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This dissertation explores the language of three German grammar books and accompanying exercise books which are produced in Germany for international students of German. It examines how the examples and exercises presented in these books constitute ‘colony texts’ which convey different representations of human activity to the reader. Analysis of the language used in the German grammar books centres on the Linguistics of Representation and borrows techniques used normally in Corpus Linguistics. By using WordSmith Tools this study shows how particular terms (nouns, verbs, adverbs and adjectives) occur with greater frequency than others in the books under analysis thereby representing certain human activities more strongly than others. The activity of ‘work*, in particular, emerges in the grammar books as a key human activity and consequently provides the main focus for analysis in this study. Concordances relating to ‘work’ are grouped and analysed in terms of what they reveal about popular professions, workplace hierarchy and attitudes and approaches to work. Findings are considered from three perspectives: what they reveal to the researcher and learners of German about the representation of ‘work’ in the chosen context, how they compare to findings from comparative analyses of German textbooks and how they can contribute to our overall understanding of ‘text*. Grammar book examples and exercises emerge as ‘texts’ which have significant potential to reflect cultural norms and attitudes despite being considered generally as a source of innocuous and unremarkable language.
Safety concerns associated with the use of viral vectors in gene therapy applications have attracted considerable attention towards the development of nonviral vectors as alternatives for DNA delivery. While nonviral vectors are commonly not associated with safety problems, they are still very inefficient compared to viral vectors, and require significant improvements to approach the efficiency of their viral counterparts. Meanwhile ligands or single-chain antibody fragments that bind to cell surface receptors for increased and/or specific cellular uptake, endosome escape activities, and nuclear localization sequences (NLSs) to enhance transport of plasmid DNA into the nucleus, have become available that can be incorporated into nonviral vectors to improve their efficacy. However, as gene delivery is a multistep process, the challenge is to incorporate multiple of these functional elements into a single nonviral vector system, while retaining their specific activities. A promising method to attach such entities to plasmid DNA is the use of multifunctional fusion proteins that bind to DNA through a DNA-binding domain. In principle, two types of DNA-binding domains/proteins can be used to anchor additional functional domains or peptides to a plasmid, namely sequence-specific DNA-binding domains, described in the first part of this thesis, or those that bind DNA independent of its sequence, exemplified in the second part of this work by a derivative of the human HMGB2 protein. The first fusion protein constructed and analyzed contained the E. coli LexA repressor as a sequence-specific DNA-binding domain. In addition, this DNA-carrier protein, termed TEL, included a bacterial translocation domain as an integrated endosome escape activity, and human TGF-a for specific targeting to the EGF-receptor (EGFR). TEL was expressed in E. coli and purified under both native and denaturing conditions. Purified, denatured TEL was refolded and subsequently shown to bind specifically to EGFR-expressing cells. However, inclusion of TEL in complexes of plasmid DNA and poly-L-lysine (pL) did not lead to increased gene delivery into EGFR-expressing COS-1 cells. Most likely this was due to the absence of DNA-binding activity of the LexA moiety in TEL. In contrast, native TEL was able to interact specifically with DNA. Nevertheless, since this interaction was rather weak, and refolding of denatured TEL had not resulted in functional activity of all of its protein domains, it seemed unlikely that fusion proteins containing LexA would exhibit gene transfer capabilities superior to those of similar DNA-carrier proteins previously constructed in our group. Further work therefore focused on the use of the E2C-Sp1C protein as an alternative sequencespecific DNA-binding domain. This artificial zinc-finger protein was fused to the single-chain antibody fragment scFv(FRP5), directed against the human ErbB2 growth factor receptor. The resulting 5-E2C fusion protein was expressed in E. coli and purified under native and denaturing conditions. Refolded and native 5-E2C were found to bind specifically to ErbB2-expressing cells, indicating that scFv(FRP5) in 5-E2C was functional in both preparations. In contrast, whereas refolded 5-E2C bound DNA only weakly, significant DNA binding was observed for native 5-E2C. In addition, it could not only be shown that the interaction of native 5-E2C with DNA containing its recognition sequence was specific, but also that this protein was able to bind DNA and recombinant ErbB2 simultaneously, demonstrating the functionality of both domains in native 5-E2C. Despite these encouraging results, the inclusion of native 5-E2C in pL- or polyethyleneimine (PEI)-DNA complexes did not lead to an (5-E2C-specific) enhancement of gene transfer efficiency, irrespective of the presence of the endosome-disruptive reagent chloroquine during transfection. In the second part of this thesis an alternative approach for the development of DNA-carrier proteins for nonviral gene delivery is described, based on human HMGB2, a DNA-binding protein without sequence specificity. HMGB2 contains an acidic C-terminus that has been found to decrease the affinity of the protein for DNA. Therefore, this C-terminal tail was deleted, resulting in an HMGB2-variant consisting of amino acids 1-186. HMGB2186, purified under native conditions from E. coli lysates, was able to interact with DNA and bound to the surface of different cell lines. Importantly, after binding to plasmid DNA HMGB2186 mediated gene delivery into COS-7 cells with higher efficiency than pL. In addition, HMGB2186-mediated gene transfer was strongly enhanced in the presence of chloroquine, indicating that the endocytic pathway was involved in cellular uptake. To improve internalization and intracellular routing of HMGB2186 as a DNA-carrier, a derivative containing the TAT47-57 cell-penetrating peptide (CPP), reported to facilitate cell entry independent of endocytosis, was constructed. Since this peptide also contains an NLS, in addition an HGMB2186-variant containing the SV40-NLS was constructed to investigate the effect of a peptide that has only nuclear localizing properties. Interestingly, the resulting TAT-HMGB2186 and SV40-HMGB2186 fusion proteins displayed DNA-binding activities similar to HMGB2186, but mediated gene delivery into different cell lines clearly more efficiently than the parental molecule. Furthermore, the efficacy of both fusion proteins was enhanced markedly in the presence of chloroquine, an indication that endocytosis was involved in the transfection process mediated by these proteins. This suggests that the increased transfection efficiency observed for TAT-HMGB2186 was more likely due to the NLS function present in the TAT47-57 peptide, rather than to its ‘cell penetrating properties’. Finally, the incorporation of functional peptides derived from human proteins into HMGB2186 was investigated. An uncharged CPP originating from Kaposi-FGF, reported to facilitate efficient cellular uptake of fused protein domains in an endocytosis-independent manner, was fused to HMGB2186 together with the SV40-NLS. Interestingly, the resulting KSV40-HMGB2186 fusion protein bound DNA similarly as previously tested DNA-carrier proteins, but did not mediate enhanced transfection compared to HMGB2186. In addition, the importin-b-binding (IBB) domain derived from human importin-a2 was investigated as a component of a DNA-carrier protein. Since the IBB domain can function as an NLS, it was fused to HMGB2186 resulting in the DNA-carrier protein IBBHMGB2186. Although IBB-HMGB2186 bound DNA in a similar manner as the other HMGB2186-derivatives, gene delivery mediated by IBB-HMGB2186 was only as effective as HMGB2186 mediated transfection, suggesting no significant role of the IBB domain. However, addition of chloroquine resulted in a remarkable enhancement of IBB-HMGB2186-mediated gene transfer, which was now more efficient than with any other HMGB2186-variant tested, and not much lower than gene transfer mediated by PEI, one of the most efficient transfection reagents available to date. To enhance nonviral gene delivery even further, the HMGB2186-based DNA-carrier proteins described in this thesis might now serve as building blocks for novel fusion proteins that include additional complementing activities. In this respect it seems particularly promising that, under conditions of effective end some escape, IBB-HMGB2186, which consists entirely of protein domains of human origin, was the most efficient of all proteins tested in this work.
RcsB is a central transcriptional regulator in enteric bacteria involved in exopolysaccharide (EPS) biosynthesis, in cell division, in the expression of osmoregulated genes, and regulates at least 20 other genes and operons. It is a member of a phosphorelay system and signal transfer is mediated by phosphorylation through the RcsC/YojN phosphorelay. RcsB proteins modified with the phosphorylation mimic BeF3- as shown by its conformational changes and DNA binding properties and resulted phosphorylated RcsB derivatives with sufficient stability. Both, the wild type RcsB protein and the mutant RcsBD11A could be modified with BeF3-. Non-phosphorylated RcsB has been shown to bind as a heterodimer with the coinducer RcsA at the conserved RcsAB box in Rcs regulated promoters. In this study, it has been shown that the modification of RcsB by BeF3 - (I) has a negative effect on its homodimerization, (II) abolishes the complex formation of RcsAB with the RcsAB box as shown by the EMSA and SPR technique. All the effects were found to be reversible by increasing the NaF concentration in the assays presumably leading to the formation of the inactive BeF4 2- salt. This hypothesis of RcsB being modified by BeF3- was also supported by other phosphodonors like ATP and acetyl phosphate, both of them showed the same negative effect on DNA binding by RcsAB heterodimer giving evidence that BeF3- could be used as a phosphorylation mimic. In addition, the phosphorylation mimic BeF3- was found to be a better phosphorylating agent than ATP and acetyl phosphate. This is the first evidence that phosphorylation of RcsB might have a negative effect on the activation of RcsAB regulated operons. Autophosphorylation of RcsB proves that it has the ability to take up phosphoryl groups and the mutant protein also become autophosphorylated with less efficiency or stability than the wild type protein. RcsB probably takes up phosphoryl groups through RcsC -> YojN -> RcsB phosphorelay pathway. To study the interaction among the proteins in this pathway, fluorescence spectroscopy, NMR spectroscopy, and an in vivo ß galactosidase assay were performed by using two domains of RcsC (T-RcsC and R-RcsC), HPt domain of the protein YojN, and RcsB. The interactions between R-RcsC/YojN-HPt and YojN-HPt/RcsB supports the proposed pathway of phosphorylating RcsB. RcsB might also be phosphorylated by YojN-HPt that is phosphorylated by other sensor kinase other than RcsC in a cross-talk mechanism. The phosphorylation of RcsB by YojN-HPt probably has the same negative effect on cps induction as obtained with BeF3 - effect on DNA binding by RcsAB heterodimer.
The biomarker record in two different lakes in central Europe, Lake Albano and Lake Constance, is used to reflect environmental changes and lake system response during the Late Glacial and Holocene. Extractable organic compounds in lake sediments, which can be assigned to their biological source (biomarkers) function as fingerprints of past aquatic or land plant organisms. Using gas chromatography coupled with mass spectrometry, 21 different biomarkers (predominantly steroids and triterpenoids) as well as a variety of n-alkanes, nalkanols, and n-alkanoic acids could be identified in the sediment records of Lake Albano and Lake Constance. In the Holocene sediments of Lake Albano, the distribution of biomarkers such as dinosterol (dinoflagellates), isoarborinol, and diplopterol (aquatic organisms) indicate three biomarker zones: The period between 0-3,800 years BP (zone 3) is characterized by high concentrations of these biomarkers and others such as tetrahymanol and diploptene. Conversely, zone 2 (3,800-6,500 years BP) shows very low concentrations of all autochthonous biomarkers. In zone 1 (6,500–11,480 years BP), dinosterol, isoarborinol, and diplopterol range on a relatively high level, whereas diploptene and tetrahymanol display comparatively low concentrations. The results suggest at least two distinct changes in the predominance of primary producers during the Holocene, which are related to changes in the lake system such as lake mixing and water column stratification. This interpretation is consistent with previous investigations of Lake Albano sediments including pigment and hydrogen index data (Ariztegui et al., 1996b; Guilizzoni et al., 2002). Allochthonous biomarkers such as long-chain n-alkanes, amyrenones and friedelin indicate a development from forest to a more open landscape from 6,000 and 5.000 years BP, respectively. After a period of high concentrations during the first half of the Holocene, all biomarkers derived from deciduous trees exhibit relatively low values until around 1,000 years BP. Again, this is consistent with results from previous pollen investigations (Ariztegui et al., 2000). The sediment core from Upper Lake Constance comprises the Late Glacial and Holocene. It was analysed for biomarkers and inorganic tracers in order to compare the biomarker results with other proxy data from the same core. Magnetic susceptibility (MS) was measured to get a high-resolution stratigraphic framework of the core and to obtain further information about changes of the proportions of allochthonous and autochthonous input. Enhanced concentrations and accumulation rates of dinosterol (biomarker for dinoflagellates) and biogenic calcite give evidence of increasing lake productivity at the beginning of the Holocene followed by a decrease in bioproductivity after around 7,000 years BP. Younger Dryas sediments are characterized by low amounts of both dinosterol and biogenic calcite indicating a low productivity. The comparison of the concentrations and accumulation rates of b-sitosterol and stigmastanol with parameters reflecting lake productivity suggests that both steroids in Lake Constance sediments are mainly derived from terrigenous sources. Biomarkers as well as concentrations and accumulation rates of allochthonous inorganic compounds such as titanium, magnesium and strontium indicate a slightly enhanced allochthonous input after 8,500 years BP. Significant increase of erosive matter input from enhanced soil erosion is not observed before 4,000 years BP. This can be attributed to the combined effects of precipitation increase as a result of climatic deterioration and anthropogenic deforestation which is consistent with observations from other lakes in Central Europe. The MS record of Lake Constance confirms these results by tracing the climatically induced shifts of more intense bioproduction (low MS caused by increased calcite deposition) during the ‘climatic optimum’. This is followed by increasing input of terrigenous sediment compounds during colder and wetter periods which lead to higher MS values in the lake sediments. The occurrence of tetrahymanol in Lake Constance sediments questions the unambiguous use of tetrahymanol as an indicator for water column stratification. Anaerobic organic macroaggregates within the oxygenated, photic zone of the water column have to be considered as a possible living space for anaerobic microorganisms containing tetrahymanol. The direct comparison of two very different lakes Albano and Constance with respect to biomarkers indicating climate or environmental change provides a contribution to the recent biomarker research for a better understanding of biomarkers in lacustrine sediments.
In the present study possible sources and pathways of the gasoline additive methyl tertiary-butyl ether (MTBE) in the aquatic environment in Germany were investigated. The objective of the present study was to clarify some of the questions raised by a previous study on the MTBE situation in Germany. In the USA and Europe 12 million t and 3 million t of MTBE, respectively, are used as gasoline additive. The detection of MTBE in the aquatic environment and the potential risk for drinking water resources led to a phase-out of MTBE as gasoline additive in single states of the USA. Meanwhile there is also an ongoing discussion about the substitution of MTBE in Europe and Germany. The annual usage of MTBE in Germany is about 600,000 t. However, compared to the USA, significant less data exists on the occurrence of MTBE in the aquatic environment in Europe. Because of its physico-chemical properties, MTBE readily vaporizes from gasoline, is water soluble, adsorbs only weakly to the underground matrix and is largely persistent to biological degradation. The toxicity of MTBE remains to be completely investigated, but MTBE in drinking water has low taste- and odor thresholds of 20-40 microgram/L. The present study was conducted by collecting water samples and analyzing them for their MTBE concentrations through a combination of headspace-solid phase microextraction (HS-SPME) and gas chromatography-mass spectrometry (GC-MS). The detection limit was 10 ng/L. The method was successfully tested in the framework of an interlaboratory study and showed recoveries of reference values of 89% (74 ng/L) and 104% (256 ng/L). The relative standard deviations were 12% and 6%. The investigation of 83 water samples from 50 community water systems (CWSs) in Germany revealed a detection frequency of 40% and a concentration range of 17-712 ng/L. The detection of MTBE in the drinking water samples could be explained by a groundwater pollution and the pathway river - riverbank filtration - waterworks. Rivers are important drinking water sources. MTBE is emitted into rivers through a variety of sources. In the present study, potential point sources were investigated, i.e. MTBE production sites/refineries/tank farms and groundwater pollutions. For this purpose, the spatial distribution of MTBE in three German rivers with the named potential emission sources located close to the rivers was investigated by analyzing 49 corresponding river water samples. The influence of the potential emission sources groundwater pollution and refinery/tank farm was successfully demonstrated in certain parts of the River Saale and the River Rhine. Increasing MTBE concentrations from 24 ng/L to 379 ng/L and from 73 ng/L to 5 microgram/L, respectively, could be observed in the parts investigated in these two rivers. The identification of such emission sources is important for future modeling. Further sources of MTBE emission into surface water are industrial (non-petrochemical) and municipal sewage plant effluents. In the present study long-term monitoring of water from the River Main (n=67 samples), precipitation (n=89) and industrial (n=34) and municipal sewage plant effluents (n=66) was conducted. The comparison of the data sets revealed that maximum MTBE concentrations in the River Main of up to 1 microgram/L were most possibly due to single industrial effluents with MTBE concentrations of up to 28 microgram/L (measured in this study). The average MTBE content of 66 ng/L in the River Main most probably originated from municipal sewage plant effluents and further industrial effluents. Background concentrations of <30 ng/L could be related to the direct atmospheric input via precipitation. A certain aspect of the atmospheric MTBE input is represented by the input of MTBE into river water or groundwater through snow. In the present study 43 snow samples from 13 different locations were analyzed for their MTBE content. MTBE could be detected in 65% of the urban and rural samples. The concentrations ranged from 11-613 ng/L and were higher than the concentrations in rainwater samples formerly analyzed. Furthermore, a temperature dependency and wash-out effects could be observed. The atmospheric input of MTBE was in part also visible in the analyzed groundwater samples (n=170). The detection frequencies in non-urban and urban wells were 24% and 63%, respectively. The median concentrations were 177 ng/L and 57 ng/L. In wells located in the vicinity of sites with gasoline contaminated groundwater, MTBE concentrations of up to 42 mg/L could be observed. The MTBE emission sources and the different pathways of MTBE in the aquatic environment demonstrated in the present study and other works raise the question whether the use of MTBE in a bulk product like gasoline should be continued in the future. Currently, possible substitutes like ethyl tertiary-butyl ether (ETBE) or ethanol are being discussed.
Calcium-activated potassium channels are fundamental regulators of neuron excitability. SK channels are activated by an intracellular increase of Ca++ (such as occurs during an action potential). They have a small single channel conductance (less than 20pS) and show no voltage dependence of activation. To date, there are only a few examples of high-resolution structures of eukaryotic membrane proteins. All of them were purified from natural sources. Since no abundant natural sources of eukaryotic K+ channels are available we overexpressed rSK2 in order to produce the quantities necessary for structural analysis. Unfortunately the Pichia pastoris expression system did not yield sufficient amount of pure protein, mainly because most of the protein was retained by in the ER and was only partially soluble. Subsequently, two constructs were expressed: SK2-FCYENE (containing a specific sequence that promotes surface expression), and SK2-q-CaM a concatamer of SK2 and calmodulin. Although these proved an improvement in terms of solubilisation, little improvement was found in terms of amounts of purified material obtained. For this reason we tested the Semliki Forest virus expression system, since the protein is expressed in a mammalian system where we hoped that it would be trafficked in the same way as in vivo. Using this system it was possible to express rSK2 and solubilise it with several detergents and to achieve much better purification. However, the levels were still not sufficient for high-resolution structural studies, although sufficient for single particle electron microscopy analysis.
This study analyses the labour market effects of fixed-term contracts (FTCs) in West Germany by microeconometric methods using individual and establishment level data. In the first part of the study the role of FTCs in firms’ labour demand is analysed. An econometric investigation of the firms’ reasons for using FTCs focussing on the identification of the link between dismissal protection for permanent contract workers and the firms’ use of FTCs is presented. Furthermore, a descriptive analysis of the role of FTCs in worker and job flows at the firm level is provided. The second part of the study evaluates the short-run effects of being employed on an FTC on working conditions and wages using a large cross-sectional dataset of employees. The final part of the study analyses whether taking up an FTC increases the (permanent contract) employment opportunities in the long-run (stepping stone effect) and whether FTCs affect job finding behaviour of unemployed job searchers. Firstly, an econometric unemployment duration analysis distinguishing between both types of contracts as destination states is performed. Secondly, the effects of entering into FTCs from unemployment on future (permanent contract) employment opportunities are evaluated attempting to account for the sequential decision problem of job searchers.
A fundamental work on THz measurement techniques for application to steel manufacturing processes
(2004)
The terahertz (THz) waves had not been obtained except by a huge system, such as a free electron laser, until an invention of a photo-mixing technique at Bell laboratory in 1984 [1]. The first method using the Auston switch could generate up to 1 THz [2]. After then, as a result of some efforts for extending the frequency limit, a combination of antennas for the generation and the detection reached several THz [3, 4]. This technique has developed, so far, with taking a form of filling up the so-called THz gap . At the same time, a lot of researches have been trying to increase the output power as well [5-7]. In the 1990s, a big advantage in the frequency band was brought by non-linear optical methods [8-11]. The technique led to drastically expand the frequency region and recently to realize a measurement up to 41 THz [12]. On the other hand, some efforts have yielded new generation and detection methods from other approaches, a CW-THz as well as the pulse generation [13-19]. Especially, a THz luminescence and a laser, originated in a research on the Bloch oscillator, are recently generated from a quantum cascade structure, even at an only low temperature of 60 K [20-22]. This research attracts a lot of attention, because it would be a breakthrough for the THz technique to become widespread into industrial area as well as research, in a point of low costs and easier operations. It is naturally thought that a technology of short pulse lasers has helped the THz field to be developed. As a background of an appearance of a stable Ti:sapphire laser and a high power chirped pulse amplification (CPA) laser, instead of a dye laser, a lot of concentration on the techniques of a pulse compression and amplification have been done. [23] Viewed from an application side, the THz technique has come into the limelight as a promising measurement method. A discovery of absorption peaks of a protein and a DNA in the THz region is promoting to put the technique into practice in the field of medicine and pharmaceutical science from several years ago [24-27]. It is also known that some absorption of light polar-molecules exist in the region, therefore, some ideas of gas and water content monitoring in the chemical and the food industries are proposed [28-32]. Furthermore, a lot of reports, such as measurements of carrier distribution in semiconductors, refractive index of a thin film and an object shape as radar, indicate that this technique would have a wide range of application [33-37]. I believe that it is worth challenging to apply it into the steel-making industry, due to its unique advantages. The THz wavelength of 30-300 ¼m can cope with both independence of a surface roughness of steel products and a detection with a sub-millimeter precision, for a remote surface inspection. There is also a possibility that it can measure thickness or dielectric constants of relatively high conductive materials, because of a high permeability against non-polar dielectric materials, short pulse detection and with a high signal-to-noise ratio of 103-5. Furthermore, there is a possibility that it could be applicable to a measurement at high temperature, for less influence by a thermal radiation, compared with the visible and infrared light. These ideas have motivated me to start this THz work.
Life of Varroa destructor, Anderson and Trueman, an ectoparasitic mite of honeybees, is divided into a reproductive phase in the bee brood and a phoretic phase during which the mite is attached to the adult bee. Phoretic mites leave the colony with workers involved in foraging tasks. Little information is available on the mortality of mites outside the colony. Mites may or not return to the colony as a result of death of the infested foragers, host change by drifting of foragers, or removal of mites outside the colony. That mites do not return to the colony was indicated by substantially higher infestation of outflying workers compared to the infestation of returning workers (Kutschker, 1999). The main objective of the study was to provide information whether V. destructor influences flight behaviour of foragers and consequently returning frequency of foragers to the colony. I first repeated the experiment of Kutschker (1999) examining the infestation of outflying and returning workers. Further, I registered flight duration of foragers using a video method. In this experiment I compared also the infestation and flight duration of bees of different genetic origin, Carnica from Oberursel and bees from Primorsky region. I investigated returning time of workers, returning frequency until evening, drifting to other colonies and orientation toward the nest entrance in the experiments in which workers were released in close vicinity of the colony. At last, I measured the loss of foragers in relation to colony infestation using a Bee Scan. Results from this study, listed below, showed considerable influence of V. destructor on flight behavior of foragers translating into loss of mites. Loss of mites with foragers add substantial component to mite mortality and was underestimated in previous studies. Such loss might be viewed as a mechanism of resistance against V. destructor. a) The mean infestation of outflying workers (0.019±0.018) was twice as the mean infestation of returning workers (0.009±0.018). The difference in the infestation between outflying and returning workers was more marked in highly infested colonies. b) Investigation of individually tagged workers by use of a two camera video recording device showed significantly higher infestation of outflying workers compared to returning workers. Mites were lost by the non returning of infested foragers (22%) and by loss of mites from foragers that returned to the colony without the mite (20%). A small portion of mites (1.8%) was gained. Loss of mites significantly exceeded mite gain. c) The flight duration of infested workers determined by using the same two camera video system was significantly higher in infested compared to uninfested workers of the same age that flew closest at time. The median flight duration of infested workers was 1.7 higher (214s) than the median duration of unifested workers (128s). d) Infested workers took 2.3 times longer to return to the colony than uninfested workers of the same age when released from the same locations, closest at time. The returning time increased with the distance of release. In a group of bees released simultaneously the infestation was higher in bees returning later and in those that did not return in the observation period of 15 min. e) Released workers did not return to the colony 1.5 more frequently than uninfested workers in evening. The difference in returning was significant for locations of 20 and 50m from the colony. No difference in returning between infested and uninfested workers were observed for the most distant location of 400m. f) No significant difference was found in returning time and/or in the returning frequency until evening between workers artificially infested overnight and naturally infested workers. Artificially infested workers returned later and less frequently than a control group indicating rapid influence of V. destructor on flight behavior of foragers. g) The orientation ability of infested workers toward the nest entrance was impaired. Infested workers compared to uninfested workers twice as often approached a dummy entrance before finding the nest entrance. h) No significant differences were found in drifting between infested and uninfested workers. Drifting in the neighboring nucleus colony occurred in about 1% occasions after release of marked workers. Similarly, more infested, but not significantly more infested workers (2.6%) entered a different colored hive than the same colored hive (1.9%). However, the number of drifting bees were to low to make results conclusive. i) The comparison between Carnica and Primorsky workers revealed higher infestation in Carnica compared to Primorsky. Further, Primorsky workers lost more mites during foraging due to mite loss from foragers and non returning of infested workers. No significant differences in flight duration were observed between the two bee stocks. j) Loss of foragers, as determined by the Bee Scan counts of outflying and returning foragers, and the infestation of outflying bees increased significantly over a period of 70 days. A colony with 7.7. higher infestation of outflying foragers lost 2.2. time more bees per flight per day compared to a low infested colony. k) The estimates of mite loss with foragers from mite population per day up to 3.1% exceeds approximately mite mortality of 1% within the colony as represented by counting dead mites on bottom board inserts.
Alzheimer’s disease (AD) is the most common neurodegenerative disorder world wide, causing presenile dementia and death of millions of people. During AD damage and massive loss of brain cells occur. Alzheimer’s disease is genetically heterogeneous and may therefore represent a common phenotype that results from various genetic and environmental influences and risk factors. In approximately 10% of patients, changes of the genetic information were detected (gene mutations). In these cases, Alzheimer’s disease is inherited as an autosomal dominant trait (familial Alzheimer’s disease, FAD). In rare cases of familial Alzheimer’s disease (about 1-3%), mutations have been detected in genes on chromosomes 14 and 1 (encoding for Presenilin 1 and 2, respectively), and on chromosome 21 encoding for the amyloid precursor protein (APP), which is responsible for the release of the cell-damaging protein amyloid-beta (ß-amyloid, Aß). Familial forms of early-onset Alzheimer’s disease are rare; however, their importance extends far beyond their frequency, because they allow to identify some of the critical pathogenetic pathways of the disease. All familial Alzheimer mutations share a common feature: they lead to an enhanced production of the Aß, which is the major constituent of senile plaques in brains of AD patients. New data indicates that Aß promotes neuronal degeneration. Therefore, one aim of these thesis was to elucidate the neurotoxic biochemical pathways induced by Aß, investigating the effect of the FAD Swedish APP double mutation (APPsw) on oxidative stress-induced cell death mechanisms. This mutation results in a three- to sixfold increased Aß production compared to wild-type APP (APPwt). As cell models, the neuronal PC12 (rat pheochromocytoma) and the HEK (human embryonic kidney 293) cell lines were used, which have been transfected with human wiltyp APP or human APP containing the Swedish double mutation. The used cell models offer two important advantages. First, compared to experiments using high concentrations of Aß at micromolar levels applied extracellularly to cells, PC12 APPsw cells secret low Aß levels similar to the situation in FAD brains. Thus, this cell model represents a very suitable approach to elucidate the AD-specific cell death pathways mimicking physiological conditions. Second, these two cell lines (PC12 and HEK APPwt and APPsw) with different production levels of Aß may additionally allow to study dose-dependent effects of Aß. The here obtained results provide evidence for the enhanced cell vulnerability caused by the Swedish APP mutation and elucidate the cell death mechanism probably initiated by intracellulary produced Aß. Here it seems likely that increased production of Aß at physiological levels primes APPsw PC12 cells to undergo cell death only after additional stress, while chronic high levels in HEK cells already lead to enhanced basal apoptotic levels. Crucial effects of the Swedish APP mutation include the impairments of cellular energy metabolism affecting mitochondrial membrane potential and ATP levels as well as the additional activation of caspase 2, caspase 8 and JNK in response to oxidative stress. Thereby ,the following model can be proposed: PC12 cells harboring the Swedish APP mutation have a reduced energy metabolism compared to APPwt or control cells. However, this effect does not leads to enhanced basal apoptotic levels of cultured cells. An exposure of PC12 cells to oxidative stress leads to mitochondrial dysfunction, e.g., decrease in mitochondrial membrane potential and depletion in ATP. The consequence is the activation of the intrinsic apoptotic pathway releasing cytochrome c and Smac resulting in the activation of caspase 9. This effect is amplified by the overexpression of APP, since both APPsw and APPwt PC12 cells show enhanced cytochrome c and Smac release as well as enhanced caspase 9 activity as vector transfected control. In APPsw PC12 cells a parallel pathway is additionally emphased. Due to reduced ATP levels or enhanced Aß production JNK is activated. Furthermore, the extrinsic apoptotic pathway is enhanced, since caspase 8 and caspase 2 activation was clearly enhanced by the Swedish APP mutation. Both pathways may then converge by activating the effector enzyme, caspase 3, and the execution of cell death. In addition, caspase independent effects also needs to be considered. One possibility could be the implication of AIF since AIF expression was found to be induced by the Swedish APP mutation. In APPsw HEK cells high chronic Aß levels leads to enhanced apoptotic levels, reduce mitochondrial membrane potential and ATP levels even under basal conditions. Summarizing, a hypothetical sequence of events is proposed linking FAD, Aß production, JNK-activation, mitochondrial dysfunction with caspase pathway and neuronal loss for our cell model. The brain has a high metabolic rate and is exposured to gradually rising levels of oxidative stress during life. In Swedish FAD patients the levels of oxidative stress are increased in the temporal inferior cortex. This study using a cell model mimicking the in vivo situation in AD brains indicates that probably both, increased Aß production and the gradual rise of oxidative stress throughout life converge at a final common pathway of an increased vulnerability of neurons to apoptotic cell death from FAD patients. Presenilin (PS) 1 is an aspartyl protease, involved in the gamma-secretase mediated proteolysis of Amyloid-ß-protein (Aß), the major constituent of senile plaques in brains of Alzheimer’s disease (AD) patients. Recent studies have suggested an additional role for presenilin proteins in apoptotic cell death observed in AD. Since PS 1 is proteolytic cleaved by caspase 3, it has been prosposed that the resulting C-terminal fragment of PS1 (PSCas) could play a role in signal transduction during apoptosis. Moreover, it was shown that mutant presenilins causing early-onset of familial Alzheimer's disease (FAD) may render cells vulnerable to apoptosis. The mechanism by which PS1 regulates apoptotic cell death is yet not understood. Therefore one aim of our present study was to clarify the involvement of PS1 in the proteolytic cascade of apoptosis and if the cleavage of PS1 by caspase 3 has an regulatory function. Here it is demonstrated that both, PS1 and PS1Cas lead to a reduced vulnerability of PC12 and Jurkat cells to different apoptotic stimuli. However a mutation at the caspase 3 recognition site (D345A/ PSmut), which inhibits cleavage of PS1 by caspase 3, show no differences in the effect of PS1 or PSCas towards apoptotic stimuli. This suggest that proteolysis of PS1 by caspase 3 is not a determinant, but only a secondary effect during apoptosis. Since several FAD mutation distributed through the whole PS1 gene lead to enhanced apoptosis, an abolishment of the antiapoptotic effect of PS1 might contribute to the massive neurodegeneration in early age of FAD patients. Here, the regulate properties of PS1 in apoptosis may not be through an caspase 3 dependent cleavage and generation of PSCas, but rather through interaction of PS1 with other proteins involved in apoptosis.