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The rate of species extinctions due to anthropogenic activities has dramatically increased within the past few centuries (Dirzo & Raven, 2003; Novacek & Cleland, 2001). Although the mechanisms and ultimate causes leading to the extinction of species remain largely unclear (Frankham et al., 2002), five threats to global biodiversity have frequently been referred to as the most important: habitat destruction and fragmentation, global climate change, hunting and overuse of food resources, biological invasions and environmental pollution (Dudgeon et al., 2006; Lewis, 2006; Novacek & Cleland, 2001). Different research fields, as conservation biology, ecology and ecotoxicology, investigate the effects of these factors on organisms and found strong evidence for their negative impact on regional and global biodiversity.
In most cases, natural populations will be impacted not only by one threat, but rather a combination of them (Buckley & Roughgarden, 2004; Kappelle et al., 1999). Multiple environmental stress factors can have cumulative negative effects on the survival of populations (Sih et al., 2004). To understand, how natural populations respond to combinations of different stress factors is thus of crucial importance in order to understand our present and future impact on all scales of biodiversity (Warren et al., 2001).
The effects of anthropogenically introduced chemicals on organisms and ecosystems are investigated in the field of ecotoxicology. Research in this area has led to a large body of information concerning the impact of chemical stress on the fitness of model species in the laboratory. In contrast to this, there is an obvious lack of knowledge on the effects of contaminants on natural populations and communities (Bickham et al., 2000; Bourdeau et al., 1990). For instance, ecotoxicologists have just started to investigate the impact of environmental pollution on the genetic variability of natural populations (Bickham et al., 2000; Whitehead et al., 2003). Genetic variation provides the raw material for populations in order to adapt to changing environmental conditions and is thus the substrate for evolution and long-term survival of populations and species (Frankham, 2005). The amount of genetic variation in populations is positively correlated with the effective population size (Frankham, 1996). Habitat destruction and fragmentation has divided the ranges of many species into small and isolated refuges. Without migration from adjacent habitats, isolated populations will decrease in their level of genetic diversity through random loss of alleles (Hedrick, 2000). Frankham (1995) for instance, showed that 32 of the 37 endangered species (which occur in small populations per definition) of different animals and plant taxa display reduced levels of heterozygosity compared to closely related and more frequent species.
In strongly human impacted landscapes, both factors, environmental pollution and habitat destruction, can be expected to occur frequently together. It is thus of crucial importance to investigate the impact of reduced genetic diversity and inbreeding on the response to chemical stress. In addition, chemical exposure has frequently been discussed to have an impact on the extent of genetic variability in exposed populations (Guttman, 1994; Staton et al., 2001; van Straalen & Timmermans, 2002). However, evidence for this 'genetic erosion hypothesis' remained scarce to date, most likely because of the difficulty to single out the impact of pollution stress from a background of multiple factors which influence patterns of genetic variability in natural populations (Belfiore, 2001; Staton et al., 2001; van Straalen & Timmermans, 2002).
The Frankfurt University Library possesses one of the outstanding Africana Collections in continental Europe; its regional anddisciplinary scope is unique in Germany. Today about 5,000 new acquisitions a year have accumulated over 200,000 items on Africa south of the Sahara. Some 50,000 historical and rare photographs are fully digitized and freely accessible. Together with a collection of around 18,000 books stemming from the collections of the German Colonial Society at the end of the 19th and the beginning of the 20th century they constitute the historical foundations of the collection. Recently the University Library Frankfurt and the library of the GIGA Institute of African Affairs, Hamburg, started the project ilissAfrica (internet library sub-Saharan Africa), a central subject gateway for online resources and a powerful tool for bibliographic research. These new services will be indispensable for researchers and librarians of African Studies and will promote African studies worldwide.
Physical soil properties feature high spatial variabilities which are known to affect geophysical measurements. However, these variations are not considered in most cases. The challenging task is to quantify the influence of soil heterogeneities on geophysical data. This question is analysed for DC resistivity and GPR measurements which are frequently used for near-surface explorations. To determine the pattern of electric soil properties in situ with the required high spatial resolution, geophysical measuring techniques are methodically enhanced. High-resolution dipole-dipole resistivity measurements are used to determine the electric conductivity distribution of the topsoil. Due to the small electrode separations, the actual electrode geometry has to be considered and an analytic expression for geometric factors is derived instead of assuming point electrodes. Two methods are used to determine soil permittivity with GPR:(i) the coefficient of reflection at the interface air-soil is measured with an air-launched horn antenna, (ii) the velocity of the groundwave is measured with a new setup using two receiver antennas enhancing the lateral resolution from in the best case 0.5 m for standard techniques to approximately 0.1 m with the new technique. With the optimised measuring techniques, the electric properties of sandy soils are determined in the field. Conductivity and permittivity show high spatial variability with correlation lengths of a few decimetres. Geostatistical simulation techniques are used to generate synthetic random media featuring the same statistical properties as in the field. FD calculations are carried out with this media to provide realistic synthetic data of resistivity and GPR measurements. Conductivity variations as determined in the field generate significant variations of simulated Schlumberger sounding curves resulting in uncertainties of the inverted models. Even in pedologically homogeneous sandy soil, moisture pattern and resulting permittivity variations cause strong GPR diffractions as demonstated by FD calculations. This influences the detectability of small objects such as e.g. landmines or of large reflectors as e.g. the groundwater table. Conductivity variations as typical for soils showed to have a minor effect on GPR measurements than variations of permittivity. In summary, geostatistical analysis and simulation provide a powerful tool to simulate geophysical measurements under field conditions including soil heterogeneity which can be used to quantify the uncertainty of field measurements by geologic noise.
Shaped by some of the most dramatic tectonic events of the Cenozoic, the parts of southern and eastern Asia that have become known as the Oriental faunal region comprise vast areas of great geological complexity and ecological diversity. One of the four major groups of terrestrial elapid snakes in this region is the genus Bungarus. These nocturnal and predominantly ophiophagous snakes are widely known as kraits and are an important cause of snakebite mortality throughout their wide range that extends from Afghanistan to Vietnam and eastern China, and south to the Indonesian islands of Java and Bali. Although present on Borneo, kraits have not been found on any island of the Philippines, nor on Lesser Sunda Islands east of Bali. Despite their medical significance and the great importance of Bungarus toxins as tools in neuropharmacology, krait systematics and taxonomy have remained largely unstudied. Twelve species of Bungarus were recognized at the beginning of the present study. Many of these are rare in collections, and most aspects of their biology are unknown. While some species are highly distinct, most kraits are conservative morphologically, rendering molecular methods invaluable for the study of their diversity and biogeography. This study is the first to address the relationships within Bungarus and the historical biogeography of kraits based on molecular evidence. I inferred phylogeographic relationships based on analyses of new nucleotide sequences of the entire mitochondrial cytochrome b gene of 51 kraits and partial NADH dehydrogenase subunit 4 sequences of 40 kraits which I analyzed together with a representative sample of 32 published elapid and non-elapid outgroup taxa using Bayesian, maximum-likelihood, maximum-parsimony and neighbor-joining methods. I then used the recovered phylogeny to investigate the evolution of selected morphological characters and, together with collections-based geographical distribution information, in dispersal-vicariance analyses with models of variable taxonomic and biogeographic complexity. The phylogenetic analyses demonstrate that the current taxonomy of kraits does not adequately represent either the relationships or the genetic diversity in this genus. In contrast, I identified monophyletic groups that are congruent with recognized biogeographic units as well as extensive ecomorph evolution and morphologically cryptic speciation. The following additional conclusions are collectively supported by the mitochondrial phylogeny and morphological as well as biochemical synapomorphies: (1) Kraits are monophyletic with respect to the remaining taxa of the Elapidae; (2) Bungarus flaviceps and Bungarus bungaroides form the monophyletic sister clade of a clade formed by B. fasciatus, black-and-white-banded, and uniformly black taxa; (3) the remaining taxa are divisible into two sister clades, the South Asian species (Bungarus sindanus (Bungarus caeruleus, Bungarus ceylonicus)) vs. Himalayan, Burmese, Southeast and East Asian taxa; (4) within the latter, Burmese taxa form the sister clade to Southeast and East Asian taxa; (5) the widespread and medically significant species Bungarus candidus and Bungarus multicinctus are paraphyletic. The results of this study highlight the importance of vicariant geological events and sea level fluctuations for the cladogenesis of kraits. Events of particular importance in the evolution of kraits include the uplift of the Indo-Burman ranges (Arakan-Naga Hills) which separated black-and-white banded kraits in India and Southeast Asia, and the uplift of mountain ranges in Yunnan, China (e.g., the Gaoligong Shan), which coincided with lineage separation in two distantly related clades of kraits. Alternating dispersal and vicariance events due to Pleistocene climatic and sea level changes have caused complex phylogeographic patterns in kraits in Southeast Asia. Zones of contact between closely related evolutionary lineages of the B. candidus complex are identified in Thailand, Vietnam, and southern China (Hainan). Within this complex, two main clades are revealed. One includes populations from the Southeast Asian mainland and is in contact with B. multicinctus in southern China. The other consists of populations from Thailand, southern Vietnam, Java, and Bali. The phylogeny as well as genetic distances suggest a scenario in which a Pleistocene southward dispersal of B. candidus to Sumatra, Java, and Bali during times of low sea levels was temporarily interrupted by vicariant events (rising sea levels, especially flooding of the Malacca Strait between Sumatra and the Malay Peninsula, and of the Bali Strait between Java and Bali). In this context, the close phylogenetic relationship between haplotypes from southern Vietnam and those from Java and Bali suggests that "southern" B. candidus dispersed directly via colonization of the widely receded South Chinese Sea, and not by taking a detour via the Malay Peninsula and Thailand, which were already inhabited by other populations of B. candidus. Using these phylogenetic estimates as the framework for a study on the diversity and evolution of krait venom components, I applied biochemical and molecular genetic approaches to identify and quantify polypeptide and protein toxins in krait venom, focusing on the distribution and molecular evolution of alpha-bungarotoxin, an irreversible competitive antagonist of nicotinic acetylcholine receptors with an exceptionally high applied significance as a receptor probe. I was specifically interested in the medically relevant question of intraspecific and interspecific variability in toxin diversity, and whether receptor-binding postsynaptic toxins evolve at rates different from those of presynaptic neurotoxins like beta-bungarotoxin, which act by destroying the nerve terminal and are believed to exhibit hypervariable functional diversification due to an accelerated mode of molecular evolution. In the context of this question, I isolated and purified the major lethal neurotoxins from B. candidus venoms by sequential steps of liquid chromatography for structural and functional characterization studies. Cloning and sequence analysis of toxin-coding genomic DNAs showed that the gene encoding the alpha-bungarotoxin alanine-31 variant, originally isolated from B. multicinctus venom, is widely present and highly conserved in multiple populations of B. candidus and is expressed as the principal postsynaptic neurotoxin at least in Javan B. candidus. In addition to the widespread presence of genomic DNAs encoding the alpha-bungarotoxin alanine-31 variant, the present study also revealed the partial genes of three novel alpha-bungarotoxin isoforms in addition to the previously known alanine-31 and valine-31 variants, all of which share an invariant exon 3 coding region. While alpha-bungarotoxin is the principal postsynaptic neurotoxin of Taiwanese B. multicinctus and Javan B. candidus, the main postsynaptic neurotoxin of Thai B. candidus both by quantity and lethality was a novel polypeptide of similar toxicity with a mass of 8030 Da and 73 amino acid residues, whose characterization at the genetic and protein levels revealed a novel subgroup of krait neurotoxins, here named alpha-delta-bungarotoxins and represented by four sequences from Bungarus caeruleus and B. candidus. alpha-delta-Bungarotoxins share high sequence homology with alpha-bungarotoxins but the purified, 8030 Da alpha-delta-bungarotoxin-1 exhibits only reversible, low affinity binding to nicotinic receptors and high site-selectivity for the acetylcholine binding site at the alpha-delta-subunit interface of the receptor. These properties render alpha-delta-bungarotoxin not only the first snake long-chain neurotoxin with reversible binding and binding-site selectivity, but also an exciting natural tool with which to address structure-function relationships at the subunit interfaces of the human receptor. The results of comparisons of the number of non-synonymous nucleotide substitutions per nonsynonymous site (dN) to the number of synonymous nucleotide substitutions per synonymous site (dS) strongly suggest that positive selection is acting on exon 2 of the alpha-bungarotoxin and probably also of the alpha-delta-bungarotoxin genes. In addition, the numbers of nucleotide substitutions per site of intron (dI) compared to the dS value of the toxin-coding exon regions provide strong evidence for accelerated molecular evolution in exon 2 of alpha-delta-bungarotoxins —whose value of dI is only one-eighth of the value of dS—whereas the hypothesis of accelerated evolution is rejected for 13 unique genomic DNAs encoding five alpha-bungarotoxin isoforms from B. candidus and B. multicinctus....
This paper documents the methodology underlying the construction of a global database of gross foreign asset and liability positions for 153 countries over the period 1970 to 2004 and illustrates some key data characteristics. The data cover both inflows and outflows of capital and thus allow for an assessment of the degree of international financial integration. In addition to net foreign asset stocks, we also provide details on the composition of the main asset and liability categories, namely the foreign direct investment, equity investment and debt components. Finally, we report on valuation changes as one of the main sources of discrepancy between transaction-based capital flow data and stock values of investment positions. The dataset is available for download at www.ifk-cfs.de/fileadmin/downloads/data/cfs-icfd.zip. or http://publikationen.ub.uni-frankfurt.de/volltexte/2007/4855/original/cfs-icfd.zip JEL Classification: F21; F34; F32
In this paper we revisit medium- to long-run exchange rate determination, focusing on the role of international investment positions. To do so, we develop a new econometric framework accounting for conditional long-run homogeneity in heterogeneous dynamic panel data models. In particular, in our model the long-run relationship between effective exchange rates and domestic as well as weighted foreign prices is a homogeneous function of a country’s international investment position. We find rather strong support for purchasing power parity in environments of limited negative net foreign asset to GDP positions, but not outside such environments. We thus argue that the purchasing power parity hypothesis holds conditionally, but not unconditionally, and that international investment positions are an essential component to characterizing this conditionality. Finally, we adduce evidence that whether deterioration of a country’s net foreign asset to GDP position leads to a depreciation of that country’s effective exchange rate depends on its rate of inflation relative to the rate of inflation abroad as well as its exposure to global shocks. JEL Classification: F31, F37, C23
An evaluation scheme is presented in this paper which can be used to assess groundwater vulnerability according to the requirements of the European Water Framework Directive (WFD). The evaluation scheme results in a groundwater vulnerability map identifying areas of high, medium and low vulnerability, as necessary for the measurement planning of the WFD. The evaluation scheme is based on the definition of the vulnerability of the Intergovernmental Panel on Climate Change (IPCC). It considers exposure, sensitivity and the adaptive capacity of the region. The adaptive capacity is evaluated in an actors' platform, which was constituted for the region in the PartizipA ("Participative modelling, Actor and Ecosystem Analysis in Regions with Intensive Agriculture") project. As a result of the vulnerability assessment, 21% of the catchment area was classified as being highly vulnerable, whereas 73% has medium vulnerability and 6% has low vulnerability. Thus, a groundwater vulnerability assessment approach is presented, which can be used in practice on a catchment scale for the WFD measurement planning.
Global modelling of continental water storage changes : sensitivity to different climate data sets
(2007)
Since 2002, the GRACE satellite mission provides estimates of the Earth's dynamic gravity field with unprecedented accuracy. Differences between monthly gravity fields contain a clear hydrological signal due to continental water storage changes. In order to evaluate GRACE results, the state-of-the-art WaterGAP Global Hydrological Model (WGHM) is applied to calculate terrestrial water storage changes on a global scale. WGHM is driven by different climate data sets to analyse especially the influence of different precipitation data on calculated water storage. The data sets used are the CRU TS 2.1 climate data set, the GPCC Full Data Product for precipitation and data from the ECMWF integrated forecast system. A simple approach for precipitation correction is introduced. WGHM results are then compared with GRACE data. The use of different precipitation data sets leads to considerable differences in computed water storage change for a large number of river basins. Comparing model results with GRACE observations shows a good spatial correlation and also a good agreement in phase. However, seasonal variations of water storage as derived from GRACE tend to be significantly larger than those computed by WGHM, regardless of which climate data set is used.
Metabotropic glutamate receptor subtype 7 (mGluR7) belongs to the family of G-protein coupled receptors. mGluR7 is widely distributed in the brain and primarily localized at presynaptic terminals, where it is thought to regulate neurotransmitter release and synaptic plasticity. Studies have shown that the intracellular C-terminal tail of mGluR7 binds a variety of proteins in addition to trimeric G-proteins. These newly identified protein interactions are believed to play a key role in the synaptic targeting and G-protein dependent signaling of mGluR7. Protein interacting with C kinase 1 (PICK1), a PDZ-domain protein, is a strong interaction partner of mGluR7a. In order to investigate the role of PICK1 in the synaptic trafficking and signaling of mGluR7a, a knock-in mouse line in which the interaction of mGluR7a and PICK1 is disrupted was generated. Analysis of the mutant mice by immunocytochemistry and immunoelectron microscopy showed that the synaptic targeting and clustering of mGluR7a was not altered, indicating that PICK1 is not required for mGluR7a receptor membrane trafficking and synaptic localization. However, when the spontaneous synaptic activity of cerebellar granule cell cultures prepared from both wild-type and knock-in mice was monitored, and L-AP4 (400μm) was found to decrease the frequency, but not the amplitude, of spontaneous excitatory currents in wild-type neurons, while no effect of L-AP4 on spontaneous synaptic activity was observed in knock-in neurons. This indicates that PICK1 binding to the C-terminal region of mGluR7a plays an essential role in mGluR7a mediated G-protein signaling. We examined the threshold sensitivity for the convulsant pentetrazole (PTZ) in knock-in mice. It was found that mGluR7a knock-in mice had a greater sensitivity to PTZ than wild-type mice. Moreover, the surface parietal cortex EEG recordings of the mutant mice revealed spontaneous synchronous oscillation, or "spike-and-wave discharges" (SWD), which displayed similar characteristics to absence-like seizures. It was also observed that the knock-in mice responded to pharmacology as human absence epilepsy. These data suggests that the knock-in mice displayed the phenotype of absencelike epilepsy. Furthermore, the behavioral analysis of the mGluR7a knock-in mice showed no deficits in motor coordination, pain sensation, anxiety as well as spatial learning and memory, thus the interaction of mGluR7a and PICK1 appears not to contribute to these physiological processes. Taken together, our data provides evidence for an important role of PICK1 in Gprotein dependent signaling of mGluR7a, whereas PICK1 is not required for synaptic targeting and clustering of mGluR7a. Our results also provide an animal model of absencelike epilepsy generated by disruption of a single mGluR7a-PDZ interaction, thus creating a novel therapeutic target against this neurological disease.
The main subject of the thesis is the investigation of low-temperature-grown (LTG) GaAs-based photoconductive switches used in the generation of continuous-wave (CW) and pulsed terahertz (THz) radiation. The use of photoconductive switches based on low-temperature-grown GaAs proved to be a viable option in generating electromagnetic transients on a subpicosecond time-scale, corresponding to frequencies of ~1012 Hz (between microwave and far-infrared). The most appealing property of LTG-GaAs is the ultra-short carrier lifetime obtained by incorporation of a large number of As defects when GaAs is grown at low temperatures. However, the reason for poor THz emission efficiency (low CW-THz power lrvrls) is still up to this date not fully understood. The various reasons are to be found in both, optoelectronic properties of the active layer (photoconducting material) as well as in the device characteristics. The thesis focuses primarily on the limitation imposed to the performance of the THz emitters by the material of choice for the active layer (LTG-GaAs) and secondarily, on the impact of a particular emitter design on the THz radiation efficiency. In the beginning of the thesis one finds an ample overview on the electrical and optical properties of the LTG-GaAs material. A special chapter deals with the main features of current-voltage and CW-THz emission characteristics measured from a photoconductive antenna employed as photomixer. We observed deviations from the theoretical predictions of photomixing theory which were explained by considering the high-field electrons effects (velocity overshoot and elongation of the carrier trapping time). With the scope to provide a better understanding of the correlation between device and material properties when the LTG-GaAs material is integrated with a planar antenna (photoswitch), a special THz double-pulse technique (THz-pump and -probe) was implemented. The experimental results assisted by modeling of the double-pulse THz data provide a gainful insight into the ultrafast dynamics of the electrical field and photogenerated carriers. The outcome of the double-pulse experiments is the evidence for long-living carriers in the LTG-GaAs-based photoconductive antenna under applied bias, with a deleterious impact upon the emitter performance (especially for the CW case). Additionally, by measuring the THz transients generated by a constant laser pulse with and without a CW laser background illumination, we obtained further evidence of strong field-screening effects. This phenomenon was also attributed to the existence of long-living space-charge effects. For both cases (pulsed as well as CW) we derived the de-screening time constant. The principal conclusion of the present study is that, besides shortcomings imposed by the THz-circuitry, photomixers based on materials with traps (defects) exhibit great “affinity” for space-charge screening effects with cumulative and therefore long-lived deleterious impact upon device’s performance. An alternative would be the usage of a transient-time limited device where the response time is given by the carrier collection time, possibly with only one type of carrier responsible for THz signal generation.
The experience of pain is mediated by a specialized sensory system, the nociceptive system. There is considerable evidence that the cGMP/cGMP kinase I (cGKI) signaling pathway modulates the nociceptive processing within the spinal cord. However, downstream targets of cGKI in this context have not been identified to date. In this study we investigated whether cysteine-rich protein 2 (CRP2) is a downstream effector of cGKI in the spinal cord and is involved in nociceptive processing. Immunohistochemistry of the mouse spinal cord revealed that CRP2 is expressed in superficial laminae of the dorsal horn. CRP2 is colocalized with cGKI and with markers of primary afferent C fibers. Importantly, the majority of CRP2 mRNA-positive dorsal root ganglion (DRG) neurons express cGKI and CRP2 is phosphorylated in a cGMP-dependent manner. To elucidate the functional role of CRP2 in nociception, we investigated the nociceptive behavior of CRP2-deficient (CRP2-/-) mice. Touch perception and acute thermal nociception were unaltered in CRP2-/- mice. However, CRP2-/- mice showed an increased nociceptive behavior in models of persistent pain as compared to wild type mice. Intrathecal administration of cGKI activating cGMP analogs increased the nociceptive behavior in wild type but not in CRP2-/- mice, indicating that the presence of CRP2 was essential for cGMP/cGKI-mediated nociception. These data indicate that CRP2 is a new downstream effector of cGKI-mediated spinal nociceptive processing and point to an inhibitory role of CRP2 in the generation of inflammatory pain.
cGMP- and cAMP-dependent protein kinases (cGK and cAK) mediate the inhibitory effects of endothelium-derived messenger molecules nitric oxide and prostacyclin on platelets. To understand the mechanisms involved in platelet inhibition we searched for new substrates of cGK and cAK. We identified Rap1GAP2, the only GTPase-activating protein of Rap1 in platelets. Rap1 is a guanine-nucleotide binding protein that controls integrin activity, platelet adhesion and aggregation. Rap1GAP2 is required to turn over Rap1-GTP to Rap1-GDP resulting in the inactivation of integrins and reduced cellular adhesion. Using phospho-specific antibodies we demonstrate phosphorylation of endogenous Rap1GAP2 on serine 7 by cGK and cAK in intact platelets. Yeast-two-hybrid screening revealed an interaction of the phosphoserine/-threonine binding adapter protein 14-3-3 with Rap1GAP2, and we mapped the 14-3-3 binding site to the N-terminus of Rap1GAP2 close to the cGK/cAK phosphorylation site. We could show that 14-3-3 binding to Rap1GAP2 requires phosphorylation of serine 9. Platelet activation by ADP and thrombin treatment induces Rap1GAP2 serine 9 phosphorylation and enhances the attachment of 14-3-3 to Rap1GAP2. In contrast, phosphorylation of serine 7 by cGK/cAK leads to the detachment of 14-3-3. Furthermore, Rap1GAP2 serine 7 phosphorylation correlates with the inhibition of Rap1-GTP formation by cGMP and cAMP in platelets. Cell adhesion experiments provide additional evidence that Rap1GAP2 is activated by the detachment of 14-3-3. Point mutants of Rap1GAP2 deficient in 14-3-3 binding inhibit Rap1-mediated cell adhesion significantly stronger than a Rap1GAP2 mutant that binds 14-3-3 constitutively. Our findings define a novel regulatory mechanism that might contribute to both platelet activation and endothelial inhibition of platelet adhesion and aggregation.
Oxidative stress attenuates the NO-cGMP pathway, e.g. in the vascular system, through scavenging of free NO radicals by superoxide O2•-, by inactivation of soluble guanylyl cyclase (sGC) via oxidation of its central Fe2+ ion, and by down-regulation of sGC protein levels. While the former pathways are well established, the molecular mechanisms underlying the latter are still obscure. Using oxidative sGC inhibitor ODQ we demonstrate rapid down-regulation of sGC protein in mammalian cells. Co-incubation with proteasomal inhibitor MG132 results in accumulation of ubiquitinated sGC whereas sGC activator BAY 58–2667 prevents ubiquitination. ODQ-induced down-regulation of sGC is mediated through selective ubiquitination of its b subunit, and BAY 58–2667 abrogates this effect. Ubiquitination of sGC-b is dramatically enhanced by E3 ligase CHIP. Our data indicate that oxidative stress promotes ubiquitination of sGC b subunit through E3 ligase CHIP, and that sGC activator 58–2667 reverts this effect, most likely through stabilization of the heme-free b subunit. Thus the deleterious effects of oxidative stress can be counter-balanced by an activator of a key enzyme of vascular homeostasis.
Bypassing of DNA lesions by damage-tolerant DNA polymerases depends on the interaction of these enzymes with the monoubiquitylated form of the replicative clamp protein, PCNA. We have analyzed the contributions of ubiquitin and PCNA binding to damage bypass and damage-induced mutagenesis in Polymerase {eta} (encoded by RAD30) from the budding yeast Saccharomyces cerevisiae. We report here that a ubiquitin-binding domain provides enhanced affinity for the ubiquitylated form of PCNA and is essential for in vivo function of the polymerase, but only in conjunction with a basal affinity for the unmodified clamp, mediated by a conserved PCNA interaction motif. We show that enhancement of the interaction and function in damage tolerance does not depend on the ubiquitin attachment site within PCNA. Like its mammalian homolog, budding yeast Polymerase {eta} itself is ubiquitylated in a manner dependent on its ubiquitin-binding domain.
To facilitate the measurement of intramolecular distances in solvated RNA systems, a combination of spin-labeling, electron paramagnetic resonance (EPR), and molecular dynamics (MD) simulation is presented. The fairly rigid spin label 2,2,5,5-tetramethyl-pyrrolin-1-yloxyl-3-acetylene (TPA) was base and site specifically introduced into RNA through a Sonogashira palladium catalyzed crosscoupling on column. For this purpose 5-iodouridine, 5-iodo-cytidine and 2-iodo-adenosine phosphoramidites were synthesized and incorporated into RNA-sequences. Application of the recently developed ACE (R) chemistry presented the main advantage to limit the reduction of the nitroxide to an amine during the oligonucleotide automated synthesis and thus to increase substantially the reliability of the synthesis and the yield of labeled oligonucleotides. 4-Pulse Electron Double Resonance (PELDOR) was then successfully used to measure the intramolecular spin–spin distances in six doubly labeled RNA-duplexes. Comparison of these results with our previous work on DNA showed that A- and B-Form can be differentiated. Using an all-atom force field with explicit solvent, MD simulations gave results in good agreement with the measured distances and indicated that the RNA A-Form was conserved despite a local destabilization effect of the nitroxide label. The applicability of the method to more complex biological systems is discussed.
Background Cryptic species are two or more distinct but morphologically similar species that were classified as a single species. During the past two decades we observed an exponential growth of publications on cryptic species. Recently published reviews have demonstrated cryptic species have profound consequences on many biological disciplines. It has been proposed that their distribution is non-random across taxa and biomes. Results We analysed a literature database for the taxonomic and biogeographical distribution of cryptic animal species reports. Results from regression analysis indicate that cryptic species are almost evenly distributed among major metazoan taxa and biogeographical regions when corrected for species richness and study intensity. Conclusion This indicates that morphological stasis represents an evolutionary constant and that cryptic metazoan diversity does predictably affect estimates of earth´s animal diversity. Our findings have direct theoretical and practical consequences for a number of prevailing biological questions with regard to global biodiversity estimates, conservation efforts and global taxonomic initiatives.
In this thesis the three dimensional solution strucutre of the RbfA protein from Thermotoga maritima was solved using multidimensional heteronuclear NMR spectroscopy. The RbfA protein binds to the helix I region of the 16S rRNA. To gain insights into the binding mode of RbfA to its target, a second RbfA construct from Helicobacter pylori was used. Comparison of the RbfA proteins with the published structure of RbfA from Escherichia coli, led to studies concerning the differences between proteins from thermophile and mesophile systems. In the second part of this thesis the native binding motive of the RbfA protein was identified. The RbfA protein binds to an alternate helix fold within the pre-sequence of the immature 16S rRNA.
Membrane proteins play vital role in a variety of cellular processes, such as signal transduction, transport and recognition. In turn they are involved in numerous human diseases and currently represent one of the most prevalent drug targets. A comprehensive understanding of the mechanisms mediated by membrane proteins requires information about their structures at near-atomic resolution, although structural studies of membrane proteins remain behind those of soluble proteins. A bottleneck in the study of membrane proteins resides in the difficulties that are encountered during their high-level production in cell based systems. However, many toxic effects attributed to the over production of membrane proteins are eliminated by cell-free expression, as viable host cells are no longer required. Therefore, the objective of this study was to obtain adequate amounts of selected membrane transport proteins for their structural studies using a cell-free expression system. For the establishment of the cell-free system for membrane proteins, the transporters YbgR and YiiP from Salmonella typhimurium LT2, PF0558 and PF1373 from Pyrococcus furiosus, from the cation diffusion family (CDF), BetP from Corynebacterium glutamicum from the betaine/carnitine/choline transporter (BCCT) family and Aq-2030 from Aquifex aeolicus VF5 from the monovalent cation/proton antiporter-2 (CPA2) family were selected. An Escherichia coli S-30 extract based cellfree system was established by generating the best expression constructs of the target proteins, preparing T7 RNA polymerase and an S-30 extract with high translation efficiency. The functionality of the S-30 extract was shown by the cell-free expression of correctly folded Green Fluorescent Protein (GFP). Essential factors of the cell-free system such as the Mg2+ concentration, the bacterial S-30 extract proportion in the reaction mixture and the time-course of cell-free reactions have been optimized. For the cell-free production of membrane proteins in soluble form, the possibility to supplement cell-free reactions with detergents was explored. A wide range of non-ionic or zwitterionic detergents, were found to be compatible with cell-free synthesis, while ionic detergents and non-ionic detergents at high concentrations had an inhibitory effect. Moreover, high concentrations of polyoxyethylene-alkyl-ethers (Brij) detergents were found to have enhancing effect on the production levels as well as on the solubility of cell-free produced proteins. As membrane proteins tend to misfold and aggregate in a membrane-free translation system, the possibility to supplement the cell-free reactions with inner membrane vesicles (IMVs) to obtain correctly folded target transport proteins was explored. All the target proteins were successfully produced in the batch cell-free reactions and were found to be incorporated in the IMVs. A continuous exchange cell-free (CECF) system was established, where consumable substrates (amino acids, nucleotides and energy regenerating compounds) were supplied to the cell-free reaction mixture through a dialysis membrane, which in consequence resulted in high-level production of target proteins compared to the batch system. The osmosensing and osmoregulated sodium-coupled symporter BetP from C. glutamicum was chosen for the large scale production in CECF set-up. The protein is easily produced in E. coli and is functional as assayed by its transport activity, after purification and reconstitution in liposomes. It is therefore possible to compare in-vivo and cell-free production. High-level cell-free production of BetP was achieved in CECF mode in different forms: (i) as precipitate, (ii) as soluble form in detergent, and (iii) incorporated in IMVs. Cell-free production of BetP resulted in the yield of about 0.5 mg of purified BetP from 1 ml of CECF reaction. The yield of purified BetP was increased to 1.6 fold by addition of 1% polyoxyethylene-(20)-cetyl-ether (Brij58) detergent in the reaction mixture. Moreover, the high level cell-free production of BetP (0.5 mg purified BetP/ml reaction mixture) incorporated in IMVs was shown for the first time in this work.However, it was observed that oligomerization of BetP was not efficient in the cell-free system. Factors that can promote the folding of membrane proteins such as lipids and chaperones were investigated. Addition of lipids and molecular chaperone GroE facilitated correct folding of BetP resulting in increased yield and stability of cell-free produced BetP. The results obtained indicate that most of the cell-free produced BetP exists in functional oligomeric form. The possibility of obtaining milligram amounts of BetP, a 12 trans-membrane protein from the cell-free reactions holds promise for structural and functional studies of other membrane proteins. In any case, the strategies adapted in this study should prove extremely valuable for the production of membrane proteins in the E. coli cell-free expression system.
First milestone of this Ph.D. thesis was the successful extension of conventional NTA/His-tag technique to self-assembling, multivalent chelator thiols for high-affinity recognition as well as stable and uniform immobilization of His-tagged proteins on chip surfaces. Bis-NTA was linked via an oligoethylene glycol to alkyl thiols by an efficient modular synthesis strategy yielding a novel, multivalent compound for formation of mixed SAMs with anti-adsorptive matrix thiols on gold. Multivalent chelator chips allow a specific, high-affinity, reversible, long-term immobilization of His-tagged proteins. In AFM studies reversibility of the specific protein immobilization process was visualized at single molecule level. The entire control over the orientation of the immobilized protein promotes this chip surface to an optimal platform for studies focusing on research targets at single molecule level and nanobiotechnology. Based on the constructed protein chip platform above and a novel AFM mode (contact oscillation mode, COM) – developed during the current Ph.D. work – protein nanolithography under physiological conditions enabling fabrication of active biomolecular patterns in countless variety has been established. Reversible COM-mediated nanostructuring is exceptionally suitable for multiplexed patterning of protein assemblies in situ. The first selfassembled protein layer acts as a biocompatible and ductile patterning material. Immobilized proteins can be replaced by the AFM tip applying COM, and the generated structures can be erased and refilled with different proteins, which are immobilized in a uniform and functional manner. Multi-protein arrays can be systematically fabricated by iterative erase-and-write processes, and employed for protein-protein interaction analysis. Fabrication of two-dimensionally arranged nanocatalytic centres with biological activity will establish a versatile tool for nanobiotechnology. As an alternative chip fabrication approach, the combined application of methodologies from surface chemistry, semiconductor technology, and chemical biology demonstrated successfully how pre-patterned templates for micro- and nanoarrays for protein chips are fabricated. The surface physical, as well the biophysical experiments, proved the functionality of this technology. The promises of such process technology are fast and economic fabrication of ready-to-use nanostructured biochips at industrial scale. Membrane proteins are complicated in handling and hence require sophisticated solutions for chip technological application. A silicon-on-insulator (SOI) chip substrate with microcavities and nanopores was employed for first technological investigation to construct a protein chip suitable for membrane proteins. The formation of an artificial lipid bilayer using vesicle fusion on oxidized SOI cavity substrates was verified by CLSM. Future AFM experiments will give further insights into the chip architecture and topography. This will provide last evidence of the sealing of the cavity by the lipid bilayer. Transmembrane proteins will be employed for reconstitution experiments on this membrane protein chip platform. Highly integrated microdevices will find application in basic biomedical and pharmaceutical research, whereas robust and portable point-of-care devices will be used in clinical settings.
Background Synchronous neuronal firing has been discussed as a potential neuronal code. For testing first, if synchronous firing exists, second if it is modulated by the behaviour, and third if it is not by chance, a large set of tools has been developed. However, to test whether synchronous neuronal firing is really involved in information processing one needs a direct comparison of the amount of synchronous firing for different factors like experimental or behavioural conditions. To this end we present an extended version of a previously published method NeuroXidence [1], which tests, based on a bi- and multivariate test design, whether the amount of synchronous firing above the chance level is different for different factors.
Background The synchrony hypothesis postulates that precise temporal synchronization of different pools of neurons conveys information that is not contained in their firing rates. The synchrony hypothesis had been supported by experimental findings demonstrating that millisecond precise synchrony of neuronal oscillations across well separated brain regions plays an essential role in visual perception and other higher cognitive tasks [1]. Albeit, more evidence is being accumulated in favour of its role as a binding mechanism of distributed neural responses, the physical and anatomical substrate for such a dynamic and precise synchrony, especially zero-lag even in the presence of non-negligible delays, remains unclear. Here we propose a simple network motif that naturally accounts for zero-lag synchronization for a wide range of temporal delays [3]. We demonstrate that zero-lag synchronization between two distant neurons or neural populations can be achieved by relaying the dynamics via a third mediating single neuron or population. Methods We simulated the dynamics of two Hodgkin-Huxley neurons that interact with each other via an intermediate third neuron. The synaptic coupling was mediated through alpha-functions. Individual temporal delays of the arrival of pre-synaptic potentials were modelled by a gamma distribution. The strength of the synchronization and the phase-difference between each individual pairs were derived by cross-correlation of the membrane potentials. Results In the regular spiking regime the two outer neurons consistently synchronize with zero phase lag irrespective of the initial conditions. This robust zero-lag synchronization naturally arises as a consequence of the relay and redistribution of the dynamics performed by the central neuron. This result is independent on whether the coupling is excitatory or inhibitory and can be maintained for arbitrarily long time delays (see Fig. 1). Conclusion We have presented a simple and extremely robust network motif able to account for the isochronous synchronization of distant neural elements in a natural way. As opposed to other possible mechanisms of neural synchronization, neither inhibitory coupling, gap junctions nor precise tuning of morphological parameters are required to obtain zero-lag synchronized neuronal oscillation.
The goal of this thesis was to gain further insight into the binding behavior of ligands in the heptahelical domain (HD) of group I metabotropic glutamate receptors (mGluRs). This was realized by the establishment of strategies for the detection and optimization of molecules acting as non-competitive antagonists of group I mGluRs (mGluR1/5). These strategies should guarantee high diversity in the retrieved chemotypes of the detected compounds not resembling original reference molecules (“scaffold-hopping”). The detection of new scaffolds, in turn, was divided into two approaches: First the development of pharmacological assays to screen compounds at a certain target for bioactivity (here: affinity towards the allosteric recognition site of mGluR1 and mGluR5), and second the evaluation of computer assisted methods for the identification of virtual hits to be screened afterwards on the pharmacological assays established before. Promising molecules should be optimized with respect to activity/affinity and selectivity, their binding mode investigated and, finally, compared to existing lead compounds. Initially, membrane based binding assays for the HD of mGlu1 and mGlu5 receptors with enhanced throughput (shifting from 24-well plates to 96-well plates) were set up. For the mGluR1 assay the potent antagonist EMQMCM exhibited high affinity towards the binding site (Ki ~3nM), which is in accordance with published data from Mabire et al. (functional IC50 3nM). For mGluR5 the reference antagonist MPEP binds with high affinity to the receptor (binding IC50 13.8nM), which confirmed earlier findings from Anderson et al. (binding IC50 15nM). In another series of experiments the properties of rat cerebellar (mGluR1) and corticalmembranes (mGluR5) as well as of radiotracers were investigated by means of binding saturation studies and kinetic experiments. Furthermore, the influence of the solvent DMSO, necessary for compound screening of lipophilic substances, on positive and negative controls was evaluated. As the precise architecture of the HD of mGluR1 is still not known our efforts in identifying new ligands for this receptor focused on the ligand-based approach. All computer assisted methods that were applied to virtually screen large compound collections and to retrieve potential hits (“activity-enriched subsets”) acting at the heptahelical domain of mGluR1 relied on the existence of a valid dataset of reference molecules. This was realized by an initial compilation of a mGluR reference data collection comprising in total 357 entries predominantly negative but also some positive allosteric modulators for mGluR1 and mGluR5. In the next step a pharmacophore model for non-competitive mGluR1 antagonists was constructed. It was based upon six selective, potent and structurally diverse ligands. Prospective virtual screening was performed using the CATS atom-pair descriptor. The Asinex Gold-Collection was screened for each seed compound and some of the most similar compounds (according to the CATS descriptor) were ordered and tested forbinding affinity and functional activity at mGluR1. A high hit rate of approximately 26% (IC50 < 15 micro M) was yielded confirming the applicability of this method. One compound exerted functional activity below one micro molar (IC50-value of C-07:362nM ± 0.03). Moreover, non-linear principal component analysis was employed. Again the Asinex vendor database served as test database and was filtered by the pharmacophore model for mGluR1 established before. Test molecules that were adjacently located with mGluR1 antagonist references were selected. 15 compounds were tested on mGluR1 in binding and functional assays and three of them exhibited functional activity (IC50) below 15 micro M. The most potent molecule P-06 revealed an IC50-value of 1.11 micro M (± 0.41). The COBRA database comprising 5,376 structurally diverse bioactive molecules affecting various targets was encoded with the CATS descriptor and used for training two selforganizing maps (SOM). The encoded mGluR reference data collection was projected onto this map according to the SOM algorithm. This projection allowed to clearly distinguish between antagonists of mGluR1 and mGluR5 subtype. 28 compounds were ordered and tested on activity and affinity for mGluR1. They exhibited functional activity down to the sub-micro molar range (IC50-value of S-08: 744nM ± 0.29) yielding a final hit rate of 46% (<15 micro M). Then, the Asinex collection was screened using the SOM approach. For a predicted target panel including the muscarinic mACh (M1) receptor, the histamine H1-receptor and the dopamine D2/D3 receptors, the tested mGluR ligands exhibited the calculated binding pattern. This virtual screening concept might provide a basis for early recognition of potential sideeffects in lead discovery. We superimposed a set of 39 quinoline derivatives as non-competitive mGluR1 antagonists that were recently published by Mabire and co-workers. A CoMFA model (QSAR) was established and the influence of several side chains on functional activity was investigated. The coumarine derivative C-07 was obtained as a result of similarity searching. Starting from this compound a series of chemical derivatives was synthesized. This led to the discovery of potent (B-28, IC50: 58nM ± 0.008; Ki: 293nM ± 0.022) and selective (rmGluR5 IC50: 28.6 micro M) mGluR1 antagonists. From a homology model of mGluR1 we derived a potential binding mode for coumarines within the allosteric transmembrane region. Potential interacting patterns with amino acids were proposed considering the difference of the binding pockets between rat and human receptors. The proposed binding modes for quinolines (here:EMQMCM) and coumarines (here:B-04) were compared and discussed considering in particular the influence on activity of several side chains of quinolines obtained from the QSAR studies. The present studies demonstrated the applicability of ligand-based virtual screening for non-competitive antagonists of a G-protein coupled receptor, resulting in novel, potent and selective agents.
The strong nuclear force is described by Quantum Chromodynamics (QCD), the parallel field theory to Quantum Electrodynamics (QED) that describes the electromagnetic force. It is propagated by gluons analogously to photons in the electromagnetic force, but unlike photons, which do not carry electric charge, gluons carry color, and they can self-interact. However, as individual quarks have never been observed in nature, it is postulated that the color charge itself is confined, and hence all baryons and mesons must be colorless objects. To study nuclear matter under extreme conditions, it is necessary to create hot and dense nuclear matter in the laboratory. In such conditions the confinement between quarks and gluons is cancelled (deconfinement). This state is characterized with a qusi-free behavior of quarks and gluons. The strange (s) and anti-strange (anti-s) quarks are not contained in the colliding nuclei, but are newly produced and show up in the strange hadrons in the final state. It was suggested that strange particle production is enhanced in the QGP with respect to that in a hadron gas. This enhancement is relative to a collision where a transition to a QGP phase does not take place, such as p+p collisions where the system size is very small. Therefore the energy- and system size dependence is studied to receive a picture about the initial state. In this thesis experimental results on the energy- and system size dependence of Xi hyperon production at the CERN SPS is shown. All measurements were performed with the NA49 detector at the CERN SPS. NA49 took central lead-lead collisions from 20 - 158 AGeV, minimus bias lead-lead collisions at 40 and 158 AGeV, and semi-central silicon-silicon colisions at 158 AGeV. The NA49 experiment features a large acceptance in the forward hemisphere allowing for measurements of Xi rapidity spectra. At the SPS accelerator at CERN Pb+Pb collisions are performed with beam energies to 158 AGeV. The analyzed data sets were taken in the period from 1999 to 2002. The NA49 experiment is a large acceptance hadron spectrometer, which measures charged hadrons in a wide acceptance. The main components are the four TPCs (Time Projection Chamber). The centrality of nucleon-nucleon collisions was done by measuring the not in the collision participating (spectator-) nucleons in the VETO-calorimeter. The study of strangeness is motivated by its role as a signature for the Quark Gluon Plasma. Any enhancement in the yield must be with respect to a ’normal’ yield, where a QGP is not formed. This is usually taken to mean suitably scaled p+p collisions, where the volume of the system created is too small for a QGP to occur. The results at SPS and RHIC energies show an enhancement, with the doubly strange Xi? being enhanced more than the Lambda, in accordance with the original prediction. However, the enhancement at SPS energies is higher than at RHIC energies.
Background The cell cycle of all organisms includes mass increase by a factor of two, replication of the genetic material, segregation of the genome to different parts of the cell, and cell division into two daughter cells. It is tightly regulated and typically includes cell cycle-specific oscillations of the levels of transcripts, proteins, protein modifications, and signaling molecules. Until now cell cycle-specific transcriptome changes have been described for four eukaryotic species ranging from yeast to human, but only for two prokaryotic species. Similarly, oscillations of small signaling molecules have been identified in very few eukaryotic species, but not in any prokaryote. Results A synchronization procedure for the archaeon Halobacterium salinarum was optimized, so that nearly 100% of all cells divide in a time interval that is 1/4th of the generation time of exponentially growing cells. The method was used to characterize cell cycle-dependent transcriptome changes using a genome-wide DNA microarray. The transcript levels of 87 genes were found to be cell cycle-regulated, corresponding to 3% of all genes. They could be clustered into seven groups with different transcript level profiles. Cluster-specific sequence motifs were detected around the start of the genes that are predicted to be involved in cell cycle-specific transcriptional regulation. Notably, many cell cycle genes that have oscillating transcript levels in eukaryotes are not regulated on the transcriptional level in H. salinarum. Synchronized cultures were also used to identify putative small signaling molecules. H. salinarum was found to contain a basal cAMP concentration of 200 uM, considerably higher than that of yeast. The cAMP concentration is shortly induced directly prior to and after cell division, and thus cAMP probably is an important signal for cell cycle progression. Conclusions The analysis of cell cycle-specific transcriptome changes of H. salinarum allowed to identify a strategy of transcript level regulation that is different from all previously characterized species. The transcript levels of only 3% of all genes are regulated, a fraction that is considerably lower than has been reported for four eukaryotic species (6% - 28%) and for the bacterium C. crescentus (19%). It was shown that cAMP is present in significant concentrations in an archaeon, and the phylogenetic profile of the adenylate cyclase indicates that this signaling molecule is widely distributed in archaea. The occurrence of cell cycle-dependent oscillations of the cAMP concentration in an archaeon and in several eukaryotic species indicates that cAMP level changes might be a phylogenetically old signal for cell cycle progression.
Koalas are popular zoo animals, but difficult in husbandry. In addition to their specialised diet of eucalyptus leaves, they are prone to “stress” and disease. Particularly in European zoos, themonitoring of theirwell-being has high priority and they are protected from possible stressors. However, stress signs in koalas are vague and monitoring techniques like weighing might result in discomfort itself. Additionally, husbandry routines are planned according to keeper’s schedule, not to the endogenous rhythms of the koalas. Therefore it is necessary to investigate activity pattern in captive koalas and the signals influencing them. These signals have to be assessed on the strength and quality of their impact. A total of 17 koalas have been observed in three zoological gardens in Australia and Europe. Koalas kept in outdoor enclosures with little human contact (Koala Walkabout, Taronga Zoo, Sydney) showed a uniform activity pattern, which was clearly entrained by light. Activity levels were higher during the night, and there was a pronounced resting period in the morning which corresponds with low body temperature measured by Degabriele and Dawson (1979). Activity peaks were related to twilight and changed during the year related to day lengths. However, there was a clear influence from the introduction of fresh browse which resulted in a distinct feeding peak in the afternoon. With short day lengths, this stimulus competed with dusk. Activity patterns from koalas in indoor enclosures (Zoo Duisburg, Vienna Zoo) varied between individuals and in some cases lacked a detectable rhythm. Though activity peaks were related to light, entrainment to sunlight was weak. In winter, koalas reacted primarily to the artificial light, but some also showed activity peaks related to sunlight. Activity patterns in these koalas were less structured and differed severely from patterns expected according to literature. Activity was often related to the keeper’s presence and food introduction. Frequency of feeding bouts was considerably higher at Vienna Zoo compared to the other zoos and the bouts were shorter in duration. Time budgets of the koalas were within the range given in free-range studies. Feeding showed seasonal changes and was increased in lactating females. Koalas at Vinna Zoo had a high level of locomotor activity compared to the size of the enclosure. Koalas at Koala Walkabout were not used to handling, so they resisted the keeper. The koalas at the two European zoos were handled regularly and settled down quickly. However, handling took place in the morning; in most koalas, there was no activity prior to it. In Vienna, resting periods were interrupted daily due to weighing. Food introduction at KoalaWalkabout took place in the afternoon. It was preceded by locomotor activity and triggered a long feeding bout in the koalas. It is not clear, whether food had true Zeitgeber properties or masked the endogenous rhythm. In the two European zoos, food was introduced in the morning. The peaks related to this were smaller than those at Koala Walkabout. Activity was rarely observed prior to food introduction. The koalas at Koala Encounter, Taronga Zoo (Sydney),were regularly confronted with visitors, though no contact was allowed. Direct observation by the keepers did rarely show any stress signs. Activity patterns at night were strikingly similar to Koala Walkabout, but differed dramatically during the day. Food was introduced three times a day, which usually resulted in activity that interrupted a resting period. Generally, the koalas at Koala Encounter were more active than those at KoalaWalkabout. They also displayed a high level of locomotor activity, especially on the ground, which is an accepted sign of discomfort in koalas (Wood 1978; Zoological Society of San Diego 2001; Yusuf& Rosenthal unpublished data). In summary, this chronoethological study of the captive koalas showed that there are several problems with koala husbandry. Artificial light regimes for koalas are not sufficient for entrainment and result in unstructured activity pattern. This is especially the case in winter, when the day in Europe is artificially extended. Due to the mainly nocturnal behaviour of koalas, such an extension might not be necessary and therefore should be avoided. Handling in Europe took place during the physiological resting time of the koalas. Interruptions of resting times are considered as stressors (Wood 1978) and should be avoided. Handling in the afternoon would be more suitable for the koalas and triggered activity in the two koalas at Vienna Zoo. It is also arguable if daily weighing is necessary to monitor health in captive koalas or if the frequent interruption of resting countervail the advantages of constant monitoring. Frequent contact with visitors, evenwithout the so-called cuddling, has a considerable impact on activity patterns and time budget of koalas, even if no immediate stress signs are displayed. Such contact should therefore be reduced to a minimum and chronoethological observations of the koalas should be used. A study on koalas with direct visitor contact is also advisable to revise the current legislation on “koala cuddling”. Koalas frequently rested in living trees if they had access to it. Since no food-poisoning has been reported from koalas using living non-food trees, the provision of living trees with an appropriate canopy should be included in the husbandry guidelines. Increased locomotor activity has been shown to be related to conditions of discomfort or stress and possibly to oestrus. This is in accordance with literature (Wood 1978; Zoological Society of San Diego 2001). Further observation, combined with hormone analysis, are advisable to establish this parameter for evaluation of well-being. Chronoethology has proven to be useful for the evaluation of husbandry conditions and group dynamics. Different to other, traditional ethologicalmethods, it indicated problems and enabled me to advise more appropriate times for handling and food introduction. It is desirable that zoos already using 24-hour video observation include chronoethological aspects into their analysis.
Background: West Nile virus (WNV) infection can cause severe meningitis and encephalitis in humans. Apoptosis was recently shown to contribute to the pathogenesis of WNV encephalitis. Here, we used WNV-infected glioma cells to study WNV-replication and WNV-induced apoptosis in human brain-derived cells. Results: T98G cells are highly permissive for lytic WNV-infection as demonstrated by the production of infectious virus titre and the development of a characteristic cytopathic effect. WNV replication decreased cell viability and induced apoptosis as indicated by the activation of the effector caspase-3, the initiator caspases-8 and -9, poly(ADP-ribose)polymerase (PARP) cleavage and the release of cytochrome c from the mitochondria. Truncation of BID indicated cross-talk between the extrinsic and intrinsic apoptotic pathways. Inhibition of the caspases-8 or -9 inhibited PARP cleavage, demonstrating that both caspases are involved in WNV-induced apoptosis. Pancaspase inhibition prevented WNV-induced apoptosis without affecting virus replication. Conclusions: We found that WNV infection induces cell death in the brain-derived tumour cell line T98G by apoptosis under involvement of constituents of the extrinsic as well as the intrinsic apoptotic pathways. Our results illuminate the molecular mechanism of WNV-induced neural cell death.
The multiplicity of hadronic species created in elementary, and in nucleus-nucleus collisions, are known to be well reproduced by the statistical hadronization model, in its canonical and grand-canonical versions.To understand the origin of the implied equilibrium we revisit the hadronization models developed for e+e- annihilation to hadrons which imply spatial color pre-confinement clusters forming at the end of the pQCD evolution, which decays into on-shell hadrons/resonances. The classical ensemble description arises as a consequence of decoherence and phase space dominance during cluster formation, and decay.For A+A collisions we assume that hadronization occurs from similar singlet clusters which will overlap spatially owing to the extreme density. This is imaged in the transition to the grand-canonical ensemble.This transition sets in with increasing A and collision centrality. It can be described by a percolation model.
We discuss the present collective flow signals for the phase transition to quark-gluon plasma (QGP) and the collective flow as a barometer for the equation of state (EoS). A study of Mach shocks induced by fast partonic jets propagating through the QGP is given. We predict a significant deformation of Mach shocks in central Au+Au collisions at RHIC and LHC energies as compared to the case of jet propagation in a static medium. Results of a hydrodynamical study of jet energy loss are presented.
The energy dependence of various hadronic observables is reviewed. The study of their evolution from AGS over SPS to the highest RHIC energy reveals interesting features, which might locate a possible onset of deconfinement. These observables include transverse spectra of different particle types and their total multiplicities, as well as elliptic flow. In this context especially the observation of a maximum of the strangeness to pion ratio is of particular interest, since on one hand it has been predicted as a signal for the onset of deconfinement but on the other hand also statistical model calculations exhibit qualitatively similar structures. The sharpness of these features is however not reproduced by hadronic scenarios. The significance of these structures will be discussed in this contribution. Other observables, such as radius parameters from Bose-Einstein correlations, on the other hand do not exhibit any structure in their energy dependence.
We study optimal investment in self-protection of insured individuals when they face interdependencies in the form of potential contamination from others. If individuals cannot coordinate their actions, then the positive externality of investing in self-protection implies that, in equilibrium, individuals underinvest in self-protection. Limiting insurance coverage through deductibles or selling “at-fault” insurance can partially internalize this externality and thereby improve individual and social welfare. JEL Classification: C72, D62, D80
Why is it hard to divide attention between dissimilar activities, such as reading and listening to a conversation? We used functional magnetic resonance imaging (fMRI) to study interference between simple auditory and visual decisions, independently of motor competition. Overlapping activity for auditory and visual tasks performed in isolation was found in lateral prefrontal regions, middle temporal cortex and parietal cortex. When the visual stimulus occurred during the processing of the tone, its activation in prefrontal and middle temporal cortex was suppressed. Additionally, reduced activity was seen in modality-specific visual cortex. These results paralleled impaired awareness of the visual event. Even without competing motor responses, a simple auditory decision interferes with visual processing on different neural levels, including prefrontal cortex, middle temporal cortex and visual regions.
Spatial interpolation of precipitation data is uncertain. How important is this uncertainty and how can it be considered in evaluation of high-resolution probabilistic precipitation forecasts? These questions are discussed by experimental evaluation of the COSMO consortium's limited-area ensemble prediction system COSMO-LEPS. The applied performance measure is the often used Brier skill score (BSS). The observational references in the evaluation are (a) analyzed rain gauge data by ordinary Kriging and (b) ensembles of interpolated rain gauge data by stochastic simulation. This permits the consideration of either a deterministic reference (the event is observed or not with 100% certainty) or a probabilistic reference that makes allowance for uncertainties in spatial averaging. The evaluation experiments show that the evaluation uncertainties are substantial even for the large area (41 300 km2) of Switzerland with a mean rain gauge distance as good as 7 km: the one- to three-day precipitation forecasts have skill decreasing with forecast lead time but the one- and two-day forecast performances differ not significantly.
This paper documents the experiences of assurance evaluation during the early stage of a large software development project. This project researches, contracts and integrates privacy-respecting software to business environments. While assurance evaluation with ISO 15408 Common Criteria (CC) within the certification schemes is done after a system has been completed, our approach executes evaluation during the early phases of the software life cycle. The promise is to increase quality and to reduce testing and fault removal costs for later phases of the development process. First results from the still-ongoing project suggests that the Common Criteria can define a framework for assurance evaluation in ongoing development projects.
Synaptopodin is the founding member of a family of actin-associated proline-rich proteins. It is present in a subset of telencephalic dendritic spines, where it is tightly associated with the dendritic spine apparatus, a putative calcium store. Synaptopodin-deficient mice lack the spine apparatus and show deficits in long-term potentiation and spatial memory. Thus, synaptopodin appears to play a role in synaptic plasticity. In the present thesis, three major questions were addressed: (1) What is the distribution of synaptopodin and the spine apparatus in identified hippocampal neurons? (2) Is the distribution of synaptopodin affected by denervation? (3) Is synaptopodin involved in the regulation of denervation-induced spine loss? The major findings of this thesis are: (1) Immunohistochemistry in the hippocampus of wildtype and EGFP-transgenic mice revealed significant layer-specific differences in the prevalence of synaptopodin at the level of individual neurons. (2) Light and electron microscopic analysis also revealed the presence of synaptopodin in axon initial segments of cortical and hippocampal principal neurons. There, it was found to be an essential component of the cisternal organelle, a putative axonal homologue of the dendritic spine apparatus. (3) Immunohistochemistry in the rat fascia dentata before and following entorhinal deafferentation revealed changes in synaptopodin expression in denervated and non-denervated layers of the hippocampus, suggesting that the distribution of synaptopodin in hippocampal neurons is regulated by presynaptic signals. (4) The dynamics of denervation-induced spine plasticity were studied in vitro using confocal live imaging of organotypic entorhino-hippocampal slice cultures. Whereas spines were remarkably stable under control conditions, spine loss and spine formation were seen following denervation. No significant differences were observed between cultures from wildtype and synaptopodin-deficient mice, suggesting that synaptopodin is not involved in lesion-induced spine plasticity. (5) Finally, a set of transgenic mice expressing fluorescently tagged synaptopodin were generated to facilitate future experiments on the dynamics and function of synaptopodin. In summary, this thesis presents novel findings on (1) the subcellular distribution of synaptopodin in spines and the axon initial segment, (2) the molecular composition of the cisternal organelle, and (3) the dynamics of spines and the spine apparatus organelle following deafferentation in vivo and in vitro.
The potential use of variola virus, the causative agent of smallpox, as a bioweapon and the endemic presence of monkeypox virus in Africa demonstrate the need for better therapies for orthopoxvirus infections. Chemotherapeutic approaches to control viral infections have been less successful than those targeting bacterial infections. While bacteria commonly reproduce themselves outside of cells and have metabolic functions against which antibiotics can be directed, viruses replicate in the host cells using the cells' metabolic pathways. This makes it very difficult to selectively target the virus without damaging the host. Therefore, the development of antiviral drugs against poxviruses has initially focused on unique properties of the viral replication cycle or of viral proteins that can be selectively targeted. However, recent advances in molecular biology have provided insights into host factors that represent novel drug targets. The latest anti-poxvirus drugs are kinase inhibitors, which were originally developed to treat cancer progression but in addition block egress of poxviruses from infected cells. This review will summarize the current understanding of anti-poxvirus drugs and will give an overview of the development of the latest second generation poxvirus drugs.
Retirees confront the difficult problem of how to manage their money in retirement so as to not outlive their funds while continuing to invest in capital markets. We posit a dynamic utility maximizer who makes both asset location and allocation decisions when managing her retirement financial wealth and annuities, and we prove that she can benefit from both the equity premium and longevity insurance in her retirement portfolio. Even without bequests, she will not fully annuitize; rather, her optimal stock allocation amounts initially to more than half of her financial wealth and declines with age. Welfare gains from this strategy can amount to 40 percent of financial wealth (depending on risk parameters and other resources). In practice, it turns out that many retirees will do almost as well by purchasing a variable annuity invested 60/40 in stocks/bonds. JEL Classification: G11, G23, G22, D14, J26, H55
Background Olfactory receptors work at the interface between the chemical world of volatile molecules and the perception of scent in the brain. Their main purpose is to translate chemical space into information that can be processed by neural circuits. Assuming that these receptors have evolved to cope with this task, the analysis of their coding strategy promises to yield valuable insight in how to encode chemical information in an efficient way. Results We mimicked olfactory coding by modeling responses of primary olfactory neurons to small molecules using a large set of physicochemical molecular descriptors and artificial neural networks. We then tested these models by recording in vivo receptor neuron responses to a new set of odorants and successfully predicted the responses of five out of seven receptor neurons. Correlation coefficients ranged from 0.66 to 0.85, demonstrating the applicability of our approach for the analysis of olfactory receptor activation data. The molecular descriptors that are best-suited for response prediction vary for different receptor neurons, implying that each receptor neuron detects a different aspect of chemical space. Finally, we demonstrate that receptor responses themselves can be used as descriptors in a predictive model of neuron activation. Conclusions The chemical meaning of molecular descriptors helps understand structure-response relationships for olfactory receptors and their 'receptive fields'. Moreover, it is possible to predict receptor neuron activation from chemical structure using machine-learning techniques, although this is still complicated by a lack of training data.
An application of EPR spectroscopy that is becoming increasingly important is the measurement of distances between electron spins. Several EPR methods have been developed for this purpose, all based on measuring the dipolar coupling between two spins. Due to the specific nature of the sample, we applied dipolar relaxation enhancement measurements to study the geometry of a protein-protein complex. The paramagnetic centers in question had EPR spectra that were too broad and had such short relaxation time that they could not be studied using the more straightforward PELDOR technique. EPR spectral resolution can be increased appreciably by measuring at a frequency higher than conventional X-band (9 GHz) frequency. The spectra of many paramagnetic species can only be resolved at frequencies higher than 90 GHz. For accurate measurement of the orientation of the vector between two dipolar coupled spins with respect to the g-tensors of the spins, high spectral resolution is required. We therefore performed our EPR measurements at G-band (180 GHz) frequency. Dipolar relaxation measurements were applied to study the complex that is formed by the two electron-transfer proteins cytochrome c and cytochrome c oxidase (CcO) from the soil bacterium Paracoccus denitrificans. We were able to detect dipolar relaxation enhancement due to complex formation of soluble subunit II of P.d. CcO (CcOII) with two substrate cytochromes, which was practically absent in a mixture of CcOII with the negative control protein cytochrome c1. This complex formation was characterized by a pronounced temperature dependence that could be simulated using a home-written computer program. The G-band EPR measurements could not be simulated with a single complex geometry. This provided evidence for the hypothesis that electron-transfer protein complexes are short-lived and highly dynamic; they do not seem to form one specific electron-transfer conformation, but rather move around on each other’s binding surfaces and transfer an electron as soon as the distance between donor and acceptor is short enough. As a test of our simulation program, we also applied dipolar relaxation measurements to specially synthesized organic molecules that contained a nitroxide radical and a metal center. The transverse relaxation of Cu2+-OEP-TPA was compared to the relaxation of Ni2+-OEP-TPA at temperatures between 20 and 120 K. In this temperature range, the nitroxide relaxation was enhanced due to the presence of Cu2+, but not by Ni2+. Similarly, relaxation enhancement was found in the nitroxide-Mn2+ pair in Mn2+-terpyridine-TPA with respect to the terpyridine-TPA ligand. Due to the fast T2 relaxation of the nitroxide radical at high temperatures, the measurements were all performed in the low-temperature regime where the T1 relaxation rate of the metal ion was smaller than the dipolar coupling frequency. In this region, no structural information about the molecule can be deduced, since the dipolar relaxation enhancement is only determined by the T1 of the metal ion. The dipolar relaxation measurements we performed at high field indicated a difference in relaxation times between X-band and G-band frequencies. Extensive T1 - measurements of different paramagnetic centers (CuA, Cu2+) confirmed a strong dependence of T1 on magnetic field in the temperature range where the direct process is the dominating T1 relaxation process. This dependence is very strong (factor of 103 with respect to X-band), but does not follow the B04 dependence predicted in literature. The T1 relaxation of low-spin iron in cytochrome c at high magnetic field, estimated from dipolar relaxation data, is also in agreement with a larger contribution by the direct process (factor of 104). Dipolar relaxation enhancement was found to be a technique that is useful for measuring distances between paramagnetic centers, but only for systems where several important conditions are met, such as: the system exists in one certain static geometry, and the relaxation rate of the fast-relaxing spin is faster than the dipolar coupling frequency within the accessible temperature range. Additionally, it is a great advantage for the analysis of dipolar relaxation data if the procedure of dividing the relaxation trace of the dipolar-coupled slow-relaxing spin by the relaxation trace of the slow-relaxing spin in absence of dipolar coupling can be applied. Another useful application of dipolar relaxation enhancement measurements is the measurement of T1 relaxation of extremely fast-relaxing spins, or spins that are otherwise difficult to detect.
Using a unique data set on trade credit defaults among French firms, we investigate whether and how trade credit is used to relax financial constraints. We show that firms that face idiosyncratic liquidity shocks are more likely to default on trade credit, especially when the shocks are unexpected, firms have little liquidity, are likely to be credit constrained or are close to their debt capacity. We estimate that credit constrained firms pass more than one fourth of the liquidity shocks they face on to their suppliers down the trade credit chain. The evidence is consistent with the idea that firms provide liquidity insurance to each other and that this mechanism is able to alleviate the consequences of credit constraints. In addition, we show that the chain of defaults stops when it reaches firms that are large, liquid, and have access to financial markets. This suggests that liquidity is allocated from large firms with access to outside finance to small, credit constrained firms through trade credit chains.
Public employee pension systems throughout the developed world have traditionally been of the pay-as-you-go (PAYGO) defined benefit (DB) variety, where pensioner payments are financed by taxes (contributions) levied on the working generation. But as the number of retirees rises relative to the working-age group, such systems have begun to face financial distress. This trend has been exacerbated in many countries, among them Germany, by high unemployment rates producing further deterioration of the contribution base. In the long run, public sector pension benefits will have to be cut or contributions increased, if the systems are to be maintained. An alternative path sometimes offered to ease the crunch of paying for public employee pensions is to move toward funding: here, plan assets are gradually built up, invested, and enhanced returns devoted to partly defray civil servants’ pension costs. In this study, we evaluate the impact of introducing partial prefunding, paired with a strategic investment policy for the German federal state of Hesse. The analysis assesses the impact of introducing a supplementary tax-sponsored pension fund whose contributions are invested in the capital market and used to relieve the state budget from (some) pension payments. Our model determines the expectation and the Conditional Value-at-Risk of economic pension costs using a stochastic simulation process for pension plan assets. This approach simultaneously determines the optimal contribution rate and asset allocation that controls the expected economic costs of providing the promised pensions, while at the same time controlling investment risk. Specifically, we offer answers to the following questions: 1. How can the plan be designed to control cash-flow shortfall risk, so as to mitigate the potential burden borne by future generations of taxpayers? 2. What is the optimal asset allocation for this fund as it is built up, to generate a maximum return while simultaneously restricting capital market and liability risk? 3. What are reasonable combinations of annual contribution rates and asset allocation to a state-managed pension fund, which will limit costs of providing promised public sector pensions? We anticipate that this research will interest several sorts of policymaker groups. First, focusing on the German case, the state and Federal governments should find it relevant, as these entities face considerable public sector pension liabilities. Second, our findings will also be of interest to other European countries, as most have substantial underfunded defined benefit plans for civil servants. In what follows, we first offer a brief description of the structure of civil servant pensions in Germany, focusing on their benefit formulas, their financing, and the resulting current as well as future plan obligations for taxpayers. Next, we turn to an analysis of the actuarial status of the Hesse civil servants’ pension plan and evaluate how much would have to be contributed to fund this plan in a nonstochastic context. Subsequently we evaluate the asset-liability and decision-making process from the viewpoint of the plan sponsor, to determine sensible plan asset allocation behavior. A final section summarizes findings and implications.
Scholars of institutional design attribute large importance to the choice of new institutions. The comparative analysis of how Rwanda and Zambia crafted their new electoral systems and the systems of government regards procedural, structural and rational choice variables which may influence the option for particular solutions. External influences and the type of transition are determinants that can decide which actors make their interests prevail. The degree of innovation or conservatism of new institutions is mainly a result of the speed of the process and the kind of actors involved. However, rational reflections on how to produce legitimacy and minimize personal risks which take into consideration the state of conflict in the country decide on the speed and on innovative outcomes. The structured analysis of only two cases uncovers already that it is rather difficult to realise the transfer of design recommendations into reality.
Starting from controversial findings about the relationship between party systems and the prospects of democratic consolidation, this article argues that problems can only be properly addressed on the basis of a differentiated typology of party systems. Contradictory research results do not pose an ‘African puzzle’ but can be explained by different and inadequate approaches. We argue that a modified version of Sartori's typology of party systems provides an appropriate method for classifying African party systems. Based on Sartori's framework, a preponderance of predominant and dominant party systems is identified. This can partly be explained by the prevailing authoritarian nature of many multiparty regimes in Africa as well as by the ethnic plurality of African societies. High ethnic fragmentation is not transformed into highly fragmented party systems. This phenomenon can be attributed to the most frequent ‘ethnic congress party’ which is based on an ethnic elite coalition.
This paper focuses on dynamic interactions of equity prices among theoretically related assets. We explore the existence of intraday non-linearities in the FTSE 100 cash and futures indices. We test whether the introduction of the electronic trading systems in the London Stock Exchange in 1997 and in the London International Financial Futures and Options Exchange (LIFFE) in 1999 has eliminated the non-linear dynamic relationship in the FTSE 100 markets. We show that the introduction of the electronic trading systems in the FTSE 100 markets has increased the efficiency of the markets by enhancing the price discovery process, namely by facilitating the increase of the speed of adjustment of the futures and cash prices to departures of the mispricing error from its non-arbitrage band. Nevertheless, we conclude that the automation of the markets has not completely eliminated the non-linear properties of the FTSE 100 cash and futures return series. JEL Classification: G12, G14, G15
Exchanges in Europe are in a process of consolidation. After the failure of the proposed merger between Deutsche Börse and Euronext, these two groups are likely to become the nuclei for further mergers and co-operation with currently independent exchanges. A decision for one of the groups entails a decision for the respective trading platform. Against that background we evaluate the attractiveness of the two dominant continental European trading systems. Though both are anonymous electronic limit order books, there are important differences in the trading protocols. We use a matched-sample approach to compare execution costs in Euronext Paris and Xetra. We find that both quoted and effective spreads are lower in Xetra. When decomposing the spread we find no systematic differences in the adverse selection component. Realized spreads, on the other hand, are significantly higher in Euronext. Neither differences in the number of liquidity provision agreements nor differences in the minimum tick size or in the degree of domestic competition for order flow explain the different spread levels. We thus conclude that Xetra is the more efficient trading system. JEL Classification: G10, G15
The European Central Bank has assigned a special role to money in its two pillar strategy and has received much criticism for this decision. The case against including money in the central bank’s interest rate rule is based on a standard model of the monetary transmission process that underlies many contributions to research on monetary policy in the last two decades. In this paper, we develop a justification for including money in the interest rate rule by allowing for imperfect knowledge regarding unobservables such as potential output and equilibrium interest rates. We formulate a novel characterization of ECB-style monetary cross-checking and show that it can generate substantial stabilization benefits in the event of persistent policy misperceptions regarding potential output. JEL Classification: E32, E41, E43, E52, E58
The European Central Bank has assigned a special role to money in its two pillar strategy and has received much criticism for this decision. In this paper, we explore possible justifications. The case against including money in the central bank’s interest rate rule is based on a standard model of the monetary transmission process that underlies many contributions to research on monetary policy in the last two decades. Of course, if one allows for a direct effect of money on output or inflation as in the empirical “two-pillar” Phillips curves estimated in some recent contributions, it would be optimal to include a measure of (long-run) money growth in the rule. In this paper, we develop a justification for including money in the interest rate rule by allowing for imperfect knowledge regarding unobservables such as potential output and equilibrium interest rates. We formulate a novel characterization of ECB-style monetary cross-checking and show that it can generate substantial stabilization benefits in the event of persistent policy misperceptions regarding potential output. Such misperceptions cause a bias in policy setting. We find that cross-checking and changing interest rates in response to sustained deviations of long-run money growth helps the central bank to overcome this bias. Our argument in favor of ECB-style cross-checking does not require direct effects of money on output or inflation. JEL Classification: E32, E41, E43, E52, E58
This paper will sketch out some of the developments in European company law as seen from the current moment, which might be referred to as post- 2003 Action Plan, and from my purely personal viewpoint. I will thus restrict myself to presenting the current and expected legislative projects of the EU, with particular focus on the plans and activities of the Commission, and for the moment bracket out both a number of important and interesting decisions of the European Court of Justice and the debates among European legal scholars.
Die vorliegende Arbeit behandelt die Entwicklung und Überprüfung von Modellen zur Berechnung von Schwingungspektren von Peptiden und Proteinen. Solche Modelle verbinden die Konformationsstruktur eines Moleküls mit seinen Schwingungseigenschaften und sind demzufolge wichtig für die Interpretation der Schwingungspektren. Die im Rahmen dieser Arbeit durchgeführte theoretische Erforschung dieses Gebietes beschränkt sich auf die Betrachtung der Amide-I-Moden, welche aufgrund ihrer physikalischen Eigenschaften sich zur Untersuchung der Peptidkonformationen eignen. Die Arbeit kann prinzipiell in zwei Teile separiert werden. In dem ersten Teil werden Fragen betrachtet, die mit der Entwicklung des Schwingungshamiltonian verbunden sind. Im zweiten Teil wurden die erhaltenen Hamiltonian für die Berechnung der Schwingungspektren verwendet. Bei der Berechnung der Schwingungspektren wurden verschiedene spektroskopische Näherungen verwendet und erforscht. Die Entwicklung des Schwingungshamiltonian beinhaltet zwei Aufgaben. Die ab initio Parametrisierung des Schwingungshamiltonian von Dipeptiden, sowie die Analyse der Entwicklungsmethoden für Schwingungshamiltonian von Polypeptiden. Die Entwicklungsmethoden stützen sich auf ab initio berecheten Schwingungseigenschaften von Dipeptiden und/oder elektrostatische Modelle. Die ab initio Parametrisierung basiert auf einer Geometrieoptimierung und anschließender Berechnung von Normalmoden. Hierbei wurde die Abhängigkeit der Ergebnisse vom theoretischen Niveau und dem verwendeten Basissatz untersucht. Die Transformation der errechneten Normalmoden lieferte die Schwingungseigenschaften der lokale Amide-I-Mode. Die Lokalisierung der Normalmode folgt diversen Kriterien. Sie ist von der Wahl der Lokalmoden und somit implizit auch von der Art der Geometrieoptimierung abhängig. Mit dieser Arbeit konnte die Abhängigkeit der Ergebnisse von der Parameterwahl weitgehend aufgeklärt und eine für das Amide-I-System geeignet Parametrisierung gefunden werden. Im nächsten Arbeitsschritt wurde die Abhängigkeit der Amide-I-Schwingungseigenschaften von den Peptidseitenketten und terminalen Gruppen untersucht. Desweiteren wurden Methoden zur Formulierung der Hamiltonian für Polypeptide konzeptionell entwickelt. Diese Untersuchung ist außerordentlich wichtig, da direkte quantenmechanische Berechnungen von Polypeptiden zu zeitaufwendig sind. Solche Methoden beruhen auf dem sogenannten “Building-Block”-Ansatz und verschiedenen elektrostatischen Modellen. In dieser Arbeit wurden sowohl die einzelnen Methoden als auch ihre Kombination für die Entwicklung des Hamiltonians verwendet. Zur Abschätzung der Genauigkeit der verwendeten Methoden wurden Vergleichsrechnungen durchgeführt. Im zweiten Teil dieser Arbeit wurden die erhaltenen Schwingungshamiltonian zur Berechnung von Schwingungsspektren diverser gelöster Peptide angewandt. In diesem Zusammenhang konnte die Genauigkeit unterschiedlicher spektroskopischer Approximationen überprüft werden. Auf Grundlage der erhaltenen Ergebnisse können wir sagen, dass eine angemessene Beschreibung der konformationellen Verteilung und eine korrekte Berechnung des dynamischen Absorptionsspektrum gewährleistet ist. Was noch fehlt, ist ein hinreichend genaues quantenchemisches Modell für die Schwingungsfrequenzen eines gelösten Peptids. Diese Aufgabe stellt zur Zeit ein aktives Forschungsgebiet dar. Zuletzt wurde das Schwingungsspektrum eines sogenanten “Photoschaltbaren”-Peptids simuliert. Mit Hilfe des dafür aufgestellten Hamiltonians ist man in der Lage spektroskopische Beobachtungen auf Konformationsänderungen direkt zu übertragen.
The development of novel drugs targeting GPCRs is of particular interest since modulation of subfamilies of this receptor class highly influences neurotransmission in the central nervous system. This study has focused on the development of ligands for the dopamine D3 receptor. The receptor belongs to the dopamine D2-like family among the biogenic amine binding GPCRs. The dopamine D3 receptor is involved in neurological and neuropsychiatric disorders such as Parkinson’s disease, schizophrenia and drug addiction. Due to its close structural similarity to the dopamine D2 receptor subtype, it is still a challenge to identify and further optimize new leads. Therefore an in vitro screening assay, which also allows elucidating comprehensive structure-affinity relationships, is required. In this investigation the implementation and evaluation of radioligand binding assays for human dopamine D2S and dopamine D3 receptors and for the related aminergic human histamine H1 receptor stably expressed in Chinese hamster ovary (CHO) cells has been performed. Saturation binding experiments with [³H]spiperone at dopamine D2S and D3 receptors and with [³H]mepyramine at histamine H1 receptors were carried out. The determined equilibrium dissociation constant of radioligands (Kd) and the total number of specific binding sites (Bmax) of the receptor membrane preparations were in good agreement with reference data. Inhibition constants (Ki) of reference ligands obtained in radioligand competition binding experiments at dopamine hD2S, hD3 and histamine H1 receptors validated the reliability and reproducibility of the assay. In order to discriminate agonists from antagonists, a GTP shift assay has been investigated for dopamine D2S and D3 receptors. In competition binding studies at dopamine D2S receptors the high- and low affinity state in the absence of the GTP analogue Gpp(NH)p has been recognized for the agonists pramipexole and the seleno analogue 54. In the presence of Gpp(NH)p a decrease in affinity, referred to as “GTP shift”, has been revealed for agonists at dopamine D2S and D3 receptors. An effect of Gpp(NH)p on dopamine D2S receptor binding has not been observed for the antagonists ST 198 and BP 897, while a reverse “GTP shift” has been noticed at the dopamine D3 receptor. For the development of novel ligands with high affinity and selectivity for dopamine D3 receptors, investigation in refined structure-affinity relationships (SAR) of analogues of the lead BP 897 has been performed. Replacement of the naphthalen-2-carboxamide of BP 897 by aryl amide residues (1 - 4) had a clear influence on affinity binding and selectivity for dopamine D3 receptors. Introduction of the benzo[b]thiophen-2-carboxamide (1) has markedly improved binding with subnanomolar affinity and enhanced selectivity for dopamine D3 receptors. Exchanging the aryl substituted basic alkanamine residue of 1 by a 1,2,3,4-tetrahydroisoquinoline moiety (6) emphasized the benefit of the 4-(2-methoxyphenyl) piperazine residue of BP 897 regarding dopamine D2 and D3 receptor affinities. The change of particular elements of BP 897 and the rearrangement of the amide functionality resulted in inverse amide compounds with new chemical properties. Moderate affinity binding data, as obtained for the isoindol-1-carbonyl compound 11, suggest that inverse amides provide a worthwhile new lead structure with a novel structural scaffold. A hybrid approach combining privileged scaffolds of histamine H1 receptor antagonists and fragments of dopamine D3 receptor-preferring ligands, related to BP 897and analogues has been investigated. Various benzhydrylpiperazine derivatives and related structures have shown moderate to high affinities for dopamine D3 receptors with the impressive enhancement of the cinnamide substituted bamipine-related hybrid 39, exhibiting the highest affinity and selectivity for dopamine D3 receptors. Improved affinity profiles of structural modified histamine H1 receptor antagonists for dopamine D2 and D3 receptors and a refined SAR has been achieved. A SAR of derivatives of the dopamine agonist pramipexole and the related etrabamine has been studied. The propargyl substituted etrabamine derivative 61 demonstrated highest affinity and selectivity. The ligand attracts attention since neuroprotective properties have been reported for the propargyl functionality. Further development resulted in the most promising compound 64, a cinnamide derivative with 4-fluoro substitution on the phenyl ring. Subnanomolar affinity and remarkable selectivity for dopamine D3 receptors has aroused particular interest in this ligand due to its development potential as a radioligand for PET studies. Radioligand binding studies in combination with virtual screening and different classification techniques of chemoinformatic methods resulted in further elucidation of SAR. New leads with novel chemical scaffolds have been found in the bicycle[2.2.1]heptane derivative 95 and the benzhydrylidene substituted pyrrolidindione 112 and can be further optimized by chemical modifications. The outcome of the studies provides the development of various novel high affine and dopamine D3 receptor selective ligands. Modifications of lead structures or application of chemoinformatic tools in combination with radioligand competition binding assays have resulted in new leads with different chemical scaffolds. Furthermore, a comprehensive insight into structure-affinity relationships of ligands at dopamine D3 receptors has been revealed. This refined SAR is valuable to develop more affine and selective drug candidates with a designed pharmacological receptor profile.
We propose a new approach to measuring the effect of unobservable private information or beliefs on volatility. Using high-frequency intraday data, we estimate the volatility effect of a well identified shock on the volatility of the stock returns of large European banks as a function of the quality of available public information about the banks. We hypothesise that, as the publicly available information becomes stale, volatility effects and its persistence should increase, as the private information (beliefs) of investors becomes more important. We find strong support for this idea in the data. We argue that the results have implications for debate surrounding the opacity of banks and the transparency requirements that may be imposed on banks under Pillar III of the New Basel Accord.
This paper traces the location of foreign banks in Germany from 1949 to 2006. As suggested by new economic geography models we find a ‘u’-shaped concentration of foreign banks in Germany. Only after a competition between several cities, Frankfurt has emerged as the pre-eminent financial centre, triggered by the ‘historical event’ of setting up the German central bank in Frankfurt. After a strong increase, Frankfurt’s share in the location of foreign banks in Germany decreases slowly but significantly since the mid 1980’s. We conclude that there will be a lesser role in Europe for secondtier financial centres in the future.
Many tax-codes around the world allow for special taxable treatment of savings in retirement accounts. In particular, profits in retirement accounts are usually tax exempt which allow investors to increase an asset’s return by holding it in such a retirement account. While the existing literature on asset location shows that risk-free bonds are usually the preferred asset to hold in a retirement account, we explain how the tax exemption of profits in retirement accounts affects private investors’ asset allocation. We show that total final wealth can be decomposed into what the investor would have earned in a taxable account and what is due to the tax exemption of profits in the retirement account. The tax exemption of profits can thus be considered a tax-gift which is similar to an implicit bond holding. As this tax-gift’s impact on total final wealth decreases over time, so does the investor’s equity exposure.
This paper analyses cross-border contagion in a sample of European banks from January 1994 to January 2003. We use a multinomial logit model to estimate the number of banks in a given country that experience a large shock on the same day (“coexceedances”) as a function of variables measuring common shocks and coexceedances in other countries. Large shocks are measured by the bottom 95th percentile of the distribution of the first difference in the daily distance to default of the bank. We find evidence in favour of significant cross-border contagion. We also find some evidence that since the introduction of the euro cross-border contagion may have increased. The results seem to be very robust to changes in the specification.
We compute the optimal dynamic asset allocation policy for a retiree with Epstein-Zin utility. The retiree can decide how much he consumes and how much he invests in stocks, bonds, and annuities. Pricing the annuities we account for asymmetric mortality beliefs and administration expenses. We show that the retiree does not purchase annuities only once but rather several times during retirement (gradual annuitization). We analyze the case in which the retiree is restricted to buy annuities only once and has to perform a (complete or partial) switching strategy. This restriction reduces both the utility and the demand for annuities.
Compared to all other organisms with 1 to 3 heat stress transcription factors (Hsfs) or Hsf-related factors, plants have extraordinarily large Hsf families with more than 20 Hsfs. Plant Hsfs are classified into three classes according to their oligomerization domains which is built of hydrophobic heptad repeats (HR) in two parts, HR-A and HR-B. Both parts may be immediately adjacent (class B), or they are separated by insertion of 21 (class A) and 7 amino acid residues (class C). In plant Hsf family, detailed investigations are so far limited to Hsfs A1a, A2, A3, A4d, A9, and B1. They strongly indicate functional diversification to be the main reason for the coexistence of multiple Hsfs. As an example the functional triad of HsfA1a, HsfA2, and HsfB1 is essential for all three phases of the hs response, (i) the triggering of the response by HsfA1a as master regulator, (ii) the maintenance and high efficiency of hs gene transcription by cooperation of HsfA1a with Hsfs A2 and B1, and finally, (iii) the restoration of house-keeping gene transcription during the recovery phase mediated by HsfB1 in cooperation with house-keeping transcription factors. The results presented in this thesis for Hsfs A4 and A5 open completely different aspects of functional diversification and cooperation of Hsfs. HsfA4 and HsfA5 homooligomerize and bind to corresponding HSE motifs. But in contrast to the highly active HsfA4, HsfA5 is completely inactive as transcriptional activator. Yeast two hybrid and GST pull-down techniques showed that both Hsfs have strong tendency for heterooligomerization. Using fluorescence microscopy the HsfA4/A5 heterooligomers were found to localize in the nucleus. These complexes are transcriptionally inactive due to the impairment of DNA binding. The repressor function of HsfA5 requires only its OD and no additional factors, e.g. a putative co-repressor recruited by the C-terminal domain, are involved. Evidently, the repressor effect mainly results from the interference with the oligomeric state of HsfA4b, which is essential for efficient DNA binding and activator functions. EST database search revealed that plants have a single HsfA5 and usually two A4-type Hsfs. Using bioinformatics tools, Hsfs A4 and A5 were found to be phylogenetically closely related and clearly distinct from the other members of the Hsf family. On the basis of RT-PCR and Microarray data the representatives of the A4/A5 group are well expressed in different plant tissues albeit at very different levels which change with the developmental stages and stress conditions In rice and Arabidopsis, HsfA4 functions as an anti-apoptotic factor for stress induced oxidative damages. Based on my results, I hypothesize that HsfA5 functions as a novel type of selective repressor, regulating the function of A4-type Hsfs in plants. Considering the high sequence conservation with in plant Hsf family, it is tempting to speculate that this role of Hsf4/A5 pair is a fundamental feature of the Hsf system in plants.
Aims: To analyze the relationship between exposure to chlorinated and aromatic organic solvents and malignant lymphoma in a multi-centre, population-based case-control study.
Methods: Male and female patients with malignant lymphoma (n=710) between 18 and 80 years of age were prospectively recruited in six study regions in Germany (Ludwigshafen /Upper Palatinate, Heidelberg/ Rhine-Neckar-County, Wurzburg/ Lower Frankonia, Hamburg, Bielefeld/ Gutersloh, and Munich). For each newly recruited lymphoma case, a gender, region and age-matched (+/- 1 year of birth) population control was drawn from the population registers. In a structured personal interview, we elicited a complete occupational history, including every occupational period that lasted at least one year. On the basis of job task-specific supplementary questionnaires, a trained occupational physician assessed the exposure to chlorinated hydrocarbons (trichloroethylene, tetrachloroethylene, dichloromethane, carbon tetrachloride) and aromatic hydrocarbons (benzene, toluene, xylene, styrene). Odds ratios (OR) and 95% confidence intervals (CI) were calculated using conditional logistic regression analysis, adjusted for smoking (in pack years) and alcohol consumption. To increase the statistical power, patients with specific lymphoma subentities were additionally compared with the entire control group using unconditional logistic regression analysis.
Results: We observed a statistically significant association between high exposure to chlorinated hydrocarbons and malignant lymphoma (Odds ratio = 2.1; 95% confidence interval 1.1-4.3). In the analysis of lymphoma subentities, a pronounced risk elevation was found for follicular lymphoma and marginal zone lymphoma. When specific substances were considered, the association between trichloroethylene and malignant lymphoma was of borderline statistical significance. Aromatic hydrocarbons were not significantly associated with the lymphoma diagnosis.
Conclusions: In accordance with the literature, this data point to a potential etiologic role of chlorinated hydrocarbons (particularly trichloroethylene) and malignant lymphoma. Chlorinated hydrocarbons might affect specific lymphoma subentities differentially. Our study does not support a strong association between aromatic hydrocarbons (benzene, toluene, xylene, or styrene) and the diagnosis of a malignant lymphoma.
Poster presentation: Light is the main phase-adjusting stimulus of the circadian clock located in the suprachiasmatic nucleus (SCN). A candidate pathway transmitting photic information at the postsynaptic site in the SCN is the extracellular signal-regulated kinase (ERK 1/2) which has been previously shown to be an essential element in the photoentrainment of the circadian rhythm. An upstream activator of the ERK signalling route is the small intracellular GTPase Ras. Here we observed that endogenous Ras activity in the SCN was subjected to rhythmic changes, reaching maximum levels at the late subjective day and minimum levels at the late subjective night (CT22). In order to investigate if Ras would modulate the circadian cycle, we used transgenic mice expressing constitutively activated Val-12 Ha-Ras selectively in neurons (synRas mice). In these mice Ras activity was also cycling during the circadian rhythm yet, Ras activities were up-regulated at each time point measured. We investigated if this change in Ras activity translates into a behavioral phenotype by monitoring free-running activity rhythms under conditions of constant darkness. SynRas mice exhibited circadian rhythms in locomotor activities similar to WT mice. However, when challenged by applying a 15 minutes light pulse at CT22 to promote phase advance shifts, synRas mice were completely non-responsive. As a first step towards the possible intracellular mechanism of this behavioral change we analyzed ERK1/2 activities in more details: We found a 1,7-fold increase of circadian peak levels of ERK 1/2 activities at CT10 and CT14 in synRas mice, while at minimum levels (CT18, CT22) no differences were found between ERK1/2 activities of WT and synRas mice. In WT animals the 15 minutes light pulse at CT22 resulted in rapid up regulations of Ras, ERK1/2 and CREB activities as described previously by others. However, in correlation with the lack of a behavioral response, ERK1/2 but not Ras and CREB activities remained unchanged in synRas mice, suggesting that Ras-dependent and Ras-independent pathways may co-exist to regulate ERK1/2 and behavioral phase shifts in response to the acute light treatment. Next we investigated the length "tau" of the locomotor activity rhythm during constant darkness and found a slight shortening by about 10 minutes in synRas mice as compared to the WT littermates. Recently, "tau" has been discussed to be modulated by the interaction between glycogen synthase 3beta (GSK3beta) and a clock gene product (Per 2) that is involved in the determination of circadian phase durations. We describe here a down-regulation of GSK3beta phosphorylation in synRas mice as a possible mechanism of "tau" shortening. Taken together, cycling of Ras activity at elevated levels in the SCN during the circadian rhythm results in a distinct pattern of behavioral phenotype changes correlating with de-regulated ERK1/2 or GSK3beta activities.
Poster presentation: Hyperphosphorylation of tau is a characteristic of Alzheimer's disease (AD). Our group has established a model for tau hyperphosphorylation by mutating 10 residues from Ser/Thr to Glu to simulate the negative charge of phosphorylated residues ("pseudohyperphosphorylated (PHP)-tau"). In order to analyze temporal and spatial effects of hyperphosphorylation of tau in a systemic context, we have established transgenic mouse lines that express human wild-type (wt)- or PHP-tau under the control of the CamKIIalpha-promoter that leads to a forebrain specific moderate expression in neurons, i.e. the region where also tau-pathology in AD is abundant. For the evaluation of tau-induced changes in the transgenic mice, we quantified spine densities in the neocortex and hippocampus of transgenic mice. The spine densitiy was significantly increased in PHP-tau compared to wt-tau expressing mice. It is known that AD is associated with aberrant pre- and postsynaptic sprouting. Axonal sprouting is also observed in transgenic mice expressing mutated amyloid precursor protein (APP), which suggests that Abeta plays a significant role in this process. We deduce from our results, that (pseudo)-hyperphosphorylation of tau is sufficient to induce aberrant sprouting in the absence of Abeta. Analyses whether this sprouting is induced by pre- or postsynaptic changes and if functionally active synapses are formed are in progress. It will be interesting to determine if stabilization of these newly formed synapses slows or – in contrary – accelerates the progression of the disease. Sprouting as observed in our PHP-tau expressing mice is part of neuronal differentiation. One family of enzymes that is involved in cell differentiation are mitogen-acitvated protein kinases (MAPK). Western blot analysis was performed with brain lysates from transgenic mice to check whether PHP-tau induced sprouting is associated with MAPK activation. In fact, we also observed an increased activation of the MAPK ERK1/2 evident by phosphorylation of the residues Thr202 and Tyr204. ERK1/2 is also known to phosphorylate tau at sites characteristic for AD. Our results suggest the presence of a vicious circle by which (pseudo)-hyperphosphorylated tau activates ERK1/2 which in turn phosphorylates tau.
Poster presentation: Here we investigated the role of the amyloid precursor protein (APP) in regulation of Ca2+ store depletion-induced neural cell death. Ca2+ store depletion from the endoplasmic reticulum (ER) was induced by the SERCA (Sarco/Endoplasmic Reticulum Calcium ATPase) inhibitor thapsigargin which led to a rapid induction of the unfolded protein response (UPR) and a delayed activation of executioner caspases in the cultures. Overexpression of APP potently enhanced cytosolic Ca2+ levels and cell death after ER Ca2+ store depletion in comparison to vector-transfected controls. GeneChipR and RT-PCR analysis revealed that the expression of classical UPR chaperone genes was not altered by overexpression of APP.Interestingly, the induction of the ER stress-responsive pro-apoptotic transcription factor CHOP was significantly upregulated in APP-overexpressing cells in comparison to vectortransfected controls. Chelation of intracellular Ca2+ with BAPTA-AM revealed that enhanced CHOP expression after store depletion occured in a Ca2+-dependent manner in APPoverexpressing cells. Prevention of CHOP induction by BAPTA-AM and by RNA interference was also able to abrogate the potentiating effect of APP on thapsigargin-induced apoptosis. Application of the store-operated channel (SOC)-inhibitors SK F96365 and 2-APB downmodulated APP-triggered potentiation of cytosolic Ca2+ levels and apoptosis after treatment with thapsigargin. Our data demonstrate that APP-mediated regulation of ER Ca2+ homeostasis significantly modulates Ca2+ store depletion-induced cell death in a SOC- and CHOP-dependent manner, but independent of the UPR.
Poster presentation: The transcription factor NF-kappaB plays a pivotal role in the development and maintenance of the central nervous system and its constitutive activation in neurons has been previously reported. NF-kappaB is post-translationally activated upon phosphorylation of the IkappaBalpha inhibitory protein by the activated IkappaB kinase (IKKalpha/beta) and the subsequent degradation of IkappaBalpha by the proteasome. Recently, we had demonstrated an unexpected accumulation of three components of the NF-kappaB cascade in the axon initial segment (AIS): Activated IKK, phosphorylated IkappaBalpha and phosphorylated-p65(Ser536). These are all associated with detergent-insoluble cytoskeletal components of the AIS. We observed further compartimentalization as pIKKalpha/beta primarily associated with the membrane cytoskeleton, whereas pIkappaBalpha was sequestered to fasciculated microtubules. Colchicine-induced depolymerization of microtubules was associated with reduced sequestration of pIkappaBalpha in the AIS, which could be blocked by use of proteasome inhibitors like Mg-132 or Lactacystin. Concurrently, enhanced nuclear immunoreactivity for the NF-kappaB subunit p65 was noted. Using NF-kappaB-dependent reporter gene assays, a significant increase in NF-kappaB activity was observed after depolymerization of microtubules and this was inhibited by the microtubule-stabilizing drug paclitaxel. The use of transiently transfected, photoactivatable-GFP p65 fusion proteins will allow us to specifically analyse the compartimentalized signal transduction pathways in unique spatial and temporal resolution. Taken together, these observations provide strong evidence for compartmentalized activation of NF-kappaB in the AIS and modulation of neuronal NF-kappaB activity by microtubule dynamics.
Poster presentation: The mammalian pineal organ is a peripheral oscillator, depending on afferent information from the so-called master clock in the suprachiasmatic nuclei of the hypothalamus. One of the best studied outputs of the pineal gland is the small and hydrophobic molecule melatonin. In all vertebrates, melatonin is synthesized rhythmically with high levels at night, signalling the body the duration of the dark period. Changes or disruptions of melatonin rhythms in humans are related to a number of pathophysiological disorders, like Alzheimer's disease, seasonal affective disorder or the Smith-Magenis-Syndrome. To use melatonin in preventive or curative interferences with the human circadian system, a complete understanding of the generation of the rhythmic melatonin signal in the human pineal gland is essential. Melatonin biosynthesis is best studied in the rodent pineal gland, where the activity of the penultimate and rate-limiting enzyme, the arylalkylamine N-acetyltransferase (AA-NAT), is regulated on the transcriptional level, whereas the regulatory role of the ultimate enzymatic step, achieved by the hydroxyindole O-methyltransferase (HIOMT), is still under debate. In rodents, Aa-nat mRNA is about 100-fold elevated during the night in response to adrenergic stimulation of the cAMP-signalling pathway, with AA-NAT protein levels closely following this dynamics. In contrast, in all ungulates studied so far (cow, sheep), a post-transcriptional regulation of the AA-NAT is central to determine rhythmic melatonin synthesis. AA-NAT mRNA levels are constantly elevated, and lead to a constitutive up-regulation of AA-NAT protein, which is, however, rapidly degraded via proteasomal proteolysis during the day. AA-NAT proteolysis is only terminated upon the nocturnal increase in cAMP levels. Similar to ungulates, a post-transcriptional control of this enzyme seems evident in the pineal gland of the primate Macaca mulatta. Studies on the molecular basis of melatonin synthesis in the human being are sparse and almost exclusively based on phenomenological data, derived from non-invasive investigations. Yet the molecular mechanisms underlying the generation of the hormonal message of darkness can currently only be deciphered using autoptic material. We therefore analyzed in human post-mortem pineal tissue Aa-nat and Hiomt mRNA levels, AA-NAT and HIOMT enzyme activity, and melatonin levels for the first time simultaneously within tissue samples of the same specimen. Here presented data show the feasibility of this approach. Our results depict a clear diurnal rhythm in AA-NAT activity and melatonin content, despite constant values for Aa-nat and Hiomt mRNA, and for HIOMT activity. Notably, the here elevated AA-NAT activity during the dusk period does not correspond to a simultaneous elevation in melatonin content. It is currently unclear whether this finding may suggest a more important role of the ultimate enzyme in melatonin synthesis, the HIOMT, for rate-limiting the melatonin rhythm, as reported recently for the rodent pineal gland. Thus, our data support for the first time experimentally that post-transcriptional mechanisms are responsible for the generation of rhythmic melatonin synthesis in the human pineal gland.
Poster presentation: The transcription factor NF-kappaB plays a central role in the development and maintenance of the central nervous system and its constitutive activation in neurons has been repeatedly reported. Previous work from our laboratories (poster presentation: Compartimentalized NF-kappaB activity in the axon initial segment) had revealed an intriguing clustering of activated IKKalpha/beta and other downstream elements of an activated NF-kappaB cascade (phospho-IkappaBalpha, phospho-p65(Ser536)) in the axon initial segment (AIS). Accumulation of certain voltage-gated sodium channels (Na(v)1.2), M-type potassium channels (KCNQ2) as well as cytoskeletal anchoring proteins (AnkyrinG) characterise the AIS. However, it is not yet clear how AIS-localized IKK gets activated and whether this can be connected to the constitutive activation of NF-kappaB. Long-term blockade of sodium channels with tetrodotoxin, potassium-channels with linopirdine or NMDA-receptors with MK-801 did not elicit any change upon the constitutive activation of the pathway. Strikingly, the occurrence of phosphorylated IkappaBalpha was even unaltered by 24 h of incubation with protein synthesis inhibitors. Others have reported that impairment of NF-kappaB inhibits neuritogenesis. In this line we observed that the early initiation of IkappaBalpha phosphorylation was susceptible to inhibition of IKK in DIV1–2 neurons. We therefore aim to identify the interaction partners of the activated IKK complex in the AIS. Proteomic methods such as co-immunoprecipitation analyses and mass-spectrometry will help us to identify the key players in the initiation of constitutive IKK phosphorylation and activation in neurons.
Background Identification and evaluation of surface binding-pockets and occluded cavities are initial steps in protein structure-based drug design. Characterizing the active site's shape as well as the distribution of surrounding residues plays an important role for a variety of applications such as automated ligand docking or in situ modeling. Comparing the shape similarity of binding site geometries of related proteins provides further insights into the mechanisms of ligand binding. Results We present PocketPicker, an automated grid-based technique for the prediction of protein binding pockets that specifies the shape of a potential binding-site with regard to its buriedness. The method was applied to a representative set of protein-ligand complexes and their corresponding apo-protein structures to evaluate the quality of binding-site predictions. The performance of the pocket detection routine was compared to results achieved with the existing methods CAST, LIGSITE, LIGSITEcs, PASS and SURFNET. Success rates PocketPicker were comparable to those of LIGSITEcs and outperformed the other tools. We introduce a descriptor that translates the arrangement of grid points delineating a detected binding-site into a correlation vector. We show that this shape descriptor is suited for comparative analyses of similar binding-site geometry by examining induced-fit phenomena in aldose reductase. This new method uses information derived from calculations of the buriedness of potential binding-sites. Conclusions The pocket prediction routine of PocketPicker is a useful tool for identification of potential protein binding-pockets. It produces a convenient representation of binding-site shapes including an intuitive description of their accessibility. The shape-descriptor for automated classification of binding-site geometries can be used as an additional tool complementing elaborate manual inspections.
We consider the theory of high temperature superconductivity from the viewpoint of a strongly correlated electron system. In particular, we discuss Gutzwiller projected wave functions, which incorporate strong correlations by prohibiting double occupancy in orbitals with strong on-site repulsion. After a general overview on high temperature superconductivity, we discuss Anderson’s resonating valence bond (RVB) picture and its implementation by renormalized mean field theory (RMFT) and variational Monte Carlo (VMC) techniques. In the following, we present a detailed review on RMFT and VMC results with emphasis on our recent contributions. Especially, we are interested in spectral features of Gutzwiller-Bogoliubov quasiparticles obtained by extending VMC and RMFT techniques to excited states. We explicitly illustrate this method to determine the quasiparticle weight and provide a comparison with angle resolved photoemission spectroscopy (ARPES) and scanning tunneling microscopy (STM). We conclude by summarizing recent successes and by discussing open questions, which must be solved for a thorough understanding of high temperature superconductivity by Gutzwiller projected wave functions.
Background The connection of the variable part of the heavy chain (VH) and and the variable part of the light chain (VL) by a peptide linker to form a consecutive polypeptide chain (single chain antibody, scFv) was a breakthrough for the functional production of antibody fragments in Escherichia coli. Being double the size of fragment variable (Fv) fragments and requiring assembly of two independent polypeptide chains, functional Fab fragments are usually produced with significantly lower yields in E. coli. An antibody design combining stability and assay compatibility of the fragment antigen binding (Fab) with high level bacterial expression of single chain Fv fragments would be desirable. The desired antibody fragment should be both suitable for expression as soluble antibody in E. coli and antibody phage display. Results Here, we demonstrate that the introduction of a polypeptide linker between the fragment difficult (Fd) and the light chain (LC), resulting in the formation of a single chain Fab fragment (scFab), can lead to improved production of functional molecules. We tested the impact of various linker designs and modifications of the constant regions on both phage display efficiency and the yield of soluble antibody fragments. A scFab variant without cysteins (scFabdeltaC) connecting the constant part 1 of the heavy chain (CH1) and the constant part of the light chain (CL) were best suited for phage display and production of soluble antibody fragments. Beside the expression system E.coli, the new antibody format was also expressed in Pichia pastoris. Monovalent and divalent fragments (DiFabodies) as well as multimers were characterised. Conclusion A new antibody design offers the generation of bivalent Fab derivates for antibody phage display and production of soluble antibody fragments. This antibody format is of particular value for high throughput proteome binder generation projects, due to the avidity effect and the possible use of common standard sera for detection.
This paper proposes a possible way of assessing the effect of interest rate dynamics on changes in the decision-making approach, communication strategy and operational framework of a Central bank. Through a GARCH specification we show that the USA and Euro area displayed a limited but significant spillover of volatility from money market to longer-term rates. We then checked the stability of this phenomenon in the most recent period of improved policymaking and found empirical evidence that the transmission of overnight volatility along the yield curve vanished soon after specific policy changes of the FED and ECB.
Background The Radical Pair model proposes that magnetoreception is a light-dependent process. Under low monochromatic light from the short-wavelength part of the visual spectrum, migratory birds show orientation in their migratory direction. Under monochromatic light of higher intensity, however, they showed unusual preferences in other directions or axial preferences. To determine whether or not these responses are still controlled by the respective light regimes, European robins, Erithacus rubecula, were tested under UV, Blue, Turquoise and Green light at increasing intensities, with orientation in migratory direction serving as a criterion whether or not magnetoreception works in the normal way. Results Under low light with a quantal flux of 8 times 10 to 15 power quanta s-1 m-2, the birds were well oriented in their seasonally appropriate migratory direction under 424 nm Blue, 502 nm Turquoise and 565 nm Green light, indicating unimpaired magnetoreception. Under 373 nm UV of the same quantal flux, they were not oriented in migratory direction, showing a preference of the east-west axis instead, but they showed excellent orientation in migratory direction under UV of lower intensity. Intensities of above 36 times 10 to 15 power quanta s-1 m-2 of Blue, Turquoise and Green light elicited a variety of responses: disorientation, headings along the east-west axis, headings along the north-south axis or 'fixed' direction tendencies. These responses changed as the intensity was increased from 36 times 10 to the 15 power quanta s-1 m-2 to 54 and 72 times 10 to 15 power quanta s-1 m-2. Conclusion The specific manifestation of responses in directions other than migratory direction clearly depends on the ambient light regime. This implies that although mechanisms normally providing magnetic compass information seem disrupted, processes that are activated by light still control the behavior. It suggests complex interactions between different types of receptors, magnetic and visual. The nature of the receptors involved and details of their connections are not yet known; however, a role of the color cones in the processes mediating magnetic input is suggested.
We model sequential synchronous circuits on the logical level by signal-processing programs in an extended lambda calculus Lpor with letrec, constructors, case and parallel or (por) employing contextual equivalence. The model describes gates as (parallel) boolean operators, memory using a delay, which in turn is modeled as a shift of the list of signals, and permits also constructive cycles due to the parallel or. It opens the possibility of a large set of program transformations that correctly transform the expressions and thus the represented circuits and provides basic tools for equivalence testing and optimizing circuits. A further application is the correct manipulation by transformations of software components combined with circuits. The main part of our work are proof methods for correct transformations of expressions in the lambda calculus Lpor, and to propose the appropriate program transformations.
This paper extends the internal frank report 28 as follows: It is shown that for a call-by-need lambda calculus LRCCP-Lambda extending the calculus LRCC-Lambda by por, i.e in a lambda-calculus with letrec, case, constructors, seq and por, copying can be done without restrictions, and also that call-by-need and call-by-name strategies are equivalent w.r.t. contextual equivalence.
Call-by-need lambda calculi with letrec provide a rewritingbased operational semantics for (lazy) call-by-name functional languages. These calculi model the sharing behavior during evaluation more closely than let-based calculi that use a fixpoint combinator. In a previous paper we showed that the copy-transformation is correct for the small calculus LR-Lambda. In this paper we demonstrate that the proof method based on a calculus on infinite trees for showing correctness of instantiation operations can be extended to the calculus LRCC-Lambda with case and constructors, and show that copying at compile-time can be done without restrictions. We also show that the call-by-need and call-by-name strategies are equivalent w.r.t. contextual equivalence. A consequence is correctness of all the transformations like instantiation, inlining, specialization and common subexpression elimination in LRCC-Lambda. We are confident that the method scales up for proving correctness of copy-related transformations in non-deterministic lambda calculi if restricted to "deterministic" subterms.
This paper proves several generic variants of context lemmas and thus contributes to improving the tools to develop observational semantics that is based on a reduction semantics for a language. The context lemmas are provided for may- as well as two variants of mustconvergence and a wide class of extended lambda calculi, which satisfy certain abstract conditions. The calculi must have a form of node sharing, e.g. plain beta reduction is not permitted. There are two variants, weakly sharing calculi, where the beta-reduction is only permitted for arguments that are variables, and strongly sharing calculi, which roughly correspond to call-by-need calculi, where beta-reduction is completely replaced by a sharing variant. The calculi must obey three abstract assumptions, which are in general easily recognizable given the syntax and the reduction rules. The generic context lemmas have as instances several context lemmas already proved in the literature for specific lambda calculi with sharing. The scope of the generic context lemmas comprises not only call-by-need calculi, but also call-by-value calculi with a form of built-in sharing. Investigations in other, new variants of extended lambda-calculi with sharing, where the language or the reduction rules and/or strategy varies, will be simplified by our result, since specific context lemmas are immediately derivable from the generic context lemma, provided our abstract conditions are met.
Background The Deltaretrovirus genus comprises viruses that infect humans (HTLV), various simian species (STLV) and cattle (BLV). HTLV-I is the main causative agent in adult T-cell leukemia in endemic areas and some of the simian T-cell lymphotropic viruses have been implicated in the induction of malignant lymphomas in their hosts. BLV causes enzootic bovine leukosis in infected cattle or sheep. During the past few years several new Deltaretrovirus isolates have been described in various primate species. Two new HTLV-like viruses in humans have recently been identified and provisionally termed HTLV-III and HTLV-IV. In order to identify a broad spectrum of Deltaretroviruses by a single PCR approach we have established a novel consensus PCR based on nucleotide sequence data obtained from 42 complete virus isolates (HTLV-I/-II, STLV-I/-II/-III, BLV). The primer sequences were based on highly interspecies-conserved virus genome regions. We used this PCR to detect Deltaretroviruses in samples from adult patients with a variety of rare T-cell neoplasms in Germany. Results: The sensitivity of the consensus PCR was at least between 10-2 and 10-3 with 100% specificity as demonstrated by serial dilutions of cell lines infected with either HTLV-I, HTLV-II or BLV. Fifty acute T-cell lymphoblastic leukemia (T-ALL) samples and 33 samples from patients with various rare mature T-cell neoplasms (T-PLL, Sezary syndrome and other T-NHL) were subsequently investigated. There were no cases with HTLV-I, HTLV-II or any other Deltaretroviruses. Conclusions: The results rule out a significant involvement of HTLV-I or HTLV-II in these disease entities and show that other related Deltaretroviruses are not likely to be involved. The newly established Deltaretrovirus PCR may be a useful tool for identifying new Deltaretroviruses.
Background A procedure for including activity against enveloped viruses in the post-contamination treatment of hands has been recommended, but so far no European standard is available to implement it. In 2004, the German Robert Koch-Institute (RKI) and the German Association for the Control of Virus Disease (DVV) suggested that vaccinia virus and bovine viral diarrhea virus (BVDV) should be used as test viruses in a quantitative suspension test to determine the activity of a disinfectant against all enveloped viruses. Methods We have studied the activities of three commonly-used alcohol-based hand rubs (hand rub A, based on 45% propan-2-ol, 30% propan-1-ol and 0.2% mecetronium etilsulfate; hand rub B, based on 80% ethanol; hand rub C, based on 95% ethanol) against vaccinia virus and BVDV, and in addition against four other clinically relevant enveloped viruses: herpes simplex virus (HSV) types 1 and 2, and human and avian influenza A virus. The hand rubs were challenged with different organic loads at exposure time of 15, 30 and 60 s. According to the guidelines of both BGA/RKI and DVV, and EN 14476:2005, the reduction of infectivity of each test virus was measured on appropriate cell lines using a quantitative suspension test. Results All three alcohol-based hand rubs reduced the infectivity of vaccinia virus and BVDV by >= 4 log10-steps within 15 s, irrespective of the type of organic load. Similar reductions of infectivity were seen against the other four enveloped viruses within 15 s in the presence of different types of organic load. Conclusions Commonly used alcohol-based hand rubs with a total alcohol concentration >= 75% can be assumed to be active against clinically relevant enveloped viruses if they effectively reduce the infectivities of vaccinia virus and BVDV in a quantitative suspension test.
We develop a utility based model of fluctuations, with nominal rigidities, and unemployment. In doing so, we combine two strands of research: the New Keynesian model with its focus on nominal rigidities, and the Diamond-Mortensen-Pissarides model, with its focus on labor market frictions and unemployment. In developing this model, we proceed in two steps. We first leave nominal rigidities aside. We show that, under a standard utility specification, productivity shocks have no effect on unemployment in the constrained efficient allocation. We then focus on the implications of alternative real wage setting mechanisms for fluctuations in unemployment. We then introduce nominal rigidities in the form of staggered price setting by firms. We derive the relation between inflation and unemployment and discuss how it is influenced by the presence of real wage rigidities. We show the nature of the tradeoff between inflation and unemployment stabilization, and we draw the implications for optimal monetary policy. JEL Classification: E32, E50
We focus on a quantitative assessment of rigid labor markets in an environment of stable monetary policy. We ask how wages and labor market shocks feed into the inflation process and derive monetary policy implications. Towards that aim, we structurally model matching frictions and rigid wages in line with an optimizing rationale in a New Keynesian closed economy DSGE model. We estimate the model using Bayesian techniques for German data from the late 1970s to present. Given the pre-euro heterogeneity in wage bargaining we take this as the first-best approximation at hand for modelling monetary policy in the presence of labor market frictions in the current European regime. In our framework, we find that labor market structure is of prime importance for the evolution of the business cycle, and for monetary policy in particular. Yet shocks originating in the labor market itself may contain only limited information for the conduct of stabilization policy. JEL Classification: E32, E52, J64, C11
I employ a large set of scanner price data collected in retail stores to document that (i) although the average magnitude of price changes is large, a substantial number of price changes are small in absolute value; (ii) the distribution of non-zero price changes has fat tails; and (iii) stores tend to adjust prices of goods in narrow product categories simultaneously. I extend the standard menu costs model to a multi-product setting in which firms face economies of scale in the technology of adjusting prices. The model, because of its ability to replicate this additional set of micro-economic facts, can generate aggregate fluctuations much larger than those in standard menu costs economies. JEL Classification: E31, E32
This paper uses factor-augmented vector autoregressions (FAVAR) estimated using a large data set to disentangle fluctuations in disaggregated consumer and producer prices which are due to macroeconomic factors from those due to sectorial conditions. This allows us to provide consistent estimates of the effects of US monetary policy on disaggregated prices. While sectorial prices respond quickly to sector-specific shocks, we find that for a large number of price series, there is a significant delay in the response of prices to monetary policy shocks. In addition, price responses display little evidence of a “price puzzle,” contrary to existing studies based on traditional VARs. The observed dispersion in the reaction of producer prices is relatively well explained by the degree of market power, as predicted by models with monopolistic competition. JEL Classification: E32, E52
Economists are beginning to investigate the causes and consequences of financial illiteracy to better understand why retirement planning is lacking and why so many households arrive close to retirement with little or no wealth. Our review reveals that many households are unfamiliar with even the most basic economic concepts needed to make saving and investment decisions. Such financial illiteracy is widespread: the young and older people in the United States and other countries appear woefully under-informed about basic financial concepts, with serious implications for saving, retirement planning, mortgages, and other decisions. In response, governments and several nonprofit organizations have undertaken initiatives to enhance financial literacy. The experience of other countries, including a saving campaign in Japan as well as the Swedish pension privatization program, offers insights into possible roles for financial literacy and saving programs. JEL Classification: D80, D91, G11
This paper studies a dynamic general equilibrium model with sticky prices and rational expectations in an environment of low interest rates and deflationary pressures. We show that small changes in the public’s beliefs about the future inflation target of the government can lead to large swings in both inflation and output. This effect is much larger at low interest rates than under regular circumstances. This highlights the importance of effective communication policy at zero interest rates. We argue that confusing communications by the US Federal Reserve, the President of the United States, and key administration officials about future price objectives were responsible for the sharp recession in the US in 1937-38, one of the sharpest recessions in US economic history. Poor communication policy is the mistake of 1937. Before committing the mistake of 1937 the US policy makers faced economic conditions that are similar in some respect to those confronted by Japanese policy makers in the first half of 2006. JEL Classification: E32, E52, E61
In this paper, we examine three famous episodes of deliberate deflation (or disinflation) in U.S. history, including episodes following the Civil War, World War I, and the Volcker disinflation of the early 1980s. These episodes were associated with widely divergent effects on the real economy, which we attribute both to differences in the policy actions undertaken, and to the transparency and credibility of the monetary authorities. We attempt to account for the salient features of each episode within the context of a stylized DSGE model. Our model simulations indicate how a more predictable policy of gradual deflation could have helped avoid the sharp post-WWI depression. But our analysis also suggests that the strong argument for gradualism under a transparent monetary regime becomes less persuasive if the monetary authority lacks credibility; in this case, an aggressive policy stance (as under Volcker) can play a useful signalling role by making a policy shift more apparent to private agents. JEL Classification: E31, E32, E52
The European Central Bank
(2007)
The establishment of the ECB and with it the launch of the euro has arguably been a unique endeavor in economic history, representing an important experiment in central banking. This note aims to summarize some of the main lessons learned from this experiment and sketch some of the prospects for the ECB. It is written for "The New Palgrave Dictionary of Economics", 2nd edition. JEL Classification: E52, E58
We provide a simple and intuitive measure of interdependence of asset returns and/or volatilities. In particular, we formulate and examine precise and separate measures of return spillovers and volatility spillovers. Our framework facilitates study of both non-crisis and crisis episodes, including trends and bursts in spillovers, and both turn out to be empirically important. In particular, in an analysis of sixteen global equity markets from the early 1990s to the present, we find striking evidence of divergent behavior in the dynamics of return spillovers vs. volatility spillovers: Return spillovers display a gently increasing trend but no bursts, whereas volatility spillovers display no trend but clear bursts. JEL Classification: F30, G15, F36