Refine
Year of publication
- 2013 (504) (remove)
Document Type
- Journal article (383)
- Doctoral Thesis (115)
- Master Thesis (3)
- Preprint (2)
- Conference Proceeding (1)
Language
- English (504) (remove)
Keywords
- gene expression (12)
- expression (11)
- Maus (8)
- inflammation (8)
- Medizin (7)
- apoptosis (7)
- gene (7)
- Organischer Halbleiter (6)
- brain (6)
- cancer (6)
Institute
- Theodor-Boveri-Institut für Biowissenschaften (78)
- Physikalisches Institut (37)
- Graduate School of Life Sciences (33)
- Medizinische Klinik und Poliklinik I (32)
- Institut für Psychologie (29)
- Institut für Molekulare Infektionsbiologie (21)
- Klinik und Poliklinik für Psychiatrie, Psychosomatik und Psychotherapie (21)
- Rudolf-Virchow-Zentrum (21)
- Julius-von-Sachs-Institut für Biowissenschaften (19)
- Pathologisches Institut (17)
Sonstige beteiligte Institutionen
- Center for Interdisciplinary Clinical Research, Würzburg University, Würzburg, Germany (2)
- Bavarian Center for Applied Energy Research (ZAE Bayern), 97074 Würzburg, Germany (1)
- Biomedizinische NMR Forschungs GmbH am Max-Planck-Institut fuer biophysikalische Chemie (1)
- Blindeninstitut, Ohmstr. 7, 97076, Wuerzburg, Germany (1)
- Comprehensive Cancer Center Mainfranken, University Hospital Würzburg, Würzburg, Germany (1)
- DNA Analytics Core Facility, Biocenter, University of Wuerzburg, Wuerzburg, Germany (1)
- Deakin University, Australia (1)
- Department of Pediatrics, Pediatrics I, Innsbruck Medical University, Anichstr. 35, 6020, Innsbruck, Austria (1)
- EMBL, Structural and Computational Biology Unit, Heidelberg, Germany (1)
- Genelux Corporation, San Diego Science Center, 3030 Bunker Hill Street, Suite 310, San Diego, California 92109, USA (1)
ResearcherID
- D-1250-2010 (1)
A search is performed for WH production with a light Higgs boson decaying to hidden-sector particles resulting in clusters of collimated electrons, known as electron-jets. The search is performed with \(2.04 fb^{−1}\) of data collected in 2011 with the ATLAS detector at the Large Hadron Collider in proton–proton collisions at \(\sqrt {s}=7 TeV\) . One event satisfying the signal selection criteria is observed, which is consistent with the expected background rate. Limits on the product of the WH production cross section and the branching ratio of a Higgs boson decaying to prompt electron-jets are calculated as a function of a Higgs boson mass in the range from 100 to 140 GeV.
The seed coat is the barrier controlling exchange of solutes between the plant embryo and its environment. This exchange is of importance for example in the uptake of germination inhibitors or in the uptake of agrochemicals applied as seed treatment. A thorough understanding of the basic mechanisms underlying solute permeation across the seed coat would help to improve the effectiveness of seed treatment formulations. In seed treatment formulations, additives can be used to enhance or decrease mobility or uptake of the active ingredient (AI). In the present study the seed coat barrier properties and the seed coat permeation process was examined with the model species Pisum sativum and with a set of model solutes. The lipophilic fraction of the seed coat was analysed by gas chromatography and mass spectrometry and it was found that the total lipophilic compartment of the seed coat represents 0.61 % of the weight of a swollen seed coat. The seed is covered by a lipophilic cuticle. The seed coat coverage with cuticular waxes is ten to 18-fold lower than wax coverage of pea leaves, though. In order to examine sorption of solutes in the small lipophilic compartment of the seed coat, seed coat/water partition coefficients were determined. These cover a much smaller range than the corresponding n-octanol/water partition coefficients. The lipophilic sorption compartment as calculated from the seed coat/water partition coefficient data is smaller than the analysed total lipophilic compartment of the seed coat since not all of the lipid components can act as sorption compartment. During seed swelling, the pea seed nearly doubles its weight. The uptake of water is driven by the very low water potential of the dry seed and controlled by the seed coat hydraulic conductivity both of which increase during seed swelling. Depending on the available form of water, water uptake can take place by diffusion from air humidity or by mass flow from liquid water. Water uptake by a seed in moist sand takes place by a combination of both uptake mechanisms. The basic transport mechanism underlying solute permeation of seed coats was analysed by steady-state experiments with a newly devised experimental setup. The permeance P for permeation of the set of model compounds across isolated seed coat halves ranged from 3.34 x 10-8 m s-1 for abamectin to 18.9 x 10-8 m s-1 for caffeine. It was found that solute permeation across the seed coat takes aqueous pathways. This was concluded from the facts that molar volume instead of lipophilicity of the solutes determine permeation and that the temperature effect on permeation is very small. This is in contrast to typical leaf and fruit cuticular uptake where lipophilic pathways dominate. Solute uptake across the seed coat can take place by two different mechanisms both of which take aqueous pathways. Uptake can be by diffusion and in the presence of a bulk flow of water driven by a water potential difference also by solvent drag. The presence of the solvent drag uptake mechanism shows that the aqueous pathways form an aqueous continuum across the seed coat. These findings indicate that the seed coat covering cuticle does not form a continuous barrier enclosing the seed. In order to examine solute uptake across the seed coat under conditions close to a situation taking place in the field, the process of uptake of a seed treatment AI in the field was simulated. In the situation of a treated seed in the field, the seed treatment residue dissolves and then the AI can move either into the surrounding soil or across the seed coat into the seed. Uptake across the seed coat can take place either by diffusion or during seed swelling by the solvent drag mechanism. Since the seed treatment residue depletes over time, non-steady-state uptake takes place. To simulate these processes, laboratory scale seed treatment methods were established to produce treated seeds and isolated treated seed coat halves. Experimental setups for non-steady-state uptake experiments were established with whole treated seeds and with isolated treated seed coat halves as simplified screening tool. By modelling of the AI uptake as a first-order process the rate constant k and the final relative uptake amount Mt→∞ M0-1 were obtained. With k and Mt→∞ M0-1 a quantification and comparison of the uptake curves was possible. Both in the experiments with whole treated seeds and with isolated treated seed coats, uptake of metalaxyl-M was much faster than uptake of sedaxane. In the uptake of a seed treatment AI, not only the solute's molar volume but also its water solubility determine uptake. The solute's water solubility is important for dissolution of the AI from the seed treatment residue and thus determines availability of the AI for uptake. Water solubility also controls the possible concentration in solution and thus the driving force for diffusive uptake. Furthermore, the AI amount taken up by solvent drag is determined by concentration in the inflowing water and thus by water solubility. In the experiments with whole treated seeds the additive effects on uptake were smaller than in the experiments with isolated treated seed coats or not significant. Adigor functions as an emulsifier and can lead to a slight increase of AI mobilisation from the seed treatment residue. NeoCryl A-2099 can cause a slowed down release of the AI from the seed treatment residue. The effects of both additives were smaller than the effect caused by different AI physico-chemical properties. Therefore, the most important factor determining uptake of a seed treatment AI are the AI's physico-chemical properties, especially its water solubility.
Motor complications in Parkinson’s disease (PD) result from the short half-life and irregular plasma fluctuations of oral levodopa. When strategies of providing more continuous dopaminergic stimulation by adjusting oral medication fail, patients may be candidates for one of three device-aided therapies: deep brain stimulation (DBS), continuous subcutaneous apomorphine infusion, or continuous duodenal/jejunal levodopa/carbidopa pump infusion (DLI). These therapies differ in their invasiveness, side-effect profile, and the need for nursing care. So far, very few comparative studies have evaluated the efficacy of the three device-aided therapies for specific motor problems in advanced PD. As a result, neurologists currently lack guidance as to which therapy could be most appropriate for a particular PD patient. A group of experts knowledgeable in all three therapies reviewed the currently available literature for each treatment and identified variables of clinical relevance for choosing one of the three options such as type of motor problems, age, and cognitive and psychiatric status. For each scenario, pragmatic and (if available) evidence-based recommendations are provided as to which patients could be candidates for either DBS, DLI, or subcutaneous apomorphine.
Objectives: The effects of hypnosis on physiological (gastrointestinal) functions are incompletely understood, and it is unknown whether they are hypnosis-specific and gut-specific, or simply unspecific effects of relaxation.
Design: Sixty-two healthy female volunteers were randomly assigned to either a single session of hypnotic suggestion of ingesting an appetizing meal and an unappetizing meal, or to relax and concentrate on having an appetizing or unappetizing meal, while the electrogastrogram (EGG) was recorded. At the end of the session, participants drank water until they felt full, in order to detect EGG-signal changes after ingestion of a true gastric load. During both conditions participants reported their subjective well-being, hunger and disgust at several time points.
Results: Imagining eating food induced subjective feelings of hunger and disgust as well as changes in the EGG similar to, but more pronounced than those seen with a real gastric water load during both hypnosis and relaxation conditions. These effects were more pronounced when imagining an appetizing meal than with an unappetizing meal. There was no significant difference between the hypnosis and relaxation conditions.
Conclusion: Imagination with and without hypnosis exhibits similar changes in subjective and objective measures in response to imagining an appetizing and an unappetizing food, indicating high sensitivity but low specificity.
The Chaco leaf-cutting ant Atta vollenweideri (Forel) inhabits large and deep subterranean nests composed of a large number of fungus and refuse chambers. The ants dispose of the excavated soil by forming small pellets that are carried to the surface. For ants in general, the organisation of underground soil transport during nest building remains completely unknown. In the laboratory, we investigated how soil pellets are formed and transported, and whether their occurrence influences the spatial organisation of collective digging. Similar to leaf transport, we discovered size matching between soil pellet mass and carrier mass. Workers observed while digging excavated pellets at a rate of 26 per hour. Each excavator deposited its pellets in an individual cluster, independently of the preferred deposition sites of other excavators. Soil pellets were transported sequentially over 2 m, and the transport involved up to 12 workers belonging to three functionally distinct groups: excavators, several short-distance carriers that dropped the collected pellets after a few centimetres, and long-distance, last carriers that reached the final deposition site. When initiating a new excavation, the proportion of long-distance carriers increased from 18% to 45% within the first five hours, and remained unchanged over more than 20 hours. Accumulated, freshly-excavated pellets significantly influenced the workers' decision where to start digging in a choice experiment. Thus, pellets temporarily accumulated as a result of their sequential transport provide cues that spatially organise collective nest excavation.
Pharmacobehavioral studies in experimental animals, and imaging studies in humans, indicate that serotonergic transmission in the amygdala plays a key role in emotional processing, especially for anxiety-related stimuli. The lateral and basolateral amygdaloid nuclei receive a dense serotonergic innervation in all species studied to date. We investigated interrelations between serotonergic afferents and neuropeptide Y (NPY)-producing neurons, which are a subpopulation of inhibitory interneurons in the rat lateral and basolateral nuclei with particularly strong anxiolytic properties. Dual light microscopic immunolabeling showed numerous appositions of serotonergic afferents on NPY-immunoreactive somata. Using electron microscopy, direct membrane appositions and synaptic contacts between serotonin-containing axon terminals and NPY-immunoreactive cellular profiles were unequivocally established. Double in situ hybridization documented that more than 50 %, and about 30–40 % of NPY mRNA-producing neurons, co-expressed inhibitory 5-HT1A and excitatory 5-HT2C mRNA receptor subtype mRNA, respectively, in both nuclei with no gender differences. Triple in situ hybridization showed that individual NPY mRNA-producing interneurons co-express both 5-HT1A and 5-HT2C mRNAs. Co-expression of NPY and 5-HT3 mRNA was not observed. The results demonstrate that serotonergic afferents provide substantial innervation of NPY-producing neurons in the rat lateral and basolateral amygdaloid nuclei. Studies of serotonin receptor subtype co-expression indicate a differential impact of the serotonergic innervation on this small, but important, population of anxiolytic interneurons, and provide the basis for future studies of the circuitry underlying serotonergic modulation of emotional stimulus processing in the amygdala.
Ranging from dwarfs to giants, the species of honeybees show remarkable differences in body size that have placed evolutionary constrains on the size of sensory organs and the brain. Colonies comprise three adult phenotypes, drones and two female castes, the reproductive queen and sterile workers. The phenotypes differ with respect to tasks and thus selection pressures which additionally constrain the shape of sensory systems. In a first step to explore the variability and interaction between species size-limitations and sex and caste-specific selection pressures in sensory and neural structures in honeybees, we compared eye size, ommatidia number and distribution of facet lens diameters in drones, queens and workers of five species (Apis andreniformis, A. florea, A. dorsata, A. mellifera, A. cerana). In these species, male and female eyes show a consistent sex-specific organization with respect to eye size and regional specialization of facet diameters. Drones possess distinctly enlarged eyes with large dorsal facets. Aside from these general patterns, we found signs of unique adaptations in eyes of A. florea and A. dorsata drones. In both species, drone eyes are disproportionately enlarged. In A. dorsata the increased eye size results from enlarged facets, a likely adaptation to crepuscular mating flights. In contrast, the relative enlargement of A. florea drone eyes results from an increase in ommatidia number, suggesting strong selection for high spatial resolution. Comparison of eye morphology and published mating flight times indicates a correlation between overall light sensitivity and species-specific mating flight times. The correlation suggests an important role of ambient light intensities in the regulation of species-specific mating flight times and the evolution of the visual system. Our study further deepens insights into visual adaptations within the genus Apis and opens up future perspectives for research to better understand the timing mechanisms and sensory physiology of mating related signals.
Bees have had an intimate relationship with humans for millennia, as pollinators of fruit, vegetable and other crops and suppliers of honey, wax and other products. This relationship has led to an extensive understanding of their ecology and behavior. One of the most comprehensively understood species is the Western honeybee, Apis mellifera. Our understanding of sex-specific investment in other bees, however, has remained superficial. Signals and cues employed in bee foraging and mating behavior are reasonably well understood in only a handful of species and functional adaptations are described in some species. I explored the variety of sensory adaptations in three model systems within the bees. Females share a similar ecology and similar functional morphologies are to be expected. Males, engage mainly in mating behavior. A variety of male mating strategies has been described which differ in their spatiotemporal features and in the signals and cues involved, and thus selection pressures. As a consequence, males’ sensory systems are more diverse than those of females. In the first part I studied adaptations of the visual system in honeybees. I compared sex and caste-specific eye morphology among 5 species (Apis andreniformis, A. cerana, A. dorsata, A. florea, A. mellifera). I found a strong correlation between body size and eye size in both female castes. Queens have a relatively reduced visual system which is in line with the reduced role of visual perception in their life history. Workers differed in eye size and functional morphology, which corresponds to known foraging differences among species. In males, the eyes are conspicuously enlarged in all species, but a disproportionate enlargement was found in two species (A. dorsata, A. florea). I further demonstrate a correlation between male visual parameters and mating flight time, and propose that light intensities play an important role in the species-specific timing of mating flights. In the second study I investigated eye morphology differences among two phenotypes of drones in the Western honeybee. Besides normal-sized drones, smaller drones are reared in the colony, and suffer from reduced reproductive success. My results suggest that the smaller phenotype does not differ in spatial resolution of its visual system, but suffers from reduced light and contrast sensitivity which may exacerbate the reduction in reproductive success caused by other factors. In the third study I investigated the morphology of the visual system in bumblebees. I explored the association between male eye size and mating behavior and investigated the diversity of compound eye morphology among workers, queens and males in 11 species. I identified adaptations of workers that correlate with distinct foraging differences among species. Bumblebee queens must, in contrast to honeybees, fulfill similar tasks as workers in the first part of their life, and correspondingly visual parameters are similar among both female castes. Enlarged male eyes are found in several subgenera and have evolved several times independently within the genus, which I demonstrate using phylogenetic informed statistics. Males of these species engage in visually guided mating behavior. I find similarities in the functional eye morphology among large-eyed males in four subgenera, suggesting convergent evolution as adaptation to similar visual tasks. In the remaining species, males do not differ significantly from workers in their eye morphology. In the fourth study I investigated the sexual dimorphism of the visual system in a solitary bee species. Males of Eucera berlandi patrol nesting sites and compete for first access to virgin females. Males have enlarged eyes and better spatial resolution in their frontal eye region. In a behavioral study, I tested the effect of target size and speed on male mate catching success. 3-D reconstructions of the chasing flights revealed that angular target size is an important parameter in male chasing behavior. I discuss similarities to other insects that face similar problems in visual target detection. In the fifth study I examined the olfactory system of E. berlandi. Males have extremely long antennae. To investigate the anatomical grounds of this elongation I studied antennal morphology in detail in the periphery and follow the sexual dimorphism into the brain. Functional adaptations were found in males (e.g. longer antennae, a multiplication of olfactory sensilla and receptor neurons, hypertrophied macroglomeruli, a numerical reduction of glomeruli in males and sexually dimorphic investment in higher order processing regions in the brain), which were similar to those observed in honeybee drones. The similarities and differences are discussed in the context of solitary vs. eusocial lifestyle and the corresponding consequences for selection acting on males.
The present thesis deals with the fabrication, optimization of growth process and characterization of silicon based materials with molecular beam epitaxy. Two material systems are investigated in the course of this work: silicon/silicon suboxide multilayer structures and mono manganese silicide thin films. Mono manganese silicide (MnSi) is grown on Si(111) substrates with an hydrogen passivated surface, that is prepared by wet chemical processes. The growth start is performed by deposition of an amorphous Mn wetting layer that is subsequently annealed to form a MnSi seed layer on which the MnSi molecular beam epitaxy (MBE) is achieved. An amorphous or a crystalline Si cap layer is deposited onto the MnSi film to finalize the growth process and protect the sample from oxidation. With Raman spectroscopy it is shown that the crystalline cap layer is in fact single crystalline silicon. Results of x-ray diffraction and Raman spectroscopy confirm the growth of mono manganese silicide in contrast to other existing manganese silicide phases. In addition, in-plane and out-of-plane residual strain, and twinning of the MnSi thin film is detected with x-ray diffraction of symmetric and asymmetric reflections. Orientation between the Si substrate and the MnSi film is determined with the parallel lattice planes MnSi(210) and Si(511). Transport measurements show a T^2 dependence of the resistivity below 30K and metallic behavior above, a magneto resistance of 0.9% and an unusual memory like effect of the resistance for an in-plane magnetic field sweep measurement. Silicon/Silicon suboxide (SiOx) multilayer structures are grown on Si(100) by interrupting the Si growth and oxidizing the surface with molecular oxygen. During oxidation the RHEED pattern changes from the Si(2x1) reconstruction to an amorphous pattern. When silicon growth is resumed a spotty RHEED pattern emerges, indicating a rough, three dimensional surface. The rough surface can be smoothed out with Si growth at substrate temperatures between 600°C and 700°C. Measurements with transmission electron microscopy show that a silicon suboxide layer of about 1nm embedded in single crystalline silicon is formed with the procedure. Multilayer structures are achieved by repeating the oxidation procedure when the Si spacer layer has a smooth and flat surface. The oxygen content of the suboxide layers can be varied between 7.6% and 26.8%, as determined with secondary ion mass spectrometry and custom-built simulations models for the x-ray diffraction. Structural stability of the multilayer structures is investigated by x-ray diffraction before and after rapid thermal annealing. For temperatures up to 1000°C the multilayer structures show no modification of the SiOx layer in x-ray diffraction.
Silicon carbide light-emitting diode as a prospective room temperature source for single photons
(2013)
Generation of single photons has been demonstrated in several systems. However, none of them satisfies all the conditions, e.g. room temperature functionality, telecom wavelength operation, high efficiency, as required for practical applications. Here, we report the fabrication of light-emitting diodes (LEDs) based on intrinsic defects in silicon carbide (SiC). To fabricate our devices we used a standard semiconductor manufacturing technology in combination with high-energy electron irradiation. The room temperature electroluminescence (EL) of our LEDs reveals two strong emission bands in the visible and near infrared (NIR) spectral ranges, associated with two different intrinsic defects. As these defects can potentially be generated at a low or even single defect level, our approach can be used to realize electrically driven single photon source for quantum telecommunication and information processing.