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In this thesis, we opened the door towards a novel estimation theory for homogeneous vectors and have taken several steps into this new and uncharted territory. Present state of the art for homogeneous estimation problems treats such vectors p 2 Pn as unit vectors embedded in Rn+1 and approximates the unit hypersphere by a tangent plane (which is a n-dimensional real space, thus having the same number of degrees of freedom as Pn). This approach allows to use known and established methods from real space (e.g. the variational approach which leads to the FNS algorithm), but it only works well for small errors and has several drawbacks: • The unit sphere is a two-sheeted covering space of the projective space. Embedding approaches cannot model this fact and therefore can cause a degradation of estimation quality. • Linearization breaks down if distributions are not highly concentrated (e.g. if data configurations approach degenerate situations). • While estimation in tangential planes is possible with little error, the characterization of uncertainties with covariance matrices is much more problematic. Covariance matrices are not suited for modelling axial uncertainties if distributions are not concentrated. Therefore, we linked approaches from directional statistics and estimation theory together. (Homogeneous) TLS estimation could be identified as central model for homogeneous estimation and links to axial statistics were established. In the first chapters, a unified estimation theory for the point data and axial data was developed. In contrast to present approaches, we identified axial data as a specific data model (and not just as directional data with symmetric probability density function); this led to the development of novel terms like axial mean vectors, axial variances and axial expectation values. Like a tunnel which is constructed from both ends simultaneously, we also drilled from the parameter estimation side towards directional/axial statistics in the second part. The presentation of parameter estimation given in this thesis deviates strongly from all known textbooks by presenting homogeneous estimation problems as a distinguished class of problems which calls for different estimation tools. Using the results from the first part, the TLS solution can be interpreted as the weighted anti-mean vector of an axial sample. This link allows to use our results from axial statistics; for instance, the certainty of the anti-mode (i.e. of the TLS solution!) can be described with a weighted Bingham distribution (see (3.91)). While present approaches are only interested in the eigenvector of the some matrix, we can now exploit the whole mean scatter matrix to describe TLS solution and its certainty. Algorithms like FNS, HEIV or renormalization were presented in a common context and linked to each other. One central result is that all iterative homogeneous estimation algorithms essentially minimize a series of evolving Rayleigh coefficients which corresponds to a series of (converging?) cost functions. Statistical optimization is only possible if we clearly identify every step as what it exactly is. For instance, the vague statement “solving Xp ... 0” means nothing but setting ˆp := arg minp pTXp pT p . We identified the most complex scenario for which closed form optimal solutions are possible (in terms of axial statistics: the type-I matrix weighted model). The IETLS approach which is developed in this thesis then solves general type-II matrix weighted problems with an iterative solution of a series of type-I matrix weighted problems. This approach also allows to built converging schemes including robust and/or constrained estimation – in contrast to other approaches which can have severe convergence problems even without such extensions if error levels are not low. Chapter 6 then is another big step forward. We presented the theoretical background of homogeneous estimation by introducing novel concepts like singular vector unbiasedness of random matrices and solved the problem of optimal estimation for correlated data. For instance, these results could be used for better estimation of local image orientation / optical flow (see section 7.2). At the end of this thesis, simulations and experiments for a few computer vision applications were presented; besides orientation estimation, especially the results for robust and constrained estimation for fundamental matrices is impressive. The novel algorithms are applicable for a lot of other applications not presented here, for instance camera calibration, factorization algorithm formulti-view structure from motion, or conic fitting. The fact that this work paved the way for a lot of further research is certainly a good sign.
The N-terminal domain (matrix protein or MA) of a retroviral Gag polyprotein precursor plays a critical role in several stages of the retrovirus life cycle. MA is involved in the effective membrane targeting, assembly and release of the immature viral particles from the infected cell. In order to understand the structural basis of these functions, the full length MA from Moloney Murine Leukemia Virus (MoMuLV) was purified and the solution structure of the MA MoMuLV was determined by means of heteronuclear high-resolution NMR spectroscopy and compared with that of the X-ray diffraction analysis as well as with the structures of several MA proteins from geterologous viruses. Structural features were also obtained from CD spectroscopy, dynamic light scattering, sedimentation velocity, differential scanning calorimetry and other methods. It was found that the MA MoMuLV globular core (residues 8-98) is comprised of 7 well-defined helices (five alpha-helices and two 310 helices), with the general fold typical for MA proteins from other retroviral species. The N-terminus (residues Met1-Leu7) and the C-terminal proline-rich part (residues Pro103-Tyr131) are not structured in solution. Although MA MoMuLV has a low sequence identity compared with other matrix proteins for which the three-dimensional structure is known, it was shown that its overall topology and pattern of secondary structural units is similar to other retroviral matrix proteins. The monomeric state is observed for the correctly folded MA MoMuLV in a variety of external conditions and protein concentrations, indicating that virion assembly starts with the plasma membrane targeting of the nascent Gag precursor. The denaturation of MA MoMuLV is irreversible and is connected with protein aggregation. For Moloney Murine Leukemia Virus (MoMuLV) a proteolytic processing of the R-peptide (last 16 amino acids from the C-terminus of the Envelope protein (Env)) has been described as a second mode of fusion and activation preceding the receptor contact between the viral particle and the cellular membrane. An interaction between the R-peptide and MA MoMuLV has been proposed, since the R-peptide and MA are localized at the inner part of the membrane. Therefore the interaction between 15N labelled purified MA MoMuLV and synthesized R-peptide has been investigated using high-resolution NMR. It was found that in water solution MA MoMuLV and R-peptide do not form a tight complex, but in a mature virion in the presence of membranes or other protein factors it might be possible. In the case of HIV-1 the cytoplasmic part (EnvC) of the Env protein is much longer than in other retroviruses and again as for MoMuLV little is known about the interaction between EnvC and HIV MA. Hence, the full length HIV MA, and the last 150 amino acids from HIV Env have been subcloned with suitable expression vectors, purified and analysed by native gel electrophoresis, a pull down assay and by high resolution NMR for the purpose to detect the complex formation of EnvC and HIV MA. Finally, after all those experiments, it was found that a stable complex is not formed, but a weak interaction between the two proteins can not be excluded.
Studies and measurements of linear coupling and nonlinearities in hadron circular accelerators
(2006)
In this thesis a beam-based method has been developed to measure the strength and the polarity of corrector magnets (skew quadrupoles and sextupoles) in circular accelerators. The algorithm is based on the harmonic analysis (via FFT) of beam position monitor (BPM) data taken turn by turn from an accelerator in operation. It has been shown that, from the differences of the spectral line amplitudes between two consecutive BPMs, both the strength and the polarity of non-linear elements placed in between can be measured. The method has been successfully tested using existing BPM data from the SPS of CERN, since presently the SIS-18 is not equipped with the necessary hardware. The magnet strength of seven SPS extraction sextupoles was measured with a precision of about 10%. The polarities have been unambiguously measured. This method can be used to detect polarity errors and wrong power supply connections during machine commissioning, as well as for a continuous monitoring of the "nonlinearity budget" in superconducting machines. A second beam-based method has been studied for a fast measurement and correction of betatron coupling driven by skew quadrupole field errors and tilted focusing quadrupoles. Traditional methods usually require a time-consuming scan of the corrector magnets in order to minimize the coupling stop band |C|. In this thesis it has been shown how the same correction can be performed in a single machine cycle from the harmonic analysis of multi-BPM data. The method has been successfully applied to RHIC. It has been shown that the stop band |C| (also known in the American literature as Delta-Qmin) measured in a single machine cycle with the new algorithm is compatible with the value obtained by traditional methods. The measurement of the resonance phase Theta defines automatically the best corrector setting, which was found in agreement with the one obtained with a traditional scan. A third theoretical achievement is a new description of the betatron motion close to the difference resonance in presence of linear coupling. Compared to the matrix formalism the motion is parametrized as a function of the resonance driving term f1001 only (which is proven to be an observable), whereas making use of the matrix approach four parameters need to be measured. Formulae describing the exchange of RMS emittances when approaching the resonances have been already derived in the 70s in the smooth approximation. New formulae have been derived here making use of Lie algebra providing a better description of the emittance behavior. The emittance exchange curves are predicted by new formulae with excellent agreement with multi-particle simulations and the counter-intuitive emittance variation along the ring of the emittance is proven to be related to the variation of f1001. A new way to decouple the equations of motion and explicit expressions for the individual single particle invariants have been found. For the first time emittance exchange studies have been carried out in the SIS-18 of GSI. Transverse RMS emittances have been measured during 2005 from rest gas monitor (RGM) data. Crossing the linear coupling resonance, the transverse emittances exchange completely. It has been observed that this effect is reversible. Applications of this manipulation are: emittance equilibration under consideration for future operations of the SIS-18 as booster for the SIS-100; emittance transfer during multi-turn injection to improve the eficiency and to protect the injection septum in high intensity operations, by shifting part of the horizontal emittance into the vertical plane. The emittance exchange curves obtained experimentally have been compared with analytic formulae providing a fast measurement (in few machine cycles only) of the linear coupling stop band |C|. Technical problems prevented the use of the eight skew quadrupoles installed in the SIS-18 to compensate the linear coupling resonance. It has been observed that the emittance exchange curve is highly sensitive to the beam intensity. Multi-particle simulations with 2D PIC space-charge solver have been run to infer heuristic scaling laws able to quantify the observable stop band, to be used for the resonance compensation. The analysis of BPM and RGM data has been performed making use of new software applications developed for this purpose. The bpm2rdt code for the harmonic analysis of BPM data has been written and tested with real data. The software reads the BPM turn-by-turn data and the Twiss parameters. Then it performs the FFT of these data, finds the peaks of the Fourier spectra and infers the RDT fjklm, the strengths ^hjklm and the local terms lambda-jklm. All these observables are printed out together with the corresponding values of the model, computed from the nominal values of strengths and the Twiss parameters. From the FFT of dual-plane BPM data the linear optics (beta functions and phase advances Delta phi) at the corresponding location is also inferred. From the measurement of f1000, the linear coupling coeffcient C (amplitude and phase) is also computed. The code has been tested by using existing SPS data and new RHIC data. For the on-line analysis of RGM data the rgm2emitt code has been written. The application reads in input the raw data files from the RGM and the beam loss monitor (BLM) respectively, the latter created by the RGM on-line software itself. From the RGM data the transverse beam sizes and emittances are inferred and used together with the BLM data to compute the tune shift during the machine cycle.
Alzheimer’s Disease (AD) is the most common neurodegenerative disorder marked by progressive loss of memory and cognitive ability. The pathology of AD is characterised by the presence of amyloid plaques, intracellular neurofibrillary tangles and pronounced cell death. The aim of this thesis was to investigate pathways involved in the Aß cascade of neurodegeneration. Since novel findings indicate that already this Aß species exerts neurotoxic effects long before hyperphosphorylated tau, neurofibrillary tangles and extracellular Aß plaques appear, the investigations were accomplished with specific regard to the effects of intracellular Aß. The Swedish double mutation in the APP gene results in six- to eightfold increased Aß production of both Aß1-40 and Aß1-42 compared to human wildtype APP cells (APPwt). Data obtained from PC12 cells indicate that it is possible to specifically increase the Aß load without enhancing APP expression levels. On the basis of these findings, it seemed possible to investigate dose-dependent effects of Aß in multiple experimental designs. These assay designs were created in order to mimick different in-vivo situations that are discussed to occur in AD patients: APPsw PC12 cells exhibit low physiological concentrations of Aß within picomolar range in contrast to APPsw HEK cells, expressing Aß levels within the nanomolar range. Of note, the APPsw HEK cells showed a specific and highly significant increase in the intracellular accumulation of insoluble Aß1-42. Moreover, an intracellular accumulation of Aß and APP was found in the mitochondria of the HEK APPsw cells suggesting a direct impact on mitochondrial function on these cells. This effect might finally lead to disturbances in the energy metabolism of the cell or to increased cell death. Furthermore, baseline g- and ß-secretase activity was assessed since these enzymes represent promising therapeutic targets to slow or halt the disease process. As expected, ß-secretase activity was significantly elevated in all APPsw cell lines. This might be due to the proximity of the Swedish double mutation next to the N-terminus of the Aß sequence. Interestingly, g-secretase activity was similarly increased in PC12 APPsw cells. In addition, the toxicity of different Aß species was investigated in SY5Y and PC12 cells with regard to their effect on cellular viability mirrored by mitochondrial activity using MTT assay. Here, it turned out that not monomers, but already dimers are neurotoxic correlates. Fibrillar Aß species showed the highest toxicity. In the next step, SY5Y cells forming endogenous, dimeric APP and Aß were investigated. In accordance with previous findings, these cells showed a decreased MTT reduction potential in comparison to APPwt and control SY5Y cells reflecting a decrease of cellular viability. The impaired energy metabolism of the cells was even more drastically mirrored by reduced baseline ATP levels. In the second part of this thesis, the expression and intracellular distribution of Bcl-2 family proteins and pro-apoptotic mitochondrial factors under baseline conditions and during oxidative stress were analyzed in the APPwt and APPsw bearing cells. The most prominent finding was the reduction of expression levels of the anti-apoptotic factor Bcl-xL in the cytosolic fractions of APPwt and APPsw PC12 cells. This might indicate that a lack of anti-apoptotic factors or their altered intracellular distribution, rather than an increase in caspase-dependent pro-apoptotic factors, could be responsible for the increased vulnerability of APPwt- and APPsw-transfected PC12 cells against oxidative stress. Since total Bcl-xL expression was unaffected in PC12 cells, in contrast to APPwt and APPsw-expressing SY5Y and HEK cells revealing significantly decreased Bcl-xL expression levels. Thus, alterations in Bcl-xL distribution seem to be an early event in the disease process. Increasing Bcl-xL expression might potentially be one promising strategy for AD modification. PC12 and HEK cells bearing APPsw or APPwt were treated with the potent g-secretase inhibitor DAPT. Of note, DAPT did not only efficiently block Aß production, but additionally led to an elevation of the MTT reduction potential, reflecting an increase in cellular viability. As another disease-modifying strategy, several efforts are undertaken to ameliorate AD-relevant symptoms by the treatment with nerve growth factor (NGF). Generally, it is known that substituted pyrimidines have modest growth-promoting effects. Here, KP544, a novel substituted pyrimidine, was characterised. This drug increased MTT reduction potential in terminally differentiated and undifferentiated PC12 cells. Furthermore, treatment with KP544 led to a reduction in Aß1-40 secretion. Thus, one may conclude that the target of KP544, GSK-3ß, represents a connecting link between the two main pathological hallmarks of AD and might thus be a very promising therapeutic target for AD.
I derive a general effective theory for hot and/or dense quark matter. After introducing general projection operators for hard and soft quark and gluon degrees of freedom, I explicitly compute the functional integral for the hard quark and gluon modes in the QCD partition function. Upon appropriate choices for the projection operators one recovers various well-known effective theories such as the Hard Thermal Loop/ Hard Dense Loop Effective Theories as well as the High Density Effective Theory by Hong and Schaefer. I then apply the effective theory to cold and dense quark matter and show how it can be utilized to simplify the weak-coupling solution of the color-superconducting gap equation. In general, one considers as relevant quark degrees of freedom those within a thin layer of width 2 Lambda_q around the Fermi surface and as relevant gluon degrees of freedom those with 3-momenta less than Lambda_gl. It turns out that it is necessary to choose Lambda_q << Lambda_gl, i.e., scattering of quarks along the Fermi surface is the dominant process. Moreover, this special choice of the two cutoff parameters Lambda_q and Lambda_gl facilitates the power-counting of the numerous contributions in the gap-equation. In addition, it is demonstrated that both the energy and the momentum dependence of the gap function has to be treated self-consistently in order to determine the imaginary part of the gap function. For quarks close to the Fermi surface the imaginary part is calculated explicitly and shown to be of sub-subleading order in the gap equation.
The focus of this thesis is on quantum Heisenberg magnets in low dimensions. We modify the method of spin-wave theory in order to address two distinct issues. In the first part we develop a variant of spin-wave theory for low-dimensional systems, where thermodynamic observables are calculated from the Gibbs free energy for fixed order parameter. We are able to go beyond linear spin-wave theory and systematically calculate two-loop correction to the free energy. We use our method to determine the low-temperature physics of Heisenberg ferromagnets in one, two and three spatial dimensions. In the second part of the thesis, we treat a two-dimensional Heisenberg antiferromagnet in the presence of a uniform external magnetic field. We determine the low-temperature behavior of the magnetization curve within spin-wave theory by taking the absence of the spontaneous staggered magnetization into account. Additionally, we perform quantum Monte Carlo simulations and subsequently show that numerical findings are qualitatively comparable to spin-wave results. Finally, we apply our method to an experimentally motivated case of the distorted honeycomb lattice in order to determine the strength of the exchange interactions.
One of the central research topics in the field of biophysical chemistry is the structure and function of membrane proteins involved in energy transduction. Both, the aerobic and the anaerobic respiration include electron transfer and proton translocation across the mitochondrial and bacterial membranes. These electron transfer processes lead to changes in oxidation states of cofactors some of which are paramagnetic. Therefore, EPR spectroscopy is the method of choice to obtain electronic and structural information directly related to the function of the respiratory chain proteins. In this work, multifrequency continuous wave (CW) and pulsed EPR spectroscopy has been used to characterize the molybdenum active site of polysulfide reductase (Psr) from the anaerobic bacterium Wolinella succinogenes and the protein-protein complex between cytochrome c oxidase (CcO) and cytochrome c from the aerobic bacterium Paracoccus denitrificans. Molybdenum in Psr-Psr is an enzyme essential for the sulfur respiration of Wolinella succinogenes. Biochemical studies suggested that the active site of this enzyme contains a mononuclear Mo center, which catalyzes the reduction of the substrate polysulfide to sulfide. Until now there is no crystal structure available for Psr. Consequently, current characterizations of this enzyme have to rely on biochemical and spectroscopic investigations. Within the present work, CW and modern pulsed EPR techniques were applied to investigate its catalytically active site. In the first part of this thesis, different redox agents have been used to generate paramagnetic states of Psr. Multifrequency CW-EPR spectroscopy was applied to identify the Mo(V) states. Using simulations of the experimental spectra, three spectroscopically distinct states have been identified based on the Mo hyperfine- and g-tensor values. Comparison of their EPR parameters with those of related enzymes indicated five or six sulfur ligands at the Mo center depending on the state. The state generated by addition of polysulfide is suggested to be the catalytically active form, in which the Mo is coordinated by a sulfur of the polysulfide chain as the sixth ligand. 33S (I = 3/2) labeled polysulfide was prepared to probe the proximity of the polysulfide to the molybdenum center via its hyperfine coupling. 1D-ESEEM and 2D122 HYSCORE spectroscopy was used to detect these hyperfine and quadrupole interactions, which are too small to be observed in conventional CW EPR spectra. To date there has been only one pulsed-EPR study involving a 33S nucleus [Finazzo et.al. 2003]. The reasons are that this nucleus has a high nuclear spin of I = 3/2 and a large nuclear quadrupole moment in addition to the low Larmor frequency. All these make the detection of sulfur and the extraction of structural information demanding. However, analysis of the 2D-data led to a Mo(V) 33S distance in a range of about 2 to 2.5 Å. Mo-S distances found in molybdenum enzymes of the same family are in a range of 1.8 to 2.8 Å suggesting that the 33S is indeed the sixth ligand of the Mo(V) center and demonstrating that polysulfide is the actual substrate for this enzyme. Thus HYSCORE experiments have been proved to be a powerful technique to gain further insight into the active site structures of molybdenum enzymes and the trafficking of substrate atoms during catalysis. Density functional theory (DFT) calculations together with quantitative numerical simulations of the 2D-data will help to obtain more structural details about the molybdenum binding site in Psr. CcO:cytochrome c complex Protein-protein complex formation is an important step in energy conversion biological processes such as respiration and photosynthesis. These protein-protein complexes are involved in long range electron transfer reactions and are known to be of transient nature. Within the bacterial and mitochondrial respiratory electron transport chains such a complex is formed between CcO and cytochrome c. Upon complex formation cytochrome c donates the electrons required for the CcO catalyzed reduction of dioxygen to water. Here, the protein-protein complex formation between CcO and cytochrome c from Paracoccus denitrificans was investigated by pulsed EPR spectroscopy. The idea was to use the relaxation enhancement due to the distance and orientation dependent magnetic dipole-dipole interaction between the paramagnetic centers in the different CcO constructs and cytochromes. Two-pulse electron spin echo experiments were carried out on mixtures of the CuA containing soluble subunit II or the full size CcO with the physiological partner cytochrome c552 or horse heart cytochrome c. Significantly enhanced relaxation of CuA due to specific protein-protein complex formation has been observed in all four cases. In contrast the non-binding cytochrome c1 showed only a very weak relaxation enhancement due to unspecific protein-protein interactions. The echo decays of the slowly relaxing observer spin (CuA of CcO) measured in the absence and presence of the fast relaxing spin (Fe(III) of cytochrome c) permitted the extraction of the pure dipolar relaxation contributions for the different complexes. Measurements at different temperatures proved the dipolar nature of the relaxation enhancement. Furthermore, it was demonstrated experimentally that this approach also works for the full-size CcO, which contains four paramagnetic metal centers, in complex with cytochrome c. Quantitative simulations of the data suggest a broad distribution in distances (2 - 4 nm) and orientations between the CuA and Fe(III) in the complex between CcO and cytochrome c. High-field EPR spectroscopy will be useful to further analyze and prove these complex structures. Within the present work, it has been shown that pulsed relaxation enhancement experiments can be used to investigate the distance and relative orientation between paramagnetic metal centers. Furthermore, it has been demonstrated on a qualitative level, that this method can be used complimentary to other biophysical approaches to study transient electron transfer protein-protein complexes. Finally, within this work it has been proven that this method can be applied also to biological systems where more than two paramagnetic centers are present. This is particularly interesting for supercomplexes between membrane proteins.
Saint Clare of Assisi was born in 1194 to a family of notable social standing. Against her family’s wishes, she left home at the age of eighteen to join the Order of Saint Francis. She soon established the convent of the Poor Ladies in Assisi, which later became officially recognized as the Second Franciscan Order, and went on to govern it for 40 years. Like Saint Francis, who died in 1226 and was officially declared a saint in 1228, her canonization also took place only two years after her death in 1253, thereby demonstrating the tremendous impact she had on her contemporaries. ...
Die Autorin behandelt am Beispiel Brasilien das universelle Thema der Gewalt gegen Frauen in einem international vergleichenden und interkulturell kommunikativen Zusammenhang. Wichtiges Anliegen ihrer Fallstudie zur Gewalt gegen Frauen ist deutlich zu machen, dass die kontextbedingt aktive Bewegung der Frauen wider Gewalt in Brasilien sich nicht nur von Aktionen und Diskursen aus dem internationalen Bereich inspiriert hat, sondern einen beachtenswerten eigenen Beitrag leistet, von dem auch andere Frauenbewegungen lernen könnten. Voraussetzung hierzu ist allerdings, dass in allen diesen Gesellschaften, denen innerhalb der stratifizierten globalen Zusammenhänge unterschiedlicher Status zugewiesen wird, ein interkulturell kommunikativer Lernprozess stattfindet. In der Einleitung zu dieser Studie wird auf die spezifische Problematik des Themas hingewiesen, die Untersuchungsmethode und die eigene Argumentationsweise vorgestellt, die eng mit der Motivation zur Behandlung des Themas verwoben ist. Im ersten Kapitel wird die Gewalt gegen Frauen als zugleich universales wie auch partikulares Problem diskutiert, und dementsprechend die divergierenden Definitionen der Gewalt gegen Frauen, die vielfältigen Ansätze zum Verständnis von Frauen aus verschiedenen Gesellschaften und schließlich die Vielfalt der Erfahrungen von Frauen gegenüber Gewalt im Licht der interkulturellen Kommunikation vorgestellt und kritisch analysiert. Im zweiten Kapitel werden die diskursiv analytischen Interpretationen der Gewalt gegen Frauen im Licht der interkulturellen Kommunikation behandelt. Die Autorin knüpft an das diskursive Modell der Bedürfnisinterpretation von Nancy Fraser an und wendet es als methodischer Ansatz zur Interpretation der Gewalt gegen Frauen an. Sie weist auf die gesellschaftspolitischen und kulturellen Grenzen dieses Modells (auf die nördliche Hemisphäre beschränkt) hin und versucht es im Lichte des Ansatzes von Patrick Dias zu interkulturellem Lernen im Kontext der international ungleichen Machtstrukturen kritisch weiterzuentwickeln. Das dritte Kapitel analysiert die relevanten gesellschaftlichen Bedingungen mit ihren diskursiven Konstruktionen zum Verständnis von Frauen und deren Stellung im spezifischen Kontext Brasiliens. Das vierte Kapitel stellt die brasilianische Frauenbewegung wider Gewalt gegen Frauen in ihren historischen Zusammenhängen dar: von ihren Anfängen über deren Strategien in den Achtzigern bis im ausgehenden zwanzigsten Jahrhundert hinein; und es schließt mit den Diskussionen im 21. Jahrhundert ab, die verstärkt unter der Metapher der Cidadania (Aufbau der Zivilgesellschaft) steht. Kapitel fünf fasst die Ergebnisse der Untersuchung zusammen und führt den in der Studie angewandten diskursiv analytischen Ansatz im Rahmen der interkulturell immer noch bestehenden herrschaftlichen Kommunikationsstruktur mit einem Plädoyer für ein interkulturelles Lernen, das die globalen Ungleichheiten nicht verkennt, weiter.