Akt were identified by protein pulldowns with immobilised BAs and characterised as selective and important targets for BAs with an IC50 in the range of physiologically achievable plasma levels up to 5 microM. In addition, the influence on several signal transductions by BAs was tested. Calcium influx, arachidonic acid release, platelet aggregation and TNFalpha-release were assayed to reveal further pharmacological effects of BAs. Celecoxib is a well-known selective COX-2 inhibitor that is in clinical use. In this work, it is demonstrated that celecoxib is also a highly potent direct 5-LO inhibitor. Celecoxib is used in arthritis and its gastro-intestinal side effects are reduced compared to non-selective NSAIDs. In patients with a familiar disposition to polyp forming, celecoxib reduced polyps and the incidence of colon cancer. Because of lowered leukotriene levels in patients under celecoxib therapy it was plausible to test whether celecoxib interferes with 5-LO. Here it is shown that the activity of 5-LO is inhibited in PMNL and cell-free assays with IC50 of 8 microM in intact cells, 20 microM with supplemented arachidonic acid and 30 microM in cell-free systems. Thus, celecoxib is a dual inhibitor of COX-2 and 5-LO. Since 2006, celecoxib has been approved as an orphan drug for the treatment of familial adenomatous polyposis. Aside from this indication, it could be useful for treatment of asthma and other diseases where 5-LO is implicated.
A graph theoretical approach to the analysis, comparison, and enumeration of crystal structures
(2008)
As an alternative approach to lattices and space groups, this work explores graph theory as a means to model crystal structures. The approach uses quotient graphs and nets - the graph theoretical equivalent of cells and lattices - to represent crystal structures. After a short review of related work, new classes of cycles in nets are introduced and their ability to distinguish between non-isomorphic nets and their computational complexity are evaluated. Then, two methods to estimate a structure’s density from the corresponding net are proposed. The first uses coordination sequences to estimate the number of nodes in a sphere, whereas the second method determines the maximal volume of a unit cell. Based on the quotient graph only, methods are proposed to determine whether nets consist of islands, chains, planes, or penetrating, disconnected sub-nets. An algorithm for the enumeration of crystal structures is revised and extended to a search for structures possessing certain properties. Particular attention is given to the exclusion of redundant nets and those, which, by the nature of their connectivity, cannot correspond to a crystal structure. Nets with four four-coordinated nodes, corresponding to sp3 hybridised carbon polymorphs with four atoms per unit cell, are completely enumerated in order to demonstrate the approach. In order to render quotient graphs and nets independent from crystal structures, they are reintroduced in a purely graph-theoretical way. Based on this, the issue of iso- and automorphism of nets is reexamined. It is shown that the topology of a net (that is the bonds in a crystal) constrains severely the symmetry of the embedding (that is the crystal), and in the case of connected nets the space group except for the setting. Several examples are studied and conclusions on phases are drawn (pseudo-cubic FeS2 versus pyrite; α- versus β- quartz; marcasite- versus rutile-like phases). As the automorphisms of certain quotient graphs stipulate a translational symmetry higher than an arbitrary embedding of the corresponding net would show, they are examined in more detail and a method to reduce the size of such quotient graphs is proposed. Besides two instructional examples with 2-dimensional graphs, the halite, calcite, magnesite, barytocalcite, and a strontium feldspar structures are discussed. For some of the structures it is shown that the quotient graph which is equivalent to a centred cell is reduced to a quotient graph equivalent to the primitive cell. For the partially disordered strontium feldspar, it is shown that even if it could be annealed to an ordered structure, the unit cell would likely remain unchanged. For the calcite and barytocalcite structures it is shown that the equivalent nets are not isomorphic.
In this work data of the NA49 experiment at CERN SPS on the energy dependence of multiplicity fluctuations in central Pb+Pb collisions at 20A, 30A, 40A, 80A and 158A GeV, as well as the system size dependence at 158A GeV, is analysed for positively, negatively and all charged hadrons. Furthermore the rapidity and transverse momentum dependence of multiplicity fluctuations are studied. The experimental results are compared to predictions of statistical hadron-gas and string-hadronic models. It is expected that multiplicity fluctuations are sensitive to the phase transition to quark-gluon-plasma (QGP) and to the critical point of strongly interacting matter. It is predicted that both the onset of deconfinement, the lowest energy where QGP is created, and the critical point are located in the SPS energy range. Furthermore, the predictions for the multiplicity fluctuations of statistical and string-hadronic models are different, the experimental data might allow to distinguish between them. The used measure of multiplicity fluctuations is the scaled variance omega, defined as the ratio of the variance and the mean of the multiplicity distribution. In the NA49 experiment the tracks of charged particles are detected in four large volume time projection chambers (TPCs). In order to remove possible detector effects a detailed study of event and track selection criteria is performed. Naively one would expect Poisson fluctuations in central heavy ion collisions. A suppression of fluctuations compared to a Poisson distribution is observed for positively and negatively charged hadrons at forward rapidity in Pb+Pb collisions. At midrapidity and for all charged hadrons the fluctuations are larger than the Poisson ones. The fluctuations seem to increase with decreasing system size. It is suggested that this is due to increased relative fluctuations in the number of participants. Furthermore, it was discovered that omega increases for decreasing rapidity and transverse momentum. A hadron-gas model predicts different values of omega for different statistical ensembles. In the grand-canonical ensemble, where all conservation laws are fulfilled only on the average, not on an event-by-event basis, the predicted fluctuations are the largest ones. In the canonical ensemble the charges, namely the electrical charge, the baryon number and the strangeness, are conserved for each event. The scaled variance in this ensemble is smaller than for the grand-canonical ensemble. In the micro-canonical ensemble not only the charges, but also the energy and the momentum are conserved in each event, the predicted $omega$ is the smallest one. The grand-canonical and canonical formulations of the hadron-gas model over-predict fluctuations in the forward acceptance. In contrast to the experimental data no dependence of omega on rapidity and transverse momentum is expected. For the micro-canonical formulation, which predicts small fluctuations in the total phase space, no quantitative calculation is available yet for the limited experimental acceptance. The increase of fluctuations for low rapidities and transverse momenta can be qualitatively understood in a micro-canonical ensemble as an effect of energy and momentum conservation. The string-hadronic model UrQMD significantly over-predicts the mean multiplicities but approximately reproduces the scaled variance of the multiplicity distributions at all measured collision energies, systems and phase-space intervals. String-hadronic models predict for Pb+Pb collisions a monotonous increase of omega with collision energy, similar to the observations for p+p interactions. This is in contrast to the predictions of the hadron-gas model, where omega shows no energy dependence at higher energies. At SPS energies the predictions of the string-hadronic and hadron-gas models are in the same order of magnitude, but at RHIC and LHC energies the difference in omega in the full phase space is much larger. Experimental data should be able to distinguish between them rather easily. Narrower than Poissonian (omega < 1) multiplicity fluctuations measured in the forward kinematic region (1<y(pi)<y_{beam}) can be related to the reduced fluctuations predicted for relativistic gases with imposed conservation laws. This general feature of relativistic gases may be preserved also for some non-equilibrium systems as modeled by the string-hadronic approaches. A quantitative estimate shows that the predicted maximum in fluctuations due to a first order phase transition from hadron-gas to QGP is smaller than the experimental errors of the present experiment and can therefore neither be confirmed nor disproved. No sign of increased fluctuations as expected for a freeze-out near the critical point of strongly interacting matter is observed.
In the first part of this study, we have identified the two steroid hormones progesterone and norgestimate as novel TRPC channel blockers. Both substances blocked TRPC-mediated Ca2+ influx with micromolar activities in fluorometric measurements. TRPC channel inhibition did not seem to be a general steroid effect since another progestin, the norgestimate metabolite levonorgestrel, was not effective. Norgestimate was 4- to 5-fold more active on the TRPC3/6/7 subfamily compared to TRPC4/5, whereas progesterone was similarly potent. This selectivity of norgestimate was confirmed by patch clamp recordings. As norgestimate blocked channels directly gated by DAG with a fast kinetic, we assume the compound acts on the channel protein itself. This view was further substantiated by the lack of effects on IP3R-mediated Ca2+ release from the endoplasmic reticulum, which is activated in parallel with TRPCs by Gq/11-coupled receptor stimulation. Norgestimate did not only block ectopically expressed TRPC channels but also native, TRPC-mediated currents in rat aortic smooth muscle cells with similar activity. The usefulness of norgestimate as a tool compound for the investigation of physiological TRPC functions was tested in isolated vessel rings. Consistent with TRPC6 being an essential component of the alpha-1-adrenoceptor-activated cation channel, we demonstrated a direct vasorelaxant, endothelium-independent effect of norgestimate on rat aortic rings precontracted with phenylephrine. Thus, our results provide further experimental support for a role of TRPC6 in alpha-1-adrenergic vessel constriction. In the second part of this study, we screened a human aorta cDNA-library for novel TRPC4-interacting proteins with a modified yeast two-hybrid (Y2H) system in which the TRPC4-C-terminus was expressed as tetrameric bait protein, thereby mimicking the native channel conformation. Of the eleven interacting proteins found SESTD1 was chosen for further analyses since it contains a phospholipid-binding Sec14p-like domain and thus could be involved in regulation of TRPC channels by phospholipids. After the biochemical validation of the found interaction, the first spectrin domain of SESTD1 was then identified to interact with the CIRB domain of TRPC4 in directed Y2H tests. SESTD1 also co-immunoprecipitated with the closely related TRPC5 protein in which the SESTD1-binding domain is highly conserved. Independent of the CIRB site, co-immunoprecipitation with TRPC6 and the distantly related TRPM8 channel was observed indicating the existence of other sites in these channel proteins that mediate interaction with SESTD1. Analysis of SESTD1 gene expression in human tissues showed that its transcripts are ubiquitously expressed and tissues with significant coexpression with TRPC4 and -5 were identified. We have generated two polyclonal antisera directed against SESTD1 that consistently detected SESTD1 protein in brain, aorta, heart, and in smooth muscle and endothelial cells. The functional consequences of the found interaction were investigated by examination of the TRPC5-mediated Ca2+ influx in a clonal HM1 cell line stably expressing the channel. Since SESTD1 overexpression had no detectable effects on TRPC5-mediated Ca2+ influx, most likely due to expression of endogenous SESTD1, we knocked-down the native protein with specific siRNA. This procedure reduced TRPC5-mediated Ca2+ influx following receptor stimulation by 50%. Parallel biotinylation experiments did not reveal any differences in cell surface expressed TRPC5-protein, suggesting that reduction of TRPC5 activity resulted from a loss of a direct SESTD1 effect on the channel. In addition, in immunofluorescence experiments we observed that reduced SESTD1 protein levels resulted in a redistribution of the multifunctional protein ß-catenin from the plasma membrane to the cytosol. This result may point to an involvement of SESTD1 in formation and maintenance of adherens junctions. SESTD1 contains a phospholipid-binding Sec14p-like domain and we were the first to demonstrate its Ca2+-dependent binding to phosphatidic acid and all physiological phosphatidylinositol mono- and bisphosphates in vitro. The physiological function of this binding activity is not known at present, but it could play a role in regulation of associated TRPC channels. TRPC4 and -5 channels are activated by phospholipid hydrolysis and also bind phospholipids directly. The identification of SESTD1 as novel TRPC-interacting protein could thus be an important step forward in the investigation and better comprehension of the complex molecular mechanisms of TRP channel regulation by lipids.
Writing against the odds : the south’s cultural and literary struggle against progress and modernity
(2008)
Die Literatur und Kultur der Südstaaten ist entscheidend geprägt von ihrer Orientierung an der eigenen Geschichte und Vergangenheit. Die düstere Vergangenheit, die die Gegenwart überschatten und die Zukunft determiniert ist ein Südstaatenthema par exellence und allgegenwärtig in ihrer Kultur und Literatur. Nach dem Bürgerkrieg und der Reconstruction Era ist der Süden kulturell und ökonomisch ausgeblutet, am Boden und isoliert. Nach dem Krieg weitet sich die Kluft zwischen Nord- und Südstaaten immer weiter aus, ein Prozess, der jedoch schon so alt ist wie die Vereinigten Staaten selbst und bereits im beginnenden 18. Jahrhundert seinen Anfang nimmt. Die Isolation ist gleichzeitig gewollt und ungewollt, bewusst und unbewusst. Die Scham des verlorenen Krieges und die Marginalisierung sind die Katalysatoren für die Kultivierung und das Bestreben nach Erhalt der Besonderheiten der Südstaaten, mit ihrer vermeintlich überlegenen Kultur und Moral. Es beginnt die kommerzialisierte, hoch ideologisierte Konstruktion der Geschichte und Identität der Südstaaten, die in alle Lebensbereiche strahlt. Der melancholische Blick in die Vergangenheit als wichtigste Referenz und kulturellen Fluchtpunkt ersetzt den Eintritt in die Moderne und Modernität mit ihrer Schnelllebigkeit, Austauschbarkeit und die Aufgabe der Tradition für eine rasante Gegenwart. Das Individuum der Südstaaten sieht sich statt mit einer Flut an Wahlmöglichkeiten und Optionen, mit einer einengenden Gesellschaft konfrontiert, die wenig Spielraum für Abweichungen übriglässt und ein harsches Kontrollsystem hat. Es ist eine einzigartige Mischung aus Stolz, Scham und einem Gefühl der gleichzeitigen Unter- und Überlegenheit, die einen besonders guten literarischen Nährboden hervorbringt. In dieser Arbeit wird den historischen, kulturellen, und literarischen Wurzeln der Südstaatenliteratur seit der Southern Renaissance nachgegegangen, um dann die ständig perpetuierten formalen und inhaltlichen Strukturen darzustellen, die wenig Veränderungen erfahren haben. Diese Perpetuierung resultiert aus der einzigartigen Situation der Südstaaten, aus der historischen Last, die unvermindert aktuell bleibt und längst nicht verarbeitet ist. Südstaatenautoren konnten und können nicht die traditionellen Formen und Themen ablegen, solange diese konstituierende Bestandteile der Kultur und Identität der Südstaaten bleiben. Die Südstaaten verweigern sich der Modernität und empfinden Fortschritt und die moderne Massengesellschaft nicht nur als Bedrohung, sondern als Einfluss aus den Nordstaaten, der die eigene Kultur bedroht und eine Einmischung von außen ist, die es abzuwenden gilt. Traditionsbewusste, reaktionäre Tendenzen und Elemente ziehen sich selbst durch vermeintlich progressive, moderne Entwicklungen und Phänomene. Ich kombiniere identitätskonstituierende, isolierende und melancholische Elemente und beleuchte sie historisch, kulturell und literarisch, um eine mehrschichtige Perspektive zu erlangen. Das Verständnis dieser historischen Last und deren unverminderte Bedeutung und Auswirkung auf die Literatur und Kultur der Südstaaten ist essentiell für eine tiefere Einsicht in deren Strukturen und Bedeutung.
The German Working Group on Vegetation Databanks has held annual meetings since 2002 with financial support by the German Federal Agency for Nature Conservation. Ca. 215 members are regularly informed through a mailing-list. The 2008 meeting was hosted by University of Oldenburg’s Landscape Ecology Group and was attended by 72 participants from 15 countries. Software demonstrations of vegetation databanks Turboveg and VegetWeb as well as plant trait databanks LEDA and BiolFlor opened the workshop. There were lecture sessions on trait databanks, recalibration of ecological indicator values and new developments in the field of vegetation databanks. Working groups were devoted to an initiative to build a meta-databank of existing vegetation databanks in Germany and to mathematical modelling of species habitats. In 2009 the 8th workshop will be held on "Vegetation Databanks and Biodindication" at the University of Greifswald.
Naturalness is one of the most important criteria in nature conservation. This paper examines the fundamental concepts underlying the definition and assessment of naturalness. Its role in nature conservation and forest management under conditions of global change is also discussed. The degree of naturalness may be defined in ordinal classes. The “static” concept of the potential natural vegetation (pnV), developed in the 1950ies, is mostly used as the reference state. In other cases, its reversed concept, the hemeroby (degree of articifiality) is assessed, based on the intensity and frequency of human impacts. Since the 1970ies, more attention has been given to natural dynamics than in earlier approaches, e.g. in forest succession models. At the end of the 1980ies, the previous importance was increasingly stressed of natural browsing by large herbivores and the role of predators. These large herbivors are extinct today in most cultural European landscapes. It is assumed, that they open up the canopy, and create park-like forest structures which contain a diversity of habitats for other types of organism (birds, insects). Changed and permanently changing environments and altering patterns of competition between species continue to modify natural processes today. Some of the more conspicuous effects are the extinction of native species and immigration of species to new regions. Long-lived ecosystems like forests are however not able to adapt quickly to such changes and may be unable to find a new balance with the environment. Today, such changes occur very rapidly, and are reducing the original naturalness of ecosystems. Because of this, the criterion “naturalness” must be downweighted. Conversely, more importance should be attached to other criteria: particularly originality (= original naturalness) and restorability. Forestry is contributing to this accelerated change of biocoenoses by increasing disturbances and introducing exotic tree species. Naturalisation of some exotic tree species modifies the natural processes and creates a “new allochthonous naturalness”. Because of this, forest planning should try to preserve or restore stands with attributes of the “original forest”. Exotic species should not be planted, or only in a very restricted way.