@article{Linsenmair1991, author = {Linsenmair, Karl Eduard}, title = {Allokation elterlicher Investition beim Bienenwolf Philantus triangulum (Hymenoptera: Sphecidae)}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-78191}, year = {1991}, abstract = {No abstract available}, subject = {Zoologie}, language = {de} } @phdthesis{Purea2008, author = {Purea, Edmund Armin}, title = {New Methods and Applications in Nuclear Magnetic Resonance Microscopy using small RF Coils}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-31066}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2008}, abstract = {Nuclear magnetic resonance (NMR) imaging is a well-established imaging technique. If the achieved spatial resolution is below 100 um, it is usually denoted as magnetic resonance microscopy (MRM). The spatial resolution limit is on the order of a few um. As a downside, high resolution imaging is usually time-consuming and technological requirements are very sumptuous. Furthermore, miniaturization of the radiofrequency (RF) coil leading to a so-called microcoil is necessary; it also brings along detrimental effects. Therefore, there is a high potential for optimizing present MRM methods. Hence it is the aim of this work to improve and further develop present methods in MRM with focus on the RF coil and to apply those methods on new biological applications. All experiments were conducted on a Bruker 17.6 T system with a maximum gradient strength of 1 T/m and four RF receiver channels. Minimizing the RF coil dimensions, leads to increased artefacts due to differences in magnetic susceptibility of the coil wire and surrounding air. Susceptibility matching by immersing the coil in FC-43 is the most common approach that fulfills the requirements of most applications. However, hardly any alternatives are known for cases where usage of FC-43 is not feasible due to its specific disadvantages. Two alternative substances (bromotricholoromethane and Fomblin Y25) were presented and their usability was checked by susceptibility determination and demonstration experiments after shimming under practical conditions. In a typical MRM microcoil experiment, the sample volume is significantly smaller than the maximum volume usable for imaging. This mismatch has been optimized in order to increase the experiment efficiency by increasing the number of probe coils and samples used. A four-channel probehead consisting of four individual solenoid coils suited for cellular imaging of Xenopus laevis oocytes was designed, allowing simultaneous acquisition from four samples. All coils were well isolated and allowed quantitative image acquisition with the same spatial resolution as in single coil operation. This method has also been applied in other studies for increased efficiency: using X. laevis oocytes as a single cell model, the effect of chemical fixation on intracellular NMR relaxation times T1 and T2 and on diffusion was studied for the first time. Significant reduction of relaxation times was found in all cell compartments; after reimmersion in buffer, values return close to the initial values, but there were small but statistically significant differences due to residual formaldehyde. Embryos of the same species have been studied morphologically in different developmental stages. Wild type embryos were compared to embryos that had experienced variations in protein levels of chromosomal proteins HMGN and H1A. Significant differences were found between wild type and HMGN-modified embryos, while no difference was observed between wild type and H1-modified embryos. These results were concordant with results obtained from light microscopy and histology. The technique of molecular imaging was also performed on X. laevis embryos. Commercially available antibodies coupled to ultrasmall superparamagnetic iron oxide (USPIO) dextrane coated particles (MACS) served as a specific probe detectable by MRM, the aim being the detection of tissue specific contrast variations. Initially, the relaxivity of MACS was studied and compared to Resovist and VSOP particles. The iron concentration was determined quantitatively by using a general theoretical approach and results were compared to values obtained from mass spectroscopy. After incubation with MACS antibodies, intraembryonal relaxation times were determined in different regions of the embryo. These values allowed determination of local iron oxide particle concentrations, and specific binding could be distinguished from unspecific binding. Although applications in this work were focused on X. laevis oocytes and embryos, 3D-imaging on a beewolf head was also carried out in order to visualize the postpharyngeal gland. Additionally, an isolated beewolf antenna was imaged with a spatial resolution of (8 um)^3 for depiction of the antennal glands by using a microcoil that was specially designed for this sample. The experiments carried out in this work show that commercially available MRM systems can be significantly optimized by using small sample-adapted RF coils and by parallel operation of multiple coils, by which the sample throughput and thus time-efficiency is increased. With this optimized setup, practical use was demonstrated in a number of new biological applications.}, subject = {Magnetische Resonanz}, language = {en} } @phdthesis{Kaltenpoth2006, author = {Kaltenpoth, Martin}, title = {Protective bacteria and attractive pheromones - symbiosis and chemical communication in beewolves (Philanthus spp., Hymenoptera, Crabronidae)}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-20867}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2006}, abstract = {BACTERIAL ENDOSYMBIONTS OF BEEWOLVES Symbiotic interactions between different species are ubiquitous and essential components of the natural world and have probably affected the evolution of every living organism. Insects are the most diverse metazoan class on earth, and they benefit from the extensive metabolic potential of microorganisms in a wide variety of symbiotic associations. The vast majority of well-studied insect-microbe symbioses to date are nutritional interactions in which the symbionts provide their hosts with essential nutrients. Some cases, however, have been described in which symbiotic bacteria play an important role in intraspecific olfactory communication or serve as a defense against pathogens or parasitoids. This thesis reports on a unique and highly specialized association between a digger wasp, the European beewolf (Philanthus triangulum, Hymenoptera, Crabronidae), and actinomycete bacteria. In contrast to all other known symbioses, the beewolf bacteria are cultivated in the reservoirs of unique antennal glands in female beewolves. The female secretes the bacteria into its subterranean brood cells prior to oviposition. Several days later, when the beewolf larva has finished feeding on the paralyzed honeybees that had been provisioned by the mother, it takes up the bacteria and applies them to the cocoon silk during the spinning process. On the cocoon, the symbionts play an important role in reducing the incidence of fungal infestation and thereby significantly enhance the survival probability of the larva in the cocoon during the long and potentially very dangerous inactive phase of hibernation in the underground brood cell. Observations of beewolf larvae as well as experiments in which female beewolf larvae were reared in the absence of the bacteria suggest that the symbionts are transmitted vertically from mothers to daughters. Presumably, the bacteria are taken up from the cocoon during eclosion and incorporated into the antennal gland reservoirs. Phylogenetic analyses of hosts and symbionts as well as artificial transfer experiments are necessary to investigate whether horizontal transmission of bacteria between beewolf species may occasionally occur. Genetic analyses revealed that the symbionts constitute an undescribed species of the genus Streptomyces within the eubacterial family Actinomycetaceae. 16S rDNA primers and an oligonucletide probe were designed for the specific detection of the Philanthus endosymbionts by PCR and fluorescence in-situ hybridization (FISH). By PCR-based screening, closely related endosymbionts were found in 28 Philanthus species and subspecies. By contrast, no symbionts could be detected in closely related genera of the subfamily Philanthinae (Aphilanthops, Clypeadon, Cerceris), indicating that the symbiosis might be restricted to the genus Philanthus. Based on almost complete 16S rRNA gene sequence data, the symbionts of all analyzed Philanthus species formed a monophyletic clade within the genus Streptomyces, indicating that the symbiosis is highly specific and most likely the product of a long history of coevolution and cospeciation. Sequence divergences among symbionts suggest an origin of the Philanthus- Streptomyces association about 26-67 million years ago, which may have coincided with the origin of the genus Philanthus. On the basis of 16S rDNA sequences and ultrastructural data, the new taxon 'Candidatus Streptomyces philanthi' is proposed for the antennal symbionts of Philanthus species, with symbionts from different host species being treated as ecotypes and named according to their hosts (e.g. 'Candidatus Streptomyces philanthi triangulum'). It is not yet clear how the bacteria benefit from the association with Philanthus species. Certainly, they obtain an unoccupied and presumably competition-free niche in the beewolf antennae and a reliable transmission route to the next generation. Additionally, several pieces of evidence suggest that they may also receive nutrients from their host: (1) Females secrete massive amounts of bacteria into each brood cell and sometimes construct several brood cells per day; thus, the bacteria have to grow quickly inside the antennal gland reservoirs to replenish the stock for further brood cells. (2) The reservoirs are surrounded by class 3 gland cells that may supply the bacteria with nutrients (e.g. amino acids). (3) One of the walls bordering the antennal gland is of a net-like structure, thus, possibly allowing hemolymph to enter the reservoir lumen and provide nutrients to the symbionts. This possibility is further substantiated by chemical analyses of the hydrocarbon profile of the antennal gland secretion and female hemolymph, which revealed very similar compositions. The beewolf-Streptomyces symbiosis constitutes the first known case of bacteria being cultivated in insect antennae and one of the few examples involving the pharmaceutically important group of actinomycete bacteria as insect endosymbionts. Further studies on ecological and evolutionary aspects of the symbiosis will provide valuable insights into the importance of actinomycete bacteria for pathogen defense in insects and may also identify novel secondary metabolites with antibiotic properties that might prove useful for human medicine. CHEMICAL COMMUNICATION AND MATE CHOICE IN THE EUROPEAN BEEWOLF Chemical signals constitute both the most ancient and the most common form of communication among organisms. In insects, pheromones play an essential role in mediating intraspecific communication. Many recent studies have investigated the importance of insect olfactory signals in the context of courtship and mating. However, since most of these studies have focused on female pheromones, male sex pheromones have as yet received little attention despite their potential ecological as well as evolutionary importance for mate attraction and mate choice. Male European beewolves establish and defend small territories that they mark with a secretion from cephalic glands. Presumably, the secretion acts as a sex pheromone and attracts receptive females to the territory. Since male territories are clumped around female nesting sites, females have the opportunity to choose among potential mates. The marking pheromone of male beewolves varies with kinship, and it is demonstrated here that geographic origin, age and size also affect the amount and/or composition of the pheromone. Thus, the marking secretion contains information on a variety of male characters that may be important in the context of female choice. Both genetic distance ("optimal outbreeding") and overall genetic quality ("good genes") of a male might influence female mating decisions in the European beewolf. Polymorphic microsatellite markers are presented for the European beewolf that facilitate female choice experiments by genetic paternity analysis.}, subject = {Philanthus}, language = {en} }