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The goal of this thesis was to study the systematic relationships within the superfamily Sylvioidea (Aves: Passeriformes) in general and within the closely related families Acrocephalidae and Locustellidae in particular, by means of DNA sequences. Sylvioidea itself and families therein were the focus of many studies based as well on morphological characters as on DNA. Due to their morphological similarity and their presumably rapid radiation most studies failed to solve relationships between sylvioidean families and also demarcations of single families and relations within are still in progress. In this study, an enlargement of previous datasets, both taxa and number of DNA sequences, and more sophisticated analysis methods were used to improve the resolution in Sylvioidea, Acrocephalidae and Locustellidae. In addition, the applicability of barcoding in Acrocephalidae was tested. The monophyly of Sylvioidea could be supported and the families Paridae and Remizidae, which were sometimes still included, clustered among the outgroup taxa. Four families, Nicatoridae, Panuridae, Alaudidae, and Macrosphenidae constitute basal splits within Sylvioidea. The division of the former sylviid/timaliid clade in five families, Sylviidae, Leiothrichidae, Pellorneidae, Timaliidae, and Zosteropidae was supported. Scotocerca, Erythrocercus, and Hylia, previously supposed to be members of Cettiidae, were shown not to belong to this family. As the three genera are also morphologically and ecologically different, they were here proposed to be elevated to family rank, Scotocercidae, Erythrocercidae and Hyliidae, respectively. The family Acrocephalidae consisted of the four genera, Nesillas, Acrocephalus, Hippolais, and Chloropeta. In the analysis for this thesis, the latter three appeared to be non-monophyletic. One Acrocephalus species, A. aedon was sister to a clade containing four species of Hippolais as well as two out of three Chloropeta species. They were all merged in the genus Iduna, based on the DNA evidence and shared morphological and ecological characters. Iduna had priority over Hippolais or Chloropeta according to the International Code of Zoological Nomenclature. The one remaining Chloropeta species (C. gracilirostris) had to be renamed to Calamonastides as Chloropeta was no longer available for this taxon. Seven genera were included in the re-analysis of the family Locustellidae: Locustella, Bradypterus, Megalurus, Dromaeocercus, Schoenicola, Cincloramphus, and Eremiornis. Apart from the monotypic genera Dromaeocercus and Eremiornis and Schoenicola, of which only one species was included, the remaining genera were found to be non-monophyletic. One clade contained all Locustella species, Megalurus pryeri and all Asian/Oriental Bradypterus species. All species in this clade were synonymized with Locustella, as the type species of Locustella was included, whereas the type species of Bradypterus fell in a different clade. Therefore, the remaining African Bradypterus species retained their genus name, and Dromaeocercus was renamed to Bradypterus as it clustered within Bradypterus. Cincloramphus, intermingling with the remaining Megalurus species, was synonymized with the latter. Barcoding, growing in popularity for delimiting species, was tested in its applicability for Acrocephalidae. Fourteen taxa currently recognized as full species would fall under the 2% threshold of sequence divergence proposed for delimiting species using the mitochondrial cytochrome b gene. It was also shown that it is important to clarify which part of a DNA sequence is used, as different parts can give different results regarding the 2% threshold. In addition, the choice of “complete deletion” or “pairwise deletion” in calculating genetic distances is important, if incomplete are sequences used.
Quantum-Kinetic Modeling of Electron Release in Low-Energy Surface Collisions of Atoms and Molecules
(2012)
In this work we present a theoretical description of electron release in the collision of atomic and molecular projectiles with metallic and especially dielectric surfaces. The associated electron yield, the secondary electron emission coefficient, is an important input parameter for numerical simulations of dielectric barrier discharges and other bounded low-temperature gas discharges. The available reference data for emission coefficients is, however, very sparse and often uncertain, especially for molecular projectiles. With the present work we aim to contribute to the filling of these gaps by providing a flexible and easy-to-use model that allows for a convenient calculation of the emission coefficient and related quantities for a wide range of projectile-surface systems and the most dominant reaction channels.
In this thesis, all three BVMOs from Pseudomonas putida NCIMB10007, that were known to be responsible for the ability of this strain to degrade camphor since the 1950s were successfully made available as recombinant biocatalysts. While the genomic sequence of 2,5-DKCMO was available from the database, the genes encoding 3,6-DKCMO and OTEMO had to be identified using certain PCR-techniques first. All three enzymes were cloned into standard plasmids enabling convenient expression in E. coli facilitating the application of the enzymes in organic chemistry. Their synthetic potential was already reported during the 1990s, but at that time their efficient application was limited due to difficulties with respect to low production levels and insufficient purity and separation of enzyme fractions. These drawbacks are now overcome. Furthermore, biochemical characterization of the camphor-degrading BVMOs was performed including the substrate spectra of these enzymes. Thereby OTEMO turned out not only to have a broad substrate scope accepting mono- and bicyclic aliphatic and arylaliphatic ketones, but also to efficiently convert alpha/beta-unsaturated cycloalkanones due to the similarity of these compounds to OTEMOs natural substrate. Finally, the major limitation in the synthetic application of Type II BVMOs was addressed by searching a flavin-reductase suitable for coupling to these two-component oxygenases. Putative candidates from the respective P. putida strain were identified by the use of amino acid motifs conserved in other representatives of two-component systems. While these enzymes failed, flavin-reductase Fre from E. coli - that also contained the motifs - was shown to enhance the activity of the DKCMOs when applied as crude cell extract as well as pure enzyme. This finding represents a key step for future application of Type II BVMOs.
Written language in the public sphere (shop signs, advertisements, placards, graffiti, etc.) constitutes the “Linguistic Landscape” of an urban agglomeration. An examination of such displays gives us an insight into function, status and spread of certain languages. Here, the study of linguistic landscapes does not only bear a purely linguistic dimension, but necessarily links to other fields such as politics, semiotics, urban development, communication and literacy. In this case study the cityscapes of the Moldovan capital Chisinau and the Lithuanian capital Vilnius will be analyzed. Peripheral and central districts of the cities have been chosen. From each of these districts, data on the number of mother tongue speakers have been obtained. Two corpora, each containing 1000 items of specimen of written language have been made and contextualized with the help of GPS tracking to ensure the possibility of future diachronic research. The data for these corpora was collected in December 2010 and March 2011. The aim of this study is two-fold: On the one hand this approach gives an insight into the general use of different languages in Moldova and Lithuanian as well as on the functional domains they fulfill. On the other hand the distribution of different languages on signs in each district shows how minority languages such as Russian are represented in public. The results suggest that the linguistic landscape of Chisinau is actually very diverse and alongside Romanian, English and especially Russian are used frequently. The functional domains differ though. Whereas the national language is part of almost all shop signs and advertising in general, it is usually used in conjunction with Russian. Informal displays of written language such as graffiti or small placards are mostly written in Russian alone. Other minority languages in Moldova such as Gagauz and Ukrainian were almost never visible on written displays of language in the city. In contrast to that the linguistic landscape of Vilnius is far less diverse and although the Lithuanian capital is home to sizeable Russian- and Polish-speaking minorities, these demographic patterns do not show. Yet, apart from Lithuanian English is an integral part of the linguistic landscape, especially in advertising.
Acute pancreatitis is a common clinical inflammatory disease with variable severity from mild, self-limiting attacks to a severe lethal attack with a high mortality. In most of the cases, acute pancreatitis is either caused by gallstone obstruction or excessive alcohol consumption. Clinical symptoms include elevated levels (minimum 3 times than normal) of pancreatic enzymes such as amylase or lipase in serum. It is generally believed that earliest event in acute pancreatitis occur in acinar cells which includes premature protease activation and cytoplasmic vacuole formation. Premature trypsinogen activation has been considered as chief culprit as it can activate other proteases in a cascade like manner in acinar cells. Trypsin activity takes place in a biphasic curve with elevated levels at 1 h and 8 h in the initial stages up to 24 h in caerulein induced pancreatitis in mice. It has been shown that cytoplasmic vacuoles observed in pancreatitis are of autophagic nature. The role of autophagy for the disease onset and its role in trypsinogen is much of a debate. Hence, we studied the relation between autophagosome formation and trypsinogen activation in first 12h of pancreatitis. Although autophagosomes were found to be co-localised with trypsin in vivo, this was found to be a late event occuring only by 4 h. Substrate specific trypsin activity and western blotting from both sub-cellular fractions over the time course of pancreatitis and multiple fractions prepared from 1 h caerulein induced pancreatic tissue revealed that trypsin activity observed at 1 h occured in a zymogen enriched fraction. In line simultaneous confocal imaging of trypsin activity and autophagosome formation in hyperstimulated acini isolated from GFP-LC3 mice showed that both processes are independent and take place in parallel. Furthermore, protease inhibition by gabexate mesilate did not prevent autophagosome formation indicating that trypsinogen activation is not a prerequisite for vacuole formation. Even though, autophagosomes and active trypsin were found to be co-localised around 30 minutes to some degree upon cholecystokinin hyperstimulation, the earliest trypsin activation started to appear by 15 minutes and was independent of autophagosomes. The earliest active trypsin was found to be co-localised along with the cis-Golgi complex suggesting that the Golgi apparatus and its pre-condensed zymogen granules are the compartment responsible for the trypsinogen activation. 2) Protease activation in pancreatic acinar cells considered as the early hallmark event in the acute pancreatitis. However, the disease is aggravated by the infiltration of the leukocytes. Activated proteases mediate acinar cell injury and hereby cause the release of chemokines, which in turn attract inflammatory cells. Transmigrated inflammatory cells cause systemic damage that deteriorates the condition of the disease. Neutrophil elastase has been reported to be involved in the dissociation of cell-cell contact at adherens junctions by the extracellular cleavage of E-cadherin. This subsequently leads to transmigration of leukocytes into the epithelial tissue during the initial phase of experimental pancreatitis and aggravates the disease condition. On the other hand, pancreatic elastase substantially contributes to acinar cell necrosis. In this study, ZD0892, an orally bioavailable dual inhibitor against both elastases was tested for its efficacy to ameliorate severity in acute pancreatitis. ZD0892 orally fed mice showed increased survival compared to the control group in the taurocholate model of severe pancreatitis. In the initial stages of pancreatitis up to 24 h, the severity markers were found to be significantly lower in the inhibitor treated group. Treatment of mice with ZD0892 did not impede the defensive property of the leukocytes such as phagocytosis or oxidative burst. In caerulein induced pancreatitis, a mild form of acute pancreatitis, in rats, the local damage measured as serum amylase and lipase, wet dry ratio, and pancreatic myeloperoxidase levels were significantly lower in the inhibitor group. Systemic inflammatory parameters such as myeloperoxidase activity in lung was found to be significantly lower in the inhibitor fed rats. Inhibitor feeding resulted in lesser elastolytic activity compared to control group indicating that extracellular matrix was less damaged. Prophylactic treatment of pancreatitis with an orally available inhibitor with a dual specificity against pancreatic elastase and PMN-elastase was shown to ameliorate both local and systemic damage. Hence, in overall, ZD0892 treatment is proved to be beneficial to the mice and rats in experimental pancreatitis and should be considered for treatment in humans as the substance has been already studied in phase I and II trails for other indications.
Streptococcus pneumoniae (pneumococci) are Gram-positive cocci and commensals of the human upper respiratory tract. Pneumococcal pathogenesis requires adherence to host cells and dissemination through cellular barriers and to evade host defense mechanisms. The Pneumococcal surface protein C (PspC) is an important virulence factor which has a crucial role in pneumococcal adhesion to host cells and immune evasion by manipulating the host complement system. To elucidate the pneumococcal adherence and uptake mechanism via factor H glycosaminoglycans (dermatan sulfate and heparin) were employed as competitive inhibitors in infection experiments with epithelial cells or human polymorphonuclear leukocytes (PMNs). Glycosaminoglycans significantly inhibited the FH mediated pneumococcal adherence and subsequent invasion to host epithelial cells. Furthermore, the short consensus repeats of FH which promotes the adhesion of pneumococci to host cells were identified by blocking experiments with domain mapped antibodies for specific regions of FH. Moreover, this study indicates that FH acts as adhesion molecule via cellular receptors recognized as integrin CR3 on human PMNs. Binding of Factor H loaded pneumococci to integrins CR3 was assessed by flow cytometry. Pneumococci coated with Factor H showed a significantly increased association with PMNs. This interaction was blocked by anti-CR3 antibodies and Pra1. This project further aims to study mechanisms of pneumococcal endocytosis by host cells, their intracellular fate, and the pathogen induced host cell signal transduction cascades including the calcium signaling upon pneumococcal infection of host cells via the PspC-hpIgR interaction. To assess now the role of protein tyrosine kinases (PTKs) during pneumococcal infection via PspC, cell culture infections were performed in presence of pharmacological inhibitors of PTKs and MAPKs or by employing genetic interference techniques. Blocking the function of Src or ER1/2 and JNK and genetic-knock down of Src and FAK reduced significantly internalization of pneumococci. These data indicated the importance of a coordinated signaling between Src PTKs, ERK1/2, and JNK during PspC-pIgR-mediated uptake of pneumococci by host epithelial cells. The impact of host cells intracellular calcium concentrations on pneumococcal PspC-hpIgR mediated internalization was studied. Intracellular calcium measurement of epithelial cells performed in the presence of pneumococci suggested a calcium influx in host epithelial cells and importantly this calcium influx was PspC- hpIgR specific as pspC-deficient pneumococci were unable to mediate calcium mobilization in host cells. The increase in intracellular calcium [Ca2+]i was dependent on phospholipase C as pretreatment of cells with a phospholipase C-specific inhibitor abolished the increase in [Ca2+]i. Furthermore, role of host intracellular calcium concentrations during pneumococcal internalization was demonstrated by employing specific pharmacological inhibitors and calcium chelators in epithelial cell culture infection assays. The results revealed that elevated host cells calcium concentrations diminished pneumococcal internalization while lower calcium concentration in host epithelial cells promoted pneumococcal uptake. This study further demonstrates that dynamin, clathrin and caveolin play a key role during pneumococcal endocytosis into host cells via PspC-hpIgR. The use of specific pharmacological inhibitors or genetic interference approaches against dynamin, clathrin and caveolin in epithelial cell culture infection assays significantly blocked pneumococcal uptake. Furthermore, confocal microscopy revealed that pneumococci co-localize with clathrin. At later stages of the infection the pathogen is sorted to early, late and recycling endosomes as indicated by co-localization of pneumococci with endosomal markers such as Rab5, Rab4, Rab 7, and Lamp1. In order to get further insights into PspC-hpIgR mediated uptake mechanisms, a chimeric PspC was constructed and expressed heterologously on the surface of Lactococcus lactis. Immunofluorescence staining, immunoblot and flow cytometric analysis of L. lactis confirmed the expression of PspC on the bacterial surface. Moreover the ability of recombinant lactococci expressing PspC to adhere to and to invade pIgR-expressing epithelial cells confirmed the functional activity of PspC when exposed on the lactococcal surface. PspC expressing lactococci confirmed the specificity of PspC-hpIgR mediated endocytosis in host epithelial cells as PspC deficient lactococci were not taken up by these host cells. Confocal microscopic analysis demonstrated that only PspC expressing lactococci were sorted to early, late and recycling endosomes, similar to the intracellular fate of S. pneumoniae.
Independence is a basic concept of probability theory and statistics. In a lot of fields of sciences, dependency of different variables is gained lots of attention from scientists. A measure, named information dependency, is proposed to express the dependency of a group of random variables. This measure is defined as the Kullback-Leibler divergence of a joint distribution with respect to a product-marginal distribution of these random variables. In the bivariate case, this measure is known as mutual information of two random variables. Thus, the measure information dependency has a strong relationship with the Information Theory. The thesis aims to give a thorough study of the information dependency from both mathematical and practical viewpoints. Concretely, we would like to research three following problems: 1. Proving that the information dependency is a useful tool to express the dependency of a group of random variables by comparing it with other measures of dependency. 2. Studying the methods to estimate the information dependency based on the samples of a group of random variables. 3. Investigating how the Independent Component Analysis problem, an interesting problem in statistics, can be solved using information dependency.
Abstract Atmospheric Pressure Discharges have attracted much interest in recent years. The development of a new processes based on this discharge needs a clear understanding of plasma and discharge physics and chemistry. At the present time much attention is paid to the chemical processes in barrier discharge plasma in various gas mixtures, since the understanding of these processes is necessary for the development of industrial reactors. Besides these, hydrocarbons are being used for the formation of diamond like or amorphous carbon (DLC) films. Specially, hydrogenated amorphous carbon (a-C: H) and plasma polymerization. In this work we have used Dielectric Barrier Discharge (DBD) a plasma device used to investigate simple hydrocarbon reactions in a plasma phase. Our aim of plasma phase chemical reaction studies is to form molecular hydrogen, higher order hydrocarbons CnHm up to n ≥ 12 series and nitrogen - containing organic complexes using simple hydrocarbons. Deposition of thin organic films or DLC films were carried out using the DBD. In this study we have chosen certain combination of gases such as C2Hm/N2 (m = 2, 4, 6) and C2Hm/Ar (m = 2, 4, 6); the purpose of using N2 and Ar gases are to dilute and stabilize the hydrocarbon plasma and to investigate plasma chemical reactions with nitrogen gas. All reactions were carried out under an atmospheric pressure (300 mbar) with gas ratio 1:2; Experiments were performed by applying high voltage with a frequency 5.5 kHz. The plasma phase diagnostics have been investigated using mass spectrometry and FTIR spectroscopy. Formation of molecular hydrogen, N-containing organic complexes and higher order hydrocarbons with C ≥ 12, have been investigated with mass spectrometry. FTIR spectroscopy reveals the formation of substituted alkanes (sp3), alkenes (sp2) and alkynes (sp) and nitrogen containing functional groups from the individual gases which are used in this work. Abundant formation of acetylene occurs with C2H6 and C2H4 as precursor gases. Amorphous hydrogenated carbon nitride (a-CNx:H) films have been deposited on Si (100) and glass substrates using gas mixtures C2Hm/N2 (m = 2, 4, 6). Surface chemical compositions have been derived from Fourier Transform Infrared Reflection Absorption Spectroscopy (FT-IRRAS) and X-ray Photo electron Spectroscopy (XPS). FT-IRRAS and XPS show the presence of sp, sp2 and sp3 bonds of carbon and nitrogen for C2Hm/N2 thin films. Various functional groups such as amines, saturated and unsaturated alkyl groups have been identified. Thin films obtained from C2H2/N2 and C2H4/N2 gas mixture had a larger N/C ratio when compared to the film obtained from C2H6/N2. Thickness, refractive index and extinction co-efficient were investigated by ellipsometry. Rate of deposition have been investigated. Different surface morphology has been derived using Scanning Electron Microscopy. Amorphous hydrogenated carbon (a-C:H) films or diamond like carbon (DLC) films have been deposited on Si (100) and glass substrates using gas mixtures C2Hm/Ar (m = 2, 4, 6). Diagnostics for the deposited films have been done using different spectroscopic techniques. Surface chemical compositions have been derived from Fourier Transform Infrared Reflection Absorption Spectroscopy (FT-IRRAS) and X-ray Photo electron Spectroscopy (XPS). FT-IRRAS show the presence of sp, sp2 and sp3 bonds of carbon and hydrogen for C2Hm/Ar (m = 2, 4, 6) thin films. The characteristic peak for C1s has been observed from XPS. Thickness, refractive index and extinction co-efficient were investigated by ellipsometry. Rate of deposition have been investigated.
This thesis describes investigations of metal clusters stored in an ion-cyclotron resonance (ICR) trap, as well as corresponding trap research and development. Charged clusters are produced and investigated in the experimental setup Cluster-Trap, comprising a cluster-ion source, an ICR trap and a time-of-flight (ToF) mass spectrometer. In the framework of its move to the new building of the Institute of Physics, new components have been added to the ClusterTrap setup. A radio-frequency ion trap is now used for cluster ion preparation prior to the performance of cluster experiments in the ICR trap. A quadrupole ion deflector allows an optimized usage of the ICR trap, as well as simultaneous use of several ion sources and detectors. The implementation of a potential lift at the ToF mass spectrometer enables a more flexible operation of the setup with ion energies up to several hundreds of electron volts. The new components have been tested and characterized, and the experimental procedures have been adapted. An important aspect of cluster investigations is the manipulation of trapped ions by application of appropriate excitation fields. For the ICR trap, a vector representation model has been developed for quick analysis of radial excitation fields, applied to the quarter-segmented ring electrode of an ICR trap. Its application has been demonstrated for asymmetric radial quadrupolar excitation of stored cluster ions, confirming the observation of unintended ion ejection from the trap. Investigation of multiply negatively charged metal clusters at ClusterTrap has been continued. By the "electron-bath" technique, i.e. simultaneous storage of cluster mono-anions and electrons in the ICR trap, high charge states are produced up to a limit which arises from restrictions for ion trapping. A modification of the electron bath, which bypasses this limit, has been introduced and demonstrated by the first-time production and detection of aluminum cluster anions carrying five excess electrons (penta-anions). Results of the penta-anion production as a function of the trapping voltage relate to the Coulomb potentials of the cluster anions involved, in agreement with previous findings. The observed poly-anionic clusters are meta-stable and their abundance as a function of the cluster size is determined by their lifetimes. Observed poly-anion abundances are described by a thermionic-emission approach, by means of the Richardson-Dushman formula. The height of the Coulomb potential in the formula is decreased to match experimental data, thus accounting for electron tunneling. Poly-anions are observed only above a minimum cluster size, the appearance size. To determine this limit from experimental results, a new data evaluation method has been introduced, which considers the poly-anion lifetimes and respective abundances of a range of cluster sizes. As a result, the experimental appearance size is larger than the smallest poly-anionic cluster observed, in contrast to previous approaches.
In aged humans, stroke is a major cause of disability for which no neuroprotective measures are available. In animal studies of focal ischemia, short-term hypothermia often reduces infarct size. Nevertheless, efficient neuroprotection requires long-term, regulated lowering of whole-body temperature. Previously, it is reported that post-stroke exposure to hydrogen sulfide (H2S) effectively lowers whole-body temperature and confers neuroprotection in aged animals. Here we report for the first time that the animals exposed to H2S the normal sleep–wake oscillations are replaced by a low-amplitude EEG dominated by a 4-Hz rhythmicactivity, reminiscent of EEG recordings in hibernating animals. In the present study using magnetic resonance imaging, reverse transcriptase polymerase chain reaction, western blotting and immunofluorescence, we characterized the central nervous system response to H2S -induced hypothermia and report, that annexin A1, a major constituent of peripheral leukocytes that is upregulated after stroke, was consistently downregulated in polymorphonuclear cells in the peri-lesional cortex of post-ischemic, aged rat brain after 48 hours of hypothermia induced by exposure to H2S. This might be due to the reduced kinetics of recruitment, adherence and infiltration of PMN cells by H2S -induced hypothermia. Our findings further suggest that, in contrast to monotherapies that have thus far uniformly failed in clinical practice, prolonged hypothermia has pleiotropic effects on brain physiology that may be necessary for effective protection of the brain after stroke.
Thiol or sulfhydryl groups are highly reactive functional groups in cellular systems. Molecules carrying thiol groups are mostly derivatives of the amino acid cysteine and are grouped as low molecular weight (LMW)-thiols: coenzyme A (CoA), glutathione (GSH) or bacillithiol (BSH). LMW-thiols can help in the maintenance of the reduced cellular environment as so called redox-buffers. Additionally, they act as co-factors in enzyme reactions or help in the detoxification of reactive oxygen or nitrogen species, electrophilic compounds or thiophilic metalloids (arsenite, tellurite). In proteins from different organisms cysteine is underrepresented compared to other amino acids, but still overtakes diverse roles. It is an important determinant in the tertiary and quaternary structure of proteins. The nucleophilic character of the thiol or thiolate group, respectively, makes cysteine the catalytically active amino acids of different enzymes. As a precursor cysteine participates in the formation of Fe-S clusters and coordinates different co-factors like heme, iron or zinc. The main goal of this study was the investigation of the different cellular thiol pools, now defined as the thiolome. The thiolome is the entity of the cellular thiol pools, i.e. LMW-thiols and protein thiols, and the dynamics between these pools. In Bacillus subtilis and Staphylococcus aureus mixed disulfides between protein thiols and free LMW-thiols, so called S-thiolations, were identified in different proteins in response to the thiol specific reagent diamide. Some of these S-thiolations were located at catalytically active cysteine residues. Subsequent analysis of metabolites supports this: the S-thiolation of the cobalamine-independent methionine-synthase MetE led to a decrease of the cellular methionine content. Additionally, the conversion of threonine to different branched-chain amino acids (BCAAs) was disrupted by the S-thiolation of the branched-chain amino acid aminotransferase YwaA, thereby probably inducing the synthesis of ppGpp, the alarmon of the stringent response. In addition to the identification of S-thiolations a technique was established which allowed the discrimination between intra- and intermolecular disulfides. The non-reducing/ reducing diagonal gel electrophoresis was applied to B. subtilis and S. aureus and confirmed known existing disulfide bonds, e.g. in alkyl hydroperoxide reductase AhpC or the thiol peroxidase Tpx. In response to diamide an increase of specific disulfide bonds in different proteins was observed. The analysis of the LMW-thiol content by an HPLC-approach allowed the observation of the dynamics of the thiolome. In response to diamide the reduced LMW-thiol content decreased by 75%, reduced protein thiols by 60%. Collaborations with other working groups allowed the identification of BSH in this approach. Additionally, an unknown thiol was found that is likely a derivative of BSH. Screening of the LMW-thiol content of different S. aureus-strains under various growth conditions revealed that strains 8325-4 and SH1000 lack BSH. The lack of BSH was attributed to an 8 bp-duplication in the bshC-gene that encodes the last enzyme of the BSH-synthesis. BSH-production was restored by transducing plasmid-borne functional BshC from strain Newman into strains 8325-4 and SH1000. The reconstitution of the BSH-synthesis aided in the resistance to the antibiotic fosfomycin but did not increase the resistance to different oxidants (diamide, sodium hypochlorite, hydrogen peroxide). The production of BSH had also positive effects on the survival of S. aureus inside human bronchial epithelial cells and murine macrophages in phagocytosis assays. Additionally, a GSH-uptake was observed into S. aureus which has before been known as a GSH-free bacterium. Taken together, this thesis provides the first insights into both, the LMW-thiol- and protein thiol pool of low GC, Gram-positive bacteria under different conditions. A plethora of different methodologies was used to describe the thiolome. The bacterial thiolome is a sophisticated system which is tightly regulated, but also flexible enough to not rely on determined molecules like BSH. The influences of the thiolome are not restricted to its own system and regulation, but also affect different branches of cellular physiology like the metabolism of BCAAs.
In the framework of the current work has been the plasma initiated and surface catalysed species conversion studied in low pressure and atmospheric plasmas. The aim of the work is to improve the understanding of the internal processes in order to increase the energy efficiency as well as the selectivity of the reaction products of future plasma devices. Beside many technical applications of plasmas, air purification shows great potential. Over the last decades, plasma based pollution control has proofed its ability to remove harmful contaminants or annoying odours from an air stream. However, the energy efficiency and the selectivity of the products are a remaining challenge.
Motivated by these issues, a multi stage packed-bed reactor has been used to remove admixed ethylene and toluene from an air stream. It has been found that the maximum toluene destruction has been 60%, whereas ethylene has been nearly completely removed. The specific energy β has been between 120 and 1600 JL-1. Fourier Transform Infrared spectroscopy, FTIR spectroscopy, has been used to identify and quantify the species H2O, CO2, CO, O3, HNO3, HCN, CH2O, CH2O2, N2O and NO2. However, none of these experiments led to the detection of NO.
The embedment of packing material into a plasma volume leads to increased surface effects. In order to study them, the inner side of a tube reactor, made of Pyrex, served as the surface under study and has been exposed to a rf plasma for 1h. The surface effects of the plasma treatment have been investigated indirectly by studying the oxidation of NO into NO2. After the plasma exposure, the reactor has been evacuated and filled with a gas mixture of 1% NO in N2 / Ar. Both species have been measured using quantum cascade laser absorption spectroscopy, QCLAS. It has been found that, using oxygen containing plasmas, the NO concentration decreased whereas the NO2 concentration increased. Therefore, oxygen containing plasmas are able to deposit oxygen on the surface. The filling with NO leads to the oxidation via the Eley-Rideal mechanism. A simplified model calculation supports these assumptions.
For a more comfortable application of the QCLAS, a compact multi channel spectrometer has been developed, TRIPLE Q. It combines the high time resolution with the possibility to measure the concentration of at least three infrared active species simultaneously. Due to the high time resolution, a huge number of spectra have to be analysed. In order to calculate absolute number densities, an algorithm has been developed which automatically treats typical phenomena like pulse jitter, rapid passage effect or variations of the intensity of the laser pulses.
The gas temperature is an important parameter in plasma physics. Using the TRIPLE Q system, the gas temperature has been determined for pulsed dc plasmas. For this case, NO has been used as a probe gas. From the spectra, the temperature has been calculated using the line ratio method. The relative intensity of the absorption structures of NO at 1900.5cm-1 and 1900.08cm-1 depend on the temperature. Therefore, the ratio has been used to calculate the gas temperature with a time resolution in the μs range.
Vibrationally excited nitrogen can be an energy reservoir that plays an important role in plasma chemistry. In N2 / N2O plasmas, vibrationally excited N2 can undergo relaxation via a resonant vibration vibration coupling between vibrationally excited N2 and N2O. Due to such an efficient energy transfer, the method allows one to study the relaxation of vibrationally excited N2. Using this method, molecules, which are not infrared active, can be monitored. This approach has extended the field of scientific and commercial applications of the QCLAS.
The leading hypothesis of why organisms age is the “Free Radical Theory of Aging”, which states that the accumulation of reactive oxygen species (ROS), such as superoxide (O2•-) and hydrogen peroxide (H2O2), causes protein, lipid and DNA damage and leads to the observed age-related decline of cells and tissues. A major obstacle in analyzing the role of oxidative stress in aging organisms is the inability to precisely localize and quantify the oxidants, to identify proteins and pathways that might be affected, and ultimately, to correlate changes in oxidant levels with the lifespan of the organism. To directly monitor the onset and extent of oxidative stress during the lifespan of Caenorhabditis elegans, we utilized the fluorescent H2O2 sensor protein HyPer, which enabled us to quantify endogenous peroxide levels in different tissues of living animals in real time. We made the surprising observation that wildtype C. elegans is exposed to very high peroxide levels during development. Peroxide levels drop rapidly as the animals mature, and low peroxide levels then prevail throughout the reproductive age, after which an age-accompanying increase of peroxide level is observed. These results were in excellent agreement with findings obtained by using the highly quantitative redox proteomic technique OxICAT, which monitors the oxidation status of redox-sensitive proteins as read-out for onset, localization, and protein targets of oxidative stress. By using OxICAT, we detected increased protein thiol oxidation during the development of C. elegans and in aging animals. Many processes in C. elegans might potentially contribute to the elevated peroxide levels observed during development, including cuticle formation, apoptosis, proliferation, gametogenesis, or ROS signaling. The finding that all investigated C. elegans mutants regardless of their lifespan are exposed to high developmental peroxide levels argues for ROS accumulation to be a universal and necessary event. Yet, recovery from the early oxidative boost might determine the subsequent adult lifespan, as we found that long-lived daf-2 mutants transition faster to reducing conditions than short-lived daf-16 mutants, which retain higher peroxide levels throughout their mature life. These results suggest that changes in the cellular oxidant homeostasis, encountered at a very early stage in life, might determine subsequent redox levels and potentially the lifespan of organisms. Manipulation of developmental oxidant levels using glucose restriction or a short bolus of superoxide caused a disruption in developmental growth, a delay in reproduction, and a shortened lifespan. These results suggest that developmental oxidant levels are fine-tuned and optimized. Future experiments are aimed to investigate the sources of developmental hydrogen peroxide, and to elucidate whether active down-regulation of antioxidant enzymes during the larval period might foster peroxide accumulation. Preliminary results indicate that this might indeed be the case for peroxiredoxin 2, whose expression was significantly lower during development than at later stages in life. Finally, we investigated whether the observed variances in the developmental peroxide levels of individual worms within a synchronized wildtype population might be responsible for the observed significant variances in lifespan, and hence could serve as a predictor for adult lifespan. Preliminary results revealed that neither too low nor too high peroxide levels during development are beneficial for the lifespan of wildtype worms, suggesting that ROS level during development might be optimized for maximized lifespan. Future experiments aim to reveal the processes that are affected by ROS and which might influence the individual’s lifespan early in life.
The widespread use of natural and synthetic estrogens or chemicals with estrogenic activities is causing an increasing accumulation of estrogenic compounds in the environment. Already at very low concentrations these estrogenics can severely affect the wildlife, particularly in an aquatic environment. For these reasons measuring devices for detecting estrogen contaminations are in great demand. The majority of the analytical methods and bioassays on the market so far, lack semi-online adaptability, and usually cannot be used for automatic and continuous determination. Therefore, we have embarked on the development of new systems, which are able to fulfil those demands. The EstraMonitor combines recombinant A. adeninivorans G1212/YRC102-hERa-phyK yeast cells as the microbial component with an amperometric detection method to analyze estrogenic contaminations. A. adeninivorans G1212/YRC102-hERa-phyK was constructed by Kaiser et al. (2010). These cells were engineered to co-express the human estrogen receptor (hERa) gene and the inducible phytase (phyK, derived from Klebsiella sp. ASR1) reporter gene under control of a promoter with estrogen response elements (EREs). In the presence of estrogenic substances, such as 17ß -estradiol (E2), the phyK gene is expressed and recombinant phytase is secreted into the media. The level of phytase is quantified by amperometric detection using substrate p-aminophenyl phosphate (p-APP). Phytase dephosphorylates p-aminophenyl phosphate (p-APP) into an intermediate product p-aminophenol (p-AP). p-AP is electroactive and oxidized at the electrode. This generates electrons and produces a current which is proportional to the level of phytase activity. Since phytase activity is directly correlated to the E2 concentration, the estrogenic activity can thus be calculated from the current measured. The microbial component of the EstraMonitor, the non-immobilized A. adeninivorans G1212/YRC102-hERa-phyK, works well with the amperometric method in a quantitative manner. The optimal applied potential determined for amperometric measurements was 150 mV and provided a low background signal for the amperometric detection. The half maximal effective concentration (EC50) and limit of detection (LoD) values for E2 obtained from amperometric measurements with the EstraMonitor were 69.9 ng L-1 and 44.5 ng L-1, respectively. The measuring procedure of the EstraMonitor system including incubation of A. adeninivorans G1212/YRC102-hERa-phyK cells with E2, subsequently incubation with electrochemical substrate (p-APP), and signal recordation is completed within only 4 h and 10 min. Out of this total time, amperometric detection including substrate incubation and signals recordation takes only 10 min out of total time. The use of immobilized cells for a microbial biosensor is an essential advantage of the EstraMonitor system because it allows easy-handiness next to long-term stability and reusability. Immobilized A. adeninivorans G1212/YRC102-hERa-phyK cells revealed excellent properties which make them very suitable for semi-online, automatic and continuous monitoring. They were stable up to 30 days when stored at 4 °C. Furthermore, they could be reused up to 15 times. The EC50 and LoD values achieved for E2 using immobilized cells in combination with amperometric detection were 20.9 and 8.3 ng L-1, respectively. Furthermore, this application also removes the need to separate cells by centrifugation, to sterilize the samples as well as to cultivate repeatly. Additionally, both immobilized and non-immobilized A. adeninivorans G1212/YRC102-hERa-phyK cells remain fully functional in a wide range of untreated wastewater samples and in environments containing up to 5% NaCl. To enhance the sensitivity and reduce the time for estrogenic determination, an alternative A. adeninivorans G1214/YRC103-hERa-phyK strain was developed. This strain can produce a detectable amount of phytase within 2 h after induction with E2. It offers an improved microbial component in terms of sensitivity and time-effectiveness. In addition, to reduce the cost for estrogenic detection an alternative substrate, ascorbic acid 2-phosphate (AA2P), was tested. AA2P, which is both cheap and widely available, performed better than p-APP. The EC50 and LoD values for E2 obtained with AA2P were 15.69 and 0.92 ng L-1 versus 20.09 and 8.3 ng L-1 when examined with p-APP, respectively. Taken together, the EstraMonitor is an automated system with respect to sample cycling, sample measuring and calibration supplemented with an alarm function. This system makes it possible to control estrogenic activity semi-online, automatically and continuously. These are advantages of the EstraMonitor compared to other estrogenic detection systems. It can thus be concluded that, the EstraMonitor is a powerful and feasible semi-online device for monitoring estrogenic activity especially adapted for the use in sewage treatment plants.
Non-thermal atmospheric pressure plasma has recently been shown to have broad application potential for medical as well as industrial purposes. Improved wound healing and tissue decontamination have been described as consequences of non- thermal plasma treatment. However, thus far the underlying molecular mechanisms in human tissues have only been partially characterized. In this work a two-dimensional difference in-gel electrophoresis (2D-DIGE) approach was used and an analysis-workflow to study the response of human cells to atmospheric pressure non-thermal plasma was established. Human S9 bronchial epithelial cells were used as a model for airway epithelial cells. They were treated with atmospheric pressure plasma jet (APPJ) for different periods of time. Subsequently, time-resolved comparative proteome analysis was used to study the complex cellular adaptation reactions after a 120 sec plasma treatment, which accelerated wound healing in a clinically relevant model. The results indicate, that intracellular oxidative stress due to the non-thermal plasma treatment either leads to cell death or to proliferation. The oxidative stress response, mediated by Nrf2, appears to play a pivotal role in molecular signalling and might be a key pathway determining the fate of stressed cells. This thesis demonstrates changes in Nrf2-expression after non-thermal plasma treatment. Furthermore, potential protein biomarker candidates for evaluation of oxidative stress after non-thermal plasma treatment were identified. Finally, it is shown, that the cytosolic concentrations of IL-1beta and IL-33 were decreased following non-thermal plasma treatment. Thus, modulation of innate immune response by non-thermal plasma treatment of epithelial cells (ENTplas treatment) is concluded.
The worldwide distribution and prevalence of melioidosis, an infectious disease caused by the soil-dwelling Gram-negative bacterium Burkholderia pseudomallei, is unknown. In Vietnam, sporadic cases of melioidosis have been reported for decades, but clinical and epidemiological data for the indigenous population are still scarce. In this study, we reviewed clinical and demographic data of patients with culture-proven melioidosis diagnosed at a single large referral hospital in Hanoi between November 1997 and December 2005. The clinical manifestations of melioidosis with fatal septicaemia as the most common presentation, a high rate of underlying diseases and a peak of cases admitted during the wet season were similar to studies from other endemic areas. The geographical origin of melioidosis patients shows that melioidosis exists in at least 18 northern provinces. The characterization of clinical B. pseudomallei strains by multilocus sequence typing identified 17 different sequence types (STs), ten of which have (as yet) not been found outside Vietnam. Several of these STs presumably were generated through recent evolutionary events in this rapidly diversifying bacterial species, and thus restricted geographic distribution may be a consequence of limited time passed since emergence. In order to define the distribution of the bacterium in the environment, our study also aimed to develop a more sensitive culture method for the detection of B. pseudomallei from soil samples in endemic areas compared to the currently used culture method based on soil dispersion in water. Our newly developed protocol involving soil dispersion in a polyethylene glycol and sodium deoxycholate solution increased the yield of viable B. pseudomallei from soil samples. Comparative testing of soil samples from Northeast Thailand covering a wide range of B. pseudomallei concentrations demonstrated a significantly higher recovery (p < 0.0001) of B. pseudomallei colony forming units by the new method compared to the conventional method. Our data indicate that using the detergents polyethylene glycol and sodium deoxycholate not only results in a higher recovery of viable B. pseudomallei, but also results in a shift in the bacterial species recovered from soil samples. Molecular methods based on direct bacterial nucleic acid extraction from environmental samples and subsequent amplification have the potential to overcome many restrictions of traditional microbiological approaches. Moreover, culture-dependent methods require special expertise in recognizing B. pseudomallei colony morphologies. Thus, a highly sensitive culture-independent DNA-based method that allows direct quantification of B. pseudomallei from soil is needed, particularly in diagnostic laboratories outside endemic areas. We therefore aimed to establish a protocol for B. pseudomallei soil DNA isolation, purification and quantification by qPCR targeting a type three secretion system 1 single copy gene. This assay was validated using 40 soil samples from Northeast Thailand that underwent parallel bacteriological culture. All 26 samples that were B. pseudomallei-positive by direct culture were B. pseudomallei qPCR-positive, with a median of 1.84 x 104 genome equivalents (range 3.65 x 102 to 7.85 x 105) per gram of soil. This was 10.6 fold (geometric mean; range 1.1 to 151.3) higher than the bacterial count as defined by culture. Moreover, the qPCR detected B. pseudomallei in seven samples (median 36.9 genome equivalents per g soil; range 9.4 to 47.3), which were negative on direct culture. These seven positives were reproduced using a nested PCR targeting a second, independent B. pseudomallei-specific sequence. Two samples were direct culture and qPCR negative but nested PCR positive. Five samples were negative by both PCR methods and culture. In conclusion, this is the first report on a series of cases describing clinical and epidemiological features of melioidosis and corresponding Burkholderia pseudomallei strains from northern Vietnam. Moreover, our newly developed culture-based and PCR-based methods provide highly specific and sensitive tools for the quantitative environmental surveillance of B. pseudomallei.
Understanding the interaction between climate variability and ice sheet behavior is critical due to scenarios of future climate warming and the consequent contribution of Greenland ice sheet melting to sea-level rise and its potential to influence thermohaline circulation. This thesis investigates the role of ocean forcing by the West Greenland Current (WGC) on the dynamics of West Greenland ice sheet behavior, with focus on Jakobshavn Isbræ, in the Disko Bugt area of central West Greenland. High-resolution sediment cores, obtained during a cruise of the RV ‘Maria S. Merian’ in 2007, provide a long-term Holocene perspective on climate variability off West Greenland. These records cover the last 8000 years with increasing resolution through to periods of historical and instrumental data series. Paleoenvironmental reconstructions, based on the calcareous and agglutinated benthic foraminiferal assemblage, reveal significant variations in the water mass properties (e.g. temperature and salinity) of the WGC. From 8 to 6 cal. ka BP, a relatively warm WGC enhances meltwater production (ice retreat) in Disko Bugt. Holocene ‘thermal optimum-like’ conditions prevailed from 5.5 to 3.5 cal. ka BP, associated with minimum ice sheet extent in eastern Disko Bugt. Long-term cooling of oceanographic conditions is recognized from c. 3.5 cal. ka BP towards the present day. Superimposed on this millennial scale cooling trend, centennial scale variability within the WGC is reconstructed: i) the 2.7 cal. ka BP ‘cooling event’; ii) the Roman Warm Period; iii) the Medieval Climate Anomaly; and iv) the Little Ice Age. Over the past 100 years, oceanographic conditions remain relatively cool and multidecadal variability in the WGC’s ocean temperatures show close correlation with the ice marg in position of Jakobshavn Isbræ and phases of the Atlantic Multi-decadal Oscillation (AMO). Cold (warm) phases correlate with stabilization/re-advance (retreat) of Jakobshavn Isbræ and a negative (high) index of the AMO. It has been demonstrated that variations in ocean temperature are an important factor that influence ice sheet behavior on a range of times scales, underlining the close coupling of ice-ocean interactions during the Holocene. Warmer ocean temperatures influence the stability of marine terminating ice sheets and glaciers, causing basal melting and glacier acceleration, whereas ocean cooling supports stabilization and advance of ice margin.
Dilated Cardiomyopathy is a chronic myocardial disease characterized by progressive depression of contractile function and ventricular dilatation. It is the leading cause of heart failure and the most common reason for heart transplantation. Besides genetic causes, viral infection and autoimmune response are considered to play a major role in the etiology of the disease. Among different viruses that cause the disease, Coxsackievirus B3 (CVB3) is predominantly associated with the development and progression of the disease. Moreover, Coxsackievirus induced myocarditis in the mouse mimics human myocarditis and dilated cardiomyopathy. In the murine model, the disease progresses over a period of 90 days from acute myocarditis to chronic myocarditis and further develops into dilated cardiomyopathy and congestive heart failure. Though much is known about the progression of the disease, the molecular events occurring after infection with CVB3 are not completely understood. In the current study, comparative proteomic analysis of A.BY/SnJ mouse hearts 84 days post infection (84 d p.i.) with CVB3 and age-matched non-infected mouse hearts was performed. 2D-DIGE and gel-free LC-MS/MS were used to characterize the changes occurring at the molecular level and Western Blot analysis as well as immunohistochemical staining was carried out for validation of results. A total of 101 distinct proteins were identified as displaying dilated cardiomyopathy-associated changes in A.BY/SnJ mouse hearts 84 d p.i. compared to age matched controls. Comprehensive analysis by both DIGE and gel-free proteomics revealed proteins related to lipid metabolism (18%), carbohydrate metabolism (14%), cell morphogenesis (14%) and respiratory electron transport chain (9%) to display significantly altered levels in diseased mouse hearts. The significant increase in extracellular matrix proteins observed in mouse hearts 84 d p.i. indicated extensive fibrosis. On the other hand, proteins related to energy metabolism were identified at lower levels in infected mouse hearts than in controls. These proteomics data and the decrease in activities measured for complexes I-IV of the respiratory electron transport chain in A.BY/SnJ mouse hearts 84 d p.i compared to age matched controls, indicate a diminished energy supply in the dilated hearts of CVB3 infected mice. Furthermore, proteins associated with muscle contraction were identified at lower levels in mouse hearts 84 d p.i. compared to age matched controls indicating compromised myocardial contractility due to virus induced dilated cardiomyopathy. While extracellular matrix proteins and contractile proteins were identified in the DIGE analysis, proteins of lipid metabolism which are mostly mitochondrial in origin and have a pI > 7 were identified by gel-free proteomics indicating the advantages of both methods. Gel based analysis also aided in the identification of protein isoforms/ species which allows conclusions on post translational modifications and protein processing. Thus, the current study also identified infection related changes in the phosphorylation of selected proteins. Phosphospecific staining of the gels demonstrated increased phosphorylation of myosin regulatory light chain - ventricular isoform, actin - aortic smooth muscle isoform, heat shock protein 90B, and heat shock protein beta-1 in infected mouse hearts. Extensive degradation of proteins was not observed in the dilated heart. As described earlier, virus induced dilated cardiomyopathy develops over a period of 90 days in the murine model during which the mice also grow and undergo aging. Since aging is one of the factors influencing the susceptibility of animals to disease, age dependent changes in the proteome of mouse hearts were also studied by comparing 4 months old (84d) A.BY/SnJ mice with 1 month old mice as controls. Complementary analyses by 2D-DIGE and gel-free LC-MS/MS analysis revealed 96 distinct proteins displaying age associated differences in intensity. These proteins are related to lipid metabolism (19%), protein transport (17%) and electron transport chain (12%). Mitochondrial proteins such as carnitine-o-palmitoyltranferase 1, carnitine-o-palmitoyltranferase 2, and carnitine-O-acetyltransferase involved in lipid metabolism and transport were identified at significantly higher levels indicating higher energy demand in 4 months old mice compared to controls. This conclusion is complemented by observation of decreases in the levels of respiratory electron transport chain proteins especially of subunits of ATP synthase as a member of complex V. Furthermore, an increase in intracellular transport proteins was also observed in 4 months old mouse hearts compared to one month old controls. An increase in the level of vesicular transport proteins likely constitutes a secondary effect leading to endoplasmic reticulum associated protein degradation. In the two studies described above, altered mitochondrial functioning and thereby decreased energy/ATP production was very prominent indicating the role of mitochondria in health and disease. The exchange of ADP/ATP across the mitochondrial membrane is carried out by the carrier protein adenine nucleotide translocase1 (ANT1). To improve understanding of the influence of ANT1 in the heart, comparative proteomic analysis using gel-free LC-MS/MS was performed with hearts of 3 months old rats over-expressing ANT1 using hearts from age-matched wild type animals as controls. A total of four hundred and thirty three proteins were identified with at least two peptides, of which eighty seven proteins displayed small but significant (p<0.05) changes in intensity. Proteins related to integrin linked kinase signalling and myocardial contraction displayed increased levels whereas proteins of the mitochondrial respiratory electron transport chain displayed decreased levels in ANT1 overexpressing hearts compared to wild type animals. Oxyblot analysis performed to study changes in the protein oxidation did not reveal any significant difference in the oxidative state of the proteins between the wild type and transgenic animals. To understand the influence of ANT1 overexpression in virus induced dilated cardiomyopathy, comparative proteomic analyses was performed for the mitochondrial fractions from the hearts of 8 months old rats of the wild type and ANT1 transgenic animals infected with CVB3. Of a total of 370 identified proteins, 83 proteins displayed altered levels in ANT1 overexpressing animals compared to controls. Proteins related to mitochondrial electron transport chain, fatty acid metabolism, contractility and cell structure displayed decreased levels in the infected transgenic animals compared to controls indicating decreased energy metabolism and myocardial contractility besides compromised cell structure. Besides viral causes of dilated cardiomyopathy, autoimmunity also plays a major role in the development of myocarditis and dilated cardiomyopathy. Therefore proteomic analyses of experimental models of autoimmune myocarditis generated by active immunization of rats with peptides of FcγIIa receptor -CEPPWIQVLKEDTVTL (peptide 1) designated as FcR animals and CRCRMEETGISEPI (peptide 2) designated as FcR2 animals- was performed. Of the 303 proteins identified with at least two peptides by gel-free LC-MS/MS analysis. 43 proteins displayed intensities greater than 1.2 fold in FcR rat hearts and 49 proteins displayed intensities greater than 1.2 fold in FcR2 rat hearts compared to animals injected with KLH adjuvant treated as controls. The majority of the alterations (>70%) were observed in both autoimmune models. Thus, immunization leading to an induction of the acute phase response signalling was observed in both experimental setups. Furthermore, the increased amount of proteins such as lumican or procollagen alpha 1, type 1 indicated the presence of fibrosis after immunization independent of the peptide used. In summary, using proteomics the current thesis addresses the changes in protein profiles of two models of dilated cardiomyopathy, namely, virus induced dilated cardiomyopathy and autoimmunity induced dilated cardiomyopathy in mouse and rat models of disease. 2D-DIGE and gel-free LC-MS/MS analysis are complementary techniques which provided a comprehensive view of the changes in the protein profile of hearts of the different animal models. Altered mitochondrial function resulting in decreased energy metabolism and compromised myocardial contractility were prominent in viral models of cardiomyopathy whereas intense acute phase response signalling was observed as a characteristic feature of autoimmune dilated cardiomyopathy. Altered mitochondrial function was also prominent in age associated changes in the heart of A.BY/SnJ mice indicating the role and influence of mitochondria in health and in disease.
The general stress response comprises approximately 200 genes and is driven by the alternative sigma factor SigB. Besides the process of sporulation with approximately 500 involved gene products under initial control of Spo0A are the two most significant and extensive cellular responses that can be observed in B. subtilis. The general stress response provides vegetative growing as well as non-growing and non-sporulating cells with a comprehensive cross-protective and preventive multiple stress resistance to various hostile environmental conditions. In contrast, the endospore is the most resistant but also dormant cell type produced by B. subtilis. The scope of this study was the identification of regulatory cascades driven by the general stress response sigma factor SigB to further elucidate the structure and function of the general stress regulon itself and to uncover potential intersections between the SigB response and other major developmental programs in the regulatory network of B. subtilis. It could be shown that the general stress regulon member yqgZ encodes a functional paralogue of Spx, the global regulator of the diamide stress regulon in B. subtilis. Global transcriptome and proteome studies led to the characterization of an YqgZ sub-regulon consisting of 53 positively and 18 negatively regulated genes. Due to its stringent SigB-dependent expression as well as its concerted action with SigB in regulation of its target genes YqgZ was renamed to MgsR which stands for “modulator of the general stress response”. Activity control of MgsR is stringently controlled at multiple levels. In addition to induction by SigB these mechanisms include (i) a positive autoregulatory loop of MgsR on the transcription level of its own structural gene, (ii) a post-translational redox-sensitive activation step by the formation of an intramolecular disulfide-bond within a conserved -CXXC-motif and (iii) rapid proteolytic degradation of MgsR by the ClpCP and ClpXP proteases, resul ting in extremely short in vivo half-lifes below 6 minutes. It was demonstrated that the activation of SigB is a prerequisite but not sufficient for a full expression of all general stress genes and that the SigB-dependent expression of MgsR provides the opportunity for additional redox-sensitive signal-reception, -processing and -integration beyond the primary decision of SigB activation. Our results describe a regulatory cascade integrating secondary oxidative stress signals into a SigB mediated regulatory cascade that is aimed at a precise fine tuning of target gene expression whose products are necessary for proper management of oxidative stress. Although primary oxidative stress stimuli do not typically induce SigB, our observation of redox-sensitive control by MgsR and several other reports that pointed at the implication of the general stress proteins in oxidative stress management led to the proposal that secondary oxidative stress may be a common component of multip le severe physical stress stimuli. This assumption could be supported by the results of a comprehensive phenotype screening of 94 mutants in single general stress genes upon treatment with hydrogen peroxide and the superoxide generating agent paraquat. A substantial amount of 62 mutants (66%) displayed significantly decreased survival rates in response to oxidative stress. The information gained by this phenotypic screening analysis provides a valuable basis for more directed assays to elucidate the biochemical functions of many so far uncharacterized general stress proteins and demonstrates that the SigB response and the regulatory fine tuning by MgsR plays a pivotal role in protection from secondary oxidative stress. Furthermore, it has been intensively discussed throughout the literature of the last years that the general stress response and the process of sporulation may represent mutually exclusive survival strategies of a non-growing B. subtilis cell, but the molecular basis for this assumption was missing until recently. By the identification of a functional SigB-type promoter (PsigB) adjacent to the spo0E, this gene was newly assigned to the general stress regulon. The spo0E gene encodes a phosphatase that specifically inactivates the master regulator of sporulation Spo0A~P by dephosphorylation. The SigB dependent induction of spo0E causes a block of sporulation specific transcription and produces a sporulation deficient phenotype. This effect was overcome by a deletion of the spo0E-SigB promoter, thus clearly addresses SigB activity. This regulatory mechanism is the first example for an integration of SigB inducing stimuli into the decision making process of sporulation initiation that provides a link to interconnect these two dominant and very likely mutually exclusive responses in the regulatory network of B. subtilis. The data presented here provide deeper insights into the structure and function of the general stress regulon in stress management.
Beams of ions and electrons are a source of free energy which can be transferred to waves via an instability. Beams exist in almost all plasma environments, but their instabilities are particularly important for the dynamics of space plasmas. In the absence of collisions, the instability drives waves to large amplitudes and forms nonlinear structures such as solitary waves. The electric fields in these waves can scatter particles in the background plasma, or disrupt currents. Both of these effects are important for the overall dynamics of the plasma. In this thesis, both electron and ion beam plasma instabilities have been investigated in the linear plasma device VINETA and using a Particle-in-Cell simulation. The electron beam instability has been demonstrated by previous authors to be a useful diagnostic for the plasma density. The spatial resolution of previous results was confirmed at a few millimetres, and a temporal resolution of 1ms was shown for the first time. An ion beam was generated with a double plasma discharge. Compared to space, this environment and indeed most laboratory plasmas have considerably higher collisionality and a limited spatial extent which introduces gradients in the plasma. Gradients perpendicular to the beam propagation direction are linked to a decrease of both the wavelength and amplitude of the instability. It was observed in both experiment and simulation that gradients in sheaths at the boundaries of the plasma not only affect the time averaged plasma parameters, but also excite instabilities. Fluctuations within the sheath spread the beam in velocity space, effectively increasing its temperature. Warmer beams require a higher drift velocity to excite an instability. This was also confirmed by experimental and numerical results. Collisions are shown to be the dominant damping force for the electron beam instability. For ions, collisions play an important role in the simulation, but appear to be overshadowed by Landau damping from impurities in the experiment. When boundary conditions are removed from the simulation, wave amplitudes increase and nonlinear effects become important. Saturation by particle trapping and coalescence of phase space holes is observed, which could eventually lead to the solitary waves as they are observed in space plasmas.