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The present study was elaborated within the scope of the INTAFERE (Integrated Analysis of Mobile Organic Foreign Substances in Rivers) project which investigates the occurrence of xenobiotics in small freshwater streams with particular consideration of social impact factors. The aim of this study is to investigate the seasonal and spatial variance of organic micropollutants in small fresh water streams and to identify possible sources and sinks. Therefore four small freshwater river systems in Hesse, Germany, have been investigated with respect to common organic pollutants such as: the organophosphates tri-n-butyl phosphate (TBP), tris(2-butoxyethyl)phosphate (TBEP), tris(2-chloroethyl)phosphate (TCEP), tris(1-chloro-2-propyl)phosphate (TCPP), and tris(1,3-dichloro-2-propyl)phosphate (TDCPP), the synthetic musk fragrances 1,3,4,6,7,8-hexahydro-4,6,6,7,8,8-hexa-methylcyclopenta-[g]-2-benzopyran (HHCB) and 7-acetyl-1,1,3,4,4,6-hexamethyl-1,2,3,4-tetrahydronaphthalene (AHTN), the endocrine disruptors bisphenol A (BPA), 4-tert-octylphenol (OP) and the technical isomer mixture of 4-nonylphenol (NP), the herbicide terbutryn [2-(t-butylamino)-4-(ethylamino)-6-(methylthio)-s-triazine] as well as the insect repellent N,N-diethyl-m-toluamide (DEET). Water samples were collected in the time span from September 2003 to September 2006 at 26 sampling locations. The samples were extracted with solid phase extraction (SPE) and analyzed by coupled gas chromatography-mass spectrometry (GC-MS). For quantification the internal standard method was used. The results of the study showed an ubiquitous occurrence of organic pollutants in the fresh water streams of the study area. The organophosphates have been detected in 90 % of the water samples with mean concentrations of 502 ng/l (TCPP), 276 ng/l (TBP), 183 ng/l (TBEP), 118 ng/l (TCEP) and 117 ng/l (TDCPP). Sewage treatment plant (STP) effluents were identified as the dominating source for the chlorinated organophosphates as well as for the synthetic musk fragrances and the insect repellent DEET in the river systems. Consequently the highest concentrations were observed in the Schwarzbach system characterized by the highest proportion of waste water compared to the other river systems. Mean concentration levels of the synthetic musk fragrances HHCB and ATHN were 141 ng/l and 46 ng/l, respectively and 124 ng/l in case of DEET. The synthetic musk fragrances showed a clear seasonal trend with significantly lower concentrations in summer times compared to winter times, which is ascribed to stronger photodegradation and volatization during summer times. In contrast, mean DEET concentrations and loads were significantly higher in summer than in autumn, winter and spring, in parallel with the main insect season. The concentrations of the endocrine disruptors BPA, NP and OP in the river water samples ranged from <20 ng/l to 1927 ng/l, <10 ng/l to 770 ng/l, and <10 ng/l to 420 ng/l, respectively. Whereas OP was present in about 2/3 of the samples, NP and BPA could only be detected in 56% and 13% of the water samples, respectively. BPA levels exceeded in two samples the predicted no-effect concentration (PNEC) for water organisms. In case of NP, highest concentrations and loads were found in September 2003 and decreased significantly since then. In contrast, concentrations and loads of OP which serves in a similar application field remained nearly constant during the sampling period. The decrease of NP can be attributed to the implementation of the European Directive 2003/53/EG, which restricts the use of nonylphenols and nonylphenol ethoxylates since January 2005. However, at the end of the sampling period in September 2006, NP could still be detected at mean concentrations of 18 ng/l in the river waters of the sampling area. Furthermore, absence of NP in several samples from associated STP effluents indicate that the STPs cannot be the only sources for NP found in the river water. The herbicide terbutryn was present in the rivers during the whole sampling period from September 2003 to September 2006 despite a ban on its use as a herbicide from January 2004 on. Terbutryn levels ranged from < 4 ng/l to 5600 ng/l, showing a clear spatial pattern with high terbutryn concentrations in the Weschnitz and Modau river systems and significantly lower terbutryn levels in Schwarzbach and Winkelbach. Results from the analysis of two STP effluents discharging into the Weschnitz and the Modau, respectively, indicate that terbutryn enters the rivers from this source. Furthermore, terbutryn concentrations and loads showed a clear seasonal trend with significantly higher levels in summer and autumn. Obviously, the ban on agricultural use of terbutryn at the end of 2003 had no discernable influence on terbutryn concentration in the rivers because there was no trend of decreasing.
Flexibility and constraints in migration and breeding of the barnacle goose Maximising fitness means, to a large extent, optimising management of time and energy. This thesis investigates aspects of timing and resource acquisition and utilisation in the barnacle goose Branta leucopsis during spring migration and reproduction. The barnacle goose population wintering along the Wadden Sea coast, and traditionally migrating via a stopover in the Baltic to its breeding sites in northern Russia, has shown some remarkable developments, among them, a geometric growth rate since the 1950s and a notable change in the timing of departure from the wintering grounds. Furthermore, long being regarded as an obligate Arctic breeder, within the past three decades this species has successfully colonised a wide variety of habitats at temperate latitudes, thereby shortening the migratory distances considerably or refraining from migration altogether. These remarkable changes raise questions about the flexibility of migratory and reproductive schedules. What are the costs and benefits of different migration strategies? And, given the context of global change, to what extent are animals capable of adapting to rapidly changing environments? In order to answer these questions we tracked migratory geese by satellite and with the help of data loggers and, furthermore, explored possible relationships of migratory behaviour and breeding performance. Another central thesis topic represents a within-species comparison of major life-history traits in populations breeding along a large ecological gradient from arctic to temperate environments. Fieldwork was conducted in arctic Russia, Sweden and The Netherlands.
The relation between reality and language, the instability of language as a signification system, the representation crisis, and the borders of interpretation are the controversial issues that have engaged not only philosophers, but also many authors, translators, and literary critics. Some philosophers like Derrida accuse Western thinking of being obsessed with binary oppositions. In Derrida's view, Western tradition resorts to external references as God, truth, origin, center and reason to stabilize the signification system. Since these concepts lack an internal sense and there is no transcendental signified that can fix these signifiers, language turns to an instable system by means of which no fixed meaning can be created. Many authors like Beckett, Stoppard, and Caryl Churchill also noticed this impossibility of language. While Derrida's deconstructive approach to this crisis has an epistemological nature, these playwrights present an aesthetic solution by turning the deconstructive potential of language against itself in text and performance. This dissertation aims at exploring their performing methods and dramatic texts to demonstrate how their delogocentric strategies work. By analyzing their plays, I will examine if their use of signifiers that have no references in reality, intentional misconceptions, disintegrated subjectivities, decentered narratives, and experimental performances can help them undermine the prevailing logocentrism of Western thought. The examination of the change in aesthetic strategies from Beckett, who belongs to earlier stages of post modernism, to Caryl Churchill, who should perform in a globalized world with increasing dominance of speed and information, is another aim of this research. In my view,Beckett's obsession with unspeakable, absurdity, and disintegration of subjectivity develops to Stoppard's language games, metadrama, and anti-representation and culminates in Churchill's anti-narrative texts and pluralistic performances. The monophony of Beckett's dramatic texts is replaced by the polyphony of Churchill's performances, which are a mixture of theater, dance and music. However, all explored dramatic texts in this dissertation have something in common: they are language games, which have no claim on a faithful representation of reality or transcendental truth.
Plastids are complex plant organelles fulfilling essential physiological functions, such as photosynthesis and amino acid metabolism. The majority of proteins required for these functions are encoded in the nuclear genome and synthesized on cytosolic ribosomes as precursors, which are subsequently translocated across the outer and inner membrane of the organelle. Their targeting to the organelle is ensured by a so called transit peptide, which is specifically recognized by GTP-dependent receptors Toc159 and Toc34 at the cytosolic side of outer envelope. They cooperatively regulate the insertion of the precursor protein into the channel protein Toc75, thereby initiating the translocation process. Toc34 is regarded as the primary receptor, while Toc159 probably provides the driving force for the insertion. Precursor transfer is achieved by the physical interaction between both receptors in the GTP loaded state. One translocon unit, also called the Toc core complex, is formed by four molecules Toc34, four molecules Toc75 and one molecule Toc159. In the GDP-loaded state, Toc34 preferably forms homodimers, whose physiological function was investigated in the presented study. It could be shown that the dissociation of GDP and therefore the nucleotide exchange are inhibited by the homodimeric state of Toc34. Dissociation of the homodimer is induced by the recognition of a precursor protein, which renders the binding of GTP and subsequent interaction with Toc159 possible. Thus, the homodimeric conformation could reflect an inactive state of the translocon, preventing GTP consumption in the absence of a precursor protein. Both homodimerization as well as heterodimerization of the receptor are regulated by phosphorylation, which could be demonstrated by in vitro and in vivo approaches using atToc33 from Arabidopsis thaliana as a model system. Since the phosphorylated form of Toc34 cannot be assembled with the Toc core complex, it can be concluded that the interactions between GTPase domains not only regulate the transfer of precursor proteins, but also warrant the integrity of the translocon.
Three-dimensional structure of the glycine-betaine transporter BetP by cryo electron crystallography
(2008)
The soil bacterium Corynebacterium glutamicum has five secondary transporters for compatible solutes allowing it to cope with osmotic stress. The most abundant of them, the transporter BetP, performs a high affinity uptake of glycine-betain when encountering hyperosmotic stress. BetP belongs to the betaine/carnitine/choline/transporter (BCCT) family, and is predicted to have twelve transmembrane helices with both termini facing the cytoplasm. The goal of this thesis is to facilitate understanding of BetP function by determining a three dimensional (3D) model of its structure. Two-dimensional (2D) crystallization of wild-type (WT) BetP has been successfully performed by reconstitution into a mixture of E. coli lipids and bovine cardiolipin, which resulted in vesicular crystals diffracting to 7.5 Å resolution (Ziegler, Morbach et al. 2004). Diffraction patterns of these crystals however showed unfocused spots, generally due to high mosaicity. Better results were obtained by using the constitutively active mutant BetPdeltaC45 in which the first 45 amino acids of the positively charged C-terminus were removed. BetPdeltaC45 crystals obtained under the same conditions for BetP WT were concluded to be pseudo crystals, based on the inconsistence of symmetry. These crystals had BetPdeltaC45 molecules randomly up/downwards inserted into membrane crystals, and cannot be used for structure determination, even though they diffracted up to 7 Å. The problem of pseudo crystal formation could be solved by changing the lipids used for 2D crystallization to a native lipid extract from C. glutamicum cells. This change of lipids improved the crystals to well-ordered packing with exclusive p121_b symmetry. To understand the role of lipids in crystal packing and order, lipids were extracted at different stages during crystallization, and identified by using multiple precursor ion scanning mass spectrometry. The results show that phosphatidyl glycerol (PG) 16:0-18:1 is the most dominant lipid species in C. glutamicum membranes, and that BetP has a preference for the fatty acid moieties 16:0-18:1. Crystallization with synthetic PG 16:0-18:1 proved that an excess of this lipid prevents pseudo crystal formation, but these crystals did not reach the quality as previously achieved by using the C. glutamicum lipids. Apart from the effect of lipids in crystallinity, the concentration and type of salts influenced crystal growth and morphology. High salt conditions (>400 mM LiCl or KCl) yielded tubular crystals, whereas low salt conditions (<300 mM LiCl, NaCl or KCl) led to formation of up to 10 µm large sheet-like crystals. The intermediate concentration gave a mixture of sheet-like and tubular crystals. In terms of resolution, sheets diffracted better than tubes. The sheet-like crystals used for 3D map reconstruction were obtained from a dialysis buffer containing 200 mM NaCl combined with using C. glutamicum lipids. Electron microscopic images were taken from frozen-hydrated crystals using a helium-cooled JEOL 300 SFF microscope or a liquid nitrogen-cooled FEI Tecnai G2 microscope at 300 kV, which allowed optimal data collection and minimized radiation damage to the sample. More than 1000 images of tilt angles up to 50° were taken and evaluated using optical diffraction of a laser beam. The best 200 images were processed with the MRC image processing software package, and 79 images from different tilt angles were merged to the final data set used for calculation of a 3D map at a planar resolution of 8 Å. The structure shows BetPdeltaC45 as a trimer with each monomer consisting of 12 transmembrane alpha-helices. Protein termini and loop regions could not be determined due to the limited resolution of the map. Six of the twelve helices line a central cavity forming a potential substrate-binding chamber. Each monomer shows a central cavity in different sizes and shapes. Thus, the constitutively active BetPdeltaC45 thus forms an unusual asymmetric homotrimer. BetP most likely reflects three different conformational states of secondary transporters: the cytoplasmically open (C), the occluded (O), and the periplasmically open (P) states. The C and O states are similar to BetP WT projection structure, while the P state is discrepant and highly flexible due to the shape and size of the central cavity as well as the lowest intensity of the density. The observation of the P state corresponds well to the constitutively active property of BetPdeltaC45. For the high resolution structure of the C and O states are available, this work presents the first structural information of the P state of a secondary transporter.
In the field of strongly correlated electron systems, there is a long standing discussion on whether lattice degrees of freedom play a role for several physical phenomena, among them the Mott MI transition and charge-ordering transition. Charge-transfer salts of the ..-(BEDT-TTF)2X and (TMTCF)2X families have been revealed as model systemss for the study of the latter phenomena. The (TMTCF)2X salts have been recognized as model systems for studying correlation effects in 1D, while the (BEDT-TTF)-based materials for such studies in 2D. In this work, high-resolution dilatometry experiments were performed in order to address these issues. The main results obtained are summarized below. ...
Dicer and Drosha are the major enzymes involved in microRNA processing. Using siRNA targeting Dicer and Drosha, thereby downregulating a substantial number of microRNAs in EC, we demonstrate a crucial role of both enzymes in angiogenic processes. Interestingly, Dicer inhibition exerts more profound effects on processes like migration and viability of EC in comparison to Drosha inhibition. Moreover, Dicer effects in vivo angiogenesis, a process which is unaffected by Drosha. This discrepancy might be partially due to the involvement of Dicer in other cellular processes like heterochromatin formation and to the fact that Dicer and Drosha target mainly different subsets of microRNAs. In addition, we identified miR-92a as a novel endogenous repressor of the angiogenic program in EC, which impairs their angiogenic functions in vitro and in vivo. Consistent with these data, blocking miR-92a by systemic infusion of antagomirs enhances neovascularization and functional recovery after ischemia in vivo. At first sight, the anti-angiogenic function of miR-92a in EC appears to contradict the previously identified anti-apoptotic and pro-angiogenic activities of the miR-17~92 cluster in tumor cells. However, this apparent discrepancy might be well rationalized by a predominant function of miR-18a and miR-19a in tumor cells, which are responsible for the tumorigenic and non-cell autonomous pro-angiogenic functions of the miR-17~92 cluster. Instead, miR-92a expression is specifically upregulated in ischemic tissues and appears to cell-autonomously repress the angiogenic potential of EC. Among the various targets and verified regulated genes identified by microarray, we confirmed the downregulation of Integrin a5 in vitro and in vivo. The relevance of this miR-92a target is evidenced by severe vascular defects in the absence of Integrin a5. In addition, endothelial miR-92a interferes with the expression pattern of genes controlling key EC functions at various levels, some of which, e.g. eNOS, might be secondarily affected by directly targeted genes. Obviously, our data do not formally exclude effects of antagomir-92a on perivascular and other cell types, but surely include effects on EC. Regardless of this, the capacity of miR-92a to target various downstream effectors might be an advantage of miRNA-based therapeutic strategies and may overcome the limited therapeutic capacity of single growth factor or single gene therapies in ischemic diseases, since the highly organized process of vessel growth, maturation and functional maintenance is well known to require the fine-tuned regulation of a set of genes.
In this study I analysed past and recent Daphnia populations from Lake Constance and Greifensee. Herefore, I first established a set of microsatellite markers applicable to European Hyalodaphnia species (chapter 1). Primers were also identified for species specific fragment lengths. 32 markers were then available to characterize the resting egg banks of Daphnia galeata and D. hyalina. Chapter 2 presents the reconstruction of the taxonomic composition in these two ecologically different lakes. This part of my work shows that the eutrophication that occurred in both lakes in the mid of the last century has strongly influenced the Daphnia populations. In both lakes Daphnia galeata established and hybridized with the indigenous D. hyalina. Interspecific hybridization resulted in introgression on the mitochondrial and nuclear level. In chapter 3 resting eggs from the sediments of the 1960s, 1970s, 1980s, 1990s and 2000s were characterized with microsatellite markers. The aim was to specify the extent of interspecific hybridization and nuclear introgression assuming that the genetic exchange between both species has an impact on their adaptation to their habitat. In life history experiments D. galeata and D. galeata x hyalina clones hatched from different time periods showed significant differential responses to food quality. Therefore, the question had to be answered how the Daphnia resting egg bank and the planktonic population are connected. In chapter 4 hatching experiments were conducted to bridge this gap of scientific knowledge in the life cycle of cyclic parthenogenetic waterfleas. Only D. galeata individuals were able to establish a clonal lineage after maturity. All observed recombinant individuals did not reproduce at all or firstly went through another sexual phase of reproduction i.e. produced resting eggs. In order to compare the findings of chapter 4 with the taxon composition of the recent planktonic population of Daphnia in Lake Constance, samples were taken over one season (between May 2005 and September 2006). During the season, the taxonomic composition of Daphnia changes severely with D. galeata being most abundant during the warm season and D. hyalina in the cold season. Moreover, some individuals were detected, that did not follow this pattern. With mitochondrial analysis those individuals were identified as mitochondrial introgressants and processed to life history experiments. Significant differences in the somatic growth rate under different temperatures (5°C, 12.5°C and 20°C) were related to the origin of the mitochondrial genome rather than the nuclear taxonomic assignment of the individual.
The findings of this study show that all organisms exposed to rapid ecological changes and their microevolutionary reaction to those.
The function of APOBEC3G in the innate immune response against the HIV infection of primary cells
(2008)
In the past few years the regulation of HIV-1 replication by cellular cofactors has been a major topic of ongoing research. These factors potentially represent new targets for antiviral therapy as resistance will be minimized. However this requires a better understanding of the interaction of HIV-1 with these cellular factors and the immune system. The virus infects the cells of the immune system, beginning with macrophages and dendritic cells as primary target cells during transmission. The cellular cofactor, APOBEC3G was found to be an antiviral factor in macrophages, dendritic cells and primary T cells. APOBEC3G is a cytidindeaminase which causes G->A hypermutations in the HIV-Genome. Another protein which has a strong inhibitory effect on the HIV infection is Interferon alpha (IFN-alpha), however the exact reason for this has not yet been elucidated. The bacterial protein, Lipopolysaccharide (LPS) also induces a strong antiviral state in macrophages. In micro-array analysis it was shown that APOBEC3G was upregulated after the stimulation with both IFN-alpha and LPS in macrophages. The goal of this work was to investigate the role of APOBEC3G in the innate immune response to APOBEC3G. For this, the expression of APOBEC3G was examined in HIV-1 target cells after stimulation with IFN-alpha or LPS and the effect of the protein on the viral infection was examined. In the first experiments it could be shown through real time quantitative PCR that APOBEC3G was overexpressed after the stimulation with IFN-alpha or LPS. This result could be shown in monocytes derived macrophages from different blood donors. It was also shown that the overexpression of APOBEC3G correlated directly with the concentration of IFN-alpha. Through mutational analysis it could be then shown that the overexpressed APOBEC3G protein was also functional in the cells. In order to show that this was the result of APOBEC3G, the protein was the regulated through lentiviral vectors. After transduction of cell lines with lentiviral vectors containing APOBEC3G, the infection was inhibited by up to 70%. The infection was restored after the addition of shRNAs against APOBEC3G. For the further experiments, CD34+ stem cells were used. The cells were transduced the day after thawing with lentiviral vectors containing an eGFP marker gene and either APOBEC3G or shRNAs against APOBEC3G. The CD34+ cells were then cultivated and differentiated to macrophages. The cells transduced with Lentiviral vectors containing APOBEC3G had a very high expression of APOBEC3G in the cells, however the cells transduced with shRNA against APOBEC3G did not show a reduction in the protein expression. The infectivity of the transduced CD34+ and CD34 derived macrophages was then examined. It was expected that the cells transduced with APOBEC3G would show a reduced HIV-1 infection, and the cells transduced with shRNA against APOBEC3G would show an increase in infection. After the transduction and differentiation the CD34+ cells from the 3 donors were stimulated and infected with wild type HIV-1 and Vif defective HIV-1 virus. Vif is a viral protein that can bind to APOBEC3G leading it to the proteasome for degradation. The cells from the first donor transduced with APOBEC3G, were very difficult to infect. In general the shRNA against APOBEC3G had little effect on the course of infection; presumably, the shRNA against APOBEC3G was not active in most of these cells. Only the cells from the first donor showed an increase in HIV infection after the transduction with the shRNAs against APOBEC3G, this was most notably the case in the cells stimulated with IFN-alpha, which usually show very little infection. This work showed that APOBEC3G plays an important role in the innate immune response to HIV-1. The effect of APOBEC3G is both cell type as well as donor dependent. Recently, an interesting study also showed that there is a correlation between the expression of APOBEC3G in HIV infected individuals and their progression to AIDS. A better understanding of the role that APOBEC3G plays in the innate immune response would help in the search of new therapeutic possibilities. This could be done by inhibiting the Vif-APOBEC3G interaction in order to increase the amount of active APOBEC3G in the cells or increasing the APOBEC3G concentration in the cells in some manner.
The term cephalic sensory organ (CSO) is used for specialised structures in the head region of adult Opisthobranchia. These sensory organs show a high diversity in form and function, and the gross morphology of these organs differs considerably among taxa. They can be identified as cephalic shields, oral veils, Hancocks organs, lip organs, rhinophores or oral tentacles. Because of this extremely high diversity, the homology and the evolution of these organs have not been clarified yet. My intention was to use neuroanatomical data sets in order to find putative homologous CSOs. In this study, I will show data about immunohistochemical neurotransmitter content and cellular innervation patterns and their applicability as morphological characters for the homologisation of structures. I support earlier investigations that neurotransmitter content is often related to function. In contrast, axonal tracing patterns can be used to homologise nerves. Overall the aim of this study was to reconstruct the evolution of the CSOs of the Opisthobranchia, by projecting our neuroanatomical data sets onto a molecular phylogeny.