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Barbiturates inhibit binding of radioligands to A 1(Ri) adenosine receptors of rat brain membranes. This inhibition is dose-dependent and stereospecific and occurs in the range of pharmacologically active concentrations. The displacement of radiolabelled A1antagonists by barbiturates is not modified by GTP, indicating that barbiturates might act as antagonists at this receptor. This action of barbiturates does not seem to be related to the binding of barbiturates to plasma membranes, as the latter process has different characteristics. Barbiturates also inhibit the binding of radioligands to solubilized A1receptors, and saturation and kinetic experiments suggest that this is due to a competitive antagonism. These results indicate that barbiturates interact with the recognition site of the A1adenosine receptor.
Legionella pneumophila, the causative agent of Legionnaires' disease is a facultative intracellular bacterium, which in the course of human infection multiplies in lung macrophages predominantly manifesting as pneumonia. The natural habitat of Legionella is found in sweet water reservoirs and man-made water systems. Virulent L. pneumophila spontaneously convert to an avirulent status at a high frequency. Genetic approaches have led to the identification of various L. pneumophila genes. The mip (macrophage infectivity potentiator) determinant remains at present the sole established virulence factor. The Mip protein exhibits activity of a peptidyl prolyl cis trans isomerase (PPiase), an enzyme which is able to bind the immunosuppressant FK506 and is involved in protein folding. The recently cloned major outer membrane protein (MOMP) could play a role in the uptake of legionellae by macrophages. Cellular models are useful in studying the intracellular replication of legionellae in eukaryotic cells. Human celllines and protozoan models are appropriate for this purpose. By using U 937 macrophage-like cells and Acanthamoeba castellanii as hosts, we could discriminate virulent and avirulent L. pneumophila variants since only the virulent strain was capable of intracellular growth at 37 oc. By using these systems we further demonstrated that a hemolytic factor cloned and characterized in our laboratory, legiolysin (lly), had no influence on the intracellular growth of L. pneumophila.
E. coli strain 536 (06: K15: H31) isolated from a case of acute pyelonephritis, expresses S-fimbrial adhesins, P-related fimbriae, common type I fimbriae, and hemolysins. The respective chromosomally encoded determinants were cloned by constructing a genomic library of this strain. Furthermore, the strain produces the iron uptake substance, enterocheline, damages HeLa cells, and behaves in a serum-resistant mode. Genetic analysis of spontaneously arising non-hemolytic variants revealed that some of the virulence genes were physically linked to large unstable DNA regions, termed "pathogenicity islands", which were mapped in the respective positions on the E. coli K-12linkage map. By comparing the wild type strain and mutants in in vitro and in vivo assays, virulence features have been evaluated. In addition, a regulatory cross talk between adhesin determinants was found for the wild-type isolate. This particular mode of virulence regulation is missing in the mutant strain.
The effect of Escherichia coli strains isolated from blood and cerebrospinal fluid of septic infants on plasminogen activation was studied. These strains typically carry a filamentous surface protein, S fimbria, that has formerly been shown to bind to endothelial cells and interact with plasminogen. The bacteria effectively promoted plasminogen activation by tissue plasminogen activator (t-PA) which was inhibited by e-aminocaproic acid. A recombinant strain expressing S fimbriae accelerated t-PAcatalyzed plasminogen activation to a similar extent as did the wild-type strains whereas the nonfimbriate recipient strain had no effect. After incubation with t-PA and plasminogen, the S-fimbriate strain displayed bacterium-bound plasmin activity whereas the nonfimbriate strain did not. Bacterium-associated plasmin generation was also observed with a strain expressing mutagenized S fimbriae that Iack the cell-binding subunit SfaS but not with a strain lacking the major subunit SfaA. Both t-PA and plasminogen bound to purified S fimbriae in a lysine-dependent manner and purified S fimbriae accelerated t-PA-catalyzed plasminogen activation. The results indicate that E. coli S fimbriae form a complex with t-PA and plasminogen which enhances the rate of plasminogen activation and generates bacterium-bound plasmin. This may promote bacterial invasion and persistence in tissues and contribute to the systemic activation of fibrinolysis in septicaemia.
The Riemann zeta-function forms a central object in multiplicative number theory; its value-distribution encodes deep arithmetic properties of the prime numbers. Here, a crucial role is assigned to the analytic behavior of the zeta-function on the so called critical line. In this thesis we study the value-distribution of the Riemann zeta-function near and on the critical line. Amongst others we focus on the following.
PART I: A modified concept of universality, a-points near the critical line and a denseness conjecture attributed to Ramachandra.
The critical line is a natural boundary of the Voronin-type universality property of the Riemann zeta-function. We modify Voronin's concept by adding a scaling factor to the vertical shifts that appear in Voronin's universality theorem and investigate whether this modified concept is appropriate to keep up a certain universality property of the Riemann zeta-function near and on the critical line. It turns out that it is mainly the functional equation of the Riemann zeta-function that restricts the set of functions which can be approximated by this modified concept around the critical line.
Levinson showed that almost all a-points of the Riemann zeta-function lie in a certain funnel-shaped region around the critical line. We complement Levinson's result: Relying on arguments of the theory of normal families and the notion of filling discs, we detect a-points in this region which are very close to the critical line.
According to a folklore conjecture (often attributed to Ramachandra) one expects that the values of the Riemann zeta-function on the critical line lie dense in the complex numbers. We show that there are certain curves which approach the critical line asymptotically and have the property that the values of the zeta-function on these curves are dense in the complex numbers.
Many of our results in part I are independent of the Euler product representation of the Riemann zeta-function and apply for meromorphic functions that satisfy a Riemann-type functional equation in general.
PART II: Discrete and continuous moments.
The Lindelöf hypothesis deals with the growth behavior of the Riemann zeta-function on the critical line. Due to classical works by Hardy and Littlewood, the Lindelöf hypothesis can be reformulated in terms of power moments to the right of the critical line. Tanaka showed recently that the expected asymptotic formulas for these power moments are true in a certain measure-theoretical sense; roughly speaking he omits a set of Banach density zero from the path of integration of these moments. We provide a discrete and integrated version of Tanaka's result and extend it to a large class of Dirichlet series connected to the Riemann zeta-function.
Die geplante Ausrottung der Masern bis 2020 und die damit eventuell einhergehende Beendigung der Masernimpfung könnten die Voraussetzungen dafür schaffen, dass andere Morbilliviren, wie beispielsweise das Hundestaupevirus (CDV), einen Wirtswechsel zum Menschen vollbringen könnten. CDV ist ein hoch ansteckendes Pathogen und besitzt einen weiten Wirtstropismus, der sich aktuell immer weiter ausbreitet. Im Gegensatz dazu kann das Masernvirus (MV) nahezu ausschließlich Menschen und nur sehr bedingt wenige Affenarten infizieren.
In dieser Doktorarbeit konnte gezeigt werden, dass eine Adaptierung des rekombinanten wildtypischen CDV-Stammes CDV-75/17red an den humanen Rezeptor SLAM (signaling lymphocytic activation molecule, CD150) reproduzierbar und innerhalb weniger Passagen erfolgt. Bei der Adaptierung an das humane SLAM ist dabei nur eine Mutation in dem Gen für das virale Hämagglutinin notwendig. Diese Mutation an Position 8697 von A zu G im viralen Genom (Aminosäure D540G im Hämagglutinin) konnte reproduzierbar detektiert werden, obwohl veröffentlicht wurde, dass unterschiedliche Mutationen im Hämagglutinin verschiedener CDV-Stämme eine SLAM-Adaptierung ermöglichen. Die Mutation D540G im Hämagglutinin des humanen SLAM-adaptierten CDV-A75/17red kompensiert eine negative Ladung der Aminosäure 71E, die speziesspezifisch im humanen SLAM vorhanden ist. Durch Wachstumskinetiken konnte belegt werden, dass das an humanes SLAM-adaptierte CDV-A75/17red auch weiterhin das canine SLAM effizient verwendet. Ein weiterer Eintrittsrezeptor, humanes Nectin4, konnte mit demselben CDV-Stamm ohne adaptive Mutation in den viralen Hüllproteingenen benutzt werden.
Wachstumskurven auf verschiedenen humanen B-Lymphozyten Zelllinien zeigen allerdings, dass eine alleinige Adaptierung an die humanen Wirtszellrezeptoren, für eine effiziente Virusreplikation, nicht ausreicht. Damit das CDV die Speziesbarriere durchbrechen kann, muss offenbar ein weiterer Adaptierungsprozess an die humanen Wirtszellen erfolgen, der voraussichtlich mit umfangreicheren Mutationen des viralen Genoms einhergehen würde.
Diese Ergebnisse unterstreichen, dass intrinsische Faktoren und das angeborene Immunsystem eine wichtige Barriere bilden und den Menschen vor einer CDV-Infektion schützen. Allerdings würde eine Fortführung der MV-Impfung auch nach Ausrottung der Masern, aufgrund der Kreuzreaktivität gegen andere Morbilliviren, den Schutz vor einer möglichen Adaptierung eines Morbillivirus, wie CDV, an den Menschen deutlich verstärken.
Häufige Schlafstörungen im Jugendalter umfassen Ein- und Durchschlafprobleme (Insomnie), verstärkte Tagesmüdigkeit oder einen verschobenen Schlaf-Wachrhythmus (zirkadiane Rhythmusstörung). Über unzureichenden Schlaf klagen 40-60% aller Jugendlichen, wobei ca. 10% eine klinisch bedeutsame insomnische Störung aufweisen. In der vorliegenden Arbeit wurde ein altersspezifisches, multimodales Gruppenpsychotherapieprogramm für Jugendliche (11-17 Jahre) mit nicht-organischen Schlafbeschwerden extern evaluiert. Das eingesetzte Training „JuSt“ bestand aus 6 Sitzungen, wobei sich 5 Sitzungen an die Jugendlichen richteten und eine Sitzung als Elternabend stattfand. Zur Überprüfung der Wirksamkeit des JuSt-Programms am Institut für Psychologie der Universität Würzburg wurden schlafbezogene Parameter sowie Maße aus assoziierten Bereichen herangezogen. Zudem wurden Trainingseffekte auf den Schlaf und die psychische Belastung der Eltern untersucht. Die Erfassung dieser Ergebnisgrößen erfolgte sowohl vor und nach der Trainingsteilnahme als auch über einen Katamnesezeitraum von bis zu 12 Monaten. Daneben umfasste das Studiendesign eine Gruppe mit einer Wartephase vor Trainingsbeginn und die Überprüfung möglicher den Trainingserfolg moderierender Faktoren, wie Alter, Geschlecht und Chronotyp, d.h. zirkadiane Präferenz, der Teilnehmer.
Bereits nach dem diagnostischen Erstkontakt zeigte sich eine Abnahme selbstberichteter externalisierender und internalisierender Probleme bei den jugendlichen Teilnehmern in der Gruppe mit Wartephase (n = 9). Alle anderen Parameter blieben dagegen von der Wartezeit unberührt. Unmittelbar nach dem Training zeigten die Schlaftagebücher der Teilnehmer (n = 22) ein verbessertes Durchschlafen und eine erhöhte Schlafeffizienz an. Fragebogendaten belegten zudem weniger selbst- und fremdberichtete Ein- und Durchschlafprobleme, seltenere dysfunktionale schlafbezogene Kognitionen, eine bessere Schlafhygiene und weniger Tagesmüdigkeit in der Wahrnehmung der Eltern. Bis zur 3-Monatskatamnese hatten sich außerdem die Gesamtschlafdauer, die Einschlaflatenz und die selbstberichtete Tagesmüdigkeit positiv verändert. In den assoziierten Maßen zeigte sich ein unmittelbarer Trainingseffekt auf selbst- und fremdberichtete externalisierende Probleme sowie auf das Fremdurteil bezüglich internalisierender Probleme. Im Selbsturteil hatte sich dieses Maß erst zum 3-Monats Follow-Up verbessert. Auf Elternseite verringerten sich während der Trainingsdurchführung die nächtliche Aufwachhäufigkeit der Mütter und die Schwere psychischer und somatischer Symptome beider Elternteile. Auf die Schlafeffizienz, die Dauer nächtlichen Wachseins von Vätern und Müttern sowie auf die nächtliche Aufwachhäufigkeit der Väter hatte das Training eine verzögerte positive Wirkung, da diese Effekte erst zum 3-Monats Follow-Up sichtbar wurden. Im Verlauf der Langzeitkatamnese (3-Monats- bis 1-Jahres Follow-Up, n = 16) blieben alle schlafbezogenen und assoziierten Ergebnisgrößen sowohl auf Kinder- als auch auf Elternseite auf konstantem Niveau. Darüber hinaus wurden explorativ die Merkmale Alter, Geschlecht und Chronotyp der Teilnehmer als mögliche Moderatoren des Trainingserfolgs untersucht. Die Ergebnisse zeigten, dass der Trainingserfolg nicht an ein bestimmtes Geschlecht, ein bestimmtes Alter zwischen 11 und 17 Jahren oder einen bestimmten Chronotyp gebunden war.
Insgesamt kann ein positives Fazit bezüglich der Wirksamkeit des JuSt-Programms zur Behandlung nicht-organischer Insomnien bei Jugendlichen und zur Entlastung ihrer Eltern am Standort Würzburg gezogen werden. Für die klinische Versorgung jugendlicher Insomniker wird angeregt, das JuSt-Training im deutschsprachigen Raum zukünftig verstärkt in der therapeutischen Praxis zu implementieren.
Within this study, the influence of the energetics of the bridge unit on electron transfer (ET) in an electrode-bridge-donor system was investigated in a monolayer environment.
This was realized by specifically designing molecules containing ferrocene carboxylic ester donors and hydroquinone derivatives as bridge units and by using a gold electrode as acceptor. The energetics of the hydroquinone derivatives was adjusted by synthetically varying its substituents with the intention of changing the ET speed and mechanisms. Thereby the choice of the substituents was based on the literature known half-wave potentials of similar solvated hydroquinone derivatives and successively confirming them by conducting cyclic voltammetry on the actual bridge units synthesized. Then, a synthetic pathway, which accommodated the limited stability of the integrated terminal ferrocene carbon acid ester, was developed and successfully employed. This was followed by developing a procedure for preparing very dense and highly ordered monolayers from the target molecules on self-made gold microelectrodes. For the electrochemical investigations, several electrolyte solutions were tested until one, which ensured low susceptibility of the characterization setup towards slight changes of the electrode arrangement and measurement parameters while ensuring sufficient stability of the monolayers, was found. Furthermore, a new, commercially available potentiostat was established for the impedance measurements, which reduced the stress on the monolayers during the electrochemical characterizations in comparison to the equipment used in many former studies. Regarding the determination of the ET rates, the data analysis protocol for the impedance measurements developed by Creager et al. was slightly adapted to allow analysis of the investigated monolayers despite their non-ideal behavior. In addition, the influence of changes to the electrical parameters of the impedance scans was investigated to minimize the error in the acquired data.
The electrochemical analysis of the monolayers by conducting cyclic voltammetry on MA, MB and MC prepared from A, B and C confirmed the accomplishment of near ideal surface coverage and exceptionally high order. The surface coverages of MB and MC were, probably due to the space filled by the substituents on their bridge units, slightly lower than those of MA. Furthermore, the shape of the redox waves of the ferrocene carboxylic acid redox center in the voltammogram of MA showed a broadening and a shift towards higher potentials, which was assigned to electrostatic interference of oxidized terminal redox centers due to the especially dense packing. However, in the voltammogram of MB, no sharp redox waves of the bridge units, as predicted by the analysis of preliminary monolayers of the same type with low surface coverage, were present. This was attributed to the different and varying microenvironment of the bridge units deeply embedded within high-density monolayers. In detail, the different degree of shielding of each individual bridge unit from counter ions and solvent molecules probably resulted in the half wave potential being shifted to varying higher potentials, thus preventing the formation of sharp redox waves. In addition, electrostatic effects of oxidized bridge units could have enhanced this effect. This leads to the conclusion that the half-wave potentials of fully solvated bridge units determined by the cyclic voltammetry are not suited to predict the energetics of the oxidized bridge states embedded within the prepared high density monolayers.
Finally, the monolayers were successfully analyzed by impedance spectroscopy, which showed that the ET rate of MA is slightly higher than that of MB, and both are higher than that of MC. All of the values were, according to literature, in the expected region considering the length and degree of conjugation of the backbone. However, this picture is relativized when considering the targeted energetic alignment of the bridge units. According to the predicted very small energy gap between the oxidized states of the donor and the bridge unit in MB, a domination of the hopping mechanism should have led to a several orders of magnitude higher ET rate than in MA and MC. That this was not the case was attributed to the underestimation of the energy of the oxidized bridge states by utilizing cyclic voltammetry of the fully solvated bridge units (see above). According to the small differences of the ET rates the superexchange process was assumed to be the dominating mechanism not only in MA and MC but also in MB. However, even when shifted, the predicted energetic order of the oxidized bridge states should have led to a moderately decreasing ET rate from MB over MA to MC. The reason for the actual ET rate in MA being slightly higher than in MB might be found in the electrostatic interference of the terminal redox centers in MA (see above).
In conclusion, the targeted model systems were prepared and the ET rates were successfully determined. However, the problems concerning the relative energetic positioning of the involved states within the dense monolayers prevented the specific alteration of the speed and mechanism of the ET. The reason for this can be probably found in the high density and order of the monolayers prepared within this work, which hamper the intrusion of the components of the electrolyte solutions. This various degree of stabilization for the individual bridge units by counter ions and solvent molecules leads to the energy of the oxidized bridge states being splitted and shifted towards higher potentials with respect to fully solvated bridge units. This effect might be further enhanced by electrostatics of neighboring already oxidized bridge states. All this makes the predetermination of the energetics of the embedded bridge units extremely difficult. On one hand, this behavior can be considered an obstacle and could probably be circumvented by designing molecules with bulky anchor groups and rigid molecular backbones, which would ensure perpendicular arrangement to the surface and full exposure of the bridge and terminal redox centers to the solvent molecules and counter ions. On the other hand, monolayers which completely embed integral redox centers might open up the opportunity to study the effects of microenvironments similar to those in solid state materials.
Regarding mixed valence compounds, the present study focuses on bistriarylamine radical cation F∙+, which contains the [3.3]paracyclophane bridge unit. The results were compared to the, except for the bridge units, identical literature known compounds G∙+ and N∙+ with [2.2]paracyclophane and p-xylene bridges respectively. This led to the conclusion that slightly different bridge units can induce substantial changes to the internal reorganization energy. This is especially noteworthy since it is usually believed that structural adaption limited to the redox centers taking part in the charge transfer dominates the internal reorganization energy. Furthermore, the application of the two-state Mulliken-Hush approach shows that compounds F∙+ and G∙+ have near identical couplings and similar thermal barriers. Confirmation of the latter finding as well as near identical thermal electron transfer rates for both compounds were provided via a cooperation project by Grampp et al. in which these values were directly extracted from temperature dependent electron paramagnetic resonance measurements. These results are quite unexpected since the “through-space” distances of the stacked pi-systems in the paracyclophane bridges differ significantly. They are well within the sum of the van der Waals radii in G∙+ and barely within them in compound F∙+. In addition, these findings weaken the common assumption of the ethylene bridges in G∙+ substantially adding to the electronic coupling, since then, in F∙+, due to its propylene linkers, the coupling should be substantially reduced. Finally, relying on the fact that the electronic couplings are only three times higher and the thermal electron transfer rates are only one order of magnitude higher for N∙+ than for compounds F∙+ and G∙+ shows that intermolecular electron transfer in solid state materials can remain efficient, if the interacting pi-systems stay within the sum of van der Waals radii of their carbons.
Concerning the donor-acceptor dyads, the current investigation centers on triarylamine-cyclophane-naphtalene diimide (TAA-CP-NDI) compounds which display almost complete photoinduced charge separation. Furthermore, their singlet charge separated states show lifetimes of hundreds of nanoseconds, which is rarely found in such simple dyads. In the present case they can be attributed to the particular amount of electronic coupling V (on the order of 100 cm^–1), which is brought about by incorporation of the smallest model systems for pi-stacks, the CPs, together with the nodes on the NDI lowest unoccupied molecular orbital, which electronically decouples the central NDI from its nitrogen substituents. In agreement with studies of [2.2]- and [3.3]paracyclophane bridged mixed valence compounds (see above), the cycolphane bridged dyads show very similar electronic coupling when dealing with ground state processes like charge recombination. However, when investigating excited state processes, like charge separation in the TAA-CP-NDI dyads, one has to bear in mind that the CP orbitals are involved in the formation of intermediate states that likely possess charge transfer character. In this case, the [2.2]paracyclophane bridge obviously induces a stronger coupling than the [3.3]paracyclophane. Another interesting property of the dyads studied here is the substantial population of the triplet charge separated (CS) state of ca. one third regarding both CS states, which is brought about by singlet-triplet interconversion from the singlet CS state. Thus, the triplet CS state with a lifetime of several microseconds acts as a kind of buffer for the CS state before recombining to the ground state and, thus, leads to distinctly prolonged overall lifetimes of the charge separated states. Thus it can be concluded that the intersystem crossing and charge recombination (CR) processes of the CS states are governed by a delicate balance of a large electronic coupling V and a large exchange interaction 2J (both with regard to systems containing a through-space pathway). The latter appears to be induced by second order interaction with a local triplet state lying close in energy to the CS state. This balance results in slow CR- and singlet-triplet- interconversion rates, which differ only by one order of magnitude. Compared to the many NDI containing dyads studied so far, these features of the dyads studied here are, to the best of our knowledge, unique. Especially the combination of high quantum yield of charge separation, long lifetimes and high energy of the charge separated state make the investigated systems interesting for practical applications. Furthermore, the presented unraveling of the underlying mechanisms is of substantial value for the future design of dyads for practical applications regarding the implementation and adjustment of these favorable properties.
Super-resolution fluorescence imaging based on inglemolecule localization relies critically on the availability of efficient processing algorithms to distinguish, identify, and localize emissions of single fluorophores. In multiple current applications, such as threedimensional, time-resolved or cluster imaging, high densities of fluorophore emissions are common. Here, we provide an analytic tool to test the performance and quality of localization microscopy algorithms and demonstrate that common algorithms encounter difficulties for samples with high fluorophore density. We demonstrate that, for typical single-molecule localization microscopy methods such as dSTORM and the commonly used rapidSTORM scheme, computational precision limits the acceptable density of concurrently active fluorophores to 0.6 per square micrometer and that the number of successfully localized fluorophores per frame is limited to 0.2 per square micrometer.
Plasmonic modes supported by noble-metal nanostructures offer strong subwavelength electric-field confinement and promise the realization of nanometer-scale integrated optical circuits with well-defined functionality. In order to measure the spectral and spatial response functions of such plasmonic elements, we combine a confocal microscope setup with spectral interferometry detection. The setup, data acquisition, and data evaluation are discussed in detail by means of exemplary experiments involving propagating plasmons transmitted through silver nanowires. By considering and experimentally calibrating any setup-inherent signal delay with an accuracy of 1 fs, we are able to extract correct timing information of propagating plasmons. The method can be applied, e.g., to determine the dispersion and group velocity of propagating plasmons in nanostructures, and can be extended towards the investigation of nonlinear phenomena.