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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 increasing resistance of almost all pathogenic bacteria to antibiotics (multidrug resistance) causes a severe threat to public health. The mechanisms underlying multidrug resistance include the induced over expression of multidrug transporters which extrude a variety of lipophilic and toxic substrates in an energy dependent fashion through the membrane out of the cell. These proteins are found in all transporter families. The work described in this thesis is dedicated to drug-proton antiporters from the small multidrug resistance (SMR) family. These efflux pumps with just four transmembrane helices per monomer are so far the smallest transporters discovered. Their oligomeric state, topology, three dimensional structure, catalytic cycle and transport mechanism are still rather controversial. Therefore, the aim of this thesis was to directly address these questions for the small multidrug resistance proteins Halobacterium salinarium Hsmr and Escherichia coli (E. coli) EmrE using a number of biophysical methods such as NMR, transport assays, mass spectrometry and analytical ultracentrifugation. Especially the work on Hsmr has been challenging due to the halophilic nature of this protein. In Chapter 1, key questions and the most important biophysical techniques are introduced followed by Material and Methods in Chapter 2. Depending on experimental requirements, cell free or ‘classical’ in vivo expression has been used for this thesis. Cell free expression as an option for the production of small multidrug transporters has been explored in Chapter 3. It has been possible to produce the SMR family members Hsmr, EmrE, TBsmr and YdgF in vitro. The expression of Hsmr was investigated in more detail under different experimental conditions. Hsmr was either refolded from precipitate or maintained in a soluble form during expression in the presence of detergents and liposomes. Furthermore, amino acids for which no auxotrophic strains were available could be labelled successfully. This expression system has been also used for preparing labelled samples of EmrE as described in Chapter 9. In vivo in E. coli expression of Hsmr, as described in Chapter 4, provided large amounts of proteins if fermenter production was used. Uniform labelling and selective unlabelling with stable isotopes (13C, 15N) for NMR spectroscopy was achieved in vivo in a more efficient and cost effective manner than using the cell free approach for this protein. Hsmr could be purified successfully from both in vitro and in vivo expression media. Hsmr is expressed in vivo and in vitro with N-terminal formylation. The Nterminal formylation is unstable and Hsmr in the presence of low salt concentrations was amenable to N-terminal degradation. It was found that Hsmr shows longest stability in Fos-ß-choline® 12 and sodium dodecyl sulphate, but best reconstitution conditions were found, when dodecyl maltoside is used and exchanged with Escherichia coli lipids. A molar protein lipid ratio of 1 to 100, amenable to solid state nuclear magnetic resonance, has been achieved. Sample homogeneity was shown by freeze fracture electron microscopy. The oligomeric state of Hsmr in detergent has been assessed by SDS PAGE, blue native PAGE, size exclusion chromatography, analytical ultracentrifugation and laser induced liquid bead ion desorption mass spectrometry (LILBID) as described in Chapter 5. A concentration and detergent dependent monomer-oligomer equilibrium has been found by all methods. The activity of Hsmr under the sample preparation conditions used here was shown using radioactive and fluorescence binding as well as fluorescence and electrochemical transport assays (Chapter 6). For transport studies, a stable pH gradient was generated by co-reconstitution of Hsmr with bacteriorhodopsin and subsequent sample illumination. Based on the observed long term stability of Hsmr in Fos-ß-choline® 12 and sodium dodecyl sulphate, liquid state NMR experiments were attempted in order to assess the correct folding of Hsmr in detergent micelles (Chapter 7). 1D proton and 2D HSQC spectra of U-15N Hsmr revealed a poor spectral dispersion, low resolution and only a small number of peaks. These are at least partly due to long rotational correlation times of the large protein detergent complex. This problem has been overcome by applying solid-state NMR to Hsmr reconstituted into E. coli lipids (Chapter 8). Uniform 13C labelled samples were prepared and two dimensional proton-driven spin diffusion and double quantum-single quantum correlation spectra were acquired successfully. Unfortunately, the spectral resolution was not yet sufficient for further structural studies. Reasons for the observed linebroadening could be structural heterogeneity or molecular motions which interfere with the NMR timescale. Therefore, the protein mobility has been probed using static 2H solid state NMR on Ala-d3-Hsmr. It could be shown, that parts of Hsmr are remarkably mobile in the membrane and that this mobility can be limited by the addition of the substrate ethidium bromide. Ethidium bromide as well as tetraphenylphosphonium (TPP+) is typical multidrug transporter substrates. The membrane interaction of TPP+ in DMPC membranes has been resolved by 1H MAS NMR. It was found that it penetrates into the interface region of the lipid bilayers and therefore behaves like many other transporter substrates adding to the hypothesis that the membrane could act as a pre-sorting filter. Finally, Chapter 9 is dedicated to the characterisation of the essential and highly conserved residue Glu-14 in EmrE by solid-state NMR. In order to avoid spectral overlap, the single Glu EmrE E25A mutant was chosen instead of the wildtype. The protein has been produced in vitro to take advantage of reduced isotope scrambling in the cell free expression system as verified by analytical NMR spectroscopy. Correct labelling of EmrE was tested by MALDI-TOF and solid-state NMR. The dimeric state of DDM solubilised EmrE has been probed by LILBID. The labelled protein was reconstituted into E. coli lipids to ensure a native membrane environment. Activity was determined by measuring ethidium bromide transport. Freeze fracture EM revealed very homogeneous protein incorporation even after many days of MAS NMR experiments. 2D 13C double quantum filtered experiments were used to obtain chemical shift and lineshape information of Glu-14 in EmrE. Two distinct populations were found with backbone chemical shift differences of 4 - 6 ppm which change upon substrate binding. These findings indicate a structural asymmetry at the assumed dimerisation interface and are discussed in the context of a model for shared substrate/proton binding. These studies represent the first successful use of cell free expression to prepare labelled membrane proteins for solid-state NMR and allow for the first time an NMR insight into the binding pocket of a multidrug efflux pump.
Cytochrome c oxidase (CcO), also called Complex IV of the aerobic respiratory chain, is located in the plasma membrane of prokaryotes and in the inner mitochondrial membrane of eukaryotes. The redox energy of dioxygen reduction is used to translocate protons across the membrane resulting in an electrochemical proton gradient. The generated proton gradient is exploited by the adenosine-5’-triphosphate synthase. In this work, bacterial four-subunit aa3-Type CcO from Paracoccus denitrificans (ATCC 13543, 4 SU-wt ATCC CcO) was used for analyses. 1) The recombinant homologously produced 4 SU-wt CcO (4 SU-wt rec CcO) was functionally compared with the native 4 SU-wt ATCC CcO. The 4 SU-wt rec CcO showed functional deficiencies as determined by UV-vis spectroscopy and electron paramagnetic resonance (EPR) studies. Total X-ray Reflection Fluorescence measurements show in both wild type CcOs the same ratio of the redoxactive Fe and Cu (2 Fe : 3 Cu) indicating full complement of the functional metals. If CcO contains only subunit I and II, it loses its functional integrity during continuous turnover activity. The importance of subunit III for integrity of CcO was demonstrated using 2 SU-wt rec CcO. Crystallisation trials of suicide inactivated 2 SU-wt rec CcOs have been ineffective using standard crystallisation conditions. Crystals of active 2 SU-wt rec CcO (positive control) have been obtained under these conditions and this result indicates possible structural changes in suicide inactivated 2 SU-wt rec CcO. The structure of active 2 SU-wt rec CcO was determined to 2.25 Å resolution. 2) Terminal oxidases require four electrons for the cleavage of the dioxygen bond (O=O). In general, the catalytic cycle of CcO is described by the electron input and thus by the different redox states of the metal centres: the O, E, R, P and F state. The two-electron reduced R intermediate is able to donate four electrons for dioxygen reduction forming the P state. The P intermediate is an oxoferryl state implying the lack of an electron for the R -> P transition, because the metal centres can only provide three electrons (Fe+II forms Fe+IV and Cu+II forms Cu+I). The P state, where the dioxygen bond is already broken, shows an oxoferryl state (FeIV=O2-) and a nearby tyrosine is proposed to form a tyrosyl radical representing the donor of the missing electron. H2O2-induced artificial intermediates provide the opportunity to investigated different catalytic intermediates in detail. Mixing equimolar amounts of H2O2 to CcO in the O state induces the "two-electron" reduced PH state at high pH and the electronically equal "two-electron" reduced F• H state at low pH. The addition of an excess amount of H2O2 leads to the three-electron reduced FH state. Functional studies using the 4 SU-wt ATCC CcO have demonstrated a bound peroxide (O- - O-) intermediate during the catalytic cycle. Using EPR it was previously shown that Y167 hosts a radical species in PH/F• H state which suggests that Y167 could provide this "missing electron". While X-ray structural models of CcO and Fourier-transformed infrared (FTIR) measurements of oxygenated ("pulsed") 4 SU-wt ATCC CcO suggest a bound peroxide in the O state, UV-vis and EPR spectroscopic studies indicate that other intermediates may also contain such peroxide species. Equimolar and excess amounts of H2O2 induce the PH/F• H and FH states, respectively and catalase treatment of the FH state leads, contrary to the natural direction of the catalytic cycle, to the apparent transition of the FH -> PH/F• H states, which is accompanied by reappearance of an EPR signal from the Y167• radical. The novel PFH/F• FH states are presented here and we postulate that the FH state hosts a superoxide (or peroxide) adduct at CuB in the binuclear site. In addition, the novel P10 state is also introduced having a maximum at lambda = 612 nm in the difference absorption spectrum (minus the O state). The P10 state is induced by mixing CcO in the O state with a pH 10 buffer. This pH 10 induced state resembles standard P states such as PCO, PH and PR. However, the P10 state evolves out of the O state without addition of reduction equivalents. Using EPR spectroscopy it was shown that Y167 hosts a radical species in the P10 state such as in the PH state. In summary, all functional data presented here provide evidence for a peroxide bound during the O state. Finally, a new model for the natural catalytic cycle is proposed. If the O state contains a peroxide, it is also likely that the E and R state contain this species. Even the oxoferryl intermediates P and F states may complex a peroxide at CuB in the binuclear site. 3) The amino acid residue Y167, which hosts the radical in the PH/F•H states, is not directly part of the binuclear site of CcO. For identification of the primary electron donor, two tryptophan variants of CcO, W272F and W164F, which are located nearby the binuclear site, were produced. Evidence is provided that W272 is a kinetically fast electron donor for the O2 molecule. The electron is replenished by Y167, or probably by Y280 in the natural cycle. The Y167 radical is detectable by EPR spectroscopy after treatment with equimolar amounts of H2O2 in the active variant W164F, but is absent in the inactive variant W272F. 4) CcO contains two proton conducting pathways, the D- and the K-pathway. Proteoliposomes of the variants H28A and D30N, mutations located at the entrance of the D-pathway, both show the identical proton pumping activity as the 4 SU-wt rec CcO (pumped H+/e- = 1). The variant N113D shows abolished proton pumping (pumped H+/e- = 0), but a relative high cytochrome c oxidation activity (63 %). G196D displays no cytochrome c oxidation and proton pumping activity. Overall, the addition or removal of a negative charge within the D-pathway such as in D124N, N131D, N113D and G196D leads to a decoupled phenotype indicating the high degree of electrostatic coupling in CcO.
ALICE (A Large Ion Collider Experiment), is the dedicated heavy-ion experiment at the Large Hadron Collider (LHC) at CERN. It is optimised to reconstruct and identify the particles created in a lead-lead collision with a centre of mass energy of 5.5TeV. The main tracking detector is a large-volume time-projection chamber (TPC). With an active volume of about 88m^3 and a total readout area of 32.5m^2 it is the most challenging TPC ever build. A central electrode divides the 5m long detector into two drift regions. Each readout side is subdivided into 18 inner and 18 outer multi-wire proportional read-out chambers. The readout area is subdivide into 557568 pads, where each pad is read out by and electronics chanin. A complex calibration is needed in order to reach the design position-resolution of the reconstructed particle tracks of about 200um. One part of the calibration lies in understanding the electronic-response. The work at hand presents results of the pedestal and noise behaviour of the front-end electronics (FEE), measurements of the pulse-shaping properties of the FEE using results obtained with a calibration pulser and measurements performed with the laser-calibration system. The data concerned were taken during two phases of the TPC commissioning. First measurements were performed in the clean room where the TPC was built. After the TPC was moved underground and built into the experiment, a second round of commissioning took place. Noise measurements in the clean room revealed a very large fraction of pads with noise values larger than the design specifications. The unexpected high noise values could be explained by the 'ground bounce' effect. Two modifications helped to reduce this effect: A desynchronisation in the the start of the readout of groups of channels and a modification in the grounding scheme of the FEE. Further noise measurements were carried out after the TPC has been moved to the experimental area underground. Here even a larger fraction of channels showed too large noise values. This could be traced back to a common mode current injected by the electronics power supplies. To study the shaping properties of the FEE a calibration pulser was used. To generate signals in the FEE a pulse is injected to the cathode wires of the read-out chambers. Due to manufacturing tolerances slight channel-by-channel variations of the shaping properties are expected. This effects the determination of the arrival time as well as the measured integral signal of the induced charge and has to be corrected. The measured arrival time variations follow a Gaussian distribution with a width (sigma) of 6.2ns. This corresponds to an error of the cluster position of about 170um. The charge variations are on the level of 2.8%. In order to reach the intrinsic resolution on the measurement of the specific energy loss of the particles (6%) those variations have to be taken into account. The photons of the laser-calibration system are energetic enough to emit photo electrons off metallic surfaces. Most interesting for the detector calibration are photo electrons from the central electrode. The laser light is intense enough to get a signal in all readout channels of the TPC. Since the central electrode is a smooth surface, differences in the arrival time between sectors reveal mechanical displacements of the readout sectors and can be used to correct for this effect. In addition the measurements can be used to determine the electron drift velocity in the TPC gas. The drift velocity measurements have shown a vertical as well as a radial gradient. The first can be explained by the temperature gradient, which naturally builds up in the 5m high detector. The second gradient is most probably caused by a relative conical deformation of the readout plane and the central electrode.
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.
Platelets are anucleate cells that play a major role in hemostasis and thrombosis in the vasculature. During primary hemostasis platelets adhere to sites of vascular damage and the initial platelet coat is reinforced by additional platelets forming a stable aggregate. At the same time platelets secrete their intracellular granules containing substances that further activate platelets in an autocrine and paracrine fashion and affect local coagulation and endothelial smooth muscle cell function. The small guanine nucleotide binding protein Rap1 regulates the activity of the platelet integrin alphaIIbbeta3 and thus platelet aggregation. Rap1 activity is controlled by guanine nucleotide exchange factors and GTPase activating proteins. In platelets, Rap1GAP2 is the only GTPase activating protein of Rap1. In order to identify Rap1GAP2-associated proteins, a genetic two-hybrid screening in yeast was performed and synaptotagmin-like protein 1 (Slp1, also called JFC1) was found as a new putative binding partner of Rap1GAP2. Slp1 is a tandem C2 domain containing protein and is known to bind to Rab27, a small GTPase involved in platelet dense granule secretion. The direct interaction between Rap1GAP2 and Slp1 was confirmed in yeast and in transfected cells. More importantly, Slp1 is expressed in platelets and binding of endogenous Rap1GAP2 and Slp1 was verified in these cells. The Rap1GAP2 and Slp1 interaction sites were mapped by mutational analysis. Rap1GAP2 binds through the -TKXT- motif within its C-terminus to the C2A domain of Slp1. Moreover, the Slp1 binding -TKXT- motif of Rap1GAP2 was confirmed by complementary approaches using short synthetic Rap1GAP2 peptides. The C2A domain of Slp1 is a phospholipid binding domain and thus mediates binding of Slp1 to the plasma membrane. Phospholipid overlay assays revealed that simultaneous binding of Slp1 via its C2A domain to Rap1GAP2 and to phospholipids can occur. In addition, the interaction between Rap1GAP2 and Slp1 is regulated by cAMP-dependent protein kinase (cAK or PKA), and kinase activation in platelets enhanced binding of endogenous Rap1GAP2 to Slp1. In-vitro phosphorylation assays revealed that Slp1 is a substrate of PKA, and serine 111 was identified as phosphorylation site. Since Slp1 is a Rab27 binding protein, a trimeric complex of Slp1, Rab27 and Rap1GAP2 is conceivable. The association of Slp1, Rab27 and Rap1GAP2 was investigated by immunofluorescence and co-immuno-precipitation experiments in both, transfected cells and platelets. By Slp1 affinity chromatography and subsequent mass spectrometric analysis additional Slp1 binding proteins were identified in platelets, and binding of Slp1 to Rab8 was confirmed in pull-down assays. To investigate the functional significance of the interaction between Rap1GAP2 and Slp1, an assay system was established to determine serotonin secretion of streptolysin-O permeabilized platelets. Addition of recombinant Slp1 protein to permeabilized platelets strongly inhibited platelet dense granule secretion, whereas addition of recombinant Rap1GAP2 protein or synthetic Rap1GAP2 peptide enhanced secretion. Deleting the Slp1 binding -TKXT- motif abolished the stimulatory effect of Rap1GAP2 on secretion. Addition of Rap1 to permeabilized platelets had no effect on secretion. These findings indicate that the Rap1GAP2 effect on platelet secretion does not depend on the GTPase activating function of Rap1GAP2, but is rather dependent on the -TKXT- mediated interaction of Rap1GAP2 with Slp1. In addition, in-vitro GAP assays revealed that Slp1 binding to Rap1GAP2 does not affect the Rap1GAP activity of Rap1GAP2, and adhesion assays excluded a role for the Rap1GAP2/Slp1 interaction in cell adhesion. Altogether, the results of the present study demonstrate that besides its function in platelet aggregation by controlling the activity of the small guanine nucleotide binding protein Rap1, Rap1GAP2 is involved in platelet dense granule secretion by the new -TKXT- mediated interaction with the Rab27 and membrane binding protein Slp1. In addition, the interaction between Rap1GAP2 and Slp1 is embedded into an elaborate network of protein-protein interactions in platelets which appear to be regulated by phosphorylation. Future studies will in particular aim to dissect the molecular details of Rap1GAP2 and Slp1 action in platelet secretion and investigate the potential biochemical and pharmacological value of the unique protein binding -TKXT- motif of Rap1GAP2.
The crude oil constituents benzene, toluene, ethylbenzene, and the three xylene isomers (BTEX) are the dominating groundwater contaminants originating from surface spill accidents by oil production facilities and with gasoline and jet fuel. Thereby BTEX posing a threat to the world´s scarce drinking water resources due to their water solubility and toxicity. An active remediation cleanup involving a BTEX event proves not only to be very expensive but almost impossible when it comes to the complete removal of contaminants from the subsurface. A favoured and common practice is combining an active remediation process focussing on the source of contamination coupled together with the monitoring of the residual contamination in the subsurface (monitored natural attenuation; MNA). MNA include all naturally occuring biological, chemical and physical processes in the subsurface. The general goal of this work was to improve the knowledge of biodegradation of aromatic hydrocarbons under anaerobic conditions in groundwater. For this groundwater and soil at the former military underground storage tank (UST) site Schäferhof – Süd near Nienburg/Weser (Niedersachsen, Germany) were sampled and analysed. The investigations were done in collaboration of the Umweltbundesamt, the universitys of Frankfurt and Bremen and the alphacon GmbH Ganderkesee. To investigate the extent of groundwater contamination, the terminal electron acceptor processes (TEAPs) and the metabolites of BTEX degradation in groundwater, six observation wells were sampled at regular intervals between January 2002 and September 2004. The wells were positioned in order to cover the upstream, the source area and the downstream of the presumed contamination source. Additionally, vertical sediment profiles were sampled and investigated with respect to spreading and concentration of BTEX in the subsurface. A large residual contamination involving BTEX is present in soil and groundwater at the studied locality. Maximum BTEX concentration values of 17 mg/kg were recorded in analysing sediment in the unsaturated zone. In the capillary fringe, values of 450 mg/kg were recorded (October 2004) and in the saturated zone maximum values of 6.7 mg/kg BTEX were detected. The groundwater samples indicate increasing BTEX concentrations in the groundwater flow direction (from 532 µg/l up to 3300 µg/l (mean values)). Biodegradation of aromatic hydrocarbons under anaerobic conditions in the sub surface at contaminated sites is characterised by generation of metabolites. From the monoaromatic hydrocarbons BTEX metabolites such as benzoic acid (BA) and the methylated homologs and C1-and C2-benzyl-succinic acids (BSA) are generated as intermediates. A solid-phase extraction method based on octadecyl-bonded silica sorbent has been developed to concentrate such metabolite compounds from water samples followed by derivatization and gas chromatography/mass spectrometry (GC/MS) of the extracts. The recovery rate range between 75 and 97%. The method detection limit was 0.8 µg/l. Organic acids were identified as metabolic by-products of biodegradation. Benzoic acid, C1-, C2- and C3-benzoic acid were determined in all contaminated wells with considerable concentrations. Furthermore, the depletion of the dominant terminal electron acceptors (TEAs) oxygen, nitrate, and sulphate and the production of dissolved ferrous iron and methane in groundwater indicate biological mediated processes in the plume evidently proving the occurrence of NA. A large overlap of different redox zones at the studied part of the plume has been observed. A important finding in this study is the strong influence of groundwater level fluctuations on the BTEX concentration in groundwater. A very dry summer in 2003 was recorded during the monitoring period, resulting on site in a drop of the groundwater level to 1.7 m and a concomitant increase of BTEX concentrations from 240 µg/l to 1300 µg/l. The groundwater level fluctuations, natural degradation and retention processes essentially influence BTEX concentrations in the groundwater. Groundwater level fluctuations have by far a stronger influence than the influence of biological degradation. Increasing BTEX concentrations are hence not a consequence of limited biological degradation. Another part of the study was to observe the isotopic fractionation of the electron acceptor Fe(III), due to biologically mediated reduction of Fe(III) to the watersoluble Fe(II) at the site and first field data are presented. Both groundwater and sediment samples were analysed with respect to their Fe isotopic compositions using high mass resolution Multi Collector-Inductively Coupled Plasma-Mass Spectrometry (MC-ICP-MS). The delta56Fe -values of groundwater samples taken from observation wells located downstream of the source area were isotopically lighter than delta56Fe -values obtained from groundwater in the uncontaminated well. The Fe isotopic composition of most parts of the sediment profile was similar to the Fe isotopic composition of uncontaminated groundwater. Thus, a significant iron isotope fractionation can be observed between sediment and groundwater downstream of the BTEX contamination.
Whether minorities such as the Māori in Aotearoa New Zealand, the San across Southern Africa and the Métis in Canada, or native majority peoples such as the Aymara and Quechua in South America: indigenous peoples" lifeworlds have been transfigured by the difficulties originating from a history of conquest, settlement and suppression. The imperialist strife of European empires and the atrocities committed by their gang of "explorers" – including "this person Cook" in the South Pacific, Columbus in North America, Cortéz in Mexico, Gomes in West Africa, or van Riebeeck in South Africa – was aimed at enforcing European values and institutions, destroying, silencing or marginalizing indigenous cultures and societies as inferior "others." Unsurprisingly, the disruption of formal colonialism in the second half of the 20th century held no inherent improvement for the concerns of formerly colonized peoples. ...
CHAPTER A: THE INVESTMENT BEHAVIOR OF PRIVATE EQUITY FUND MANAGERS I The Bright and Dark Side of Staging: Investment Performance and the Varying Motivations of Private Equity Firms II The Liquidation Dilemma of Money Losing Investments – The Impact of Investment Experience and Window Dressing of Private Equity and Venture Capital Funds CHAPTER B: THE ASSESSMENT OF RISK AND RETURN OF PRIVATE EQUITY I Venture Capital Performance Projection: A Simulation Approach II Modeling Default Risk of Private Equity Funds – A Market-based Framework
A novel experimental approach for studying exotic transitions in few-electron high-Z ions was developed. In this approach, few-electron ions with selectively produced single K-shell holes are used for the investigation of the transition modes that follow the decay of the excited ions. The feasibility of the developed approach was confirmed by an experimental study of the production of low-lying excited states in He-like uranium, produced by K-shell ionization of initially Li-like species. It was found that K-shell ionization is a very selective process that leads to the production of only two excited states, namely the 1s2s 21S0 and 1s2s 23S1. This high level of selectivity stays undisturbed by the rearrangement processes. These experimental findings can be explained using perturbation theory and an independent-particle model, and are a result of the very different impact parameter dependencies of K-shell ionization and L- intrashell excitation. The L-shell electron can be assumed to stay passive in the collision, whereas the K-shell electron is ionized. It was stressed that the current result might directly be applied to accurate studies of the two-photon decay in He-like ions. Up to now, the experimental challenge in conventional 2E1 experiments has been the photon-photon coincidence technique, which is required to separate the true 2E1 events from the x-ray background associated with single photon transitions. In contrast, by exploiting K-shell ionization, the spectral distribution of the two-photon decay could be obtained simply by a measurement of the photon emission, using only a single x-ray detector in coincidence with projectile ionization. One further particular advantage arises from the fact that the 1s2p 3P0 state is not populated, and does not contribute to the continuum distribution of the two-photon emission. At high Z, this state also undergoes a two-photon E1M1 decay, which would be indistinguishable from the 2E1 decay of the 1s2s 1S0. The first measurement of the two-photon energy distribution from the decay of 1s2s 1S0 level in He-like tin was performed by adopting the technique developed in this thesis. In this technique, excited He-like heavy ions were formed by K-shell ionization of initially Li-like species in collisions with a low-Z gas target, and x-ray spectra following the decay of the He-like ions were measured in coincidence with the up-charged tin ions. The observed intense production of the 2E1 transitions, and a very high level of selectivity, make this process particularly suited for the study of the two-photon continuum, and thus for a detailed investigation of the structure of high-Z He-like systems. The method allowed for a background-free measurement of the distribution of the two-photon decay (21S0 -> 11S0) in He-like tin. The measured distribution could also be discriminated from that of other He-like ions, and confirmed, for the first time, the fully relativistic calculations. In addition, the feasibility of the method was confirmed by studying another exotic transition, namely the two-electron one-photon transition (TEOP) in Li-like high-Z ions. An experimental investigation of the radiative decay modes of the 1s2s2 state in Li-like heavy ions has been started. In the first dedicated beam time at the ESR, selective population of this state via K-shell ionization of initially Be-like species was achieved. The x-rays produced in this process were measured by a multitude of x-ray detectors, each placed under different observation angles with respect to the ion beam direction. The spectra associated with projectile electron loss consist (in all cases) of one single x-ray transition, which was attributed to the TEOP decay to the 1s2 2p1/2 level, possibly contaminated by the M1 decay to the 1s22s. Thus it was proven that, by adopting the developed approach, one can indeed produce the desired initial state. This makes this method perfectly suited for studies of TEOP transitions in high-Z systems. An extension of this study, by the inclusion of an electron spectrometer, would also allow for measurements of the autoionization channel, which would provide complete information on the various decay modes of the 1s2s2 state.
This dissertation analyzes tax policy, corporations, and capital market effects. First, the Savings Directive, which has left a loophole by providing grandfathering for some securities, is examined. It can be shown that investors are not willing to pay a premium for bonds that are exempt from the withholding rate, so it may be concluded that the supply of existing loopholes is large enough to allow tax evaders to continue evasion at no additional cost. Second, tax neutrality towards alternative financing instruments for corporate investment is a ubiquitous demand in the political debate. However, the magnitude of possible efficiency costs of a departure from tax neutrality is hardly discussed. Against this background, this dissertation discusses the theory of capital structure and provides back-ofthe-envelope calculations of the possible efficiency cost of a tax distortion of the debt-equity decision. Third, the ex-dividend-day effect in relation to the Gennan tax reform of 2000/2001 is discussed. The abolishment of the imputation system allows reinvestigating the size of the exdividend- day effect. I find no structural break in the size of the German ex-dividend-day effect and no evidence of an ex-dividend-day price drop that exceeds the dividend paid. Fourth, an account of the quantitative development of tax legislation in post-war Germany is presented. It can be shown that the legislative output did not increase over the decades and is not affected by a split majority in the upper and lower houses. Finally, it turns out that an increasing fraction of this legislation is passed in December.
Structural analysis of the enzyme N-formylmethanofuran:tetrahydromethanopterin formyltransferase
(2008)
Archaea represent a third domain of life and some archaea exhibit a high degree of tolerance to extreme environmental conditions. Several members are methanogens and present in many anaerobic environments. Most methanogens are able to maintain growth simply on H2 and CO2 via the enzymatically catalyzed reaction 4H2 + CO2 > CH4 + 2 H2O. The archaeon Methanopyrus kandleri grows optimally at temperatures of 84°C to 110°C, pH values of 5.5 to 7.0 and NaCl concentrations 0.2% to 4%. The enzyme N-formylmethanofuran tetrahydromethanopterin formyltransferase (MkFTR) catalyzes the transfer of a formyl group from the cofactor N-formylmethanofuran (FMF) to the cofactor tetrahydromethanopterin (H4MPT), the second step of the above reaction. X-ray crystallographic analysis yielded insights into the structure and function of MkFTR, (1) the MkFTR monomer exhibits a pseudo-two fold structure suggestive of an evolutionary gene duplication. (2) The structure is a D2 homo-tetramer with prominent cleft-like surface features. Analysis of the interface contacts showed that the tetramer is best described as a dimer of dimers. The clefts were associated with the monomer:monomer interface and were weakly occupied by extra electron density which might be attributed to the H4MPT analog folate. (3) This suggested that the clefts are active sites and their association with oligomer interfaces suggested a basis for the dependence of activity on oligomerization. (4) The thermal stability of MkFTR most likely arises from the greater number of H- and ionic-bonds within the monomer and between monomers with respect to mesophilic protein structures. (5) The structure showed a large number of surface exposed negatively charged, glutamate and aspartate residues. These residues explain the salt dependent oligomerization, as only at high enough salt concentration is the electrostatic charge compensated by cation binding and neutralized allowing oligomerization. (6) These residues also improve the solubility of MkFTR at high salt concentration by increased charge repulsion. (7) Comparison of MkFTR structures from low and hight salt conditions showed that surface glutamate residues bind slightly more water molecules at high salt conditions further contributing to MkFTR solubility at high salt concentration.
In 1911 Eugen Bleuler (Bleuler, 1911) postulated that schizophrenia was a disorder resulting from inability to properly integrate mental processes. Around the same time, Carl Wernicke (Wernicke, 1894) proposed that psychosis might result from disruption of white matter tracts. Both of these statements can be considered early cornerstones of modern connectivity hypotheses developed towards the end of the twentieth century by such researchers as Karl Friston (1998) and Nancy Andreansen (1998). In the current work, the hypothesis that schizophrenia, rather than being a disorder or either anatomical or functional connectivity, is a disorder where both of these processes interact and influence the clinical presentation of patients, is examined. This is achieved through a detailed examination of a sample of chronic schizophrenia patients using a combination of functional and anatomical Magnetic Resonance Imaging techniques. The relationship of these measures to clinical symptoms is also explored. In the first study, anatomical connectivity at the whole-brain level is examined using Diffusion Tensor Imaging. The results of the study contribute to the previous literature on auditory hallucinations in schizophrenia and provide the first direct correlation between increased anatomical connectivity and increased severity of psychotic symptoms. The second study provides a thorough examination of the interhemispheric connectivity. This is achieved through a detailed examination of the corpus callosum using a combination of diffusivity and volumetric values. This is the first study to date where several anatomical methods are used in one sample. The results illustrate the importance of using different techniques to accurately characterize anatomical abnormalities observed in schizophrenia. In addition, contrary to previous research reports, the results of the current study imply that only specific sub-sections of the corpus callosum are affected by anatomical abnormalities. The pattern of these changes may influence clinical presentation of patients. Finally, functional connectivity at the whole-brain level is examined during resting-state using Independent Component Analysis. Similarly to the results of the anatomical examinations, it provides further supporting evidence that the pattern of disturbances observed in the current sample of schizophrenia patients examined herein reflects a combination of hypo- and hyperconnectivity. Moreover, the study further validates resting-state functional Magnetic Resonance Imaging as a reliable tool for examining functional abnormalities in schizophrenia.
The Na+,K+-ATPase was discovered more than 50 years ago, but even today the pumpcycle and its partial reactions are still not completely understood. In this thesis, Voltage Clamp Fluorometry was used to monitor the conformational changes that are associated with several electrogenic partial reactions of the Na+,K+-ATPase. The conformational dynamics of the ion pump were analyzed at different concentrations of internal Na+ or of external K+ and the influences on the conformational equilibrium were determined. To probe the effect of the internal Na+ concentration on the Na+ branch of the ion pump, oocytes were first depleted of internal Na+ and then loaded with Na+ using the epithelial sodium channel which can be blocked by amiloride. The conformational dynamics of the K+ branch were studied using different external K+ concentrations in the presence and in the absence of external Na+ to yield additional information on the apparent affinity of K+. The results of our Voltage Clamp Fluorometry experiments demonstrate that lowering the intracellular concentration of Na+ has a comparable effect on the conformational equilibrium as increasing the amount of K+ in the external solution. Both of these changes shift the equilibrium towards the E1/E1(P) conformation. Furthermore, it can be shown that the ratio between external Na+ and K+ ions is also a determinant for the position of the conformational equilibrium: in the absence of external Na+, the K+ dependent shift of the equilibrium towards E1 was observed at a much lower K+ concentration than in the presence of Na+. In addition, indications were found that both external K+ and internal Na+ bind within an ion well. Finally, the crucial role of negatively charged glutamate residues in the 2nd extracellular loop for the control of ion-access to the binding sites could be verified.
Deformation quantization on symplectic stacks and applications to the moduli of flat connections
(2008)
It is a common problem in mathematical physics to describe and quantize the Poisson algebra on a symplectic quotient [...] given in terms of some moment map [...] on a symplectic manifold [...] with a hamiltonian action by a Lie group G. Among others, problems may arise in two parts of the process: c might be a singular value of the moment map and the quotient might not be well-behaving; in the interesting cases the quotient often is singular. By the famous result of Sjamaar and Lerman ([102]) X is a symplectic stratified space. We are interested in cases for which we can give a deformation quantization of the possibly singular Poisson algebra of X. To that purpose we introduce a Poisson algebra on the associated stack [...] for special cases and consider its deformations and their classification. We dedicate ourselves to use the rather geometric methods introduced by Fedosov for symplectic manifolds in [37]. That leads to the question how to perform differential geometry on a smooth stack. The Lie groupoid atlas of a smooth stack is a nice model for the same space (Tu, Xu and Laurent-Gengoux in [107] and Behrend and Xu in [16]), but both have different topoi. We give a morphism (P,R) that compares the topologies of a smooth stack and its atlas. This yields a method to transport sheaves and their sections between a smooth stack and its Lie groupoid atlas. A symplectic stack is a smooth separated Deligne-Mumford stack with a 2-form which is closed and non-degenerate in an atlas. Via (P,R) a deformation quantization on a symplectic stack can be performed in terms of an atlas. We also give a classification functor for the quantizations in the spirit of Deligne ([35]) based on the geometric interpretation given by Gutt and Rawnsely in [49]. As an application we give a deformation quantization for the moduli stack of flat connections in particular configurations. We use Darboux charts provided by Huebschmann (e.g. in [54]) to construct the corresponding Lie groupoid. This captures the symplectic form arising in the reduction process and differs from other approaches using gerbes of bundles (e.g. Teleman [105]).
RNA interference (RNAi) is triggered by recognition of double-stranded RNA (dsRNA), and elicits the silencing of gene(s) complementary to the dsRNA sequence. RNAi is thought to have emerged as a way of safeguarding the genome against mobile genetic elements and viral infection, thus maintaining genomic integrity. dsRNA is first processed into small interfering RNAs (siRNA) by the enzyme Dicer. siRNAs are ~21 to 25 -nt long, and contain a signature 5’ phosphate group and a two nucleotide long 3’ overhang (Bernstein et al., 2001). The siRNA is then loaded into the RNA-induced si-lencing complex (RISC), of which Argonaute is the primary catalytic component (Liu et al., 2004). Energetic asymmetry of the siRNA ends allows for its directional loading into RISC (Khvorova et al., 2003; Schwarz et al., 2003). Argonaute cleaves the passen-ger strand of the siRNA, leaving the guide strand of the siRNA bound to RISC (Gregory et al., 2005; Matranga et al., 2005; Rand et al., 2005). This single-stranded guide strand siRNA bound to Argonaute is able to recognize target mRNA in a sequence-specific manner, and cleaves the mRNA. Argonaute 2 in complex with single-stranded siRNA is sufficient for mRNA recognition and cleavage, thus forming a minimal RISC (Rivas et al., 2005). miRNAs, endogenously expressed small RNA genes which typically contain mismatches and non-Watson-Crick base pairing, are processed by this general pathway, although typically modulate gene expression by translational repression as opposed to cleavage of their target mRNA. The number of Argonaute genes is highly variable between species, ranging from one in S. pombe to twenty-seven in C. elegans. Earlier crystal structures of Argonaute apoen-zymes show the architecture of Argonaute to be a multidomain protein composed of N terminal, PAZ, MID, and PIWI domains (Song et al., 2004; Yuan et al., 2005). These multi-domain proteins are present in both prokaryotic and eukaryotic organisms. The role of Argonaute proteins in prokaryotes is still unknown, but based similarity to eu-karyotic Argonautes, they may also be involved in nucleic acid-directed regulatory pathways. These proteins have served as excellent models for learning about the struc-ture and function of this family of proteins. RNAi has found a widespread application for the simple yet effective knockdown of genes of interest. The catalytic cycle of RISC requires the binding of a number of different nucleotide structures to Argonaute, and we expect Argonaute to undergo a number of conforma-tional changes during the cycle of mRNA recognition by RISC (Filipowicz, 2005; Tom-ari and Zamore, 2005). Nevertheless, it remains unclear how the multi-domain ar-rangement of Argonaute recognizes and distinguishes between single-stranded and dou-ble-stranded oligonucleotides, which correspond to the Dicer-processed siRNA product, guide strand siRNA, and the guide strand / mRNA duplex. The Argonaute protein from Aquifex aeolicus was cloned, expressed, crystallized and solved by molecular replacement. Relative to earlier Argonaute structures, a 24° reorientation of the PAZ domain in this structure opens a basic cleft between the N-terminal and PAZ domains, exposing the guide strand binding pocket of PAZ. A 5.5-ns molecular dynamics simulation of Argonaute showed a strong tendency of the PAZ and N-terminal domains to be mobile. Binding of single-stranded DNA to Argonaute was monitored by total internal reflection fluorescence spectroscopy (TIRFS). The experi-ments showed biphasic kinetics indicative of large conformational changes, and re-vealed a hotspot of binding energy corresponding to the first 9 nucleotides, the so-called “seed region” most crucial for sequence-specific target recognition. As RNAi may have evolved as a way of safeguarding the genome viral infection, it is not surprising that viruses have evolved different strategies to suppress the host RNAi response in the form of viral suppressor protein. (Hock and Meister, 2008; Lecellier and Voinnet, 2004; Rashid et al., 2007; Song et al., 2004; Vastenhouw and Plasterk, 2004). These viral suppressors are widespread, having been identified in a number of different viral families. Not surprisingly, they generally share little sequence homology with one another, although they appear to exist as oligomers built upon a ~ 100-200 amino acid protomer. Tomato aspermy virus, a member of the Cucumoviruses, encodes for protein 2B (TAV 2B, 95 a.a., ~11.3 kDa) that acts as an RNAi suppressor. Intriguingly, a similar genomic arrangement is seen in RNAi suppressors in the Nodaviruses, a family of viruses that can infect both plants and animals, such as Flock house virus b2 (FHV b2). The 2B and b2 proteins are both derived from a frameshifted ORF within the RNA polymerase gene (Chao et al., 2005). In spite of this genomic similarity, the 2B and b2 proteins share little sequence identity, and it is not well understood how the Cucumovirus 2B proteins suppress RNAi. To address how TAV 2B suppresses RNAi, the oligonucleotide-binding properties of TAV 2B were studied. TAV 2B shows a preference for double-stranded RNA oligonucleotides corresponding to siRNAs and miRNAs, and also binds to single-stranded RNA oligonucleotides. A stretch of positively charged residues between amino acids 20-30 are critical for RNA binding. Binding to RNA oligomerizes and induces a conformational change in TAV 2B into a primarily helical structure. These studies sug-gest that suppression of RNAi by TAV 2B may occur by targeting different stages of the RNAi pathway. TAV 2B falls under the category of more general RNAi suppres-sors, with potentially multiple targets for suppression.
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.
The reggie protein family consists of two homologous members, reggie-1 and reggie-2, also termed flotillin-2 and flotillin-1, respectively, that are ubiquitously expressed and evolutionarily well conserved, suggesting an important but so far ill-defined function. In various cell types, both reggies have been found to be constitutively associated with lipid rafts by means of acylation modifications and oligomerization. Lipid rafts are glycosphingolipid- and cholesterol-rich membrane microdomains which have been implicated in several cellular processes including membrane transport and signal transduction through growth factor receptors. However, the molecular details of these processes are still poorly understood. With the observation that reggies colocalize with activated glycosylphosphatidylinositolanchored proteins (GPI-APs) and Fyn kinase in rafts, a role for these proteins in signaling events has been suggested. In agreement with that, we have previously shown that reggie-1 becomes multiply tyrosine phosphorylated by Src kinases in response to epidermal growth factor (EGF) stimulation, pointing to a function for reggie-1 in growth factor signaling. Furthermore, overexpression of reggie-1 enhances spreading on fibronectin substrate in a tyrosine-dependent manner, thus revealing a role for reggie-1 in regulation of actin cytoskeleton through growth factor receptors. Due to the similarity shared by reggie proteins at amino acid level and to their ability to form hetero-oligomeric complexes, the first aim of this study was to analyze the putative tyrosine phosphorylation of reggie-2 in growth factor stimulated cells. Similarly to reggie-1, reggie-2 was found to be multiply tyrosine phosphorylated by Src kinase and to exist in a molecular complex with Src, with the degree of co-immunoprecipitation dependent on the activity of Src. Recent studies from us have also shown that administration of EGF results in the endocytosis of reggie-1 from the plasma membrane into endosomes, which is in line with a proposed role for reggies in membrane trafficking processes. In order to characterize in detail the endocytic mechanism that mediates the uptake of reggie-1, the dependency of reggie-1 endocytosis on clathrin and dynamin was investigated by means of overexpressing a variant form of Eps15 or a dominant negative form of dynamin-2. In either case the translocation of reggie-1 into endosomes in response to EGF was not affected, and this, together with the results that reggie-1 colocalized with cholera toxin (CTX) but not with transferrin receptor (TfnR) during EGF signaling, indicates that reggie-1 is taken up by means of a dynaminindependent, raft-mediated pathway. These findings are very well in line with recent data showing the pathway of entry into cells of reggie-2 as a raft-mediated endocytic pathway. The endocytosis of reggie-2 in response to EGF was also analyzed in this study. Similarly to reggie-1, in growth factor stimulated cells reggie-2 underwent a translocation from the plasma membrane to endosomes where the two reggies were found to colocalize with each other, suggesting that epidermal growth factor signaling might trigger the endocytosis of reggie oligomers. In addition, colocalization with both the late endosomal marker LAMP3/CD63 and epidermal growth factor receptor (EGFR) was detected, again indicating a function for reggies in signal transduction through growth factor receptors. EGFR has been reported to localize in rafts but, although this association is thought to be functional during EGF stimulation, how segregation of EGFR into rafts modulates its endocytosis and signaling is still under debate. Since reggie oligomers have recently been suggested to define a raft subtype, a further aim of this study was to investigate whether the depletion of reggies by means of small interfering RNA could interfere with the signaling and the trafficking through EGFR. Knockdown of reggie-2 resulted in an altered tyrosine phosphorylation of EGFR in response to EGF, while the degree of ubiquitination was not affected. Less efficient phosphorylation of tyrosine residues, especially of those which are docking sites for Grb2 and Shc, led in turn to an impaired activation of p38 and ERK1/2 MAPKs. Depletion of reggie-2 did not affect the early trafficking of activated EGFRs, with receptors being endocytosed and delivered to late endosomes as efficiently as in control cells. This would be in line with the normal degree of ubiquitination observed for EGFR, as ubiquitin moieties have been proposed to represent sorting tags that ensure receptor endocytosis into early endosomes and its proper intracellular trafficking. On the contrary, after prolonged EGF stimulation, depletion of reggie-2 resulted in a decreased downregulation of both receptor-bound ligand and EGFR, and in their accumulation in intracellular vesicles, thus pointing to a role for reggie-2 in the degradative pathway. Taken all together, these data ndicate that the association of EGFR with reggie-microdomains is likely to be important for proper receptor trafficking and signaling.
Background and objectives: Constrictive pericarditis (CP) is the result of a spectrum of primary cardiac and non-cardiac conditions. Little data exists on the cause-specific survival after pericardiectomy in the modern era. The impact of pericardial calcification (CA) on survival is unclear. We sought to determine the association of etiology of CP, CA and other clinical variables with long-term survival after pericardiectomy. Methods: We analyzed the records of 163 patients who underwent pericardiectomy for CP over a 24-year period at a single center. The diagnosis of CP was established by surgical report. Vital status was obtained by the Social Security Death Index. The Kaplan Meier method was used to estimate overall survival and survival by etiology group. Cox proportional hazards regression analysis was performed to assess the effect of various causes for CP on longterm survival while adjusting for age. Results: The etiology of CP was idiopathic in 75 patients (46%), prior cardiac surgery in 60 (37%), radiation treatment in 15 (9%) and miscellaneous in 13 patients (8%). Vital status was obtained in 160 patients (98%). Median follow-up was 6.9 years (range: 0.8 to 24.5 years). Perioperative mortality for all patients was 6%. Idiopathic CP had the best prognosis (7 year survival: 88%, 95% confidence interval [CI] 76% to 94%) followed by postsurgical (66%, 95% CI 52% to 78%) and postradiation CP (27%, 95% CI 9% to 58%). In bootstrap-validated proportional hazards analyses, predictors of poor survival were prior radiation, worse renal function, higher pulmonary artery pressure (PAP), abnormal left ventricular (LV) systolic function, lower serum sodium level, and older age. Pericardial calcification had no impact on survival. Conclusion: Long-term survival after pericardiectomy for CP is determined by the underlying etiology of constriction, LV systolic function, renal function, serum sodium, and PAP. Patients with postsurgical as well as postradiation CP have a survival inferior to patients with idiopathic CP. Perioperative Mortality is low. The relatively good survival after pericardiectomy in patients with idiopathic CP emphasizes the safety of pericardiectomy in this group.
The growth of blood vessels is crucial for organ growth in the embryo and repair of wounded tissues in the adult. An imbalance in this process contributes to numerous malignant, inflammatory, ischemic, infectious and immune disorders (Ferrara et al., 2003). Postnatal neovascularization occurs through the recruitment of progenitor cells and angiogenesis. Integrins are heterodimeric cell surface molecules and are the main receptors for extracellular matrix proteins. Regulation of integrin activation is crucial during embryonic development and during adult life. Dysregulation of integrin activity leads to severe diseases. In this study, we have demonstrated that Rap1, a small GTPase regulating integrin activity, and its GEF Epac1 are expressed in both EPC and endothelial cells. Moreover, the pharmacological activator of Epac activates the small GTPase Rap1 in progenitor cells. In parallel the angiogenic growth factors VEGF and bFGF activate Rap1 in endothelial cells. In addition, the regulation of Rap1 activity in EPC and in endothelial cells plays an important role in the regulation of migration and adhesion to matrix proteins, by regulating the activity of different integrins, a mechanism known as integrin inside‐out signaling. Furthermore, regulation of Rap1 activity affects probably indirectly through outside‐in signaling of integrins the activity of several and crucial proteins such PKB/Akt and focal adhesion kinase in endothelial cells. In line with these results, we have demonstrated that Rap1 activity affect angiogenesis, homing of EPC to ischemic tissues and thereby postnatal neovascularization. The understanding how Rap1 regulates integrin activity in endothelial cells is still not completely clear, for example we have demonstrated that the known effectors of Rap1 mediating the increase of integrin activity in T and B cells, such as RAPL and RIAM are, respectively, either not increasing integrin activity or not expressed in endothelial cells. We aim to find the effector of Rap1 promoting integrin activity in endothelial cells and how RAPL regulates integrin functions and angiogenesis. Moreover data from us and others using genetic models and generation of Rap1a or Rap1b deficient mice or deficient for Rap1a and Rap1b led to embryonic lethality suggesting that Rap1 is a key node protein during embryonic development. The development of conditionnal Rap1a/b endothelial/pericytes restricted deficient mice will help us to decipher more precisely the role of Rap1 during vascular development and angiogenesis.
The geodynamic processes and the chemical and thermal evolution of the mantle beneath the Kaapvaal craton (South Africa) was investigated with further regard to diamond formation. For this, 31 coarse-grained peridotites and 21 individual subcalcic garnets from heavy mineral concentrates (HMC) from the Finsch mine were studied for their major and trace element compositions, Lu-Hf and Sm-Nd isotope composition. Furthermore, processes in the Earth’s mantle that follow kimberlite sampling and propagation were studied in polymict peridotite breccia from Kimberley mines. Inter mineral equilibrium of the peridotites was tested by comparing the results from different, independent thermometers. These, well equilibrated peridotites stem from a restricted pressure of 5 to 6.5 GPa (depth ~160-200 km) and a temperature range of 1050-1250°C, following the 40 mW/m2 conductive geotherm. The majority of the samples display a well developed anti-correlation of oxygen fugacity with pressure, which is in contrast to the sheared and oxidised, younger kimberlite erupted peridotites from Kimberley. All analysed samples have homogeneous trace element mineral chemistry. Variations in trace elements among Finsch peridotites reflect their complex nature and the intricate development of the subcratonic mantle. The 3.6 Ga is the oldest crustal age recorded in the Kaapvaal craton, and is confirmed by the Lu-Hf model age of a highly radiogenic subcalcic garnet in this study. Therefore, this age probably represents the oldest depletion (partial melting event) of the subcratonic mantle beneath the Kaapvaal craton. Both, subcalcic garnets and Finsch peridotites yield Lu-Hf isochron ages of around 2.5 Ga, which probably represent the last depletion event of the Kaapvaal craton. Several older (than 2.5 Ga) depletions were also necessary to explain higher isochron initials of the both isochrones. The Cr# and HREE concentrations and ratios of the Finsch subcalcic garnets and peridotites indicate that partial melting of the Kaapvaal craton happened at different depths. One group of subcalcic garnets (group-1) experienced depletion at high pressure in the garnet stability field and another one (group-2) at low pressures in the spinel or plagioclase stability field. Major and trace elements indicate that up to 50%, of the melt was remover from the primitive (primer) mantle in at least two melting events. Thus, first continental crust was created early (> 2.5 Ga) from high degrees of partial melting of the lithospheric mantle. According to the Sm-Nd isotope signatures at least two metasomatic events took place significantly after 2.5 Ga. As monitored by group-1 subcalcic garnets, the first enrichment was produced by a fluid and occurred at around 1.3 Ga. The second metasomatic event was much later at 500-300 Ma ago and has changed both Nd and Hf isotopic compositions of group-2 subcalcic garnet as well as some Finsch peridotites. During partial melting any carbon species will be dissolved in the melt and removed from the residue. Therefore, any diamond growth before the last depletion (~2.5 Ga) would have been probably completely removed from the lithospheric mantle. Consequently, carbon was apparently reintroduced into the system, i.e. during Metasomatism, and triggered the growth of diamonds. The Sm-Nd isotope systematics of the subcalcic garnets of this study indicates that enrichment occurred at ~1.3 Ga or later, which implies non-Archean, late diamond growth in Finsch. Fertilisation of the subcontinental craton associated with the percolation of group-2 (~120 Ma) or even younger (~90 Ma) group-1 kimberlites and their precursors are not observed in Finsch peridotites, but are well presented in mantle xenoliths from Kimberley. Therefore, these younger events were studied on specific mantle xenoliths, polymict breccia from Kimberley. A polymict peridotite found at the Boshof road dump, Kimberley, represents a mechanical mixture of upper mantle clasts and minerals (opx, cpx, garnet and olivine) of different lithologies, cemented by fine-grained olivine and minute amounts of interstitial ilmenite, phlogopite and sulphide. According to Ni in garnet thermometry, single porphyroclastic garnets were sampled and mixed during ascent in a 100 km stratigraphic column, starting from ~250 km until ~120 km. During this ascent, melt has reacted with the porphyroclasts and at theirrims neoblastic minerals were formed, i.e. neoblastic opx around opx porphyroclast, neoblastic garnet around garnet porphyroclast, and neoblastic opx around cpx porphyroclast. Analyses of those neoblastic minerals indicate that volatile-rich, kimberlite-like melt was the agent that collected the mantle minerals and amalgamated this xenolith. Several complex processes were responsible for the formation of the polymict breccia. They comprise melt degassing at high pressures that probably created “explosive” Brecciation of the cratonic roots (~250 km), propagation of the melt that collected different porphyroclasts on a way and amalgamation at around 120 km. The whole process of “explosive” brecciation, turbulent transport and mixing of mantle porphyroclasts and melt, porphyroclast dissolution and neoblast precipitation happened very fast and was part of the kimberlite formation. Therefore, the here studied sample probably represents one frozen part (with variable mantle clasts) of the kimberlitic magma precursor, with kimberlite eruption at ~90 Ma years ago in Kimberley.
The production of quarkonia, the bound state of an heavy quark with its anti-particle, has for a long time been seen as a key process to understand the properties of nuclear matter in a relativistic heavy-ion collision. This thesis presents studies on the production of quarkonia in heavy-ion collisions at the new Large Hadron collider (LHC). The focus is set on the decay of J/Psi and Upsilon-states into their di-electronic decay channel, measured within the central detectors of the ALICE detector.
The dissertation, ”Coping with emergent hearing loss”, is written in English and is based on the diversity of problems connected to hearing loss and the adaptation of hearing aids. The research was carried out in Denmark and involves adults with an emergent hearing loss, who have decided to become hearing aid users. The data is analyzed through methods of cultural anthropology with focus on the following topics: How do the new users cope with the status passage towards being hearing aid users, how do they integrate the hearing aids into their lives, and what are the involved learning processes. What are the consequences of the provision by the state of free hearing aids, their free adaptation as well as free batteries, and does the state take part in the construction of the social group of new hearing aid users? The method is based on qualitative field work. Two public hospitals were helpful in identifying 24 new users, who acquired a free hearing aid through the hearing health care system. Through ENTs and private dispensers 17 further respondents joined the study – these acquired their hearing aids with a considerable state subsidy but mostly they themselves contributed financially as well. The 41 respondents between the ages of 42 to 92 years of age came from a wide range of professions and were followed throughout 2003 und 2004. After an in-depth qualitative interview, the contact to the respondents was maintained in order to follow the process of integration into their lives. When possible, the respondents were accompanied to their appointments in the private or public clinics. Moreover, interviews with experts from the public hearing health care system, politicians and user organisations were carried out, and the general public debate on the hard of hearing and hearing loss was followed and recorded. The second chapter gives an overview of the position of audiology in Denmark, of epidemiological information on hearing loss in the Danish society and statistics to the use of hearing aids. Moreover, basic information is given about the functioning of the human ear, the auditive perception and diagnosis and classification of hearing loss as well as a short introduction to the hearing aid technology. The structure of the further thesis divides the material into three pillars that make the discussion of the interaction processes possible. (1) The user’s interaction with the lifeworld concerns the meaning of hearing in relation to social participation. For some of the users, a good sense of hearing was essential to communicate freely and uphold their position in relation to others, whereas other respondents paid less attention to the information they acquired through their sense of hearing. A number of the respondents were selective and only used their hearing aids in specific situations, whereas another group discontinued the use of their hearing aids for various reasons. Status passages that hold specific challenges like a new work place or a new marriage motivate the continued everyday use. On the whole, the thesis illustrates that hearing loss is a socially dividing factor that complicates the interaction with others. In comparison to other bodily impairments or diseases, the hearing loss is rarely used as occasion to unite with fellow sufferers, join patient organisations or form self help groups. (2) The users’ interaction with the institutions The medical anthropologist Arthur Kleinman conceptualises health care as a moral process in which essential issues are at stake for the users. Different factors interact in the process: the training of the experts, allocation of funds, the quality of the technology, the dispensing procedures and the motivation and individual characteristics of the new users. The integration of the hearing aid into the lifeworld can be compared to a learning process, for which reason the learning theory of the anthropologist Gregory Bateson is outlined. Susanne Bisgaard’s own theory lists the meaning creating elements that serve as motivation for the users to counteract contingency (occurrences that influence the adaptation negatively). In the interaction between individual and society, the individual can apply strategies in order to eliminate stumbling blocks. (3) The users’ interaction with the technology A number of theorists from Anthropology as well as Science and Technology Studies are discussed in order to question their validity with regard to human action autonomy vs. technological determination and test the theoretical models with regard to their usability for the thesis. Hearing aids have a supporting function in everyday life and have the capability of moderating the user’s perception of sound. The alienating experience of hearing one’s own voice amplified, of wearing a foreign body in the ear and the different strategies that emerge from the more or less successful handling of the technology is reported by way of case stories and quotes from the interviews.
This work presents the study on the suitability of single-crystal CVD diamond for particle-detection systems in present and future hadron physics experiments. Different characterization methods of the electrical and the structural properties were applied to gain a deeper understanding of the crystal quality and the charge transport properties of this novel semiconductor material. First measurements regarding the radiation tolerance of diamond were performed with sensors heavily irradiated with protons and neutrons. Finally, detector prototypes were fabricated and successfully tested in various experiments as time detectors for minimum ionizing particles as well as for spectroscopy of heavy ions at the energy ranges available at the SIS and the UNILAC facilities of GSI. ...
5-LO is the key enzyme in the biosynthesis of proinflammatory leukotrienes. It catalyses the conversion of arachidonic acid to the hydroperoxy intermediate 5(S)-hydroperoxy-6- trans-8,11,14-cis-eicosatetraenoic acid (5-HpETE). In a second step 5-LO catalyses a dehydration reaction forming the unstable epoxide intermediate 5(S)-trans-5,6-oxido-7,9- trans-11,14-cis-eicosatetraenoic acid (leukotriene A4 , LTA4). The 5-LO gene is subjected to versatile regulation mechanisms. Apart from regulation by DNA-methylation and histone acetylation / deacetylation 5-LO gene expression can be regulated by the differentiation inducers calcitriol (1,25-dihydroxyvitamin D3) and transforming growth factor beta (TGFβ) 5-LO gene expression. In the myeloid cell lines Mono Mac 6 (MM6) and HL-60, differentiation with both agents caused a prominent upregulation of 5-LO mRNA level, of 5-LO protein expression and of 5-LO activity. Treatment with calcitriol alone already has an impact on 5-LO gene expression which is additionally potentiated by TGFβ treatment. Previous nuclear run-off analysis and reporter gene analysis could not associate the 5-LO promoter with the induction of 5-LO mRNA expression mediated by calcitriol and TGFβ. Inclusion of the 5-LO coding sequence (cds) and inclusion of the 5-LO cds plus the last four introns of the gene (J to M) in the 5-LO promoter construct pN10 led to an enhanced reporter gene activity. The inductions were dependent on vitamin D receptor (VDR) and retinoid x receptor (RXR) cotransfection. Therefore the work was concentrated on identifying elements outside the 5-LO promoter region which contribute to the calcitriol / TGFβ effect on 5-LO mRNA expression. Insertion of the LTA4 hydrolase coding sequence – a coding sequence of similar size - instead of the 5-LO cds led to a loss of the calcitriol / TGFβ effect (pN10LTA4Hcds 1-fold induction). Therewith, it was proven that the presence of the 5-LO cds is crucial for the upregulating effect of calcitriol / TGFβ on 5-LO mRNA level. Cloning of the SV40 promoter instead of pN10 upstream of the 5-LO cds still showed inducibility by treatment with the inducers which argues for a promoter unspecific effect. Insertion of the 5-LO cds in a promoterless basic vector (pGL3cds) displayed same inductions by calcitriol / TGFβ treatment as the 5-LO promoter 5-LO cds construct (pN10cds). Thus, the effect of the inducers is not dependent on the 5-LO promoter under the in vitro conditions of the reporter gene assay. Hence, further cloning was done with promoterless constructs. Through 5-LO cds deletion constructs a positive regulating region in exon 10 to 14 was discovered. To adapt the natural gene context the last four introns (J-M) of the 5-LO gene were inserted in a promoterless construct containing exon 10 to 14 (pGL3cdsΔABInJM). 5end deletion constructs of it revealed putative vitamin D responsive elements (VDREs) in exon 12 and intron M. Mutation of the putative VDREs led to a reduced calcitriol effect –more prominent when the putative VDRE in intron M was mutated (reduction of 40%). Moreover another putative VDRE in exon 10 with an adjacent SMAD binding element (SBE) was detected. SMAD proteins are effector proteins of TGFβ signalling. Gelshift experiments demonstrated in vitro binding of the VDR-RXR heterodimer to those three putative VDREs. By chromatin immunoprecipitation (ChIP) assay in vivo binding of VDR and RXR was shown to the VDRE in the region of exon 10, exon 12 and intron M. 8h and 24h incubation with calcitriol / TGFβ resulted in enhanced expression of VDR in each of the examined regions. The VDR is able to bind to the VDRE without its ligand, whereas this goes along with corepressor recruitment and thus the VDR has a repressive effect on transcription. Histone H4 acetylation was increased when MM6 cells were treated for 8h or 24h with calcitriol or the combination of calcitriol / TGFβ. This finding implies that at that point of time corepressors associated with the VDR are replaced by coactivators. It seems convincing that 5-LO transcription is mainly promoted by calcitriol alone which leads to a more accessible chromatin structure. Previous data indicated that calcitriol and TGFβ upregulate 5-LO RNA maturation and 5- LO transcript elongation. Thus several elongation markers were investigated by ChIP analysis: Histone H3 lysine 36 (H3K36) trimethylation and H4K20 monomethylation were detected in the analysed regions in exon 10, exon 12 and intron M. In region exon 10 the H3K36 trimethylation status was enhanced after 24h calcitriol or calcitriol / TGFβ treatment. An increased H4K20 monomethylation status in all regions was observed when MM6 cells were treated for 24h with calcitriol / TGFβ. 24h treatment with both agents also enhanced the recruitment of the elongation form of RNA polymerase II, which is phosphorylated at serine 2 of the carboxyterminal domain, to the investigated regions. These findings prove the positive regulating role for calcitriol and TGFβ on 5-LO transcript elongation. A putative mechanism of the effect of calcitriol and TGFβ on 5-LO RNA maturation might be the elevated phosphorylation of serine 2 of the RNA Polymerase II which is known to be followed by recruiting polyadenylating factors.
The dissertation deals with the general problem of how the brain can establish correspondences between neural patterns stored in different cortical areas. Although an important capability in many cognitive areas like language understanding, abstract reasoning, or motor control, this thesis concentrates on invariant object recognition as application of correspondence finding. One part of the work presents a correspondence-based, neurally plausible system for face recognition. Other parts address the question of visual information routing over several stages by proposing optimal architectures for such routing ('switchyards') and deriving ontogenetic mechanisms for the growth of switchyards. Finally, the idea of multi-stage routing is united with the object recognition system introduced before, making suggestions of how the so far distinct feature-based and correspondence-based approaches to object recognition could be reconciled.
The epithelial absorbing cells of the small intestinal villi, the enterocytes, are the main protagonists for the transport of nutrients from the intestinal lumen to the interstitial fluids. The oriented flow of nutrients is carried out by different and complementary transport systems present in the apical and the basolateral domains of the enterocyte’s plasma membrane. One of the distinctive characteristics of those intestinal cells is the presence of numerous structurally distinct protrusions (referred as microvilli) on the apical surface of the plasma membrane. They confer the brush-like appearance of the microvillus border (commonly referred to as the "brush border") typically observed in the light microscope. Over the years, there has been considerable interest to study the molecular mechanisms driving the transport of molecules across the intestinal brush border membrane (BBM). Defects have been described to cause a variety of pathological conditions, such as disorders in the metabolism of saccharides (glucose and galactose malabsorption, lactose intolerance), amino acids (Hartnup disease, aminoacidurias), ions (sodium and potassium in the case of familiar diarrhea), metals (zinc in acrodermatitis enteropathica) and cholesterol lipids (cardiovascular diseases). In particular, the essential role of the BBM in regulating the delicate balance between cholesterol influx and efflux from the lumen to the enterocyte has been recently highlighted through the genetic analysis of individuals suffering of cholesterol disorders as well as in several clinical studies involving the use of dietary plant sterols (phytostrerols) or specific protein inhibitors blocking essential components of the cholesterol absorption/resorption pathway. ...
The respiratory chain is composed of protein complexes residing in the inner mitochondrial membrane of eukaryotes or in the cytoplasmic membrane of prokaryotes. This cellular energy converter transforms a redox potential stored in low potential substrates into an electrochemical potential across the respective membrane. Typical respiratory chains contain the complexes I, II, III and IV named according to their sequence in the respiratory chain reaction. Electrons of low potential substrates enter at complex I or II and are passed via complex III to complex IV where they are transferred to oxygen. The transport of electrons between the complexes is mediated by small electron shuttles like quinol or cytochrome c. Two different models describe their exchange either by (1) random collision of freely diffusible electron shuttles and membrane protein complexes or (2) arrangement of the complexes in supercomplexes enabling direct channeling of electron shuttles. In the Gram positive bacterium Corynebacterium glutamicum, the complex III to complex IV electron shuttle cytochrome c is not diffusible but a covalently bound part of the diheme cytochrome subunit QcrC of complex III. Therefore, the complexes III and IV have to form a supercomplex for electron transduction. The aim of this thesis was to purify and characterise this obligatory supercomplex III/IV of C. glutamicum. To gain sufficient biomass of C. glutamicum as starting material for purification, a phosphate buffered minimal medium was developed that enabled yield of total 120 g wet cell mass (38 g dry mass) in 12 L (6×2 L) shaking cultures. The determined conversion factor of glucose into biomass was 0.46 g/g indicating an intact respiratory chain. The yield was increased by bioreactor cultivation to ~690 g wet cell mass (~220 g dry mass) in ~10 L culture volume. A previously described homologous expression system was applied that produces the complex IV subunit CtaD with a fused Strep-tag II to facilitate purification. Affinity purifications using the Strep-tag II affinity to Strep-Tactin resin yielded a mixture of complexes and supercomplexes. Two supercomplex III/IV versions named supercomplex A and B and free complex IV were identified in this mixture by size exclusion chromatography, redox difference spectroscopy and two dimensional polyacrylamide gel electrophoresis including blue native polyacrylamide electrophoresis. The here presented downscaled blue native polyacrylamide electrophoresis method with analysis times of ~1 h enabled efficient screening of factors influencing the stability of supercomplex III/IV. The screening resulted that the integrity of supercomplex III/IV is preserved by using neutral detergents at minimal detergent to protein ratios for solubilisation and low detergent concentrations for purification and storage slightly above the required critical micellar concentration. Furthermore, pH <=7.5 is required for stability of supercomplex III/IV. Large biomass yields enabled upscaling of supercomplex III/IV affinity purification. Application of the identified stability conditions resulted in affinity purified samples free of supercomplex B. The major component supercomplex A was efficiently separated from residual free complex IV by preparative size exclusion chromatography. Concentration of purified supercomplex A by ultracentrifugation resulted in integrity of the supercomplex for several days at 4 °C. Purified supercomplex A contains ten different previously described subunits. The heme content of supercomplex A relative to the protein mass is heme A: 6.0 μmol/g, heme B: 6.5 μmol/g, and heme C: 5.8 μmol/g determined by redox difference spectroscopy and biochemical protein quantification. This indicates an equimolar ratio of complex III and complex IV in supercomplex A. Supercomplex A has quinol oxidase activity that is inhibited by stigmatellin or sodium azide. The turnover number of transferred electrons per complex III monomer is 148 s−1 at 25° C. The homogeneity and stability of the prepared supercomplex A enabled the growth of threedimensional crystals of up to 0.1 mm in length. Their composition of supercomplex A was verified by redox difference spectroscopy of intact crystals and blue native polyacrylamide electrophoresis of dissolved crystals. The crystals diffracted X-rays corresponding to a resolution of ~10 Å. Electron microscopy of negative stained samples revealed the uniform shape of purified supercomplex A particles with dimensions of 22 × 9 nm in the view plane. Combined heme quantification, size determination, determined activity, symmetry considerations, and particle shape indicate that supercomplex A has a central dimer of complex III and two monomers of complex IV on opposite sides. This conformation is functionally reasonable because it provides each complex III monomer with one complex IV monomer as electron acceptor. Therefore, the stoichiometry of supercomplex A is most likely III2IV2. The sensitivity of supercomplex A to detergents indicated a role of phospholipids in its stability. Therefore, a method for phospholipid identification and quantification was developed that is suitable for detergent solubilised crude and purified membrane protein samples. The analysis combines separation of phospholipid classes according to their head group by normal phase high performance liquid chromatography with evaporative light scattering detection. Calibration with external standard allows quantification of phospholipid amount in the range of 0.25-12 μg. The method is verified by analysing the phospholipid content of the well characterised complex III of Saccharomyces cerevisiae. The reduction of its phospholipid content during its purification steps is monitored. The complex III sample purified to crystallisation quality contains the phospholipid content that was also observed in previously reported structures determined by X-ray crystallography. Purified stable supercomplex A from C. glutamicum revealed a large content of bound phospholipids. The main differences between intact supercomplex A and a mixture of potentially disintegrated smaller complexes is that intact supercomplex A has a doubled phosphatidic acid content and an increased phosphatidyl glycerol content. The importance of the small anionic phosphatidic acid for mediation of contacts between complexes in a supercomplex is discussed. The total phospholipid content of stable supercomplex A is sufficient for a complete belt surrounding the supercomplex in the membrane plane. This indicates that also all essential internal phospholipid binding positions are occupied and potentially stabilise supercomplex A.
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.
Visual information is processed hierarchically in the human visual system. Early during processing basic features are analysed separately while at later stages of processing, they are integrated into a unified percept. By investigating a basic visual feature and following its integration at different levels of processing one can identify specific patterns. In certain visual impairments, these patterns can function defectively and their detailed study can clarify the cause of the visual deficit. Here we investigate orientation as a basic feature and use a property of the visual system called adaptation. Adaptation occurs as a decrease in the level of neural activity during repetitive presentation of the same stimulus. Psychophysical studies have shown that adaptation transfers interocularly, meaning that if only one eye is adapted the other eye shows also adaptation effects. Our aim was to investigate interocular transfer by means of functional magnetic resonance imaging (fMRI). Even though adaptation was demonstrated in the fMRI environment, the interocular transfer was never investigated in such a setup. First, we developed a method to measure interocular transfer of adaptation to gratings with fMRI. We then went further to test it in various groups of subjects. In normally sighted humans interocular transfer was present both in early (striate) as well as later visual areas (extrastriate). In subjects with impaired stereovision (with or without normal visual acuity) interocular transfer was absent in the investigated regions. Detailed analysis of the recorded differences between subjects with and subjects without stereovision was performed. The results of this analysis are presented in detail in this book. These results suggest that the neuronal mechanisms involved in the interocular transfer of pattern adaptation share, at least in part, the neural circuitry underlying binocular functions and stereopsis. We conclude that fMRI adaptation can be used for the assessment of cortical binocularity in humans with normal and impaired stereopsis. Further investigations are needed to address more subtle aspects of the lack of interocular transfer. Towards this purpose, through a fourth experiment we propose further directions that might shed more light on the issue of stereovision and its clinical implications. We show that carefully tuned variations in our experimental procedure might reveal other aspects of binocularity in the human visual system. We believe that the method we developed, apart from the interesting results shown here, has a high potential to be further used for other research questions. Following the above summarized ideas, the thesis comprises of three parts (chapters). The first chapter provides the main theoretical backgrounds of the visual system and of the MRI imaging technique, chapter two describes the experimental procedures while the results and their detailed discussion are detailed in chapter three.
This work presents a contribution to the literature on methods in search of lowdimensional models that yield insight into the equilibrium and kinetic behavior of peptides and small proteins. A deep understanding of various methods for projecting the sampled configurations of molecular dynamics simulations to obtain a low-dimensional free energy landscape is acquired. Furthermore low-dimensional dynamic models for the conformational dynamics of biomolecules in reduced dimensionality are presented. As exemplary systems, mainly short alanine chains are studied. Due to their size they allow for performing long simulations. They are simple, yet nontrivial systems, as due to their flexibility they are rapidly interconverting conformers. Understanding these polypeptide chains in great detail is of considerable interest for getting insight in the process of protein folding. For example, K. Dill et al. conclude in their review [28] about the protein folding problem that "the once intractable Levinthal puzzle now seems to have a very simple answer: a protein can fold quickly and solve its large global optimization puzzle simply through piecewise solutions of smaller component puzzles".
Ataxin-2 is a novel protein, within which the unstable expansion of a polyglutamine domain can cause Spinocerebellar Ataxia type 2 (SCA2), a neurodegenerative disease which belongs to the group of polyglutamine disorders. SCA2 is characterised by a progressive loss of neurons that first affects the cerebellum and brain stem and then may extend to other areas of the brain, like substantia nigra, motoneurons and thalamus. Several lines of research have attempted to determine therole of ataxin-2 in its normal and mutant version. Different animal models and cell culture approaches to study ataxin-2 function implicated ataxin-2 in RNA processing, embryonic development, apoptosis and cytoskeleton. However, the function of ataxin-2 still remains unclear. In this thesis, a protein interaction approach was chosen as an alternative to gain insights into the cellular function of ataxin-2. Full-length ataxin-2 was used as bait in a yeast two-hybrid screen of human adult brain cDNA. Among five candidate interactor proteins identified, two were the endophilins A1 and A3, proteins involved in vesicle endocytosis. Co-immunoprecipitation studies confirmed the association of these proteins in an endogenous complex of mouse brain. In vitro binding experiments narrowed the binding interfaces down to two proline-rich domains on ataxin-2, which interacted with the SH3 domain of endophilins A1/A3. Ataxin-2 and endophilins A1/A3 colocalised at the endoplasmic reticulum as determined by immunofluorescence microscopy of transfected cell lines, and by centrifugation fractionation studies of mouse brain. Importantly, the pattern observed in transfected cells was conserved in untransfected rat hippocampal neurons. In mouse brain, associations of ataxin-2 with endocytic proteins such as the adaptor CIN85, the ubiquitin ligase c-Cbl and also GRB2, in the last case by means of a SH3 domain array chip, were also demonstrated. GST pull-down assays showed ataxin-2 to interact directly with the SH3 domains A and C of CIN85, the C-terminal SH3 domain of GRB2, and the SH3 domain of Src, a kinase activated after receptor stimulation. Functional studies demonstrated that ataxin-2 affects endocytic trafficking of the epidermal growth factor receptor (EGFR) by reducing the EGFR internalisation after EGF stimulation. Taken together, these data implicate ataxin-2 to play a role in endocytic receptor cycling.
Synchronized neural activity in the visual cortex is associated with small time delays (up to ~10 ms). The magnitude and direction of these delays depend on stimulus properties. Thus, synchronized neurons produce fast sequences of action potentials, and the order in which units tend to fire within these sequences is stimulusdependent, but not stimulus-locked. In the present thesis, I investigated whether such preferred firing sequences repeat with sufficient accuracy to serve as a neuronal code. To this end, I developed a method for extracting the preferred sequence of firing in a group of neurons from their pair-wise preferred delays, as measured by the offsets of the centre peaks in their cross-correlation histograms. This analysis method was then applied to highly parallel recordings of neuronal spiking activity made in area 17 of anaesthetized cats in response to simple visual stimuli, like drifting gratings and moving bars. Using a measure of effect size, I then analyzed the accuracy with which preferred firing sequences reflected stimulus properties, and found that in the presence of gamma oscillations, the time at which a unit fired in the firing sequence conveyed stimulus information almost as precisely as the firing rate of the same unit. Moreover, the stimulus-dependent changes in firing rates and firing times were largely unrelated, suggesting that the information they carry is not redundant. Thus, despite operating at a time scale of only a few milliseconds, firing sequences have the strong potential to provide a precise neural code that can complement firing rates in the cortical processing of stimulus information.
Genetic analysis of salt adaptation in Methanosarcina mazei Gö1 : the role of abl, ota and otb genes
(2008)
1. M. mazei ist ein halotolerantes methanogenes Archäon und akkumuliert kompatible Solute als längerfristige Anpassung an erhöhte Osmolarität in der Umgebung. Bei intermediären Salzkonzentrationen (~ 400 mM NaCl) wird vorzugsweise α-Glutamat gebildet und bei höheren Salzkonzentrationen (~ 800 mM NaCl) wird Nε-Acetyl-ß-Lysin zusätzlich zu Alpha-Glutamat synthetisiert. 2. Eine Analyse der intrazellulären Solutezusammensetzung mittels NMR ergab, dass M. mazei Glycin-Betain als Osmolyt akkumulieren kann. Für die Aufnahme von Glycin-Betain konnten zwei putative Glycin-Betain-Transporter in M. mazei identifiziert werden, Ota und Otb. Ota steht für „osmoprotectant transporter A“ und Otb für „osmoprotectant transporter B“. Das Genom von M. mazei wurde, nachdem es vollstänidg sequenziert war, nach Genen durchsucht, die eine Rolle bei der Aufnhame von Glycin-Betain oder anderen kompabtiblen Solute spielen könnten. Dafür wurde die Sequenz eines Substratbindeproteins eines bekannten bakteriellen Glycin-Betain-Transporters, opuAC aus B. subtillis als Referenzsequenz verwendet. Hierbei konnte ein Homolog, otaC, in M. mazei identifiziert werden. otaC ist Teil eines Genclusters, welches für einen ABC-Transporter kodiert. otb wurde bei einer genomweiten Expressionsanalyse zur Salzadaptation von M. mazei identifiziert. Es wurden Gene eines putativen ABC-Transporters identifiziert, die unter Hochsalzbedingungen leicht induziert waren. Es stellte sich heraus, dass es sich hierbei um einen zweiten putativen Glycin-Betain-Transporter handelte. Otb gehört auch zur Familie der ABC-Transporter. Vergleichsanalysen zeigten, dass die beiden Transporter keine große Ähnlichkeit zueinander aufweisen. Die Funktion und Rolle der beiden ABC-Transporter, vor allem von Otb, war zu Beginn dieser Arbeit unklar. 3. Bei Analysen des intrazellulären Solutepools im Wildtyp von M. mazei stellte sich heraus, dass in Anwesenheit von Glycin-Betain die Konzentration von Glutamat und NE- Acetyl-ß-Lysin verringert war. Bei 400 mM NaCl reduzierte Glycin-Betain die Glutamat- Konzentration um 16% und bei 800 mM NaCl um 29%. Besonders deutlich zeigte sich der Einfluß von Glycin-Betain bei der Akkumulation von NE-Acetyl-ß-Lysin. Bei 400 mM NaCl reduzierte Glycin-Betain die Konzentration an NE-Acetyl-ß-Lysin um 60% und bei 800 mM NaCl um 50%. Der Einfluß von Glycin-Betain konnte auf verschiedenen Ebenen in M. mazei beobachten werden. Es konnte gezeigt werden, dass die relative Transkriptimenge von ota unter Hochsalzbedingungen zunimmt. Glycin-Betain reduzierte die Transkription von ota bei verschiedenen Salzkonzentrationen. Die relative Transkriptmenge an mRNA von ota wurde mittels quantitativer real-time PCR (qRT-PCR) quantifiziert und war bis zu 52% reduziert in Zellen, die in Gegenwart von Glycin-Betain gewachsen waren. Die Transkriptmenge von otb war unter den gleichen Bedingungen nicht beeinflusst und zeigte generell keine Zunahme mit der Salinität des Mediums. Des Weiteren konnte ein Effekt von Glycin-Betain auf Ebene der Transportaktivität von Ota gezeigt werden. Hier zeigte sich, dass Zellen, die bei 400 mM NaCl in Gegenwart von Glycin-Betain gezogen waren, eine geringere Transportaktivität aufweisen, als Zellen, die bei 400 mM NaCl ohne Glycin-Betain gewachsen waren. Die Transportaktivität war um 90% geringer. Es muss jedoch berücksichtigt werden, dass es sich bei den Zellen, die ohne Glycin-Betain gewachsen waren, um eine Nettoaufnahme von Glycin-Betain handelte. Im Gegensatz dazu, ist davon auszugehen, dass Zellen, die in Gegenwart von Glycin-Betain gewachsen waren, eine Austaschreaktion zwischen bereits vorhandenem intrazellulärem und extrazellulär angebotenem Glycin-Betain vornehmen. [Die dem letzten Punkt zugrundeliegenden Daten wurden von Silke Schmidt im Rahmen einer Diplomarbeit erhoben, die von mir mitbetreut wurde. Aus Gründen der vollständigen Darstellung des Projektverlaufes werden diese Daten mitaufgeführt.] 4. Zur weiteren Klärung der Rolle und Funktion der beiden putativen Glycin-Betain- Transporter Ota und Otb war es Ziel, Mutantenstudien durchzuführen. Eine Vorraussetzung für die Generierung von Mutanten ist, dass der Organismus auf Agarplatten wächst und Einzelkolonien von einer einzelnen Zelle ausgehend bildet. Dies ist ein wichtiger Punkt bei Methanosarcina spp., die Zellpakete, sogenannte Sarcinen bilden. Deshalb wurde zunächst nach den optimalsten Plattierungsbedingungen gesucht, unter denen M. mazei keine Sarcinen bildet und die Plattierungseffizienz am höchsten war. Die Plattierungseffizienz betrug im Durchschnitt 54%. Für das Einbringen von DNA in die Zellen wurde eine Liposomen-vermittelte Transformation getestet. Ein ähnliches Vorgehen war bereits für Methanosarcina acetivorans beschrieben, konnte bislang aber noch nicht erfolgreich für M. mazei Gö1 und andere Stämme von M. mazei angwendet werden. Erste Schritte zur Anpassung des Transformations-Protokolles beinhalteten das Testen von DOTAP verschiedener Hersteller, sowie die Konzentration an eingesetzter DNA. Das jeweilige Zielgen/Zieloperon, welches deletiert werden sollte, wurde durch eine pac-Kassette ersetzt. Diese kodiert für eine Puromycin-Transacetylase und verleiht dem Organismus Puromycin- Resistenz. Die pac-Kassette wurde von umgebenden Bereichen des Ziellocus flankiert und integrierte mit Hilfe dieser flankierenden Bereiche über doppelt-homologe Rekombination in das Genom. 5. Mit dem oben beschriebenen Verfahren wurden ota::pac- und otb::pac-Mutanten erzeugt und über Southern-Blot Analyse verifiziert. Eine erste Charakterisierung der Mutanten mittels qRT-PCR zeigte, dass auf mRNA-Ebene keine Transkripte von ota in M. mazei ota::pac oder otb in M. mazei otb::pac nachweisbar waren. Zusätzlich konnte auf Proteinebene das Substratbindeprotein OtaC in M. mazei ota::pac und OtbC in M. mazei otb::pac nicht über einen Antikörper gegen das jeweilige Substratbindeprotein nachgewiesen, was die erfolgreiche Deletion bestätigte. Erste phänotypische Charakterisierungen zeigten, dass das Wachstum von M. mazei ota::pac und M. mazei otb::pac unter Hochsalzbedingungen nicht beeinträchtigt und vergleichbar mit dem des Wildtyps war. Auch bei kälteren Wachstumstemperaturen von 22°C wuchsen die Mutanten ohne Phänotyp. 6. Radioaktive Transportstudien mit M. mazei otb::pac zeigten, dass diese Mutante, die noch ein funktionelles Ota besitzt, [14C]Glycin-Betain aufnehmen kann. Es stellte sich heraus, dass diese Mutante eine höhere Transportrate für Glycin-Betain aufwies, als der Wildtyp. Die Aufnahmerate war um einen Faktor 2 höher als beim Wildtyp. Zusätzlich konnten qRT-PCR Analysen zeigen, dass die relative Transkriptmenge an ota in der otb::pac-Mutante um einen Faktor 2 höher war, als im Wildtyp. Umgekehrt konnte dieser Effekt nicht beobachtet werden, d.h. eine erhöhte Transkriptmenge an otb in M. mazei ota::pac. Auf Proteinebene konnte beobachtet werden, dass die intrazelluläre Konzentration an OtaC in der Mutatne leicht höher war als im Wildtyp. Jedoch stellte sich heraus, dass die intrazelluläre Glycin-Betain-Konzentration bei 400 mM NaCl in der Mutante nicht erhöht war verglichen mit Wildtyp, sondern die Konzentrationen gleich waren. Bei höheren Salzkonzentrationen (800 mM NaCl) zeigte sich jedoch ein anderes Bild: die intrazelluläre Glycin-Betain-Konzentration war in der Mutante um 60% erhöht. Dies könnte auf die erhöhte Transportaktivität von M. mazei otb::pac zurückzuführen sein. Die Konzentration anderer kompatibler Solute wie Glutamat und NE-Acetyl-ß-Lysin waren in diesen Zellen bis zu 48% reduziert. In vorherigen Studien konnte gezeigt werden, dass heterolog überproduziertes Ota von M. mazei in E. coli MKH13, eine E. coli-Mutante, die keine Glycin-Betain-Transporter mehr besitzt, die Aufnahme von Glycin-Betain wieder herstellen konnte [die Daten von ota in E. coli MKH13 wurden in der bereits oben erwähnten Diplomarbeit von Silke Schmidt erhoben]. Zur Klärung der Funktion von Otb wurde der gleiche Versuch mit otb in E. coli MKH13 durchgeführt. Jedoch konnte eine heterologe Produktion von Otb aus M. mazei die Aufnahme von Glycin-Betain in E. coli MKH13 nicht wieder herstellen. Hierbei wurde über Western-Blot Analyse sichergestellt, dass Otb tatsächlich in der Membran vorhanden war. Auch Transportstudien mit der Mutante M. mazei ota::pac zeigten, dass diese Mutante kein [14C]Glycin-Betain mehr aufnehmen konnte. Es konnte auch keine Akkumulation von Glycin-Betain mittels NMR in dieser Mutante gemessen werden. Des Weiteren zeigte sich, dass die intrazellulären Konzentrationen an Glutamat und Nε-Acetyl-ß-Lysin bei 400 mM und 800 mM NaCl in der Mutante unbeeinflusst von der Glycin-Betain-Konzentration im Medium waren. Weitere Transportstudien mit M. mazei ota::pac zur Aufnahme von [14C]Cholin zeigten, dass dieses Molekül weder vom Wildtyp, noch von der Mutante aufgenommen wurde. Dieses Ergebnis wurde durch Messung des Solutepools mittels NMR bestätigt. Somit kann ausgeschlossen werden, dass Otb unter den gemessenen Bedingungen weder ein Glycin- Betain-Transporter noch ein Cholin-Transporter in M. mazei ist. Diese Beobachtungen belegen eindeutig, dass Ota der einzige funktionelle Glycin-Betain-Transporter in M. mazei ist, während die Rolle von Otb bislang noch ungeklärt ist. 7. Nε-Acetyl-ß-Lysin, das dominante kompatible Solut in M. mazei bei 800 mM NaCl, wird durch die Enzyme AblA, einer Lysin-2,3-Aminomutase und AblB, einer ß-Lysin- Acetyltransferase synthetisiert. In dieser Arbeit wurde eine Δabl::pac-Mutante generiert, um die Fragen zu klären, ob die beiden Enzyme vom postulierten abl-Operon kodiert werden und wenn ja, welchen Phänotyp eine Nε-Acetyl-ß-Lysin-freier-Mutante bei Salzstress zeigt. NMR-Analysen zeigten, dass in der abl::pac-Mutante kein Nε-Acetyl-ß-Lysin mehr nachweisbar war. Dies belegt, dass die Gene ablA und ablB und deren Genprodukte für die Synthese von NE-Acetyl-ß-Lysin in M. mazei essentiell sind. Unter Hochsalzbedingungen ist das Wachstum von M. mazei abl::pac im Vergleich zum Wildtyp deutlich verlangsamt. Dieses Ergebnis war unerwartet, da eine abl::pac-Mutante von Methanococcus maripaludis unter Hochsalzbedingungen nicht mehr wachsen konnte. Unter Niedrigsalz und bei intermediären Salzkonzentration war das Wachstum von M. mazei abl::pac nicht eingeschränkt und verhielt sich wie der Wildtyp. In Gegenwart von Glycin-Betain akkumulierte die abl::pac-Mutante von M. mazei unter Hochsalzbedingungen 2,4 mal mehr Glycin-Betain als der Wildtyp, um das Defizit im Solutepool auszugleichen und Wachstum bei Hochsalz zu ermöglichen. Dadurch war sie in der Lage, wieder wie der Wildtyp zu wachsen. 8. Der Verlust von NE-Acetyl-ß-Lysin wurde unter Hochsalzbedingungen durch erhöhte Konzentrationen an Glutamat und einem neuen kompatiblen Solut kompensiert. NMRAnalysen zeigten, dass es sich hierbei um Alanin handelte. Bis jetzt wurde die Verwendung von Alanin als kompatibles Solut noch nie beschrieben. Um sicherzustellen, dass Alanin als kompatibles Solut in M. mazei abl::pac dient, wurde die Konzentration bei verschiedenen Salzkonzentrationen gemessen. Die Konzentration an Alanin nahm mit steigender Salzkonzentration zu. Bei 800 mM NaCl war die Konzentration 12 fach erhöht verglichen mit der Konzentration bei 400 mM NaCl. Außerdem redzierte Glycin-Betain die Alanin- Konzentration bei 800 mM NaCl um 58%. Transportexperimente zeigten, dass M. mazei kein Alanin aus dem Medium aufnehmen kann. 9. Erste Analysen möglicher Synthesewege für Alanin zeigten, dass die Alanin- Dehydrogenase nicht auf Transkriptebene unter Hochsalzbedingungen induziert war und somit keine Rolle in der Synthese von Alanin als kompatibles Solut spielen dürfte. Es könnten jedoch Aminotransferasen eine Rolle bei der Biosynthese von Alanin spielen. Des Weiteren sind die Enzyme, die für die Synthese von Glutamat als kompatibles Solut verantwortlich sind, unbekannt. Dies gilt für alle bis jetzt untersuchten Organismen, die Glutamat als kompatibles Solut nutzen. In dieser Arbeit wurde versucht, mit Hilfe der abl::pac-Mutante, die erhöhte Glutamat-Mengen zum Osmoschutz produziert, der Frage nachzugehen, welche Gene/Enzyme eine Rolle spielen könnten bei der Synthese von Glutamat als kompatibles Solut. Dazu wurden unter Hochsalzbedingungen die Transkriptmengen verschiedener Genen, die an der Glutamat-Synthese beteiligt sein könnten, in der Mutante und im Wildtyp untersucht. Hierbei zeigte sich, dass mehrere Gene verschiedener Enzyme unter Hochsalzbedingungen in der Mutante leicht induziert waren. Eines dieser Enzyme ist die Glutaminsynthetase. Dieses Enzym ist für die Umsetzung von Glutamat zu Glutamin unter Verbrauch von ATP verantwortlich. M. mazei besitzt zwei Gene, die für eine putative Gluaminsynthetase kodieren. In M. mazei abl::pac ist unter Hochsalzbedingungen das Gen glnA2 im Vergleich zum Wildtyp (4,03 ± 1,14) leicht induziert (7,63 ± 2,2). Des weiteren konnte in der Mutante eine leichte Induktion von gltB1, gltB2 und gltB3 unter Hochsalz beobachtet werden. Diese Gene kodieren für die einzelnen Domänen einer Glutamatsynthase. Diese ersten Analysen geben einen Hinweis darauf, dass die Synthese von Glutamat als kompatibles Solut über eine gekoppelte Reaktion der Glutaminsynthetase und der Glutamatsynthase verlaufen könnte.
By translocating proteasomal degradation products into the endoplasmic reticulum (ER) for loading of major histocompatibility complex (MHC) class I molecules, the ATP binding cassette (ABC) transporter associated with antigen processing (TAP) plays a pivotal role in the adaptive immunity against infected or malignantly transformed cells. A key question regarding the transport mechanism is how the inter-domain communication and conformational dynamics of the TAP complex are connected during the peptide transport. To identify residues involved in this processes, we evolved a Trojan horse strategy in which a small artificial protease is inserted into antigenic epitopes. After binding, the TAP backbone in contact is cleaved, allowing the peptide sensor site to be mapped by mass spectrometry. Within this study, the peptide sensor and transmission interface have been identified. This region aligns with the cytosolic loop 1 (CL1) of Sav1866 and MsbA. Based on a number of experimental data and the homology to the bacterial ABC exporter Sav1866, we constructed a 3D structural model of the core TAP complex. According to this model, the CL1 and CL2 of TAP1 are extended cytosolic loops connecting the transmembrane helices (TMH) 2 and 3, and TMH4 and 5 respectively, and contact both nucleotide binding domains (NBDs) of the opposite subunit. In contrast to exporters, the cytosolic loop (named L-loop) of BtuCD importer is much shorter, and contacts only one NBD. The data confirm that the CL1 of TAP1 functions as signal transducer in ABC exporters, because it does not interfere with substrate binding but with substrate transport. The peptide contact site identified herein is restructured during the ATP hydrolysis cycle. Importantly, TAP showed a structural change trapped in the ATP hydrolysis transition state, because direct contact between peptide and CL1 is abolished. By cysteine scanning, the most conserved residues within CL1 were identified, which disrupted the tight coupling between peptide binding and transport. Together with Val-288, these residues are essential in sensing the bound peptide and inter-domain signal transmission. To characterize the molecular architecture of CL1, a convenient and minimally perturbing approach was used, which combined cysteine substitution in the CL1 region and determination of accessibility to thiol specific compounds with different properties. These studies revealed that the N-terminal region of CL1 has a good accessibility for hydrophilic (iodoacetamidofluorescein, IAF) and amphiphilic probes (BODIPY maleimide, BM), whereas the C-terminal region is accessible for hydrophobic probe (coumarin maleimide, CM). Kinetic studies of fluorescence labeling suggest that this region displayed a different accessibility to probes when the protein undergoes distinct conformations (e. g. nucleotide free state), thereby reflecting conformational transitions. Fluorescence labeling with BM induces a lost of peptide transport, whereas the peptide binding remains unaffected. These results indicate that covalent modifications of the CL1 residues influenced the inter-domain communication between transmembrane domain (TMD) and NBD. The X-loop is a recently discovered motif in the NBD of ABC exporters, which stays in close contact to the CLs. Moreover, because the X-loop precedes the ABC signature motif, it probably responds to ATP binding and hydrolysis and may transmit conformational changes to the CLs. By substitution of the highly conserved Glu-602 of TAP2 with residues that have different chemical properties, it was shown for the first time that the X-loop is a functional important element, which plays an key role in coupling substrate binding to downstream events in the transport cycle. We further verified domain swapping in the TAP complex by cysteine cross-linking. The TAP complex can be reversibly arrested either in a binding or translocation incompetent state by cross-linking of the X-loop to CL1 or CL2, respectively. These results resolve the structural arrangement of the transmission interface and point to different functions of the cytosolic loops in substrate recognition, signaling and transport.
In the present work, the photo-protection mechanisms in plants and purple bacteria were investigated experimentally at the molecular level. For this purpose, several spectroscopic methods were combined and applied to elucidate the function of carotenoids, pigments of the photosynthetic apparatus, in photo-protection. The experiments were focused on the mechanisms involved in quenching of singlet and triplet states of the electronically excited (bacterio)chlorophylls. This photosynthetic reaction events occur on an ultrafast time-scale. Measuring such short-lived events, and understanding the underlying principles, demand some of the most precise experiments and exact measurement technologies currently available. This implies certain requirements for the light source used: a suitable wavelength within the absorption band of the sample, sufficient power, and, most importantly, a pulse duration short compared to the studied reaction. Nowadays, we can achieve all this requirements using femtosecond-spectroscopic systems, which produce laser pulses shorter than 100 femtoseconds (fs). Transient absorption spectroscopy provides important information on molecular dynamics interrogating electronic transitions. The technique is based on photochemical generation of transient species with femtoseconds pump pulses and measuring transient absorption changes of the sample using a second, time delayed probe pulse which in this case is a spectrally broad white-light pulse.
Many highly active antitumour agents are currently not employable for the systemic chemotherapy of brain tumours since their entrance into the brain is blocked by the BBB. Obviously, the development of a strategy allowing effective delivery of these agents across the BBB would enormously extend the potential of the systemic chemotherapy. Chemotherapy of rat glioblastoma using nanoparticle-bound doxorubicin Doxorubicin bound to polysorbate-coated nanoparticles had been previously shown to significantly enhance survival in the orthotopic rat 101/8 glioblastoma model. The objective of this study was to investigate the therapeutic effects of this formulation by morphometric, histological and immunohistological methods. The 101/8 glioblastoma was implanted intracranially into the male Wistar rats. The animals were randomly divided into 3 groups; one group served as untreated control (n = 20). The second group received doxorubicin in solution (Dox-sol, n = 18), and the third group received doxorubicin bound to PBCA nanoparticles coated with PS 80 (Dox-NP + PS 80, n = 18). The treatment regimen was 3 × 1.5 mg/kg on days 2, 5, and 8 after tumor implantation. The formulations were injected into the tail vein. The untreated control animals were sacrificed on days 6, 8, 10, 12, and 14 after the implantation. The animals that had received chemotherapy were sacrificed on day 10, 14 and 18 after the implantation. The brains were investigated by morphometrical, histochemical, and immunohistochemical methods such as the measurement of the tumor size, proliferation of tumor cells, vessel density, expression of glial fibrillary acidic protein (GFAP), expression of vascular endothelial growth factor (VEGF), incidence and dimension of necrosis, and microvascular proliferation. Tumours showed signs of malignancy including invasion to brain tissue and brisk mitotic activity. The tumor proliferation remained stable at high levels throughout the host survival time. Overall, the tumor showed a reproducible growth pattern and temporal development that is comparable to human glioblastoma. Furthermore, the 101/8 glioblastoma had infiltrated diffusely the surrounding host brain at the edge of the solid tumor mass showed no signs of encapsulation. Thus the 101/8 glioblastoma fulfills the most criteria for an adequate glioma model and can be qualified as a reliable model. ...
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.
Presentation of intracellular processed antigens by major histocompatibility (MHC) class I molecules to CD8+ cytotoxic T lymphocytes is mediated by the macromolecular peptide loading complex (PLC). In particular accessory proteins, including the transporter associated with antigen processing (TAP) and tapasin, play a pivotal role in the MHC class I mediated antigen presentation pathway. TAP belongs to the ATP-binding cassette (ABC) superfamily and consists of TAP1 (ABCB2) and TAP2 (ABCB3), each of which possesses a transmembrane and a nucleotide-binding domain (NBD). The ER-resident glycoprotein tapasin promotes the optimal folding and assembly of MHC-peptide complexes, and independently stabilizes the steady state expression level of TAP. In the present thesis recombinant Fv, scFv and Fab antibody fragments to human TAP from a hybridoma cell line expressing the TAP1-specific monoclonal antibody mAb148.3, were generated. The epitope of the mAb148.3 was mapped to the very last five C-terminal amino acid residues of TAP1 on solid-supported peptide arrays. The recombinant antibody fragments were heterologously expressed in E. coli and insect cells, and purified to homogeneity by affinity chromatography. The monoclonal and recombinant antibodies display nanomolar affinity to the last five C-terminal amino acid residues of TAP1 as demonstrated by enzyme linked immunosorbent assay (ELISA) and surface plasmon resonance (SPR). Surprisingly, the recombinant antibody fragments confer thermal stability to the heterodimeric TAP complex in insect cells when incubated at elevated temperature. At the same time, TAP is arrested in a peptide transport incompetent conformation, although ATP and peptide binding to TAP are not affected. Furthermore, the recombinant antibodies were successfully used in the purification of the PLC from a human B-lymphoblastoid cell line and a novel factor, protein disulfide isomerase (PDI), was identified by matrix assisted laser desorption/ionisation-mass spectrometry (MALDI-MS). In the second part of this thesis the tapasin-MHC class I interaction was investigated. It is for this reason, that an in vitro assay had been established for direct measuring tapasin-MHC class I interactions. First, soluble single chain MHC class I molecules were engineered, choosing two MHC class I alleles: HLA-B4402 representing a highly tapasin-dependent allele and with HLA-B4405, a tapasin-independent allele was chosen. Tapasin as well as the two single chain MHC class I constructs, scB4402-b2m and scB4405-b2m, were expressed in insect cells and purified from insect cell supernatants by affinity chromatography. In contrast to the HLA-B4405 allele, which was expressed and secreted at moderate yield, the HLA-B4402 allele was expressed and trapped inside the insect cells instead of secreted into the medium. Peptide-binding and anisotropy measurements with fluorescein-labeled peptides verified the functionality of the scB4405-b2m. For further investigation of the tapasin-MHC class I interaction an in vitro assay was established using surface plasmon resonance spectroscopy. Due to the transient nature of the interaction including the decreased affinity of both interaction partners, kinetic data acquisition was difficult to evaluate. Furthermore, interaction of the scB4405-b2m with the sensor surface itself contributed to the measured interaction. Additionally, to investigate tapasin editing function, tapasin as well as the scB4405-b2m-peptide complex were tethered on fluid chelator lipid bilayers and monitored by reflectance interference (RIf) and total internal reflection fluorescence spectroscopy (TIRFS). Stable immobilization of scB4405-b2m-peptide complex as well as of tapasin was observed, unfortunately no changes in peptide dissociation kinetics monitored in the TIRFS channel were detected. Presumably, the tapasin-independent HLA-B4405 already loaded with a high affinity peptide is not influenced by the peptide-editing function of tapasin. Here, for the first time an in vitro assay was established for direct probing interactions within the various proteins of the PLC.
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. ...
Driving can be dangerous. Humans become inattentive when performing a monotonous task like driving. Also the risk implied while multi-tasking, like using the cellular phone while driving, can break the concentration of the driver and increase the risk of accidents. Others factors like exhaustion, nervousness and excitement affect the performance of the driver and the response time. Consequently, car manufacturers have developed systems in the last decades which assist the driver under various circumstances. These systems are called driver assistance systems. Driver assistance systems are meant to support the task of driving, and the field of action varies from alerting the driver, with acoustical or optical warnings, to taking control of the car, such as keeping the vehicle in the traffic lane until the driver resumes control. For such a purpose, the vehicle is equipped with on-board sensors which allow the perception of the environment and/or the state of the vehicle. Cameras are sensors which extract useful information about the visual appearance of the environment. Additionally, a binocular system allows the extraction of 3D information. One of the main requirements for most camera-based driver assistance systems is the accurate knowledge of the motion of the vehicle. Some sources of information, like velocimeters and GPS, are of common use in vehicles today. Nevertheless, the resolution and accuracy usually achieved with these systems are not enough for many real-time applications. The computation of ego-motion from sequences of stereo images for the implementation of driving intelligent systems, like autonomous navigation or collision avoidance, constitutes the core of this thesis. This dissertation proposes a framework for the simultaneous computation of the 6 degrees of freedom of ego-motion (rotation and translation in 3D Euclidean space), the estimation of the scene structure and the detection and estimation of independently moving objects. The input is exclusively provided by a binocular system and the framework does not call for any data acquisition strategy, i.e. the stereo images are just processed as they are provided. Stereo allows one to establish correspondences between left and right images, estimating 3D points of the environment via triangulation. Likewise, feature tracking establishes correspondences between the images acquired at different time instances. When both are used together for a large number of points, the result is a set of clouds of 3D points with point-to-point correspondences between clouds. The apparent motion of the 3D points between consecutive frames is caused by a variety of reasons. The most dominant motion for most of the points in the clouds is caused by the ego-motion of the vehicle; as the vehicle moves and images are acquired, the relative position of the world points with respect to the vehicle changes. Motion is also caused by objects moving in the environment. They move independently of the vehicle motion, so the observed motion for these points is the sum of the ego-vehicle motion and the independent motion of the object. A third reason, and of paramount importance in vision applications, is caused by correspondence problems, i.e. the incorrect spatial or temporal assignment of the point-to-point correspondence. Furthermore, all the points in the clouds are actually noisy measurements of the real unknown 3D points of the environment. Solving ego-motion and scene structure from the clouds of points requires some previous analysis of the noise involved in the imaging process, and how it propagates as the data is processed. Therefore, this dissertation analyzes the noise properties of the 3D points obtained through stereo triangulation. This leads to the detection of a bias in the estimation of 3D position, which is corrected with a reformulation of the projection equation. Ego-motion is obtained by finding the rotation and translation between the two clouds of points. This problem is known as absolute orientation, and many solutions based on least squares have been proposed in the literature. This thesis reviews the available closed form solutions to the problem. The proposed framework is divided in three main blocks: 1) stereo and feature tracking computation, 2) ego-motion estimation and 3) estimation of 3D point position and 3D velocity. The first block solves the correspondence problem providing the clouds of points as output. No special implementation of this block is required in this thesis. The ego-motion block computes the motion of the cameras by finding the absolute orientation between the clouds of static points in the environment. Since the cloud of points might contain independently moving objects and outliers generated by false correspondences, the direct computation of the least squares might lead to an erroneous solution. The first contribution of this thesis is an effective rejection rule that detects outliers based on the distance between predicted and measured quantities, and reduces the effects of noisy measurement by assigning appropriate weights to the data. This method is called Smoothness Motion Constraint (SMC). The ego-motion of the camera between two frames is obtained finding the absolute orientation between consecutive clouds of weighted 3D points. The complete ego-motion since initialization is achieved concatenating the individual motion estimates. This leads to a super-linear propagation of the error, since noise is integrated. A second contribution of this dissertation is a predictor/corrector iterative method, which integrates the clouds of 3D points of multiple time instances for the computation of ego-motion. The presented method considerably reduces the accumulation of errors in the estimated ego-position of the camera. Another contribution of this dissertation is a method which recursively estimates the 3D world position of a point and its velocity; by fusing stereo, feature tracking and the estimated ego-motion in a Kalman Filter system. An improved estimation of point position is obtained this way, which is used in the subsequent system cycle resulting in an improved computation of ego-motion. The general contribution of this dissertation is a single framework for the real time computation of scene structure, independently moving objects and ego-motion for automotive applications.
Hypoxic pulmonary vasoconstriction (HPV) redistributes pulmonary blood flow from areas of low oxygen partial pressure to areas of normal or relativity high oxygen availability, thus optimising the matching of perfusion to ventilation and preventing arterial hypoxemia. Generalised alveolar hypoxia results in a sustained increase in pulmonary artery pressure which in turn leads to structural changes in the walls of the pulmonary vasculature (pulmonary vascular remodelling). Recent findings have indicated a role for cytochrome P450 (CYP) epoxygenase-derived epoxyeicosatrienoic acids (EETs) in hypoxia-induced pulmonary vasoconstriction. Given that the intracellular concentration of EETs is determined by the soluble epoxide hydrolase (sEH), which metabolises EETs to their less active dihydroxyeicosatrienoic acids (DHETs), we assessed the influence of the sEH and EETs on pulmonary artery pressure, acute and chronic HPV, and pulmonary vascular remodelling in the mouse lung. In isolated lungs from wild-type mice, acute HPV was significantly increased by sEH inhibition, an effect abolished by pre-treatment with CYP epoxygenase inhibitors and the EET antagonist 14,15-EEZE. The acute hypoxia-induced vasoconstriction and EET production were greater in lungs from sEH-/- mice than from wild-type mice and sEH inhibition had no further effect on HPV in lungs from the former animals, while MSPPOH (CYP epoxygenase inhibitor) and 14,15-EEZE decreased the response. Exogenous application of 11,12-EET increased pulmonary artery pressure in a concentration-dependent manner and enhanced acute HPV in wild-type lungs, while 14,15-EET and 11,12-DHET were without significant effect on pulmonary artery pressure. 5-HT2A receptor antagonism or Rho kinase inhibition shifted the EET concentration-response curve to the right and abrogated the EET- and sEH inhibition-induced potentiation of acute hypoxic vasoconstriction. In lungs from wild-type and sEH-/- mice, hypoxic preconditioning (hypoxic ventilation for 10 minutes) enhanced the 5-HT response. 1-Adamantyl-3-cyclohexylurea (ACU), a sEH inhibitor, further amplified the hypoxia-induced 5-HT-hypersensitivity in wild-type mice. However, after hypoxic preconditioning, the sEH-/- lungs displayed a striking leftward shift in the 5-HT response. 11,12-EET can activate TRPC6 channels in endothelial cells by eliciting its translocation to the plasma membrane, more specifically to membrane domains enriched with the caveolae marker caveolin-1. This effect was also observed in rat pulmonary artery smooth muscle cells overexpressing the channel. Exposure of the latter cells to acute hypoxia also stimulated the intracellular translocation of TRPC6 to caveolae, an effect that was sensitive to the EET antagonist. The EET-induced translocation of TRPC6 channels was prevented by a 5-HT2A receptor antagonist but not by a Rho kinase inhibitor. Moreover, while acute hypoxia and 11,12-EET increased pulmonary pressure in lungs from TRPC6+/- mice, lungs from TRPC6-/- mice did not respond to either stimuli. These results indicate that the sEH and CYP-derived EETs are involved in acute HPV and that EET-induced pulmonary contraction under normoxic and hypoxic conditions involves a TRPC6 channel, a 5-HT2A receptor-dependent pathway and Rho kinase activation. In the second part of the study the role of the sEH in the development of pulmonary hypertension and vascular remodelling induced in mice by exposure to hypoxia (10% O2) for 21 days was analysed. In wild-type mice, chronic hypoxia decreased the pulmonary expression/activity of the sEH, induced right heart hypertrophy and erythropoiesis, and increased the number of partially and fully muscularised pulmonary resistance arteries (by 3-fold). Moreover, in HEK 293 cells, hypoxia (1% O2 up to 24 h) decreased sEH promoter activity by 50%. In isolated lungs, pre-exposure to chronic hypoxia significantly increased baseline perfusion pressures and potentiated the acute HPV. While an sEH inhibitor, ACU, potentiated acute HPV in lungs from mice maintained in normoxic conditions, it had no effect on HPV in lungs from mice exposed to hypoxia. The EET antagonist, 14,15-EEZE, abolished the sEH inhibitor-dependent increase in acute HPV in normoxic lungs and decreased HPV in chronic hypoxic lungs. Hypoxia-induced right heart hypertrophy and erythropoiesis were more pronounced in sEH-/- than in wild-type mice. Under normoxic and hypoxic conditions the muscularisation of resistance pulmonary arteries was greater in lungs from sEH-/- mice than in lungs from wild-type mice. sEH-/- mice also displayed an enhanced acute HPV, compared to that observed in wild-type mice and chronic exposure to hypoxia did not further potentiate acute HPV. However, in the presence of 14,15-EEZE responses returned to levels observed in normoxic lungs from wild-type animals. Furthermore, immunohistochemistry demonstrated an extensive expression of the sEH in the medial wall of pulmonary arteries from human donor lungs. Whereas sEH expression was not detectable in samples from pulmonary hypertension patients, indicating that the sEH is involved in hypoxia-induced pulmonary vascular remodelling and hypoxic pulmonary vasoconstriction. Taken together, the results presented in this thesis indicate that the expression/activity of the sEH is an important determinant of the magnitude of acute and chronic hypoxia-induced pulmonary vasoconstriction and pulmonary vascular remodelling by inactivating vasoconstrictor CYP-derived EETs. As sEH inhibitors are currently being developed for the treatment of human systemic hypertension, it should be noted that these compounds may even promote the development of pulmonary hypertension.
The mammary gland of mice serves as a model system for studying differentiation in an adult animal. With the beginning of pregnancy the mammary epithelial cells undergo functional differentiation to produce milk for nourishment of the young. The transcription factor STAT5 mediates the cytokine-induced induction of the milk proteins during pregnancy and lactation in response to the lactogenic hormone prolactin. In addition to transcription factors that mediate transcription of their target genes by recruitment of the general transcription machinery to the DNA-regulator regions, specific post-translational modifications on the N-terminal tails of histones also influence expression. These histone modifications can affect chromatin structure, which is a main control barrier to transcription, by directly altering accessibility of the chromatin and by providing binding surfaces for protein complexes that can further modulate chromatin structure and regulate transcription. In this work N-terminal histone modification marks that associate with open, permissive and repressed chromatin where investigated in different regions of two milk protein genes during mammary gland development. Using the chromatin-immunoprecipitation (ChIP) assays increased acetylation of histone H3 and H4 at the 5’ region, promoter and transcribed regions of β-casein and whey acidic protein (WAP) gene were observed during pregnancy and lactation when these genes are expressed. The presence of these histone marks, which are associated with a relaxed chromatin structure, correlates with the recruitment of STAT5A and STAT5B to the promoter containing regulatory regions as well as the detection of the phosphorylated RNA polymerase II in the transcribed gene region. Both di- and tri-methylation of histone H3 lysine 4, that mark permissive and active chromatin respectively, were enriched in tissue from pregnant and lactating mice. In comparison tri-methylation of histone H3 lysine 27, a mark associated with repressed chromatin, could be observed during all stages of mammary gland tissue investigated, but appears slightly elevated in the tissue from virgin mice when β-casein and WAP are not expressed. Together these results illustrate that the expression of the two milk proteins genes at distinct stages of mammary gland differentiation correlate with specific changes in histone modifications. In mammary gland tissue STAT5A is important for the mammary gland epithelial cell differentiation and survival during lactation. Yet many genomic target regions that STAT5A actually bind and which are involved in regulation of gene expression during lactation still remain unknown. Therefore, the second part of this thesis was focused on the identification of novel STAT5-binding sites that are differentiation specifically bound by STAT5A in mammary gland tissue during lactation. In summary, the results demonstrate that the ChIP cloning method was employed successfully for the cloning of a STAT5A library and the identification of new STAT5 targets in mammary gland tissue from lactating mice. Nine of the newly identified STAT5-binding targets were verified to differentiation specifically bind STAT5A and STAT5B in vivo during pregnancy and lactation. Even though the selection of the tested clones was biased towards STAT5-binding sites near or at known genes and for multiple STAT5 binding sites, only one out of the nine validated STAT5-binding regions is located in a traditional defined proximal promoter. Except for two STAT5-binding regions, which are located at least 10 kb from the next annotated known gene, six are located in the intronic regions of annotated mRNA or EST transcripts. Three, out of four verified STAT5-binding regions tested in reporter gene assays for functionality, display the ability to drive reporter gene activity in a STAT5 dependent manner. This transcriptional activity is due to the STAT5-binding sites within the cloned regions as determined by mutational analysis. Of special interest is a STAT5-binding region that contains one STAT5 and three STAT-like sites within a 339 bp region that is evolutionary conserved by approximately 80% between the mouse and human genome. This STAT5-binding region lies about 62 kb 5 prime of the nuclear factor I/B gene. The expression of the NFI/B mRNA transcript correlates with the in vivo association of STAT5A to the conserved region during the mammary gland differentiation. Together, these results suggest that this STAT5-binding might be a cis-regulatory region that potentially mediates STAT5 induced NFI/B gene expression in mice during lactation.
This thesis deals with the analysis of “presolar” silicates and oxides by high resolution mass spectrometry and electron microscopy techniques. This “stardust” was identified by its extreme oxygen isotopic anomalies, which point to nucleosynthetic reactions in stellar interiors, in the carbonaceous chondrite Acfer 094. Isotopic, chemical and mineralogical studies on these stardust grains therefore allow the testing of astrophysical questions on Earth, which are otherwise only accessible by spectroscopy and theoretical models. The class of presolar silicates has been identified only six years ago in 2002, although it was known already from spectroscopic observations that silicates represent the most abundant type of dust in the galaxy. The development of the “NanoSIMS” was a crucial step in this respect, because this ion probe with its superior spatial resolution of only 50 nm allowed the detection of the typically 300 nm sized presolar silicates. A total of 142 presolar silicates and 20 presolar oxides were identified within Acfer 094, whose matrix therefore contains 163 ± 14 ppm presolar silicates and 26 ± 6 ppm presolar oxides. This is among the highest amounts reported so far for any primitive solar system material. The majority of detected stardust grains derive from asymptotic giant branch stars of 1 – 2.5 Msun and close-to-solar or slightly lower-than-solar metallicity. However, by measuring the Si isotopic compositions of some enigmatic grains, it could be shown that there is a sub-class of presolar silicates characterized by an extreme enrichment of 17O and a moderate enhancement of 30Si relative to solar, whose origins might be explained by formation in binary stellar systems. About 10% of all grains exhibit an enrichment in 18O and some of them also of 28Si relative to solar, which most likely point to an origin in type II supernova explosions. The Si isotopic measurements also allowed to quantify the effect of the s-process on the Si isotopes in low-mass asymptotic giant branch stars. The results agree well with theoretical predictions. The grains were furthermore characterized by SEM and the chemistries of about half of the grains were determined by Auger electron spectroscopy. The majority of grain morphologies are consistent with what is expected from condensation experiments. However, a lot of grains are altered by Fe-rich minerals, which are either of primary condensation or of secondary ISM or solar nebula origin. Furthermore, complex presolar grains consisting of refractory Al-rich grains attached to silicate material could be identified, which have been predicted by condensation theory and observational evidence. Nine presolar silicates were analyzed by combined NanoSIMS/TEM studies. The majority of grains are Mg-rich and amorphous, which is in contrast to astrophysical evidence, which mainly postulate crystalline Mg-rich and amorphous Fe-rich circumstellar condensates. However, the grains might have been rendered amorphous by secondary processes in the ISM or could have condensed under non-equilibrium, low-temperature conditions in the circumstellar outflow. The grains are more likely characterized by a variable, pyroxene-like chemistry, which could be a result of sputtering in the ISM, which preferentially removes Mg. The detected crystalline presolar silicates in this study and in other work are all olivines, whereas grains with a pyroxene stoichiometry are all amorphous except one. This supports astrophysical models which point to different formation pathways for these two types of grains and therefore different crystallinity. However, the relatively high Fe content of three detected presolar olivines in this study and in other work is in contrast to astrophysical evidence and theoretical considerations, which predict essentially Fe-free crystalline grains. It is therefore possible that the infrared spectra might also be compatible with less Mg-rich olivines. The only crystalline presolar silicate with a pyroxene-like stoichiometry is the unusual grain 1_07: although it is chemically enstatite, the electron diffraction pattern could only be indexed to silicate perovskite, which is stable above ~23 GPa. The discovery of a high-pressure phase of presolar origin shows that dust grains encountering interstellar shocks might not necessarily be completely destroyed. In astrophysical models it is in principle also possible that a fraction of larger grains might survive such a shock wave encounter as a high-pressure modification, which is supported by this discovery.
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.
The development of benthic foraminiferal assemblages during the past 6,000 yrs was investigated in Holocene sediment cores from three carbonate platforms (Turneffe Islands, Lighthouse Reef, and Glovers Reef) of Belize, Central America. Foraminiferal assemblages and their diversity were determined in different time periods to identify their dependence on environmental factors, such as lagoonal age, lagoonal depth, water circulation, substrate, bottom-water temperature, and salinity. Geochemical proxies (δ18O and δ13C), obtained from the common larger foraminifer Archaias angulatus were used to estimate Holocene seasonal BW-temperatures and climate variabilities. A total of 51 samples were taken from 12 vibracores for taxonomic determination and 10 to 15 subsamples of 32 tests of Archaias angulatus were used for stable oxygen and carbon isotope analyses. Based on cluster analyses, seven benthic foraminiferal assemblages are distinguished during the Holocene. The three platforms exhibit characteristic differences in benthic foraminiferal fauna and diversity, which are controlled by their respective environments during the last 6,000 yrs. Turneffe Islands has four benthic foraminiferal assemblages, which are typical for restricted lagoons with fluctuating salinity. Lighthouse Reef is inhabited by two benthic foraminifera associations, which are characteristic of high water exchange with the surrounding ocean and clear waters. Glovers Reef is characterized by two benthic foraminiferal assemblages, which occur in deeper lagoons with slow water circulation. In general, during the Holocene, the highest mean diversity, evenness, and richness of benthic foraminifera were found in the Turneffe Islands and the lowest occurred at Glovers Reef. The foraminiferal faunas of the Lighthouse and Glovers Reefs had been in a “Diversification Stage” since 6,000 yrs, whereas the foraminiferal fauna of the Turneffe Islands reflects the development from a “Colonisation” (~4,000 yrs BP) to a “Diversification Stage” (~2,000 yrs to present time). Lagoonal depth, water circulation, substrate, and BW-temperature have higher influence on foraminiferal diversity as compared to lagoonal size and age. The negative correlation between diversity and lagoonal depth is based on differences in light intensity and substrate. In contrast to Lighthouse Reef, the Turneffe Islands and Glovers Reef show decreasing diversity of benthic foraminifera with increasing lagoon depth, due to finer sediment, turbid waters and/or dense mangrove growth, which reduce the light intensity and the number of species. Water Circulation also affected the benthic foraminifera modes of living and their diversity during the last 6,000 yrs. Increasing abundances of infaunal taxa refer to restricted circulation and/or lower oxygen conditions, as assumed for the Turneffe Islands and Glovers Reef. Increasing abundances of epifaunal foraminifera, as observed in the Lighthouse Reef indicate better circulation and/or higher oxygen conditions. Holocene BW-temperature reconstructions based on δ18O of single Archaias angulatus tests do not correspond to typical Holocene climate models of the Caribbean. In the Belize area, mean BW-temperature trends indicate local climate variations. A decrease of δ13C values during the last 1,000 yrs could be related to the “Suess Effect”. The seasonal BW-temperature variations within single large benthic foraminifera tests correspond to present-day temperature fluctuations in the lagoons, and indicate higher temperatures in Summer and Autumn and lower temperatures in Winter and Spring.
Cytochrome P450 epoxygenases of the 2C family (CYP2C) are highly expressed in the endothelium and metabolize arachidonic acid to different regioisomers of epoxyeicosatrienoic acids (EET). They have a number of roles in the regulation of vascular tone and homeostasis by activating different signal transduction pathways and have recently been reported to be involved in proliferation and angiogenesis. However, the exact mechanisms by which epoxygenases regulate angiogenesis are still unclear. Therefore, the initial aim of the present study was to characterize the relevance of major signalling molecules that are involved in angiogenesis and to investigate possible signalling pathways involved. Initially the effect of CYP2C9 overexpression on expression levels of EphB4, a tyrosine kinase that plays a role in a number of developmental processes, was investigated. EphB4 protein expression was increased in CYP2C9 overexpressing cells without any effects on expression levels of its ligand ephrinB2. To clarify whether EphB4 is a critical determinant of CYP2C9-induced angiogenesis, endothelial cell sprouting was assessed using a collagen gel-based in vitro angiogenesis assay. Following transfection with EphB4 antisense or scrambled oligonucleotides, capillary-like structures were clearly present after 24 hours in cells overexpressing CYP2C9, while EphB4 downregulation abolished CYP2C9-induced sprouting. In addition stimulation of human umbilical vein endothelial cells with VEGF resulted in an increase in CYP2C expression and a subsequent increase of 11,12-EET production; an effect that was abolished by the CYP epoxygenases inhibitor MSPPOH as well as when cells were infected with a dominant negative mutant of AMPK. In vivo 11,12-EET treatment increased EphB4 expression in mesenteric arteries as well as in Matrigel plugs; an effect that was abolished when plugs were impregnated at the same time with small interfering RNA (siRNA) for EphB4. Furthermore, impregnation of Matrigel plugs with VEGF resulted in endothelial cell and smooth muscle cell recruitment into a Matrigel plug and this effect was mediated by CYP2C9-derived EETs as it was prevented by 14,15-EEZE. When infiltration of EET impregnated plugs with endothelial cells and pericytes/smooth muscle cells in vivo was compared to the effects seen in VEGF treated plugs, it was apparent that only EET treatment resulted in the formation of tube like structures that were covered by smooth muscle cells. Therefore, the final aim of the study was to further define the consequences of EET signalling in vivo as well as to characterize its physiological relevance. This hypothesis could be assessed by isolectin injection through the tail-vein where isolectin was taken up only by the EET-impregnated plug. Moreover ultrasound measurements revealed accumulation of contrast agent in EET impregnated plugs compared to control plugs. Taken together our findings emphasize that CYP2C plays a crucial role in the vessel formation process by modulating the effects mediated by two important control elements of the angiogenic response, namely VEGF and EphB4. CYP2C-derived EETs not only participate as second messengers in the angiogenic response, but have the potential to influence much more than angiogenesis by enhancing smooth muscle cell/pericyte recruitment to endothelial cell tubes to promote vascular maturation.
In this thesis I have investigated the regulation of eicosanoid synthesizing-enzymes by cannabinoid receptor agonists. Rat renal mesangial cells were used as a model system. I could show that all three (CB1, CB2, and GPR55) cannabinoid receptors are expressed on the mRNA level in rat renal mesangial cells – but with differing expression profiles. The CB1 and GPR55 receptors are expressed in comparable amounts, whereas the CB2 receptor is considerably less expressed than the CB1 and the GPR55 receptors. Furthermore I could show that stimulation of renal mesangial cells with CB1 receptor agonists, such as R(+)MA or ACEA, increased IL-1β-induced cPLA2, sPLA2-IIa, and COX2 protein and mRNA expression which subsequently led to an enhanced IL-1β-induced PGE2 formation. Additionally, the IL-1β- induced sPLA2-IIa promoter activity was also increased by CB1 receptor stimulation. Besides the modulated expression of the eicosanoid synthesizing enzymes, I could show that CB1 agonists also led to an increase of IL-1β-induced iNOS expression and subsequent NO formation. In contrast, stimulation with CB2 selective agonists led to a decrease in IL-1β- induced sPLA2-IIa protein expression and PGE2 formation. Accordingly, the IL-1β-induced sPLA2-IIa promoter activity was also reduced by CB2 receptor agonists. IL-1β-induced iNOS expression and subsequent NO formation were not influenced by CB2 recptor activation. Matching the results I obtained with CB1 receptor agonists on IL-1β-induced PGE2 formation, I could observe an increased cPLA2 protein and mRNA expression with a subsequent increase in IL-1β-induced PGE2 formation by GPR55 stimulation. Stimulation with THC, an unselective CB agonist, increased the IL-1β-induced sPLA2-IIa protein expression and subsequently led to an enhanced IL-1β-induced PGE2 formation. Subjecting the cells to higher THC concentrations surprisingly led to a reduction of the IL-1b-induced sPLA2-IIa protein expression and PGE2 formation. A possible explanation may be the differential expression of the three CB receptors. At low concentrations THC may predominantly activate CB1 and GPR55 and with increasing concentration CB2 receptors may also be activated, slightly reversing the enhancing effect. Moreover, I could show that the CB1 receptor stimulation mediated phosphorylation and hence the activation of ERK1/2 MAPK. Additionally to ERK1/2, there was also a phosphorylation and activation of NFkB observed by CB1 receptor stimulation. In my thesis I could show for the first time that PPARα was activated by IL-1β in rMC. The IL-1β-induced PPARα promoter activity was completely inhibited by addition of the CB2 receptor agonist, JWH015. These findings were confirmed by inhibition of the IL-1β-induced PGE2 formation by a PPARα antagonist (MK-886). In summary, I could show that activation of CB1 receptors in our system led to a worsening of an inflammatory condition, whereas activation of the CB2 receptors led to the complete opposite; namely a reduction of the inflammatory response by reducing the sPLA2-IIa expression and PGE2 formation. GPR55 activation did not display any alteration of inflammatory conditions, since the classical inflammatory pathway was not influenced.
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.
The purpose of this study was to reconstruct the depositional environment, the genesis and the composition of Miocene coals in the Kutai Basin, East Kalimantan, Indonesia and to improve our understanding of the factors controlling the organic and inorganic composition, variation of biomarkers, and the peat forming vegetation of the coals. To achieve the aim methods belonging to three different disciplines were applied: 1. Coal petrology (chapter 3) 2. Inorganic geochemistry: sulfur, pyrite and mineral matter distributions (chapter 4) 3. Organic geochemistry of saturated, aromatic hydrocarbon fractions and stable carbon isotopic composition (chapter 5 and 6) Coal petrology Coal developes from peat deposited in mires, mainly in swamps and raised bogs. It is therefore necessary to consider how peat was formed in the past. Coal contains a variety of plant tissues in different degrees of preservation. Tissues of distinct origin are microscopically identifiable and can frequently be related to certain parts of the plant, such as cuticles, woody structures, spores, algal, resin, etc. Together with the particles of less certain origin they are termed macerals which are the petrographic components of coal. During and after deposition of plant remains in sedimentary basins, the organic matter will undergo a sequence of physical, biochemical and chemical changes, which finally results in the formation of coals of increasing rank depending mainly on the temperature influence. The process of coalification begins with practically unaltered plant material and peat, and continues with increasing rank through brown coal, bituminous coal, and finally to anthracite as well as graphite. Coal petrography provides valuable of data of maceral and mineral percentages with reflectance values, which can be used to reconstruct the depositional environment and the coalification processes. In lower rank coals, the material is represented by a group of macerals called huminite, and in bituminous and anthracite coals by a group of macerals called vitrinite. Coal petrography analyses have been carried out on samples from some Miocene coal seams from Kutai Basin. The study has shown that huminite reflectance values of coal samples from ...
The present study consists of two parts: The first part is made up of questions concerning the cognitive underpinnings of auditory verbal hallucinations in schizophrenia. As this thesis framed schizophrenia as a multivariate problem, neural correlates to auditory verbal and visual hallucinations were investigated in the second part. The main finding is that vividness of mental imagery was increased in all putative high-risk groups as well as the patients themselves, compared with low-schizotypy controls. Therefore, it seems that vivid imagery is a trait rather than a state marker, and may be related to the genetic liability to develop schizophrenia. However, no evidence was found for a linear relationship between vividness of mental imagery and predisposition to hallucinate. Self-reported imagery vividness and predisposition to hallucinate did not depend on psychomotor speed or intelligence. In addition, individual psychopathology ratings did not correlate significantly with the mental imagery scores. Furthermore, the analysis of the control orientation and the degree of dysfunctional psychopathological status across the schizophrenia spectrum, showed an independence of control orientation and dysfunctional status from each other, as well as from other markers of schizophrenia or schizophrenic-like individuals. As a conclusion, external control orientation seems to be a symptom or a trait marker of schizophrenia. The results lead to the assumption that, beside schizophrenic individuals, first-degree relatives and schizotypy controls have some impairments and visible signs without suffering from the illness directly. This would lead to the further assumption that the illness schizophrenia is not only genetic but also dependent on environmental factors. In the second part of the study, we investigated anatomical and functional brain abnormalities in the schizophrenia patients compared with first-degree relatives and healthy controls. Here, the results followed the continuum of healthy controls, first-degree relatives and schizophrenic patients in the functional and anatomical data sets, and in the language lateralization. The decrease of lateralisation correlated with the severity of symptoms in the patient group. The investigation of visual hallucinations showed activity in higher visual areas during the experience of visual hallucinations in a schizophrenia patient and in a blindfolded subject. The activity in higher visual areas followed the boundaries of category-selective areas in both subjects. In contrast to the memory-related areas found in the schizophrenic patient experiencing visual hallucinations, we did not observe memory-related areas during visual hallucinations induced by blindfolding. This suggests that the neural mechanisms underlying hallucinations in schizophrenia are at least partly distinct from those operational in cortical deafferentation. It is proposed that individual differences in psychopathology, as well as neuropsychological and psychosocial functioning may provide further means to understand the complex and highly dynamic aspects of hallucinations specifically and schizophrenia in general. The enlargement of the subject sample to high-schizotypy controls and first-degree relatives of patients allowed new insights into the mental imagery debate and the dysfunctional connectivity pattern known to be responsible for psychotic symptoms. Further topics of research are discussed.
Visual working memory (WM) and selective attention are fundamental cognitive mechanisms, both operating at the interface between perception and action. They are related because both are postulated to have limits with respect to how much information can be processed. Specifically, selective attention has been implicated as a limiting factor for the storage capacity of visual WM. However, visual WM and attention have been largely studied in isolation and interactions between the two have rarely been addressed. This dissertation aimed at investigating interactions between selective attention and the encoding of information into visual WM in the context of one common characteristic feature, namely their limitation in capacity. An experimental task was used that combined visual search with delayed discrimination and the demands on selective attention and WM encoding were manipulated orthogonally. In each trial participants were presented with a search array consisting of nine different grey geometric shapes. A small L-shaped item that appeared in one of four different orientations and that was coloured either blue or red was placed in the centre of each shape. Participants were instructed to search for predefined target items (Ls oriented 90°) and to memorise the shapes associated with these target items. After a delay phase a probe was presented and participants decided whether it did or did not match one of the memorised shapes. Attentional demand was manipulated by changing the search efficiency in the visual search component of the task (easy vs. difficult search) and WM load was manipulated by the number of targets (1 to 5). A behavioural study was conducted to isolate the processes that allowed participants to successfully encode complex shapes into WM while engaging spatial attention for a visual search task. The data provided evidence for a two-step encoding strategy. In the first step participants selected and memorised only the locations of all target items and only then they encoded the associated shapes at a later step. This strategy allowed them to cope with the interference between WM and attention that would otherwise take place. In the second part of this dissertation interference between visual attention and the encoding into visual WM was investigated on the level of neural activation using functional magnetic resonance imaging (fMRI). Specifically, the hypothesis was tested that the capacity limitation of visual WM is due to common limited-capacity neural resources shared by visual WM and attention. Two separate fMRI experiments were conducted that combined visual search and delayed visual discrimination for either objects (experiment 1) or locations (experiment 2). The results revealed overlapping activation for attention-demanding visual search and object WM encoding in distributed posterior and frontal regions. In the right prefrontal cortex and bilateral insula BOLD activation additively increased with increased WM load and attentional demand. Conversely, the analysis revealed an interaction effect in several visual, parietal, and premotor areas. These regions showed overlapping activation for the two task components and were severely reduced in their WM load response under the condition with high attentional demand. This interaction effect was found in similar frontal and posterior regions when combining visual search and spatial WM encoding in experiment 2. In contrast, regions in the prefrontal cortex were selectively responsive to WM load and differed to some degree depending on the WM domain. Here, activation associated with increased WM load was delayed rather than reduced under high attentional demand. The fMRI results provide convergent evidence that visual selective attention and the encoding of information into WM share, to a high degree, common neural resources. The findings indicate that competition for resources shared by visual attention and WM encoding can limit processing capabilities in distributed posterior brain regions but not the prefrontal cortex. The findings support the view that WM evolves from the recruitement of attentional mechanisms (Cowan, 2001; Wheeler und Treisman, 2002) the very same that act upon perceptual representations as well (Slotnick, 2004; Jonides et al., 2005; Pasternak and Greenlee, 2005; Postle, 2006; Ranganath, 2006). The similarity in the effects of interference between attention and the encoding of objects or locations into WM indicates that the attention-based model of WM encoding is valid across different WM domains. The capacity of visual WM can be limited at various stages of processing. The behavioural and fMRI data presented in this dissertation illustrate that one major bottleneck of information processing arises from the common demands on neural and cognitive resources shared between visual WM and selective attention during the encoding stage.
This dissertation is concerned with the phenomenon of intervention effects, observed in three different domains: wh-questions, alternative questions (AltQ) and Negative Polarity Item (NPI) licensing. I propose that these three domains share some common properties, namely, they all involve focus-sensitive licensing, and are thus sensitive to an intervening focus phrase. The overview of the dissertation is as follows. In chapter 2, I discuss the phenomenon of intervention effects in wh-questions, brought to light in the discussion of German in Beck (1996), and Korean in Beck and Kim (1997). The basic idea of their analysis is that quantifiers block LF wh-movement. I show that intervention effects are observed in many other languages, too, suggesting that the intervention effect has a universal character. I then point out some problems with the analysis proposed by Beck (1996) and Beck and Kim (1997). In chapter 3, I propose a new generalization of the wh-intervention effects, namely that the core set of interveners, which is crosslinguistically stable, consists of focus phrases (and not quantifiers in general). Furthermore, I argue that the wh-intervention effect is actually an instance of the more general intervention effect, the "Focus Intervention Effect", which says that in a focus-sensitive licensing construction, no independent focus phrase may intervene between the licensor Op and the licensee XP. The underlying idea is that the Q operator is a focus-sensitive operator and that wh-phrases in-situ are dependent (i.e., semantically deficient) focus elements, which must be associated with the Q operator in order to be interpreted. An intervening independent focus operator precisely blocks that association. I further propose that the domain of focus-sensitive licensing includes not only wh-licensing, but also AltQ-licensing and NPI-licensing. In chapter 4, I show that alternative questions are also subject to the focus intervention effect, just like wh-questions. I provide evidence that the intervention effect in wh-questions and in alternative questions should receive a parallel analysis, in terms of focus-sensitivity. In chapter 5, I discuss a third construction which is sensitive to the focus intervention effect: the licensing of Negative Polarity Items (NPIs). I show that focus consistently blocks NPI licensing, with data from German and Korean. I propose that NPIs are also semantically deficient focus elements, which need to be associated with a NEG operator. Finally, chapter 6 summarizes the intervention effects and suggests some topics for future research into the precise nature of the intervention effect.
Electron tomography was used to investigate membrane proteins in a variety of contexts. A high-angle tilt holder, suitable for electron tomography was designed, constructed and characterised. 2D crystals of membrane proteins, NhaA and YidC, were examined as a resolution test, and a method established for determining planarity of crystals. A model for specific gold binding to NhaA crystals was also presented. ATP synthase, a membrane protein complex in mitochondria, were imaged in a frozen hydrated state. They were found to form ribbons of dimers at highly curved regions of the membrane. Dimers from bovine heart and rat liver were excised from the tomographic volumes and averaged. Based on the location of the dimers in the mitochondrion, a model was established whereby ATP synthase, a molecular motor driven by the proton motive force, benefits from the high curvature that it induces in the membrane. Whole yeast mitochondria, imaged by electron cryo-tomography, also contained long ribbons of dimeric ATP synthase. Multiple copies of an unknown membrane protein complex were visualised by electron cryo-tomography, excised and averaged. A general method for the identification of unknown proteins was presented to deal with this inevitable issue, as native tissues and organelles are imaged, and the structures of complexes determined in situ.
The research presented in this thesis characterizes U2AF homology motifs (UHM) and their interactions with UHM ligand motifs (ULM) in the context of splicing regulation. UHM domains are a subgroup of RNA recognition motifs (RRM) originally discovered in the proteins U2AF65 and U2AF35. Whereas canonical RRMs are usually involved in binding of RNA, UHM domains bind tryptophan containing linear protein motifs (ULM) instead. In the first article, we analyze the complex network of interactions between splicing factors and RNA that initiate the assembly of the spliceosome at the 3´ splice site of an intron. The protein U2AF65 binds a pyrimidine-rich element in introns and recruits U2snRNP by binding its protein component SF3b155. My contribution was to define the binding site of the protein U2AF65 to the intrinsically unstructured N-terminus of the scaffolding protein SF3b155. I could show that the UHM domain of U2AF65 recognizes a ULM in SF3b155, and that this binding site is not overlapping with the binding sites of other splicing factors, like p14, to SF3b155. As the U2AF65-UHM:SF3b155-ULM interaction is mutually exclusive with an interaction between U2AF65-UHM and a ULM in the splicing factor SF1, which was reported to initially recognize the branch point sequence, my results provide the molecular details on how SF3b155 replaces SF1 during spliceosomal reorganizations. In the second article, we show that overexpression of the UHM domain of the splicing factor SPF45 induces exon 6 skipping in the pre-mRNA of Fas (CD95/APO-1). I provide evidence for in vitro binding of SPF45-UHM to ULM sequences in the splicing factors U2AF65, SF1, and SF3b155. I crystallized free and SF3b155-bound SPF45 UHM and solved both structures by X-ray crystallography. The analysis of the complex interface and sequence differences in the ULMs allowed me to design mutations of SPF45-UHM, which selectively inhibit binding to distinct ULMs. After assessing the ULM binding properties in vitro, we could show that the activity of SPF45-UHM in influencing the splicing pattern of Fas relies on interactions with SF3b155 and/or SF1, but that an interaction with U2AF65 is dispensable. A mechanism for the activity of SPF45-UHM could thus be engaging in ULM interactions and thus interfering with the network of interactions that initiate the assembly of the spliceosome at the 3´splice site, as described above. In the third article, we describe an unusual flexible homodimerization mode of the UHM in the splicing factor Puf60, which enables simultaneous interactions with ULM sequences on other splicing factors. I could show that the NMR relaxation properties of Puf60-UHM are inconsistent with a model of a rigid dimer, but rather indicate a dimerization via a flexible linker. I identified a flexible loop in the peptide backbone of Puf60-UHM, and showed that mutiation of acidic residues in this loop impairs the dimerization. To analyze the dimerization interface in further detail, I solved the structure of Puf60-UHM by X-ray crystallography. The acidic residues in the flexible loop of one UHM dimer subunit mediate the dimerization by contacting basic residues on the β-sheet surface of the other dimer subunit. Differences in the four dimer interfaces observed for the eight molecules in the asymmetric unit of the crystal support the model of an undescribed, flexible mode of dimerization, and thus complement the NMR relaxation data. Furthermore, I could show that the Puf60-UHM dimer and U2AF65-UHM contact different ULM sequences on the SF3b155 N-terminus in vitro, thus providing a possible explanation for the mutual cooperative activation of Puf60 and U2AF65 in splicing assays described in the literature. The fourth article is a review about recent research on the recognition of DNA double strand breaks (DSB) by covalent histone modifications. The p53 binding protein 1 (53BP1) is a DSB sensor and a checkpoint protein for mitosis. Recent crystallographic evidence indicates that 53BP1 recognizes DSB sites by binding histone H4 dimetylated at lysine 20 (H4-K20). We provide a comprehensive overview of the atomic resolution structures that revealed how proteins can specifically recognize histone tail modifications, especially methylated lysines, to read the information stored in what is called the histone code.
The focus of this thesis has been to further advance and develop existing NMR techniques for the study of protein folding. In order to do so, experimental as well as theoretical approaches have been pursued. From the theoretical side, a successful attempt to the development of a general theory for the treatment of residual dipolar couplings in the case of unfolded proteins has been undertaken. Information contained in residual dipolar couplings is especially valuable due to its long-range nature. The dynamic character of unfolded states of proteins, which may be composed of distinct subsets of conformations, renders reliable interpretation of data a non-trivial task. Statistical-coil-based approaches have been shown to be powerful in data interpretation. A consistent theory based on fundamental polymer physics, however, had not been presented so far. The herein presented model addresses this problem building on the original work by Annila and co-workers. In this work, several shortcomings have been identified. These shortcomings have been corrected here leading to a general approach for the treatment of residual dipolar couplings of unfolded proteins. More specifically, it is shown that, in the case of fully unfolded proteins aligned by a steric mechanism, basic dependencies of dipolar couplings such as on chain length and location with in the chain can be analysed in simple analytical terms. The main predictions of the model are compared to experimental data showing reasonable agreement. The presented mathematical framework is principally suited for various improvements which could include the treatment of long-range interactions and of the actual geometry of the given aligment medium. From the experimental side, bovine alpha-lactalbumin has been chosen as a model system for the development of improved time-resolved 1D NMR methods aiming at the observation of conformational transitions by kinetic means. The presented results show that high-quality data can now be obtained at protein concentrations as low as 100uM. Rate constants characterising distinct conformational transitions of up to 8/s have been measured. These are the fastest rate constants which have been reported so far for protein folding events. The NMR data supplemented by complementary biophysical data furthermore demonstrate that the folding of bovine alpha-lactalbumin is more complex than has been anticipated. All data are consistent with a triangular folding mechanism involving parallel pathways of folding for formation of the native state of the protein. Interestingly, such a folding mechanism has also been found for the highly structurally homologous protein lysoyzme from hen egg white. Evidence is presented that the guiding role of long-range interactions in the unfolded state of lysoyzme for mediating intersubdomain interactions during folding is replaced in the case of bovine alpha-lactalbumin by the Ca2+ binding site.
Life-threatening fungal infections are becoming increasingly common for immunocompromised patients such as those with AIDS, or those undergoing organ transplantation or chemotheraphy, as well as for other health-vulnerable patients. Excellent targets for antifungal drugs are chitin synthases, which are essential for survival of the fungus and lacking in humans. To design new antifungal drugs, knowledge of the three-dimensional structure and mechanism of action of chitin synthases are crucial. Chitin synthases are members of an important family of enzymes that synthesize structural polysaccharides, such as cellulose, β(1,3)-glucan, β(1,4)-mannan and hyaluronan. Therefore, chitin synthases could be used as a model system to understand these more complex enzymes, which are also of major medical and commercial importance. Chitin synthase 2 from Saccharomyces cerevisiae (ScChS2), the protein under study, is an integral membrane protein that synthesizes the primary septum between mother and daughter cells in budding yeast. It is essential for proper cell separation and expected to be highly regulated. An important aspect is that ScChS2 shows 55% sequence identity and is functionally analogous to chitin synthase 1 from the human opportunistic pathogen Candida albicans, this enzyme is also essential for cell survival (Munro, Winter et al. 2001). ...
Self-inactivating gammaretroviral vectors for the gene therapy of chronic granulomatous disease
(2008)
Chronic granulomatous disease (CGD) is a rare inherited primary immunodeficiency characterized by defective intracellular oxidative killing of ingested invading microbes by PMN and monocytes. It is caused by mutations in one of the four genes coding for the essential subunits of the NADPH oxidase (gp91phox, p47phox, p67phox and p22phox). Approximately 75% of the CGD cases are due to mutations in the gp91phox gene. If regular care and conventional therapy fail, the recommended therapy is allogeneic bone marrow transplantation (BMT), but only if a matched donor is available. A therapeutic option for patients lacking suitable donors is the genetic modification of autologous hematopoietic stem cells. The gene therapy offers an interesting alternative to BMT since it implies a less invasive treatment and represents a possibly unique curative option for patients with no suitable donor. Gammaretroviral vectors were already used in some gene therapy trials for CGD and other immunodeficiencies showing relevant clinical benefit. However, these trials uncovered an unexpected mutagenic side effect. If the retrovial integration ocurrs near to, or into proto-oncogenes this might lead to clonal dominance or even malignant transformation (Hacein-Bey-Abina et al., 2003a; Ott et al., 2006). Therefore, there was a need to further improve the safety of these vectors and to this end the self-inactivating gammaretroviral vectors were engineered. Non essential sequences for virus infectivity and integration, which might influence the surrounding gene expression, were deleted in these vectors. In the first set of experiments, a series of SIN gamma retroviral vectors was cloned driving the expression of the wild-type gp91phox cDNA under the control of a viral constitutive SFFV promoter. However initial studies with these vectors failed because the titers of the virus produced by transient transfection protocols were extremely low (<5x105 TU/ml). Therefore, a codon optimization of the gp91phox cDNA was considered as an alternative. The codon optimized synthetic gp91phox gene was used to construct a SIN gammaretroviral vector, again under the control of the SFFV promoter (Schambach et al., 2006c). With this vector an increase in titer was observed compared to the native gp91phox sequence, which was due to the improved transcription in 293T transfected cells. The enhancement of the synthetic gp91phox transcription led to a higher internal transcript production and protein expression. An enhanced superoxide production in transduced myelomonocytic X-CGD PLB-985 populations was also detected. All these data indicate that the synthetic gp91phox might represent an excellent alternative to those former constructs expressing the native gp91phox transgene. Since it was postulated that the SFFV promoter could still cause transactivation of neighboring genes due to its strength (Modlich et al., 2006), three different non-viral promoters were tested, one constitutive (the EFs promoter) and two myeloid-specific promoters (the c-fes and MRP8 promoter). The three SIN gammaretroviral vectors were able to generate high titers after transient transfection of 293T packaging cells, to efficiently transduce the X-CGD PLB-985 cell line and to reconstitute the NADPH oxidase activity to a high degree. In mouse transplantation experiments, the EFs promoter showed a high variable transgene expression in the different lineages analyzed, and the c-fes promoter showed also a ubiquitinous expression. In contrast, the MRP8 promoter showed a high myeloid specificity since gp91phox expression in mSca-1+ cells and lymphoid B cells from transplanted mice was extremly low and even absent. However, the lowest levels of transgene expression were observed in the myeloid populations both in bone marrow and peripheral blood with this vector. When the oxidase reconstitution ability of these promoters was tested, the numbers of superoxide producing cells obtained were similar than those observed in the clinical X-CGD trial conducted by the groups of Dr. M. Grez and Prof. R. A. Seger (over 35% in one patient and ~15% in the second), which led to the eradication of therapy refractory infections (Ott et al., 2006). Between the three constructs, the MRP8 promoter was less effective in restoring the NADPH oxidase activity than the EFs and c-fes promoters. The c-fes promoter reached the highest levels of DHR reactive cells in the highest number of mice. Overall, these data showed that between all constructs tested, the c-fes containing construct in combination with the codon optimized gp91phox sequence showed the best performance within the SIN gammaretroviral backbone. It generated the highest titers in combination with a better NADPH oxidase reconstituting ability. One main goal in the development of SIN gammaretroviral vectors is reducing the genotoxic effect due to random vector integration. An improved gene transfer and expression, and a constant performance are also highly desirable. The present study shows that the c-fes SIN vector in combination with the synthetic gp91phox may be considered as an effective gene therapy strategy for the restoration of the NADPH oxidase activity in CGD. It allows the use of a cellular promoter generating adequate physiological levels of the therapeutic protein and reduces the number of vector copies required for a therapeutic effect.
Conclusion Scale Integration Based on the results of spike-field coherence, the underlying process of shortterm memory seems to involve networks of different sizes within and, most probably, beyond prefrontal cortex. Spikes, which were generated by single neurons, cooperate with local field potentials, which were the slower fluctuations of the environment. Although differences among behavioral conditions appear to be based on rather few instances of phase-locked spikes, the task-related effects on spike-field coherence are highly reliable and cannot be explained by chance, as the comparison of results from experimental and simulated data shows. The differential locking of prefrontal neuron populations with two different frequency bands in their input signals suggests that neuronal activity underlying short-term memory in prefrontal cortex transiently engages cortical circuits on different spatial scales, probably in order to coordinate distributed processes. NeuroXidence method and Synchronizedfiring Based on the results of the calibration datasets, for bi- and multi-variate cases, the extension of NeuroXidence remains its sensitivity and reliability of detecting coordinate firing events for different processes. Based on this extension of NeuroXidence, we demonstrated that in monkey’s prefrontal cortex during short-term memory task, encoding and maintenance of the information rely on the formation of neuronal assemblies characterized by precise and reliable synchronization of spiking activity on a millisecond time scale, which is consistent with the results from spike-spike coherence. The task and performance dependent modulation of synchrony reflects the dynamic formation of group of neurons has large effect on short-term-memory.
Development of chromium(VI)-free defect etching solutions for application on silicon substrates
(2008)
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.
Determination of the distribution of halocarbons in the tropical upper troposphere and stratosphere
(2008)
The aim of this thesis was to investigate distributions of 32 volatile chlorinated and/or brominated halocarbons that are currently believed to be present in the tropical upper troposphere and stratosphere and to contribute to stratospheric ozone depletion and also to global warming. For this purpose an analytical system was established, which is capable to measure ultra-low concentrated atmospheric trace gases. A quadrupole Mass Spectrometric (MS) Detector was attached to an existing Gas Chromatograph with pre-concentration system and Electron Capture Detector (ECD). The characterisation of the chromatographic system was significantly enhanced by the subsequent identification of 48 additional volatile organic compounds. Furthermore a Gaussian fit algorithm, which was developed in the workgroup, was applied to the chromatographic signals. This algorithm was proven to reflect peaks quantitatively and to enhance the performance of the integration process – especially the reproducibilities for peaks with a low signal to noise ratio. As it is known that the Electron Capture Detector responds nonlinear the new MS detector was checked for such behaviour and found to respond linear. In logical consistency the complete quantification process including e.g. pre-concentration of trace gases and signal integration can be considered as linear responding within the investigated parameter ranges. Moreover, the long term stability of the targeted halocarbons was proven inside the calibration standard containers over a period of 25 months. Many substances were also found to be stable inside the containers used for storage of air samples but a number of substances showed significant concentration changes. These were mainly CH3Cl (methyl chloride), CH3Br (methyl bromide), CH2Cl2 (dichloromethane), CHCl3 (chloroform), CCl4 (tetrachloromethane), C2Cl4 (tetrachloroethene), CH3CCl3 (methyl chloroform), CH2ClCH2Cl (1,2-dichloroethane) und C2H5Cl (chloroethane). But the number of affected substances and also the corresponding concentration changes varied between the individual containers. A systematic investigation of the influence of possible causes (e.g. air sampling methods, container materials) is recommended. Results from both internal detectors were compared and revealed biases and disadvantages of the ECD caused by its lower selectivity and its nonlinear response behaviour. Consequently the MS detector was chosen for the quantification of atmospheric trace gases. The quantification process was performed relative to externally calibrated air standards. To assess the uncertainties connected with different absolute calibration scales cross-comparisons between calibration standards of three different laboratories were carried out. Most substances’ calibrations agreed within the measurement uncertainties but significant differences were observed for CF2ClBr (H1211), CH3Cl (methyl chloride), CH2Cl2 (dichloromethane), CHCl3 (chloroform), CCl4 (tetrachloromethane) and CH3CCl3 (methyl chloroform). As five of these substances were also observed to show concentration changes inside sample containers it is likely, that such changes are responsible for calibration differences. In addition to the detailed assessment of uncertainties connected with the analytical quantification process a set of air samples was available for measurements. These samples mainly originated from the upper troposphere and lower and middle stratosphere in the tropics and the determined halocarbon quantities were used to investigate their distributions in the respective atmospheric regions. In detail, the altitudinal distributions and interrelations of 17 long-lived halocarbons in the tropical stratosphere were determined and compared with those of other stratospheric regions. Tracer-tracer-correlations of these substances in the tropical stratosphere were found to differ from those in mid- and high-latitudes. Characteristic fit functions relative to CF2Cl2 (F12) which are valid for the tropical stratosphere in 2005 were derived as well as time-independent fit functions of fractional release factors (FRFs) relative to the mean age of air. Both sets of correlations could be used for the parameterisation and evaluation of models and also to reassess the Global Warming Potentials (GWPs) of the corresponding halocarbons which might affect future climate predictions. However, the data set on halocarbons in the tropical stratosphere is still insufficient to investigate the variability of tracer-tracer-correlations and FRFs caused by dynamical and photochemical processes. Therefore it is important for future research to perform additional measurements there and – if possible – to extend the measurements to the upper tropical stratosphere in order to characterise the sink of those halocarbons that are still present in these altitudes. In addition, the amount of chlorine and bromine present in the form of organic compounds inside and above the main stratospheric entrance region (the Tropical Tropopause Layer, TTL) was quantified in the frame of a case study. This was possible because of a cooperation with scientists from the University of East Anglia which carried out measurements of six additional halocarbons leading to a total of 28 quantified target substances. Ten of these substances have short atmospheric lifetimes compared with the mean transport times of tropospheric air to the stratosphere (i.e. lifetimes below 0.5 years) and show non-uniform distributions in the upper troposphere. The contribution of these substances to stratospheric ozone depletion is subject of an ongoing scientific debate. In the performed case study a fraction range of short-lived halocarbons of 6 – 8 % (0.98 – 1.25 ppt) relative to the sum of bromine from organic substances and of 1.1 – 1.4 % (36.6 – 47.1 ppt) for the corresponding sum of chlorine was calculated to enter the stratosphere above Brazil in June 2005. Moreover by combining the data with tropospheric reference data and age of air observations the abundances of inorganic chlorine and bromine (Cly and Bry) were derived. At an altitude of 34 km an amount of 3062 ppt of Cly and 17.5 ppt of Bry from organic source gases was calculated. The latter is significantly lower than Bry mixing ratios inferred from quasisimultaneous BrO measurements at 33 km altitude above Brazil (Dorf, 2005, Dorf et al., 2008). But at the University of East Anglia indications for the presence of unknown brominated organic substances in the TTL were found which might cause this difference. Finally, a major result of this thesis adds to the knowledge of the composition of the troposphere as three Chlorofluorocarbons (CFCs) were first observed. Trifluorochloroethene, 3-chloropentafluoropropene and 4,4-dichlorohexafluoro-1-butene were found in air samples collected at the Taunus Observatory near Frankfurt (Main) and the Jungfraujoch High Altitude Research Station in Switzerland (Laube and Engel, 2008). Identification was possible because of an air plume containing high concentrations of these substances. It is suggested that the abundances found on this occasion originated from a local source. The atmospheric lifetimes of these substances are expected to be rather short as they contain a double bond. A quantitative calibration could only be derived for trifluorochloroethene but not for the other species by now. Thus, a relative sensitivity method was derived to get a first indication of the observed atmospheric abundances. All three CFCs could also be detected in air masses representative of background conditions, though with much lower concentrations. These species and some of their degradation products are toxic and could also be relevant for stratospheric and tropospheric ozone depletion. It is important to find out more about their atmospheric distributions, lifetimes, sinks and sources and their ability to reach the stratosphere to assess their possible influence on the global atmosphere. This will be done in the frame of the project "CLEARFOGG – Checking Layers of the Earths AtmospheRe For halogenated Ozone-depleting and Greenhouse Gases". This research project aims to perform a systematic scan of the atmosphere because there are indications for the presence of a number of halogenated organic compounds which are unknown by now. It was recently decided to be funded by the British National Environmental Research Council and will be carried out at the University of East Anglia mainly by the author of this thesis.
Prion diseases or transmissible spongiform encephalopathies (TSEs) are rare neurological disorders that may be of genetic or infectious origin, but most frequently occur sporadically in humans. Their outcome is invariably fatal. The infectious agent has been defined as prion (from proteinaceous infectious only) in 1992 by Stanley B. Prusiner and represent mainly, if not solely, an abnormal, protease-resistant isoform (PrPSc) of a cellular protein, the prion protein or PrPC. According to the “protein only” hypothesis, the prion is devoid of informational nucleic acids and consists of an “infectious” protein that is capable of converting the normal host protein PrPC into a likeness of itself. TSEs can be distinguished from other neurodegenerative diseases because of their infectivity and transmission capability. The only organ system in which severe histopathological damage can be demonstrated as a consequence of infection with prions is the nervous system. The communal lesions are neuronal loss, spongiosis and astrogliosis, accompanied by an intra- and extracellular accumulation of PrPSc, occasionally in form of amyloid plaques. Even if a strong activation of microglia and astrocytes occurs, no immunological response is usually detectable as consequence of prion infection. Despite the considerable attention for its involvement in TSEs, the physiological role of the cellular, nonpathogenic isoform of PrPC, has not yet been determined. In the last years, several putative cellular functions have been attributed to PrPC: its localization in “lipid rafts” is consistent with a possible role in cell adhesion, transmembrane signalling or as a recognition molecule. Furthermore, PrPC has been implicated in protection against oxidative stress, copper metabolism, apoptosis, cell proliferation and in the regeneration of blood precursors stem cells in the adult. It has also been shown that PrPC interacts with the neuronal cell adhesion molecule NCAM, promoting neurite outgrowth. However, both the PrPC-mediated effects and the role of PrPC-dependent pathways on neuronal differentiation are still not elucidated. First objective of this Ph.D thesis was the establishment of a novel in vitro cellular model for the study of the role of PrPC in neuronal differentiation and neurite outgrowth. Furthermore, an additional goal of this project was the indentification of the PrPC domains responsible for the induction of neuronal differentiation. A novel PrPC-depleted cell line (PrP0/0 ML) was derived from murine primary PrP-knockout neuronal cells by SV40 large T antigen-mediated immortalization. A temperature sensitive form of this oncogenic protein was used, allowing a temperature-mediated regulation of its expression. This cell line was then characterised for its growth potential, for the expression of specific cellular markers and for its ability to differentiate. It was found that, under culture conditions promoting the expression of the temperature-sensitive SV40 large T antigen, the cells expressed nestin, a specific marker of neuronal precursor cells. Therefore, the PrP0/0 ML cell line was identified as a potential neuronal stem cell line. In fact, under nonpermissive culture conditions when the expression of the temperature-sensitive SV40 large T antigen is downregulated, the PrP0/0 ML cells differentiated into neurons. Noteworthy, maintenance of the cells in conditions that promote cell differentiation induced a progressive reduction in the expression levels of nestin, an event that strongly correlated with the appearance of the specific neuronal markers MAP-2b and NeuN. In order to investigate the role of PrPC in the process of neuronal differentiation, the PrP0/0 ML cells were then reconstituted for the expression of either the full-length PrP or a N-terminal truncated PrPC form (PrPdel32-134). The differentiation potential of both reconstituted cell lines under nonpermissive culture conditions was then compared with that of the parenteral PrP0/0 ML cells. This in vitro study clearly highlights that PrPC expression in the PrP0/0 ML cell line accelerates neuronal differentiation and that the N-terminal domain of the prion protein is not necessary for this PrP-mediated function. Prion diseases like BSE, vCJK, Kuru and the majority of iatrogenic cases of CJK are caused by a peripheral infection. Infectious prions accumulate in the central and peripheral nervous system as well as in extracerebral tissues, such as the secondary lymphoid organs and muscles. The prion pathogenesis is a dynamic process which can be defined temporary and spatially in different phases: i) infection and peripheral replication, ii) neuroinvasion, transport of prions from the periphery to the central nervous system (CNS), and iii) neurodegeneration. In the last years, progresses in the elucidation of the peripheral prion pathogenesis were achieved. The identification of the cell types involved in the lymphoreticular prion replication phase and the recognition of the role of the peripheral nervous system in the process of prion spread from the periphery to the CNS have elucidated some of the cellular mechanisms that are involved in prion uptake, replication and propagation. However, relatively little information is available about the mechanism(s) underlying intercellular prion transfer and tissue-to tissue prion spread. Microvesicles (MVs) are submicron vesicles (0,03-1 microm.) with a single membrane and are shed from most eukaryotic cells undergoing activation or apoptosis. The segregation of specific proteins is followed by blebbing of the membrane surface, leading to the formation of MVs and their release in the extracellular environment. MVs can be also secreted upon fusion of multivesicular endosomes with the plasma membrane (exosomes). The secretion of MVs is the result of a complex cellular process involving changes in the metabolism of lipids and proteins. The functional role of MVs is still largely unknown. However, there is evidence showing that they are important modulators of cell-to-cell communication, participate in a variety of intracellular adhesion processes and are able to induce cellular response(s). The release of PrPC and infectious PrPSc by prion infected epithelial, neuroglial and neuronal cells in association with exosomes has recently been highlighted. Furthermore, it has been shown that exosomes can propagate prion infectivity both in vitro and in vivo, suggesting that PrPSc-bearing exosomes may provide a mechanism for intercellular transmission of infectious prions in addition to cell-to-cell contact. Second objective of this Ph.D thesis was to determine the possible role of plasma membrane-derived microvesicles in the propagation and transmission of prions. The release of MVs was first studied in different murine neuronal cell lines. Here it is shown for the first time that neurons also shed plasma membrane derived MVs, in addition to exosomes. Immunoelectron microscopy and immunoblot analyses clearly demonstrated the presence of PrPC on the membrane of MVs released from PrPC-expressing cells. Characterization of lipid rafts components in MVs highlighted the presence of the ganglioside GM2, the tyrosine kinase p59Fyn, flotillin-2 and the neuronal protein GAP-43. In order to investigate whether MVs are involved in the intercellular transmission of prions, MVs were first isolated from two prion infected murine neuronal cell lines, namely the Neuro-2a PK1 and the N2a58 cells, and then used for in vitro and in vivo infection assays. Immunoblot analyses after proteinase K treatment demonstrated the association of PrPSc with the secreted MVs. The PrPSc-bearing MVs were then used to perform infection experiments on noninfected cells. By the use of cell blot assay, a method that allows the detection of PrPSc-amplification and -accumulation in cultured cells, the kinetic of prion infection in the de novo infected cells was followed. Noteworthy, it was found that PrPSc-bearing MVs were capable to transmit prions in vitro and to stably infect the recipient cells. In order to investigate the role of MVs in the transmission of infectivity in vivo, PrPSc-bearing MVs as well as MVs isolated from noninfected cells (as negative control) were injected intracerebrally in PrPC-overexpressing indicator mice (tga20). The development of clinical disease was followed in a time-dependent manner. Clinical symptoms could be observed only in the group of indicator mice inoculated with the PrPSc-bearing MVs, which then succumbed to desease. These findings clearly demonstrated that MVs are biological carriers of both PrPSc and prion infectivity. MVs could therefore participate in vivo in the processes of intercellular prion transmission and propagation.
Reggie-1 (flotillin-2) and reggie-2 (flotillin-1) are membrane microdomain proteins which are associated with the membrane by means of acylation. They influence different cellular signaling processes, such as neuronal, T-cell and insulin signaling. Upon stimulation of the EGF receptor, reggie-1 becomes phosphorylated and undergoes tyrosine 163 dependent translocation from the plasma membrane to endosomal compartments. In addition, reggie-1 was shown to influence actindependent processes. Reggie-2 has been demonstrated to affect caveolin- and clathrin-independent endocytosis. Both proteins form homo- and hetero-oligomers, but the function of these oligomers has remained elusive. Moreover, it has not been clarified if functions of reggie-1 are also influenced by reggie-2 and vice versa. The first aim of the study was to further investigate the interplay and the heterooligomerization of reggie proteins and their functional effects. Both reggie proteins were individually depleted by means of siRNA. In different siRNA systems and various cell lines, reggie-1 depleted cells showed reduced protein amounts of reggie-1 and reggie-2, but reggie-2 knock down cells still expressed reggie-1 protein. The decrease of reggie-2 in reggie-1 depleted cells was only detected at protein but not at mRNA level. Furthermore, reggie-2 expression could be rescued by expression of siRNA resistant wild type reggie-1-EGFP constructs, but not by the soluble myristoylation mutant G2A. This mutant was also not able to associate with endogenous reggie-1 or reggie-2, which demonstrates that membrane association of reggie-1 is necessary for hetero-oligomerization. In addition, fluorescence microscopy studies and membrane fractionations showed that correct localization of overexpressed reggie-2 was dependent on co-overexpressed reggie-1. Thus, hetero-oligomerization is crucial for membrane association of reggie-2 and for its protein stability or protein expression. Moreover, the binding of reggie-2 to reggie-1 required tyrosine 163 of reggie-1 which was previously shown to be important for endosomal translocation of reggie-1. Since reggie-2 was implicated to function in clathrin- and caveolin-independent endocytosis pathways, the effect of reggie-2 depletion on reggie-1 endocytosis was investigated. Indeed, reggie-1 was dependent on reggie-2 for endosomal localization and EGF-induced endocytosis. By FRET-FLIM analysis it could be shown that reggie heterooligomers are dynamic in size or conformation upon EGF stimulation. Thus, it can be concluded that reggie proteins are interdependent in different aspects, such as protein stability or expression, membrane association and subcellular localization. In addition, these results demonstrate that the hetero-oligomers are dynamic and reggie proteins influence each other in terms of function. A further aim was the characterization of reggie-1 and reggie-2 function in actindependent processes, where so far only reggie-1 was known to play a role. Depletion of either of the proteins reduced cell migration, cell spreading and the number of focal adhesions in steady state cells. Thus, also reggie-2 affects actin-dependent processes. Further investigation of the focal adhesions during cell spreading revealed that depletion of reggie-1 displayed different effects as compared to reggie-2 knock down. Reggie-1 depleted cells had elongated cell-matrix-adhesions and showed reduced activation of FAK and ERK2. On the other hand, depletion of reggie-2 resulted in a restricted localization of focal adhesion at the periphery of the cell and decreased ERK2 phosphorylation, but it did not affect FAK autophosphorylation. Hence, reggie proteins influence the regulation of cell-matrix-adhesions differently. A link between reggie proteins and focal adhesions is the actin cross-linking protein -actinin. The interaction of -actinin with reggie-1 could be verified by means of co-immunoprecipitations and FRET-FLIM analysis. Reggie-1 binds -actinin especially in membrane ruffles and in other locations where actin remodeling takes place. Moreover, -actinin showed a different localization pattern during cell spreading in reggie-1 depleted cells, as compared to the control cells. These results provide further insights into the function of both reggie proteins. Their interplay and hetero-oligomerization was shown to be crucial for their role in endocytosis. In addition, both reggie proteins influence actin-dependent processes and differentially affect focal adhesion regulation.
Proteorhodopsin (PR) originally isolated from uncultivated γ-Proteobacterium as a result of biodiversity screens, is highly abundant ocean wide. PR, a Type I retinal binding protein with 26% sequence identity, is a bacterial homologue of Bacteriorhodopsin (BR). The members within this family share about 78% of sequence identity and display a 40 nm difference in the absorption spectra. This property of the PR family members provides an excellent model system for understanding the mechanism of spectral tuning. Functionally PR is a photoactive proton pump and is suggested to exhibit a pH dependent vectorality of proton transfer. This raises questions about its potential role as pH dependent regulator. The abundance of PR in huge numbers within the cell, its widespread distribution ocean wide at different depths hints towards the involvement of PR in utilization of solar energy, energy metabolism and carbon recycling in the Sea. Contrary to BR, which is known to be a natural 2D crystal, no such information is available for PR til date. Neither its functional mechanism nor its 3D structure has been resolved so far. This PhD project is an attempt to gain a deeper insight so as to understand structural and functional characterization of PR. The approach combines the potentials of 2D crystallography, Atomic Force Microscopy and Solid State NMR techniques for characterization of this protein. Wide range of crystalline conditions was obtained as a result of 2D crystallization screens. This hints towards dominant protein protein interactions. Considering the high number of PR molecules reported per cell, it is likely that driven by such interactions, the protein has a native dense packing in the environment. The projection map represented low resolution of these crystals but suggested a donut shape oligomeric arrangement of protein in a hexagonal lattice with unit cell size of 87Å*87Å. Preliminary FTIR measurements indicated that the crystalline environment does not obstruct the photocycle of PR and K as well as M intermediate states could be identified. Single molecule force spectroscopy and atomic force microscopy on these 2D crystals was used to probe further information about the oligomeric state and nature of unfolding. The data revealed that protein predominantly exists as hexamers in crystalline as well as densely reconstituted regions but a small percentage of pentamers is also observed. The unfolding mechanism was similar to the other relatively well-characterized members of rhodopsin family. A good correlation of the atomic force microscopy and the electron microscopy data was achieved. Solid State NMR of the isotopically labeled 2D crystalline preparations using uniformly and selectively labeling schemes, allowed to obtain high quality SSNMR spectra with typical 15N line width in the range of 0.6-1.2 ppm. The measured 15N chemical shift value of the Schiff base in the 2D crystalline form was observed to be similar to the Schiff base chemical shift values for the functionally active reconstituted samples. This provides an indirect evidence for the active functionality of the protein and hence the folding. The first 15N assignment has been achieved for the Tryptophan with the help of Rotational Echo Double Resonance experiments. The 2D Cross Polarization Lee Goldberg measurements reflect the dynamic state of the protein inspite of restricted mobility in the crystalline state. The behavior of lipids as measured by 31P from the lipid head group showed that the lipids are not tightly bound to the protein but behave more like the lipid bilayer. The 13C-13C homonulear correlation experiments with optimized mixing time based on build up curve analysis, suggest that it is possible to observe individual resonances as seen in case of glutamic acid. The signal to noise was good enough to record a decent spectrum in a feasible period. The selective unlabeling is an efficient method for reduction in the spectral overlap. However, more efficient labeling schemes are required for further characterization. The present spectral resolution is good for individual amino acid investigation but for uniformly labeled samples, further improvement is required.
Cellular metabolism can be envisaged by fluorescence lifetime imaging of fluorophores sensitive to specific intracellular factors such as [H+], [Ca2+], [O2], membrane potential, temperature, polarity of the probe environment, and alterations in the conformation and interactions of macromolecules. Lifetime measurements of the probes allow the quantitative determination of the intracellular factors. Fluorescence microscopy taking advantage of time-correlated single photon counting is a novel method that outperforms all other techniques with its single photon sensitivity and picoseconds time resolution. In this work, a time- and space-correlated single photon counting system was established to investigate the behavior of 2-(4-(dimethylamino)styryl)-1-methylpyridinium iodide (DASPMI) in living cells. DASPMI is known to selectively stain mitochondria in living cells. The uptake and fluorescence intensity of DASPMI in mitochondria is a dynamic measure of membrane potential. Hence, an endeavour was made to elucidate the mechanism of DASPMI fluorescence by obtaining spectrally-resolved fluorescence decays in different solvents. A bi-exponential decay model was sufficient to globally describe the wavelength dependent fluorescence in ethanol and chloroform. While in glycerol, a three-exponential decay model was necessary for global analysis. In the polar low-viscous solvent water, a mono-exponential decay model fitted the decay data. The sensitivity of DASPMI fluorescence to solvent viscosity was analysed using various proportions of glycerol/ethanol mixtures. The lifetimes were found to increase with increasing solvent viscosity. The negative amplitudes of the short lifetime component found in chloroform and glycerol at the longer wavelengths validated the formation of new excited state species from the initially excited state. Time-resolved emission spectra in chloroform and glycerol showed a biphasic increase of spectral width and emission maxima. The spectral width had an initial fast increase within 150 ps and a near constant thereafter. A two-state model based on solvation of the initially excited state and further formation of TICT state has been proposed to explain the excited state kinetics and has been substantiated by the de-composition of time-resolved spectra. The knowledge of DASPMI photophysics in a variety of solvents now provides the means of deducing complex physiological parameters of mitochondria from its behavior in living cells. Spatially-resolved fluorescence decays from single mitochondria or only very few organelles of XTH2 cells signified distinctive three-exponential decay kinetics of viscous environment. Based on DASPMI photophysics in a variety of solvents, these lifetimes have been attributed to the fluorescence from locally excited state (LE), intramolecular charge transfer state (ICT) and twisted intramolecular charge transfer (TICT) state. A considerable variation in lifetime among mitochondria of different morphology and within single cell was evident corresponding to the high physiological variations within single cells. Considerable shortening of the short lifetime component (τ1) under high membrane potential condition, such as in the presence of ATP and/or substrate, was similar to quenching and dramatic decrease of lifetime in polar solvents. Under these conditions τ2 and τ3 increased with decreasing contribution. Upon treatment with ionophore nigericin, hyperpolarization of mitochondria resulted in remarkable shortening of τ1 from 159 ps to 38 ps. Inhibiting respiration by cyanide resulted in notable increase of mean lifetime and decrease of mitochondrial fluorescence. Increase of DASPMI fluorescence on conditions elevating mitochondrial membrane potential has been attributed to uptake according Nernst distributions, to de-localisation of π electrons, quenching processes of the methyl pyridinium moiety and restricted torsional dynamics at the mitochondrial inner membrane. Accordingly, determination of anisotropy in DASPMI stained mitochondria in living XTH2 cells, revealed dependence of anisotropy on membrane potential. Such changes in anisotropy attributed to restriction of the torsional dynamics about the flexible single bonds neighboring the olefinic double bond revealed the previously known sub-mitochondrial zones with higher membrane potential along its length. Membrane-potential-dependent changes in anisotropy have further been demonstrated in senescent chick embryo fibroblasts. In conclusion, spectroscopic observations of excited-state kinetics of DASPMI in solvents and its behavior in living cells had revealed for the first time its localisation, mechanism of voltage sensitive fluorescence and its membrane-potential-dependent anisotropy in living cells. The simultaneous dependence of DASPMI photophysics on mitochondrial inner membrane viscosity and transmembrane potential has been highlighted.
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.
Antibiotic resistance of pathogenic bacteria is a major worldwide problem. Bacteria can resist antibiotics by active efflux due to multidrug efflux pumps. The focus of this study has been the mycobacterial multidrug transporter TBsmr because it belongs to the small multidrug resistance (SMR) family whose members are a paradigm to study multidrug efflux due to their small size. SMR proteins are typically 11-12 kDa in size and have a four-transmembrane helix topology. They bind cationic, lipophilic antibiotics such as ethidium bromide (EtBr) and TPP+, and transport them across the membrane in exchange for protons. To understand the molecular mechanism of multidrug resistance, we have to gain information about the structure and function of these proteins. The research described in this thesis aimed to deduce details about the topology, transport cycle and key residues of TBsmr using biophysical techniques. Solid-state NMR (ssNMR) can provide detailed insight into structural organization and dynamical properties of these systems. However, a major bottleneck is the preparation of mg amounts of isotope labeled protein. In case of proteoliposomes, the problem is compounded by the presence of lipids which have to fit into the small active volume of the ssNMR rotor. In Chapter 3, an enhanced protein preparation is described which yields large amounts of TBsmr reconstituted in a native lipid environment suitable for further functional and structual studies. The achieved high protein-to-lipid ratios made a further characterization by ssNMR feasible. The transport activity and oligomeric state of the reconstituted protein in different types of lipid was studied as shown in Chapter 4. The exact oligomeric state of native SMR proteins is still uncertain but a number of biochemical and biophysical studies in detergent suggest that the minimal functional unit capable of binding substrate is a dimer. However, binding assays are not ideal since a protein may bind substrate without completing the transport cycle which can only be shown for reconstituted protein in transport assays.By combining functional data of a TPP+ transport assay with information about theoligomeric state of reconstituted TBsmr obtained by freeze-fracture electron microscopy, it could be shown that lipids affect the function and the oligomeric state of the protein, and that the TBsmr dimer is the minimal functional unit necessary for transport. The transport cycle must involve various conformational states of the protein needed for substrate binding, translocation and release. A fluorescent substrate will therefore experience a significant change of environment while being transported, which influences its fluorescence properties. Thus the substrate itself can report intermediate states that form during the transport cycle. In Chapter 5, the existence of such a substrate-transporter complex for the TBsmr and its substrate EtBr could be shown. The pH gradient needed for antiport has been generated by co-reconstituting TBsmr with bacteriorhodopsin. The measurements have shown the formation of a pH-dependant, transient substrate-protein complex between binding and release of EtBr. This state was further characterized by determining the Kd, by inhibiting EtBr transport through titration with non-fluorescent substrate and by fluorescence anisotropy measurements. The findings support a model with a single occluded intermediate state in which the substrate is highly immobile. Liquid-state NMR is a useful tool to monitor protein-ligand interactions by chemical shift mapping and thus identify and characterize important residues in the protein which are involved in substrate binding. In agreement with previous studies (Krueger-Koplin et al., 2004), the detergent LPPG was found to be highly suitable for liquid-state NMR studies of the membrane protein TBsmr and 42% of the residues could be assigned, as reported in Chapter 6. However, no specific interactions with EtBr were found. This observation was confirmed by LILBID mass spectrometry which showed that TBsmr was predominantly in the non-functional monomeric state. Functional protein was prepared in proteoliposomes which can be investigated by solidstate NMR (Chapter 7). Besides the essential E13, the aromatic residues W63, Y40, and Y60 have been shown to be directly involved in drug binding and transport. Different isotope labeling strategies were evaluated to improve the quality of the NMR spectra to identify and characterize these key residues. In a single tryptophan mutant of reconstituted TBsmr W30A, the binding of ethidium bromide could be detected by 13C solid-state NMR. The measurements have revealed two populations of the conserved W63 residue with distinct backbone structures in the presence of substrate. There is a controversy about the parallel or anti-parallel arrangement of the protomers in the EmrE dimer (Schuldiner, 2007) but this structural asymmetry is consistent with both a parallel and anti-parallel topology.
Natural killer (NK) cells are white blood lymphocytes of the innate immune system that have diverse biological functions, including recognition and destruction of certain microbial infections and neoplasms [1]. NK cells comprise ~ 10% of all circulating lymphocytes and are also found in peripheral tissues including the liver, peritoneal cavity and placenta. Resting NK cells circulate in the blood, but, following activation by cytokines, they are capable of extravasation and infiltration into most tissues that contain pathogen-infected or malignant cells [2-5]. NK cells discriminate between normal and abnormal cells (infected or transformed) through engagement and dynamic integration of multiple signaling pathways, which are initiated by germline-encoded receptors [6-8]. Healthy cells are protected from NK cell-mediated lysis by expression of major histocompatibility complex (MHC) class I ligands for NK cell inhibitory receptors [6, 9]. The MHC is a group of highly polymorphic glycoproteins that are expressed by every nucleated cell of vertebrates, and that are encoded by the MHC gene cluster. The human MHC molecules are termed human leucocyte antigen (HLA)-A, B and C molecules. Every NK cell expresses at least one inhibitory receptor that recognizes a self-MHC class I molecule. So, normal cells that express MHC class I molecules are protected from self-NK cells, but transformed or infected cells that have down-regulated MHC class I expression are attacked by NK cells [10]. There are 2 distinct subsets of human NK cells identified mainly by cell surface density of CD56. The majority (approximately 90%) of human NK cells are CD56dimCD16bright and express high levels of FcγRIII (CD16), whereas a minority (approximately 10%) are CD56brightCD16dim/- [11]. Resting CD56dim NK cells are more cytotoxic against NK-sensitive targets than CD56bright NK cells [12]. However, after activation with interleukin (IL)-2 or IL-12, CD56bright cells exhibit similar or enhanced cytotoxicity against NK targets compared to CD56dim cells [12-14]. The functions of NK cells are regulated by a balance of signals (Fig. 1.1). These are transmitted by inhibitory receptors, which bind MHC class I molecules, and activating receptors, which bind ligands on tumors and virus-infected cells [15]. These receptors are completely encoded in the genome, rather than being generated by somatic recombinations, like T- and B-cell receptors.
In this work the nuclear structure of exotic nuclei and superheavy nuclei is studied in a relativistic framework. In the relativistic mean-field (RMF) approximation, the nucleons interact with each other through the exchange of various effective mesons (scalar, vector, isovector-vector). Ground state properties of exotic nuclei and superheavy nuclei are studied in the RMF theory with the three different parameter sets (ChiM, NL3, NL-Z2). Axial deformation of nuclei within two drip lines are performed with the parameter set (ChiM). The position of drip lines are investigated with three different parameter sets (ChiM, NL3, NL-Z2) and compared with the experimental drip line nuclei. In addition, the structure of hypernuclei are studied and for a certain isotope, hyperon halo nucleus is predicted.
In this work we study the non-equilibrium dynamics of a quark-gluon plasma, as created in heavy-ion collisions. We investigate how big of a role plasma instabilities can play in the isotropization and equilibration of a quark-gluon plasma. In particular, we determine, among other things, how much collisions between the particles can reduce the growth rate of unstable modes. This is done both in a model calculation using the hard-loop approximation, as well as in a real-time lattice simulation combining both classical Yang-Mills-fields as well as inter-particle collisions. The new extended version of the simulation is also used to investigate jet transport in isotropic media, leading to a cutoff-independent result for the transport coefficient $hat{q}$. The precise determination of such transport coefficients is essential, since they can provide important information about the medium created in heavy-ion collisions. In anisotropic media, the effect of instabilities on jet transport is studied, leading to a possible explanation for the experimental observation that high-energy jets traversing the plasma perpendicular to the beam axis experience much stronger broadening in rapidity than in azimuth. The investigation of collective modes in the hard-loop limit is extended to fermionic modes, which are shown to be all stable. Finally, we study the possibility of using high energy photon production as a tool to experimentally determine the anisotropy of the created system. Knowledge of the degree of local momentum-space anisotropy reached in a heavy-ion collision is essential for the study of instabilities and their role for isotropization and thermalization, because their growth rate depends strongly on the anisotropy.
Crohn´s disease (CD) and Ulcerative colitis (UC) are idiopathic inflammatory disorders. Environmental factors, infectious microbes, ethnic origin, genetic susceptibility, and a dysregulated immune system can result in mucosal inflammation. However, the etiology of both CD and UC still remains largely unclear. Inflammatory bowel diseaserelated animal models suggest that a combination of genetic susceptibility factors and altered immune response driven by microbial factors in the enteric environment may contribute to the initiation and chronification of the disease. The intestinal immune system represents a complex network of different lymphoid and non-lymphoid cell populations as well as humoral factors. In inflammatory bowel disease, the controlled balance of the intestinal immune system is disturbed at all levels. In CD, naïve T cells preferably differentiate into Th1 or Th17 producing cells, while in UC, these cells differentiate into aberrant Th2 cells. Overall, in active inflammatory bowel disease effector T cell activity (Th1, Th17, Th2) predominates over regulatory T cells. Animal models of intestinal inflammation are indispensable for our understanding of the pathogenesis of CD and UC. When chosen appropriately, these models proved to be a helpful tool to investigate pathophysiological mechanisms, as well as to test emerging therapeutic options in the preclinical phase. 2,4,6-Trinitrobenzene sulfonic acid (TNBS) and oxazolone are the two major chemicals applied to induce Th1- and Th2-skewed intestinal inflammation, respectively. Colitis can be induced in susceptible strains of mice by intrarectal instillation of the haptenating substances TNBS or oxazolone in ethanol, which is necessary for an initial desintegration of the epithelial barrier. TNBS or oxazolone are believed to haptenize colonic autologous or microbiotic proteins rendering them immunogenic to the host immune system. While TNBS administration in the presence of ethanol results in a transmural infiltrative disease in the entire colon based on an IL-12/IL-23 driven, Th1-or Th17 mediated response, oxazolone instillation finally leads to a colitis caused by a polarized Th2 IL-13-dominated lymphocyte response. Rectal oxazolone instillation in ethanol produces a more superficial inflammation that affects the distal half of the colon rather than the whole colon. Therapeutic modulation of the disturbed immune response in patients with inflammatory bowel disease still represents a complex challenge in the clinic. Currently, none of the therapeutic measure are disease specific and they generally target the pathophysiology downstream of the driving immunpathology. So, there is still the need to develop a tailored approach to prevention of the initiation and perpetuation of the inflammatory cascade before tissue injury occurs. One important aspect of this approach might involve the induction or re-establishment of immunological tolerance. FTY720 following rapid phosphorylation to FTY-P by endogenous sphingosine kinases acts as a sphingosine-1-phosphate (S1P) receptor agonist and represents the prototype of a new generation of S1P receptor modulators. While changing currently its proposed mode of action still focus on the fact, that FTY720 effectively inhibits the egress of T-cells from lymph nodes, thereby reducing the number of antigen-primed/restimulated cells that re-circulate to peripheral inflammatory tissues. However, recent studies indicate, that its immunomodulatory properties might be more complex and exerted not only via interactions with other S1P receptor subtypes but also via a direct modulation of the inflammatory capacity of dendritic cells (DC) resulting in a modified regulation of T cell effector functions as well as in an induction of regulatory T cells and function. 1,25(OH)2D3, the active form of vitamin D, is a secosteroid hormone that has in addition to its central function in calcium and bone metabolism pronounced immune regulatory properties. The biological effects of calcitriol are mediated by the vitamin D receptor (VDR), a member of the superfamily of nuclear hormone receptors. A number of studies identified calcitriol/VDR as prominent negative regulators of Th1-type immune responses, whereas Th2 responses are not affected or even augmented. These effects have been mainly explained by direct activities on lymphocytes, subsequent studies clearly supported a role of calcitriol in modulating monocyte differentiation or DC maturation. However, to translate the immunosuppressive capacities of calcitriol into an effective immunointervention, a great challenge was the design of structural analogs of calcitriol that are devoid of adverse effects related to hypercalcemic activity. The intense study of the 25-oxa series generated a large number of calcitriol analogs exhibiting substantial dissociation between possible immunomodulatory capacities and undesired hypercalcemia. Especially, the combination of the 22-ene modification with the 25-oxa element as realized in ZK156979 yielded a very promising set of new analogs for further characterization in animal models resembling human autoimmune diseases. So, the overall aim of the studies presented here was to evaluate strategies of enhancing regulatory immunity in mouse models of Th1- and Th2-mediated colitis as a new therapeutic approach. To this end we used FTY720, 22-ene-25-oxa vitamin D (ZK156979), as well as the combination of calcitriol and dexamethasone to evaluate the respective pro-tolerogenic potential in intestinal inflammation models in mice. First, to induce Th1-mediated colitis a rectal enema of TNBS was given to Balb/c mice. FTY720 was administered i.p. from day 0-3 or 3-5. FTY720 substantially reduced all clinical, histopathologic, macroscopic, and microscopic parameters of colitis analyzed. The therapeutic effects of FTY720 were associated with a down-regulation of IL-12p70 and subsequent Th1 cytokines. Importantly, FTY720 treatment resulted in a prominent up-regulation of FoxP3, IL-10, TGFβ and CTLA4. Moreover, we observed a significant increase of CD25 and FoxP3 expression in isolated lamina propria CD4+ T cells of FTY720-treated mice. The impact of FTY720 on regulatory T cell induction was further confirmed by concomitant in vivo blockade of CTLA4 or IL-10R which significantly abrogated its therapeutic activity. Thus, our data provide new and strong evidence that besides its well-established migratory properties FTY720 down-regulates proinflammatory signals while simultaneously inducing the functional activity of CD4+CD25+ regulatory T cells. In a second approach, the rectal instillation of oxazolone yielded a Th2-mediated colitis. Treatment with FTY720 prominently reduced the clinical and histopathologic severity of oxazolone-induced colitis, abrogating body weight loss, diarrhea, and macroscopic and microscopic intestinal inflammation. The therapeutic effects of FTY720 were associated with a prominent reduction of the key Th2 effector cytokines IL-13, IL-4 and IL-5. Moreover, FTY720 inhibited GATA3 and T1/ST2 expression, which represent distinct markers for Th2 differentiation and Th2 effector function. Thus, our data are supportive for the view that FTY720 exhibits beneficial prophylactic as well as therapeutic effects in Th2-mediated experimental colitis by directly affecting Th2 cytokine profiles, probably by reducing GATA3 and T1/ST2. Recently, we described 22-ene-25-oxa-vitamin D (ZK156979) as a representative of a novel class of low calcemic vitamin D analogs showing prominent immunomodulative capacities. Here, we used the Th1-mediated TNBS colitis to test its anti-inflammatory properties in vivo. We found that treatment with ZK156979 clearly inhibited the severity of TNBS-induced colitis without exhibiting calcemic effects. Both early and late treatment abrogated all the clinical macroscopic and microscopic parameters of colitis severity; in addition we observed a clear down-regulation of the relevant Th1 cytokine pattern including the T-box transcription factor, T-bet. On the other hand, application of ZK156979 increased local tissue IL-10 and IL-4. Finally, as a new approach we evaluated the pro-tolerogenic potential of calcitriol and dexamethasone in acute Th1-mediated colitis. Calcitriol and/or dexamethasone were administered i.p. from day 0-3 or from day 3-5 following the instillation of the haptenating agent. The combination of these steroids most effectively reduced the clinical and histopathologic severity of TNBS colitis. Th1-related parameters were down- while Th2 markers like IL-4 and GATA3 were up-regulated. Clearly distinguishable from known steroid effects calcitriol in particular promoted regulatory T cell profiles as indicated by a marked increase of IL-10, TGFß, FoxP3 and CTLA4. Furthermore, analysis of DC mediators responsible for a pro-inflammatory differentiation of T cells revealed a clear reduction of IL-12p70, and IL23p19 as well as IL-6 and IL-17. Thus, our data suggest the concept of a steroid-sparing application of calcitriol derivatives in inflammatory bowel disease. Furthermore, the data presented suggest that early markers of inflammatory DC and Th17 differentiation might qualify as new target molecules for both calcitriol as well as for selective immune modulating vitamin D analogs. In conclusion the data of these published investigations added to the substantial progress in understanding the biology of tolerogenic DC and regulatory T cells with respect to their roles in health and disease achieved in the past years. This has led to an increasing interest in the possibility of using DC and regulatory T cells as biological therapeutics to preserve and restore tolerance to self antigens and alloantigens. Especially DC may be helpful to exert their important roles in directing tolerance and immunity by modulation of subpopulations of effector T cells and regulatory T cells. The data demonstrated in the present studies may assist to define the divergent implications of new therapeutic concepts for the treatment of inflammatory bowel disease, especially with regard to a possible auspicious impact on pro-tolerogenic DC and regulatory T cell functions. However, further studies are needed to fulfil our understanding of the complex immunomodulatory profiles of FTY720 as well as of calcitriol and its low calcemic analog ZK156979, thus accelerating their entry into the clinic as new therapeutic options for the cure of inflammatory bowel disease.
The µ-opioid receptor is the primary target structure of most opioid analgesics and thus responsible for the predominant part of their wanted and unwanted effects. Carriers of the frequent genetic µ-opioid receptor variant N40D (allelic frequency 8.2 - 17 %), coded by the single nucleotide polymorphism A>G at position 118 of the µ-opioid receptor coding gene OPRM1 (OPRM1 118A>G SNP), suffer from a decreased opioid potency and from a higher need of opioid analgesics to reach adequate analgesia. The aim of the present work was to identify the mechanism by which the OPRM1 118A>G SNP decreases the opioid potency and to quantify its effects on the analgesic potency and therapeutic range of opioid analgesics.
To elucidate the consequences of the OPRM1 118A>G SNP for the effects of opioid analgesics, brain regions of healthy homozygous carriers of the OPRM1 118A>G SNP were identified by means of functional magnetic resonace imaging (fMRI), where the variant alters the response to opioid analgesics after painful stimulation. Afterwards, the µ-opioid receptor function was analyzed on a molecular level in post mortem samples of these brain regions. Finally, the consequences of the OPRM1 118A>G SNP for the analgesic and respiratory depressive effects of opioids were quantified in healthy carriers and non-carriers of OPRM1 118A>G SNP by means of experimental pain- and respiratory depression-models.
To identify pain processing brain regions, where the variant alters the response to opioid analgesics after painful stimulation, we investigated the effects of different alfentanil concentration levels (0, 25, 50 and 75 ng/ml) on pain-related brain activation achieved by short pulses (300 msec) of gaseous CO2 (66% v/v) delivered to the nasal mucosa using a 3.0 T magnetic head scanner in 16 non-carriers and nine homozygous carriers of the µ-opioid receptor gene variant OPRM1 118A>G. In brain regions associated with the processing of the sensory dimension of pain (pain intensity), such as the primary and secondary somatosensory cortices and the posterior insular cortex, the activation decreased linearly in relation to alfentanil concentrations, which was significantly less pronounced in OPRM1 118G carriers. In contrast, in brain regions known to process the affective dimension of pain (emotional dimension), such as the parahippocampal gyrus, amygdala and anterior insula, the pain-related activation disappeared already at the lowest alfentanil dose, without genotype differences.
Subsequently, we investigated the µ-opioid receptor-expression ([3H]-DAMGO saturation experiments, OPRM1 mRNA analysis by means of RT-PCR), the µ-opioid receptor affinity ([3H]-DAMGO saturation and competition experiments) and µ-opioid receptor signaling ([35S]- GTPγS binding experiments) in post mortem samples of the human SII-region, as a cortical projection region coding for pain intensity, and lateral thalamus, as an important region for nociceptive transmission. Samples of 22 non-carriers, 21 heterozygous and three homozygous carriers of OPRM1 118A>G SNP were included into the analysis. The receptor expression and receptor affinity of both brain regions did not differ between non-carriers and carriers of the variant N40D. In non-carriers, the µ-opioid receptors of the SII-region activated the receptor bound G-protein more efficiently than those of the thalamus (factor 1.55-2.27). This regional difference was missing in heterozygous (factor 0.78-1.66) and homozygous (factor 0.66-1.15) carriers of the N40D variant indicating a reduced receptor-G-protein-coupling in the SII-region.
Finally, the consequences of the alteration of µ-opioid receptor function in carriers and noncarriers of the genetic variant was investigated using pain- and respiratory depression-models. Therefore, 10 healthy non-carriers, four heterozygous and six homozygous carriers of the µ- opioid receptor variant N40D received an infusion of four different concentrations of alfentanil (0, 33.33, 66.66 and 100 ng/ml). At each concentration level, analgesia was assessed by means of electrically (5 Hz sinus 0 to 20 mA) and chemically (200 ms gaseous CO2 pulses applied to the nasal mucosa) induced pain, and respiratory depression was quantified by means of hypercapnic challenge according to Read and recording of the breathing frequency. The results showed that depending on the used pain model, both heterozygous and homozygous carriers of the variant N40D needed 2 – 4 times higher alfentanil concentrations to achieve the same analgesia as non-carriers. This increase seems to be at least for homozygous carriers unproblematic, because to reach a comparable respiratory depression as non-carriers, they needed 10-12 times higher alfentanil concentrations.
The results of this work demonstrate that the µ-opioid receptor variant N40D causes a regionally limited reduction of the signal transduction efficiency of µ-opioid receptors in brain regions involved in pain processing. Thus, the painful activation of sensory brain regions coding for pain intensity is not sufficiently suppressed by opioid analgesics in carriers of the variant N40D. Due to the insufficient suppression in hetero- and homozygous carriers of the variant N40D, the concentration of opioids has to be increased by a factor 2 - 4, in order to achieve the same analgesia as in non-carriers. At the same time, the respiratory depressive effects are decreased to a greater extent in homozygous carriers of the N40D variant as they need a 10 - 12 times higher opioid concentration to suffer from the same degree of respiratory depression as non-carriers. Due to the increased therapeutic range of opioid analgesics, an increase of the opioid dose seems to be harmless, at least for homozygous carriers of the N40D variant.
High field strength element systematics and Lu-Hf & Sm-Nd garnet geochronology of orogenic eclogites
(2008)
Concerning the Bulk Silicate Earth (BSE), the depleted mantle and the continental crust are thought to balance the budget of refractory and lithophile elements, resulting in complementary trace element patterns. However, the two high field strength elements (HFSE) Niob and Tantal appear to contradict this mass balance. All reservoirs of the silicate Earth exhibit subchondritic Nb/Ta ratios, possibly as a result of Nb depletion. The two HFSE Zr and Hf on the other hand seem not to be fractionated between the silicate reservoirs. They show more or less chondritic Zr/Hf ratios. In this study a series of orogenic eclogites from different localities was analyzed to determine their HFSE concentrations and to contribute to the question if eclogites could form a hidden reservoir to account for the mass imbalance of the BSE. The results show that the orogenic eclogites have subchondritic Nb/Ta ratios and near chondritic Zr/Hf ratios. The investigated eclogites show no fractionation of Nb/Ta ratios and no enrichment of Nb compared to e.g. MOR-basalts, the likely precursor of these rocks. With an average Nb/Ta ratio of 14.9 these eclogites could not balance the differences between BSE and chondrite. Additionally, with an average Nb/Ta ≈ MORB they also cannot balance the small differences in the Nb/Ta of the crust and the mantle. LA-ICPMS analyses of rutiles in these eclogites reveal a zonation of Nb/Ta ratios in this mineral, with rutile cores having higher Nb/Ta than rutile rims. As a consequence, Laser Ablation data of rutiles have to be evaluated carefully and cannot necessarily reflect a bulk rock Nb and Ta composition, although over 90% of these elements reside in rutile.
Disruption of the complex gastrointestinal ecosystem between the resident microflora and the colonic epithelial cells has been associated with increased inflammation and altered cell growth. Possible endpoints of this disturbance are IBD and CRC. The data presented in this thesis, entitled "PPARgamma as molecular target of epithelial functions in the gastrointestinal tract", shed further light on the underlying molecular mechanisms contributing to the well ordered homeostasis of this gastrointestinal ecosystem. Except for elucidating important roles for mesalazine and the dietary HDAC inhibitors butyrate and SFN in a) the modulation of cellular growth, b) the induction of APs, and c) the control of NFkappaB signalling in CRC cells, the involvement of the nuclear hormone receptors PPARgamma und VDR as "gatekeepers" in these intricate regulatory mechanisms were established. Future work will be engaged in analysing whether these in vitro findings are also physiologically relevant in regard to prevention and therapy of gastrointestinal diseases. Within the scope of this work, in Paper I and II it could be demonstrated that butyrate and mesalazine act via PPARgamma to induce their anti-proliferative and pro-apoptotic actions along the caspase signalling pathway. Activation of the intrinsic and extrinsic signalling trail and the down-regulation of anti-apoptotic proteins are responsible for increased caspase-3 activity caused by butyrate. In contrast, mesalazine merely activates this cascade via the extrinsic trail and the IAPs. Moreover, a signal transduction pathway leading to increased cell death via p38 MAPK - PPARgamma - caspase-3 in response to butyrate was unveiled. In addition, there is strong evidence that mesalazine-mediated pro-apoptotic and growth-inhibitory abilities are controlled by PPARgamma-dependent and -independent mechanisms which appear to be triggered at least in part by the modulation of the tumor suppressor gene PTEN and the oncoprotein c-myc, respectively. In Paper III and IV the induction of the APs HBD-2 and LL-37 in response to the dietary HDAC inhibitors butyrate and SFN was pinpointed. Regarding the molecular events of this regulation, the data presented in this thesis provide strong evidence for the involvement of VDR in HBD-2- and LL-37-induced gene expression, while the participation of PPARgamma was excluded. Moreover, the role for p38 MAPK and TGF-beta1 in the up-regulation of LL-37 caused by butyrate was established. In contrast, SFN-mediated induction of HBD-2 is modulated via ERK1/2 signalling. The findings in Paper V clearly refer to the involvement of the nuclear hormone receptors PPARgamma and VDR in butyrate-mediated suppression of inducible NFkappaB activation dependent on the stimulated signalling pathway caused by LPS or TNFalpha. Moreover, an inhibitory role for VDR in the regulation of basal NFkappaB activation was revealed. On the contrary, a modulating role for PPARgamma on basal NFkappaB could be debarred. Altogether the data presented in this thesis not only provide new insights in the understanding of the fundamental gastrointestinal physiology regulated by nuclear hormone receptors, but also may offer opportunities for the development of potential drug targets and therapeutic strategies in the treatment of IBD and CRC.
In the context of information theory, the term Mutual Information has first been formulated by Claude Elwood Shannon. Information theory is the consistent mathematical description of technical communication systems. To this day, it is the basis of numerous applications in modern communications engineering and yet became indispensable in this field. This work is concerned with the development of a concept for nonlinear feature selection from scalar, multivariate data on the basis of the mutual information. From the viewpoint of modelling, the successful construction of a realistic model depends highly on the quality of the employed data. In the ideal case, high quality data simply consists of the relevant features for deriving the model. In this context, it is important to possess a suitable method for measuring the degree of the, mostly nonlinear, dependencies between input- and output variables. By means of such a measure, the relevant features could be specifically selected. During the course of this work, it will become evident that the mutual information is a valuable and feasible measure for this task and hence the method of choice for practical applications. Basically and without the claim of being exhaustive, there are two possible constellations that recommend the application of feature selection. On the one hand, feature selection plays an important role, if the computability of a derived system model cannot be guaranteed, due to a multitude of available features. On the other hand, the existence of very few data points with a significant number of features also recommends the employment of feature selection. The latter constellation is closely related to the so called "Curse of Dimensionality". The actual statement behind this is the necessity to reduce the dimensionality to obtain an adequate coverage of the data space. In other word, it is important to reduce the dimensionality of the data, since the coverage of the data space exponentially decreases, for a constant number of data points, with the dimensionality of the available data. In the context of mapping between input- and output space, this goal is ideally reached by selecting only the relevant features from the available data set. The basic idea for this work has its origin in the rather practical field of automotive engineering. It was motivated by the goals of a complex research project in which the nonlinear, dynamic dependencies among a multitude of sensor signals should be identified. The final goal of such activities was to derive so called virtual sensors from identified dependencies among the installed automotive sensors. This enables the real-time computability of the required variable without the expenses of additional hardware. The prospect of doing without additional computing hardware is a strong motive force in particular in automotive engineering. In this context, the major problem was to find a feasible method to capture the linear- as well as the nonlinear dependencies. As mentioned before, the goal of this work is the development of a flexibly applicable system for nonlinear feature selection. The important point here is to guarantee the practicable computability of the developed method even for high dimensional data spaces, which are rather realistic in technical environments. The employed measure for the feature selection process is based on the sophisticated concept of mutual information. The property of the mutual information, regarding its high sensitivity and specificity to linear- and nonlinear statistical dependencies, makes it the method of choice for the development of a highly flexible, nonlinear feature selection framework. In addition to the mere selection of relevant features, the developed framework is also applicable for the nonlinear analysis of the temporal influences of the selected features. Hence, a subsequent dynamic modelling can be performed more efficiently, since the proposed feature selection algorithm additionally provides information about the temporal dependencies between input- and output variables. In contrast to feature extraction techniques, the developed feature selection algorithm in this work has another considerable advantage. In the case of cost intensive measurements, the variables with the highest information content can be selected in a prior feasibility study. Hence, the developed method can also be employed to avoid redundance in the acquired data and thus prevent for additional costs.
Twentieth-century scholars have thought little about the attractions of Descartes’ thinking. Especially in feminist theory, he has a bad press as the ‘instigator’ of the body-mind-split – seen as one of the theoretical bases for the subordination of women in Western culture. Seen from within seventeenth-century discourse it is the dictum that can be inferred from his writings that ‘the mind has no sex’ and which can be seen as an appeal to think about rational capacities in the utopian perspective of a gender neutral discourse. My work analyses this “face” of Cartesianism as it was adapted in favour of English seventeenth-century women. How were the specific tenets of Descartes’ philosophy employed on behalf of English women in the second half of the seventeenth century in England? My focus is on Descartes as a thinker, who – whatever his real or imagined intention might have been – provided women in seventeenth-century England with tools with which to change their status, in other words: with instruments of empowerment. So why were Descartes’ arguments so attractive for women? Descartes had argued for equal rational abilities among individuals in a gender neutral way. He had further critiqued generally accepted truth with his universal doubt. I believe this specific combination of ideas, affirming their rational capabilities, was seen by a number of women as an invitation to become involved in spheres of activity from which they were previously excluded. Moreover, a specific set of Descartes’ arguments provided a number of English women with a strategy to extend female agency. Not only did Descartes’ views legitimate female rationality, they also allowed an acknowledgement that this female intellect was equally connected to “truth” as that of their male contemporaries. As a consequence, women developed an increased self-esteem and inspiration to pursue their own independent study (and in some cases publishing). These ideas eventually helped to bring forward a demand for female education, as girls and women were still excluded from formal education in seventeenth-century England. My general thesis is that Cartesianism, as one of the earliest universalist theories on the nature of human reason, introduced new possibilities into the English debate over the nature and, hence, social position of women. It brought a radical twist to the already existing discussion on women by offering new critical tools which were taken up to argue on behalf of English women. In my work I examine the specific historical conditions of the reception of Descartes’ thought in England, the philosophical appeal of his ideas for women and analyse the writings of two English ‘disciples’ of Descartes: Margaret Cavendish, Duchess of Newcastle and Mary Astell.
This work is devoted to the description of mechanisms that might be responsible for avian magnetoreception. Two possible theoretical concepts underlying this phenomenon are formulated and their functionality is proven in realistic geomagnetic fields. It has been suggested that the "magnetic sense" in birds may be mediated by the blue light receptor protein- cryptochrome- which is known to be localized in the retinas of migratory birds. Cryptochromes are a class of photoreceptor signaling proteins that are found in a wide variety of organisms and which primarily perform regulatory functions, such as the entrainment of circadian rhythm in mammals and the inhibition of hypocotyl growth in plants. Recent experiments have shown that the activity of cryptochrome-1 in Arabidopsis thaliana is enhanced by the presence of a weak external magnetic field, confirming the ability of cryptochrome to mediate magnetic field responses. Cryptochrome's signaling is tied to the photoreduction of an internally bound chromophore, flavin adenine dinucleotide (FAD). The spin chemistry of this photoreduction process, which involves electron transfer from a chain of three tryptophans, is modulated by the presence of a magnetic field in an effect known as the radical pair mechanism. Cryptochrome was suggested as a possible magnetoreceptor for the first time in 2000. However, no realistic calculations of the magnetic field effect in cryptochrome were performed. One of the goals of the present thesis is computationally to study the electron spin dynamics in cryptochrome and to show the feasibility of a cryptochrome-based compass in birds. In particular, the activation yield of cryptochrome was studied as a function of an external magnetic field and it was shown that the activation of the protein can be influenced by the geomagnetic field. In the work it has also been proven that cryptochrome provides an inclination compass, which is necessary for bird orientation. The evolution of spin densities as a function of time is also discussed. An alternative mechanism of avian magnetoreception discussed in the thesis is based on the interaction of two iron minerals (magnetite and maghemite) which were only recently found in subcellular compartments within the sensory dendrites of the upper beak of several bird species. The iron minerals in the beak form platelets of crystalline maghemite and assemblies of magnetite nanoparticles (magnetite clusters). The interaction between these particles can be manipulated by an external magnetic field inducing a primary receptor potential via strain-sensitive membrane channels that lead to a certain bird orientation effect. Various properties of the magnetite/maghemite magnetoreceptor system have been considered: the potential energy surface of the magnetite cluster has been calculated and analyzed as a function of the orientation of an external magnetic field; the forces acting on the magnetite cluster were calculated and analyzed; the force differences caused by the change of the direction of external magnetic field were established; the probability of opening the mechanosensitive ion channel was calculated. Finally it has been demonstrated that the iron-mineral based magnetoreceptor provides a polarity magnetic compass. Various conditions at which the magnetoreception process is violated are outlined.
Strong chromofields developed at early stages of relativistic heavy-ion collisions give rise to the collective deceleration of net baryons from colliding nuclei. We have solved classical equations of motion for baryonic slabs under the action of time-dependent chromofield. We have studied sensitivity of the slab trajectories and their final rapidities to the initial strength and decay pattern of the chromofield as well as to the back reaction of produced plasma. This mechanism can naturally explain significant baryon stopping observed at RHIC, an average rapidity loss hδyi ≈ 2. Using a Bjorken hydrodynamical model with particle producing source we also study the evolution of partonic plasma produced as the result of chromofield decay. Due to the delayed formation and expansion of plasma its maximum energy density is much lower than the initial energy density of the chromofield. It is shown that the net-baryon and produced parton distributions are strongly correlated in the rapidity space. The shape of net-baryon spectra in midrapidity region found in the BRAHMS experiment cannot be reproduced by only one value of chromofield energy density parameter ǫ0, even if one takes into account novel mechanisms as fluctuations of color charges generated on the slab surface, and weak interaction of baryon-rich matter with produced plasma. The further step to improve our results is to take into account rapidity dependence of saturation momentum as explained in thesis. Different values of parameter ǫ0 has been tried for different variants of chromofield decay to fit BRAHMS data for net-baryon rapidity distribution. In accordance with our analysis, data for fragmentation region correspond to the lower chromofield energy densities than mid-rapidity region. χ2 analysis favors power-law of chromofield decay with corresponding initial chromofield energy density of order ǫf = 30GeV/fm3.