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This work reports on the study of the projectile x-ray emission in relativistic ion-atom collisions. Excitation of K-shell in He-like uranium ions, electron capture into H-like uranium ions and Simultaneous ionization and excitation of initially He-like uranium ions have been studied using the experimental storage ring at GSI. Information about the population of the excited states for the H- and He-like uranium ions, can be obtained by measuring the angular distribution of the decay radiation. Since the Ly_alpha2 transition is isotropic, the intensities of the Ly_alpha1 and K_alpha transitions were normalized to the Ly_alpha2 line. For the K_alpha1 and K_alpha2 transitions originating from the excitation of the He-like uranium ions, no alignment was observed. In contrast, the Ly_alpha1 radiation from the simultaneous ionization-excitation process of the He-like uranium ions shows a clear alignment. It is shown that the alignment of Ly_alpha1 was obtained by the Alignment parameter A_20. The experimental value leads to the inclusion of a magnetic term in the interaction potential. It is interesting to note that in the case of the Ly_alpha1 emission the small M2 contribution added coherently to the E1 transition amplitudes enhances the anisotropy. The capture process of target electrons into the highly-charged heavy ions was studied using H-like uranium ions at an incident energy of 220 MeV/u, impinging on N2 gas-target. It was shown that, the strongly aligned electrons captured in 2p3/2 level will couple with the available 1s1/2 electron which shows no initial directional preference. The magnetic sub-state population of the 2p3/2 electron will be redistributed according to the coupling rules to the magnetic sub-states of the relevant two-electron states. Consequently, the 1^P1 and 3^P2 states are corresponding to the the strongly aligned 2p3/2 state. This leads to the large anisotropy in the corresponding individual ground state transitions contributing to the K_alpha1 emission. Due to the fact that the 1^P1 --> 1^S0 and 3^P2 --> 1^S0 transitions are experimentally not resolved, a more detailed analysis of the angular dependence of the K_alpha1 radiation is required. From the K_alpha1/K_alpha2 ratio, the current results show that the incoherent addition of the E1 and M2 transition components yield to an almost isotropic emission of the total K_alpha1. In contrast to the radiative electron capture, the experimental results for the K-shell single excitation of He-like uranium ions indicate that only the 1^P1 level contributes to the K_alpha1 transition. For this case, the anisotropy parameter beta_20 was found to be -0.20 + 0.03 which is similar to that one calculated for pure E1 transition. This work also reports on the study of a two-electron process: the simultaneous ionization and excitation occurring in relativistic collisions of heavy highly-charged ions with gaseous targets. The investigation was performed on He-like uranium ions impinging upon xenon gas-target at an incident energy of 220 MeV/u. The measurements have been performed at the ESR gas-target using atomic xenon with a typical area density of 10^12 particles/cm^2. In contrast to the solid state target, the use of gas target offers the advantage of clear separation of the one step two-electron process due to the fact that the probability of two consecutive collision in such thin targets is negligible and the double step processes can be excluded. During the process of simultaneous ionization and excitation in He-like uranium ions, one of the ground-state electrons is promoted into the continuum and the other into the L-subshell states of the projectile. To select this process, the Lyman-series radiation has been measured at various observation angles in coincidence with up-charged projectiles (U^91+). From the yields of the Ly_alpha1 and Ly_alpha2 projectile radiation, the relative cross section for the process of simultaneous ionization and excitation was directly determined. The angle dependent measurement of the radiation yields provide information about the angular distributions of the emitted radiation and permits the determination of the alignment parameter A_{20}. This parameter gives information on the level population and the collision impact parameter. The present results (b^exp = 810 fm) show that the simultaneous ionization and excitation is a process which occurs at small impact parameter.
This thesis is dedicated to the study of fluctuation and correlation observables of hadronic equilibrium systems. The statistical hadronization model of high energy physics, in its ideal, i.e. non-interacting, gas approximation will be investigated in different ensemble formulations. The hypothesis of thermal and chemical equilibrium in high energy interaction will be tested against qualitative and quantitative predictions.
The nicotinamide-adenine-dinucleotide (NADH):ubiquinone oxidoreductase (complex I) from the strictly aerobic yeast Y. lipolytica contains at least 26 “accessory” subunits however the significance of most of them remains unknown. The aim of this study was to characterize the role of three accessory subunits of complex I, recently identified: two mitochondrial acyl carrier proteins, ACPM1 and ACPM2 and a sulfurtransferase (st1) subunit. ACPMs are small (approx. 10 kDa) acidic proteins that are homologous to the corresponding central components of prokaryotic fatty acid synthase complexes. Genomic deletions of the two genes ACPM1 and ACPM2 resulted in strains that were not viable or retained only trace amounts of assembled mitochondrial complex I, respectively, as assessed using two-dimensional blue native/sodium dodecyl sulfate polyacrylamide gel electrophoresis (BN/SDS) PAGE. This suggested different functions for the two proteins that despite high similarity could not be complemented by the respective other homolog still expressed in the deletion strains. To test whether complex I was affected by deletion of the ACPM2 gene, its activities in mitochondrial membranes were measured. Consequently, specific inhibitor sensitive dNADH: decylubiquinone (DBQ) oxidoreductase activity was lost completely and a strong decrease in dNADH: hexa-ammine-ruthenium (HAR) oxidoreductase activity was measured. Remarkably, the same phenotypes were observed if just the conserved serine carrying the phosphopantethein moiety was exchanged with alanine. Although this suggested a functional link to the lipid metabolism of mitochondria, using HPLC chromatography no changes in the lipid composition of the organelles were found. Proteomic analysis revealed that both ACPMs were tightly bound to purified mitochondrial complex I. Western blot analysis revealed that the affinity tagged ACPM1 and ACPM2 proteins were exclusively detectable in mitochondrial membranes but not in the mitochondrial matrix as reported for other organisms. Hence it has been concluded that the ACPMs can serve all their possible functions in mitochondrial lipid metabolism and complex I assembly and stabilization as subunits bound to complex I. A protein exhibiting rhodanese (thiosulfate:cyanide sulfurtransferase) activity was found to be associated with homogenous preparation of complex I. From a rhodanese deletion strain, functional complex I that lacked the additional protein but was fully assembled and displayed no functional defects or changes in EPR signature was purified. In contrast to previous suggestions, this indicated that the sulfurtransferase associated with Y. lipolytica complex I is not required for assembly of its iron–sulfur clusters.
Die Maillard-Reaktion findet während der Lagerung und thermischen Verarbeitung von Lebensmitteln zwischen den darin enthaltenen Proteinen und reduzierenden Kohlehydraten statt. Als Ergebnis der Reaktion entstehen sogenannte advanced glycation end products (AGEs), Protein-Derivate mit Glykierungs-Strukturen. Da Lebensmittel vor dem Verzehr häufig erhitzt werden, ist der Einfluss von AGEs auf die Pathogenese von Nahrungsmittelallergien von großem Interesse. Die Maillard-Reaktion könnte zur Bildung von neuen, für die Pathogenese der Nahrungsmittelallergie relevanten, Immunepitopen beitragen. Das Ziel dieser Arbeit war es, den Einfluss der Maillard-Reaktion auf die T-Zell-Immunogenität, die Antigenität und die von beiden Eigenschaften abhängige Allergenität von Nahrungsmittelallergenen zu untersuchen. Zunächst wurde der Einfluss der Maillard-Reaktion auf die T-Zell-Immunogenität von Ovalbumin (OVA), einem Allergen des Hühnereiweißes, untersucht. Dafür wurde glykiertes OVA (AGE-OVA) hergestellt indem das Protein zusammen mit Glukose erhitzt wurde. In dieser Arbeit konnte zum ersten Mal gezeigt werden, dass ein AGE-Derivat eines Lebensmittelallergens eine höhere T-Zellen-Immunogenität besitzt, als sein natives Gegenstück. Die Aktivierung und Proliferation von CD4+ T-Zellen durch AGE-OVA wurde in vitro durch Co-Kultivierung der T-Zellen mit dendritischen Zellen (DZ) untersucht. DZ sind professionelle Antigen- präsentierende Zellen, welche im Pathomechanismus der Allergie eine wichtige Rolle spielen. Im Vergleich zu nativen OVA und OVA welches ohne Glukose erhitzt wurde, führte die Stimulierung mit AGE-OVA zu einer deutlich erhöhten Aktivierung von OVA-spezifischen CD4+ T-Zellen. Damit DZ T-Zellen aktivieren können, muss das Allergen zunächst durch die DZ aufgenommen werden. In der vorliegenden Arbeit wurde gezeigt, dass die Aufnahme von AGE-OVA wesentlich höher war als die der Kontrollen. Außerdem konnte der scavenger receptor class A type I and II (SR-AI/II) als einer der hauptverantwortlichen Rezeptoren für die Aufnahme von AGE-OVA identifiziert werden. Zusammenfassend lässt sich aus den Ergebnissen dieser Arbeit die Hypothese aufstellen, dass die Glykierung von OVA eine erhöhte Assoziation des Allergens mit SR-AI/II ermöglicht, welche zu einer verstärkten Aufnahme des Allergens durch die DZ führt. Dadurch können mehr Peptide des Allergens an MHC II gebunden und auf der Zelloberfläche präsentiert werden. Das wiederum führt zur beobachteten stärkeren OVA-spezifischen CD4+ T-Zell-Aktivierung durch AGE-OVA. Als nächstes wurde die T-Zell-Immunogenität und Antigenität von AGE-OVA in vivo in einem Mausmodel untersucht. Es zeigte sich, dass AGE-OVA auch in vivo im Vergleich zu den nicht glykierten OVA-Formen eine erhöhte T-Zell-Immunogenität besitzt. Des weiteren führte die Immunisierung mit AGE-OVA zu einer erhöhten Produktion von IgE-Antikörpern. Somit wurde in dieser Arbeit gezeigt, dass AGE-OVA in vivo nicht nur eine erhöhte CD4+ T-Zell-Immunogenität besitzt, sondern auch eine höhere Antigenität hat als natives und ohne Glukose erhitztes OVA. Diese Ergebnisse harmonieren gut miteinander da CD4+ T-Zellen eine zentrale Rolle in der Aktivierung von B-Zellen und der IgE-Produktion durch selbige Zellen spielen. IgE-Antikörper besitzen eine essentielle Funktion beim Auslösen der klinischen Symptomatik der Allergie. Zusammenfassend lässt deshalb sagen, dass die Maillard-Reaktion die Allergenität von OVA erhöhen könnte. Zum Schluss wurden noch die immunstimulatorischen Eigenschaften des Erdnussallergens (AGE)-Ara h 2 untersucht. Da Erdnüsse häufig ernsthafte allergische Reaktionen hervorrufen und selten roh verzehrt werden, war es vom großen Interesse den Einfluss der Maillard-Reaktion auf Immunogenität und Antigenität von rekombinanten Ara h 2 (rAra h 2) zu untersuchen. Es zeigte sich, dass die Glykierung von rAra h 2 durch die Maillard-Reaktion die T-Zellen-Immunogenität, als auch die Antigenität des Allergens reduziert. Abschließend lässt sich sagen, dass die Maillard-Reaktion die allergenen Eigenschaften von Lebensmittelallergenen erheblich beeinflusst indem es die T-Zell-Immunogenität des Allergens verändert. Die Mechanismen welche die T-Zell-Immunogenität beeinflussen wurden hier näher untersucht. Wenn die Glykierung nicht die Bindung der T-Zellen- und/oder B-Zellen-Rezeptoren inhibiert, wird die Allergen-spezifische CD4+ T-Zell-Aktivierung und die davon abhängige IgE-Produktion dadurch erhöht, dass das glykierte Allergen durch DZ verstärkt über SR-AI/II aufgenommen wird. Die vorliegende Arbeit liefert wertvolle Information über die Allergenität von Proteinen die durch die Maillard-Reaktion modifiziert wurden and trägt dazu bei die Mechanismen von Nahrungsmittelallergien besser zu verstehen.
Lattice simulation of a center symmetric three dimensional effective theory for SU(2) Yang-Mills
(2010)
We present lattice simulations of a center symmetric dimensionally reduced effective field theory for SU(2) Yang Mills which employ thermal Wilson lines and three-dimensional magnetic fields as fundamental degrees of freedom. The action is composed of a gauge invariant kinetic term, spatial gauge fields and a potential for the Wilson line which includes a "fuzzy" bag term to generate non-perturbative fluctuations between Z(2) degenerate ground states. The model is studied in the limit where the gauge fields are set to zero as well as the full model with gauge fields. We confirm that, at moderately weak coupling, the "fuzzy" bag term leads to eigenvalue repulsion in a finite region above the deconfining phase transition which shrinks in the extreme weak-coupling limit. A non-trivial Z(N) symmetric vacuum arises in the confined phase. The effective potential for the Polyakov loop in the theory with gauge fields is extracted from the simulations including all modes of the loop as well as for cooled configurations where the hard modes have been averaged out. The former is found to exhibit a non-analytic contribution while the latter can be described by a mean-field like ansatz with quadratic and quartic terms, plus a Vandermonde potential which depends upon the location within the phase diagram. Other results include the exact location of the phase boundary in the plane spanned by the coupling parameters, correlation lengths of several operators in the magnetic and electric sectors and the spatial string tension. We also present results from simulations of the full 4D Yang-Mills theory and attempt to make a qualitative comparison to the 3D effective theory.
The Opisthobranchia comprise highly specialized marine gastropods and have therefore been subject to diverse investigations covering various biological disciplines. However, a robust phylogeny of these gastropods is still lacking and several subclades have only been rarely studied. Furthermore, crucial aspects for the evolution of Opisthobranchia have not been comparatively analysed. Therefore, the aim of the present thesis is to gain new insights into the phylogeny of the Opisthobranchia with special focus on certain critical groups (Pleurobranchomorpha, Acteonoidea) and to assess several crucial features of the evolution of the investigated clades. The combination of four different gene markers (18S rDNA, 28S rDNA, 16S rDNA and CO1) and modern molecular systematic analysis tools were used to construct phylogenetic hypotheses focussing on Opisthobranchia as a whole as well as Pleurobranchomorpha and Acteonoidea in more detail. Intriguing new aspects of phylogeny and evolution of Opisthobranchia were revealed. First of all, monophyly of Opisthobranchia is definitely rejected based on the present data, while monophyly of Euthyneura (comprising Opisthobranchia and Pulmonata) is supported. Monophyly of opisthobranch subclades is confirmed for Nudipleura (as well as its constituting groups Nudibranchia and Pleurobranchomorpha), Umbraculida, Pteropoda (as well as subclades Thecosomata and Gymnosomata) and Acochlidiacea, for Cephalaspidea (if Runcinacea is regarded as a separate clade) and for Sacoglossa (if Cylindrobulla is accepted as an Oxynoacea). Aplysiomorpha are rendered paraphyletic due to the position of Akera bullata, but this result needs further investigation and should be considered with caution. The Nudipleura are found as the first single offshoot of the Euthyneura implying an early evolutionary separation of the last common ancestor of this clade. The remaining taxa form two main clades, one comprising the opisthobranch subgroups Umbraculida, Cephalaspidea, Aplysiomorpha and Pteropoda, while the other contains the pulmonate taxa and the opisthobranch Sacoglossa and Acochlidiacea. The interrelationships within these clades remain largely unresolved due to low statistical support values. However, a possible sister group relationship of Acochlidiacea and Eupulmonata receives statistical support. Opisthobranchia display various highly specific adaptations to diverse food sources. However, evolution of these specialized traits has never been assessed at an analytical level. The current thesis reconstructs the evolution of dietary preferences with novel methodologies based on the newly proposed phylogenetic hypothesis. Reconstruction of dietary evolution revealed herbivory as the ancestral condition in Euthyneura implying that carnivory evolved at least five times independently in the diverse lineages. The first comprehensive molecular phylogenetic hypothesis of the Pleurobranchomorpha could not reveal monophyly of the two main subclades Pleurobranchaeidae and Pleurobranchidae. This is due to the position of a single taxon (Euselenops luniceps) which is assigned to the Pleurobranchaeidae based on morphology but clusters within Pleurobranchidae in the current hypothesis. Furthermore, the tribe Berthellini and the genus Berthella are rendered paraphyletic by the current analyses. The results of molecular systematic analyses were used to reconstruct historical biogeography of Pleurobranchomorpha. Four different methodological approaches were applied yielding ambiguous results for Pleurobranchomorpha. However, the Pleurobranchidae comprising about 80% of the extant Pleurobranchomorpha most probably derived from an Antarctic origin. Dating of the phylogenetic tree via molecular clock methods yielded divergence of Pleurobranchidae into the Antarctic Tomthompsonia antarctica and the remaining species in Early Oligocene. Afterwards the latter underwent rapid radiation during Oligocene and Early Miocene. This divergence event coincides with two major geological events in the Antarctic region. On the one hand, the onset of glaciation and on the other hand the opening of the Drake Passage with concurrent formation of an Antarctic circumpolar current (ACC). I suppose that these sudden and dramatic changes in climate and palaeogeography probably accounted for migration of the last common ancestor of Pleurobranchidae (besides Tomthompsonia) into warmer regions via the Drake Passage to the Western Atlantic and Eastern Pacific and via the South Tasman Rise to the Indo-West Pacific. Furthermore, the ACC may have triggered larval dispersal to the Eastern Atlantic. The phylogenetic position of Acteonoidea has been a matter of debate for decades and they have long been considered as basal opisthobranchs. Results of the present thesis rather support placement in “Lower Heterobranchia” as sister group of Rissoelloidea. The current division of Acteonoidea into three families has never been investigated by means of phylogenetic methods. Thus, this thesis provides the first comprehensive investigation of this clade challenging present division into three families. The results rather support division into two main clades with the monogeneric Bullinidae clustering within Aplustridae doubting its separate status. Additionally, Rictaxis punctocaelatus which has been assigned to Acteonidae clusters basal to Aplustridae rendering Acteonidae paraphyletic. Since information on morphology of R. punctocaelatus was lacking until now, I conducted the first detailed investigation on morphology and histology of this species in order to reassess the unexpected molecular systematic placement. Character tracing analyses revealed similarities with both acteonoidean families implying an intermediate position of this species which might be assigned to a separate family in the future. Furthermore, the common features of Acteonidae and Rictaxis (massive shell, small foot, anterior mantle cavity opening, and absence of oral gland) are possibly plesiomorphic for the whole Acteonoidea. In summary, the results of the present thesis provide valuable novel insights into the phylogeny and evolution of the Opisthobranchia by employing state-of-the-art approaches of molecular systematics and evolutionary reconstruction. Thus, diverse hypotheses on opisthobranch phylogeny and evolution were either supported or rejected as well as novel hypotheses proposed which offer the basis for further research on these extraordinary gastropods.
The comparison of persons is pervasive in social judgement and human decision making and yet its neural substrate is poorly explored. Using functional magnetic resonance imaging we investigated the brain activities of participants comparing other persons with each other (other vs. other comparison - OOC) and with themselves (self vs. other comparison - SOC) as regards psychological (intelligence) and physical (height) characteristics. We found that the comparison of these two person characteristics differ in their neural activation patterns in the OOC as well as in the SOC with higher activity increases for intelligence than height comparison in several areas in medial frontal and orbitofrontal cortex and posterior cingulate cortex suggesting that their activation scales with the demand on person comparison. The person comparison network strikingly overlaps the one commonly described for the classic theory of mind tasks. We interpret this overlap as indicating perspective taking common to person comparison and theory of mind. Furthermore, we suggest that the neural differences between the SOC and the OOC especially in the dorsal part of the medial frontal cortex rely on the different degree of the self involved in the two types of comparisons. The results additionally suggest that the decision directions of self-relevant comparisons, especially in the intelligence comparison of the SOC, resulted in differences in the activation of the medial frontal cortex, which also relies on differences in the reward anticipation and self-relatedness of these decisions.
Feral cats (Felis catus), introduced into Australia with European settlers in the 19th century, colonized the entire Australian continent in less than 100 years, including the Australian arid zone which covers more than 70% of the continent. Feral cats are responsible for the decline and extinction of a number of native species and the failure of a number of reintroduction attempts, especially in the arid zone. Many ecological studies on feral cats have been conducted on home range size and movement patterns in different environments, abundance and diet, with the aim of gaining a better understanding about their successful invasion of the Australian continent. There are no physiological studies on the feral cat to date. However, there is evidence that there is a strong interrelation between physiology and abiotic factors such as climate. Thus, distribution, habitat, and dispersal of species can not fully be understood without background knowledge of physiology. This PhD aims to contribute to a better understanding of three physiological parameters: metabolism, body mass and body temperature patterns. These parameters may possibly identify physiological adaptation to different climate zones, seasonal conditions and island isolation.
Until now, the NW Indian Ocean was sparsely covered with coral proxy records, and records from the Maldives Archipelago do not exist. The first such coral proxy record from the central Maldives is presented in this study. It originates from a massive Porites lutea (Quoy and Gaimard, 1833) colony that was sampled March 2007 in the lagoon of Rasdhoo Atoll (4°N/ 73°W), which is located in the central Maldives. The record spans a period of 90 yrs and reaches back to 1917 AD with monthly to bimonthly resolution. This study investigates temporal variations of the skeletal stable oxygen (delta18O) and carbon (delta13C) isotopes, the strontium-to-calcium (Sr/Ca), and the annual extension-rates, and their relationship to historical climate variations 1917-2007. Annual extension-rates show an increase over the 20th century, and are correlated with instrumental sea surface temperatures (SST). The interannual variation of the extension-rates within 2.5-4 years is driven by the El Niño-Southern Oscillation (ENSO). The amount of skeletal extension during the summer months is triggered by variations in the strength of the SW monsoon. Interannual and decadal variability in monsoon current activity (18-19 yrs) and rainfall over India are an expression of the summer monsoon strength. This is the reason why a statistical link between coral extension-rates and precipitation over India can be established. This implies that annual extension-rates in corals can be used as a new proxy for Indian monsoon variability on decadal resolution. The delta18O record exhibits the 20th century warming trend that is influenced by the effect of monsoon-induced cooling. delta18O also reveals interannual ENSO triggered variability, which is due to ENSO-forced variations in SST and sea surface salinity (SSS). A decadal variation at 12-14 yrs cannot be linked to SST variations in the NW Indian Ocean, but with decadal variations of SSS. They could be caused by ENSO- forced variations of the monsoon currents during the mature phase of ENSO teleconnections in the Indian Ocean in boreal winter. The Sr/Ca record does not indicate a significant warming, in spite of the observed SST rise at the sampling site. Changes in seawater Sr/Ca cannot be excluded. Nevertheless, interannual ENSO forcing is still evident. Evidence for the Pacific Decadal Oscillation (PDO) is found during 1917-1955. Afterwards, the Sr/Ca data indicate the disappearance of PDO forcing. By the combination of Sr/Ca and delta18O it is possible to detect ~80% of historical El Niño and La Niña events at the sample site. This study confirms the notion that interannual to multi-decadal climate fluctuations in the Pacific play a crucial role for climate variability in the Indian Ocean.
In this thesis, we study the properties of excitations in the systems of interacting fermions. These excitations can be bosonic such as collective modes which we handle in the first part of this thesis or fermionic like quasi particles and quasi holes. One of the important points, to investigate the excitations is their damping which corresponds to their life-time in the system. This thesis consists of two parts, where in both parts, we use the field-theoretical methods to examine the problem.