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The emerging relapsing fever spirochete Borrelia (B.) miyamotoi is transmitted by ixodid ticks and causes the so-called hard tick-borne relapsing fever or B. miyamotoi disease (BMD). More recently, we identified a surface-exposed molecule, CbiA exhibiting complement binding and inhibitory capacity and rendering spirochetes resistant to complement-mediated lysis. To gain deeper insight into the molecular principles of B. miyamotoi-host interaction, we examined CbiA as a plasmin(ogen) receptor that enables B. miyamotoi to interact with the serine protease plasmin(ogen). Recombinant CbiA was able to bind plasminogen in a dose-dependent fashion. Moreover, lysine residues appear to play a crucial role in the protein-protein interaction as binding of plasminogen was inhibited by the lysine analog tranexamic acid as well as increasing ionic strength. Of relevance, plasminogen bound to CbiA can be converted by urokinase-type plasminogen activator (uPa) to active plasmin which cleaved both, the chromogenic substrate S-2251 and its physiologic substrate fibrinogen. Concerning the involvement of specific amino acids in the interaction with plasminogen, lysine residues located at the C-terminus are frequently involved in the binding as reported for various other plasminogen-interacting proteins of Lyme disease spirochetes. Lysine residues located within the C-terminal domain were substituted with alanine to generate single, double, triple, and quadruple point mutants. However, binding of plasminogen to the mutated CbiA proteins was not affected, suggesting that lysine residues distant from the C-terminus might be involved in the interaction.
The quasi-two-dimensional organic charge-transfer salt κ -(BEDT-TTF) 2 Cu 2 (CN) 3 is one of the prime candidates for a quantum spin-liquid due the strong spin frustration of its anisotropic triangular lattice in combination with its proximity to the Mott transition. Despite intensive investigations of the material’s low-temperature properties, several important questions remain to be answered. Particularly puzzling are the 6 K anomaly and the enigmatic effects observed in magnetic fields. Here we report on low-temperature measurements of lattice effects which were shown to be particularly strongly pronounced in this material (R. S. Manna et al., Phys. Rev. Lett. 2010, 104, 016403)). A special focus of our study lies on sample-to-sample variations of these effects and their implications on the interpretation of experimental data. By investigating overall nine single crystals from two different batches, we can state that there are considerable differences in the size of the second-order phase transition anomaly around 6 K, varying within a factor of 3. In addition, we find field-induced anomalies giving rise to pronounced features in the sample length for two out of these nine crystals for temperatures T< 9 K. We tentatively assign the latter effects to B-induced magnetic clusters suspected to nucleate around crystal imperfections. These B-induced effects are absent for the crystals where the 6 K anomaly is most strongly pronounced. The large lattice effects observed at 6 K are consistent with proposed pairing instabilities of fermionic excitations breaking the lattice symmetry. The strong sample-to-sample variation in the size of the phase transition anomaly suggests that the conversion of the fermions to bosons at the instability is only partial and to some extent influenced by not yet identified sample-specific parameters.
Für das bessere Verständnis der Nukleosynthese der schweren Elemente im s-Prozess wurde im Rahmen dieser Arbeit die Messung zur Bestimmung der Neutroneneinfangsreaktion von 83Kr durchgeführt. Als Messinstrument wurde DANCE am LANL verwendet, ein 4pi-Kalorimeter zur Detektion der entstehenden g-Kaskaden bei (n,g)-Reaktionen. Darüber hinaus wurden außerdem noch Proben mit 85Kr und 86Kr vermessen.
Die Herausforderung an diesem Experiment bestand vor allem in der Probenherstellung. Das Edelgas Kr erforderte eine Neukonstruktion der normalerweise bei DANCE verwendeten Probenhalterung. Das Hauptaugenmerk lag auf der Maximierung der Kr-Exposition durch den Neutronenstrahl. Im Gegenzug wurde versucht das umgebende Material nach Möglichkeit keinen Neutronen auszusetzen. Für die Isotope 83,86Kr wurden Hochdruckgaskugeln verwendet, die an der Goethe-Universität Frankfurt gefüllt und in eine der neuen Probenhalterungen eingesetzt wurden. Zur Beachtung des bei der Messung entstehenden Untergrundes wurde eine Messung mit baugleicher Probenhalterung und leerer Gaskugel durchgeführt. Da bereits kleine Mengen 85Kr eine hohe Radioaktivität aufweisen, wurde eine in einen Stahlzylinder eingeschweißte, existierende Quelle verwendet.
Bei der Analyse zu 86Kr wurde schnell eine zu starke Verunreinigung der Kr-Probe mit Xe offensichtlich, einen signifikanten Anteil des Spektrums ausmachte. Aus diesem Grund kam es vor allem zu Problemen den korrekten Untergrund von den 86Kr Messdaten zu subtrahieren. Die weitere Bestimmung inklusive Streukorrekturen, Normierung anhand des Flussmonitors und DICEBOX/GEANT3 Effizienzbestimmung lieferte zwar einen energieabhängigen Wirkungsquerschnitt, dieser zeigte allerdings große Abweichungen von den evaluierten ENDF/B-VII.1 Daten, was besonders ersichtlich in der deutlichsten 86Kr Resonanz bei 5515 eV zu erkennen war. Aus diesem Grund konnte aus den Messdaten kein MACS extrahiert werden.
Bei einer Untersuchung der Aktivität der 85Kr-Probe mit Hilfe der einzelnen BaF2-Detektoren in der DANCE Kugel zeigte sich zunächst eine um fast einen Faktor vier geringere Aktivität als vom Hersteller angegeben. Auch bei der weiteren Analyse traten massive Untergrundprobleme auf. Die Form des Stahlzylinders, in dem das Kr-Gasgemisch eingeschweißt war, konnte aufgrund seiner Form nur schwer im Strahlrohr untergebracht werden. Beim Experiment selbst zeigte sich dann, dass Teile der Halterung vom Neutronenstrahl getroffen wurden, was einen Untergrund mit sehr hohem Q-Wert erzeugte, der nicht durch ein Esum Fenster entfernt werden konnte. Durch eine Beschädigung der Halterung mit der Probe kam es darüber hinaus zu Abweichungen mit der verwendeten Leerhalterung. All das führte trotz einer langen Messzeit von fast 18 d dazu, dass nur ein sehr schwaches Signal von der eigentlichen Kr-Probe zu erkennen war. Es wurde eine mögliche 85Kr Resonanz bei 675 eV gefunden, allerdings ist die endgültige Zuordnung aufgrund der nicht eindeutigen Untergrundsituation äußerst schwierig. Im Vorfeld des Kr-Experimentes wurde eine Messung von RbCl an DANCE durchgeführt, da ursprünglich zu erwarten war, dass bereits ein Teil des 85Kr zu 85Rb zerfallen war. Durch diese Messung sollte dieser Anteil leicht von der späteren Messung zu subtrahieren sein. Allerdings trat ein unerwartetes Problem während der Datenaufnahme auf. Die Verbindung der DAQ Boards wurde getrennt, wodurch ca. 3/4 der Detektoren nicht mehr zeitsynchron liefen. Im Zuge dieser Arbeit wurde eine Rekonstruktion dieser Daten angestrebt. Durch Modifikationen am FARE Code, der zur Auswertung verwendet wurde, konnte Flugzeitspektren für jeden Beschleunigerpuls erzeugt werden. Es zeigte sich zunächst ein offensichtlicher Trend einer Verschiebung der getrennten Boards zu späteren Zeiten. Durch mehrere Fits an die Abweichungsverteilung und anschließende Korrektur konnte zunächst ein Spektrum wiederhergestellt werden, das vergleichbar mit den unbeschädigten Daten war. Bei einer detaillierten Analyse dieser neu gewonnen Daten zeigte sich jedoch eine Nichtlinearität in der Zeitverschiebung. Dies resultierte letztlich in einer Korrektur des Spektrums, allerdings nicht in einem Koinzidenzfenster von 10 ns, das für eine Wirkungsquerschnittsanalyse notwendig ist. Es wurde geschlussfolgert, dass durch die geringe Statistik in den einzelnen Flugzeitspektren solch eine Genauigkeit nicht zu erreichen ist.
Die Messung des Neutroneneinfangsquerschnitts von 83Kr konnte im Zuge dieser Arbeit erfolgreich durchgeführt werden. Es wurden zwei Messungen mit verschiedenen Strömen kombiniert. Eine Messung mit 40 µA wurde durchgeführt, um Pile-Up in der größten Resonanz bei 28 eV zu reduzieren. Die zweite Messung diente dann dem Sammeln von ausreichend Statistik in den nicht resonanten Bereichen. Die eingesetzte Leerkugel erlaubte eine saubere Subtraktion des Untergrundes von Probenhalterung, Gaskugel und Umgebung. Für die Skalierung der Messergebnisse wurde eine weitere Messung mit einer 5000 Å dicken Goldfolie durchgeführt. Zur Bestimmung der Detektoreffizienz konnten zunächst die durch den Neutroneneinfang entstandenen Abregungskaskaden der 84Kr Kerne mit DICEBOX modelliert werden. Diese Kaskaden wurden dann anschließend in GEANT3 Simulationen verwendet, um die Effizienz bestimmen zu können. Mit diesen Methoden erhielt man die Maxwell-gemittelten Wirkungsquerschnitte von kT = 5 keV - 100 keV. Bei der für den s-Prozess wichtigen Temperatur von kT = 30 keV wurde der Querschnitt bestimmt zu: MACS (30 keV) = (256,6 +- 14,2 (stat) +- 18,1(sys)) mb.
Dieser Wert ist in guter Übereinstimmung mit dem in der KADoNIS v0.3 Datenbank angegebenen Wert von MACS;KADoNIS (30 keV) = (243 +- 15) mb. Mit den so gewonnenen Wirkungsquerschnitten wurden außerdem die Reaktionsraten berechnet. Bei den anschließenden Netzwerkrechnungen mit dem Programm NETZ wurden die Auswirkungen der in dieser Arbeit gewonnenen Wirkungsquerschnitte im Vergleich zu den KADoNIS v0.3 Werten betrachtet. Dabei zeigte sich eine leicht erhöhte Produktion der stabilen Isotope 84Kr, 86Kr, 85Rb und 87Rb, sowie eine leichte Unterproduktion der stabilen Isotope 86-88Sr in der Hauptkomponente des s-Prozess. Ein ähnliches Bild zeigte sich in der He-Brennphase der schwachen Komponente. Der in dieser Arbeit gemessene Wirkungsquerschnitt bei hohen Temperaturen ist geringer als der in KADoNIS v0.3 angegebene, weswegen es bei der Simulation mit NETZ zu einer stark erhöhten Produktion von 83Kr in der C-Brennphase kommt.
IFLS-Journal. Nr. 23, 2018
(2018)
GOeTHEO : Ausgabe 18
(2018)
Compact objects - black holes and neutron stars - are fascinating objects, not only for the astrophysicists, but for a wide range of researchers, including astronomers, theoretical physicists, particle and nuclear physicists, condensed matter physicists and arguably for the layman as well.
First theorized in the first part of the twentieth century, for a long time these objects have been considered just exotic ideas or mathematical curiosities. Pulsar were however detected in the late 1960s and readily identified as rotating, radiating neutron stars, while the first candidate black hole, Cygnus X-1, was observed in 1972. Since then the interest in these objects has steadily grown.
The reasons behind this interest are easily understood considering that compact object dwell at the intersection of many different areas of physics, and are ideal laboratories to explore the interplay between these areas.
Black holes, which are purely gravitational objects, are perfectly suited to study the nature of gravity, its manifestations such as gravitational waves, and the differences between various theories of gravity in the regime where they are expected to be most relevant, i.e. the strong field regime. However, just like any massive astrophysical object, black holes are interested by accretion phenomena, which are thought to be the power source of some very bright astrophysical emitters of electromagnetic signals, such as active galactic nuclei or X-ray binaries.
At the same time, black holes exist in a variety of different mass scales, from stellar mass to supermassive black holes billions of times heavier. The latter play a very important and yet not fully understood role in the formation and evolution of galaxies, as well as in shaping the large scale structure of the universe, making them relevant to cosmology as well.
Neutron stars share with black holes the characteristic of being gravitationally dominated systems; but because they are composed of baryon matter, they display a much richer behaviour. It has been realized early on that the matter in neutron star cores reaches extreme densities, exceeding the one in atomic nuclei. This means that neutron stars could provide invaluable information on the behaviour of matter in such extreme conditions (which are impossible to achieve in laboratory experiments), such as details of the nucleonic interaction, the properties of hyperons or of quark-gluon plasmas.
...
Diploid transgenic organisms are either hemi- or homozygous. Genetic assays are, therefore, required to identify the genotype. Our AGameOfClones vector concept uses two clearly distinguishable transformation markers embedded in interweaved, but incompatible Lox site pairs. Cre-mediated recombination leads to hemizygous individuals that carry only one marker. In the following generation, heterozygous descendants are identified by the presence of both markers and produce homozygous progeny that are selected by the lack of one marker. We prove our concept in Tribolium castaneum by systematically creating multiple functional homozygous transgenic lines suitable for long-term fluorescence live imaging. Our approach saves resources and simplifies transgenic organism handling. Since the concept relies on the universal Cre-Lox system, it is expected to work in all diploid model organisms, for example, insects, zebrafish, rodents and plants. With appropriate adaptions, it can be used in knock-out assays to preselect homozygous individuals and thus minimize the number of wasted animals.
The mission of the Compressed Baryonic Matter (CBM) experiment is to investigate the phase diagram of strongly interacting matter in the region of high net-baryon densities and moderate temperatures. According to various transport models, matter densities of more than 5 times saturation density can be reached in collisions between gold nuclei at beam energies between 5 and 11 GeV per nucleon, which will be available at FAIR. The core detector of the CBM experiment is the Silicon Tracking System (STS), which is used to measure the tracks of up to 700 particles per collision with high efficiency (>95%) and good momentum resolution (<1.5%). The technological and experimental challenge is to realize a detector system with very low material budget, in order to reduce multiple scattering of the particles, and a free-streaming data readout chain, in order to achieve reaction rates up to 10 MHz together with an online event reconstruction and selection.
The STS comprises 8 tracking stations positioned between 30 cm and 100 cm downstream the target inside a magnetic field, covering polar emission angles up to 25 degrees. A station consists of vertical structures with increasing number (between 8 and 16, depending on station number), each structure carrying between 2 and 10 double-sided microstrip silicon sensors, which are connected through low-mass microcables to the readout electronics placed at the detector periphery outside the active detector area.
The work presented in this thesis focuses on the detector performance simulation and local hit pattern reconstruction in the STS. For efficient detector design and reconstruction performance, a reliable detector response model is of utmost importance. Within this work, a realistic detector response model was designed and implemented in the CBM software framework. The model includes non-uniform energy loss of an incident particle within a sensor, electric field of a planar p-n junction, Lorentz shift of the charge carriers, their diffusion, and the influence of parasitic capacitances. The developed model has been verified with experimental data from detector tests in a relativistic proton beam. Cluster size distributions at different beam incident angles are sensitive to charge sharing effects and were chosen as an observable for the verification. Taking into account parasitic capacitances further improves the agreement with measured data.
Using the developed detector response model, the cluster position finding algorithm was improved. For two-strip clusters, a new, unbiased algorithm has been developed, which gives smaller residuals than the Centre-Of-Gravity algorithm. For larger clusters, the head-tail algorithm is used as the default one. For an estimate of the track parameters, the Kalman Filter based track fit requires not only hit positions but their uncertainties as an input. A new analytic method to estimate the hit position errors has been designed in this work. It requires as input neither measured spatial resolution nor information about an incident particle track. The method includes all the sources of uncertainties independently, namely: the cluster position finding algorithm itself, the non-uniform energy loss of incident particles, the electronics noise, and the discretisation of charge in the readout chip.
The verification with simulations shows improvements in hit and track pull distributions as well as x²-distributions in comparison to the previous simple approach. The analytic method improves the track parameters reconstruction by 5-10%.
Several STS module prototypes have been tested in a relativistic proton beam. A signal to-noise ratio was obtained at the level of 10-15 for modules made of 30 cm long microcable and of either one or two 6.2 x 6.2 cm² CiS sensors.
First simulations have shown that this signal-to-noise ratio is sufficient to reach the required efficiency and momentum resolution. The high-radiation environment of CBM operation will deteriorate the sensor performance. Radiation hardness of sensors has been studied in the beam with sensors irradiated to 2 x 10[hoch 14] 1MeV [neq/cm²], twice the lifetime dose expected for CBM operation. Charge collection efficiency drops by 17-25%, and simultaneously noise levels increase 1.5-1.75 times. The simulations show that if all sensors in the STS setup are exposed to such a fluence uniformly, the track reconstruction efficiency drops from 95.5% to 93.2% and the momentum resolution degrades from 1.6% to 1.7%.
Rationale: Classic histology is the gold standard for vascular network imaging and analysis. The method however is laborious and prone to artefacts. Here, the suitability of ultramicroscopy (UM) and micro-computed tomography (CT) was studied to establish potential alternatives to histology.
Methods: The vasculature of murine organs (kidney, heart and atherosclerotic carotid arteries) was visualized using conventional 2D microscopy, 3D light sheet ultramicroscopy (UM) and micro-CT. Moreover, spheroid-based human endothelial cell vessel formation in mice was quantified. Fluorescently labeled Isolectin GS-IB4 A647 was used for in vivo labeling of vasculature for UM analysis, and analyses were performed ex vivo after sample preparation. For CT imaging, animals were perfused postmortem with radiopaque contrast agent.
Results: Using UM imaging, 3D vascular network information could be obtained in samples of animals receiving in vivo injection of the fluorescently labeled Isolectin GS-IB4. Resolution was sufficient to measure single endothelial cell integration into capillaries in the spheroid-based matrigel plug assay. Because of the selective staining of the endothelium, imaging of larger vessels yielded less favorable results. Using micro-CT or even nano-CT, imaging of capillaries was impossible due to insufficient X-ray absorption and thus insufficient signal-to-noise ratio. Identification of lumen in murine arteries using micro-CT was in contrast superior to UM.
Conclusion: UM and micro-CT are two complementary techniques. Whereas UM is ideal for imaging and especially quantifying capillary networks and arterioles, larger vascular structures are easier and faster to quantify and visualize using micro-CT. 3D information of both techniques is superior to 2D histology. UM and micro-CT together may open a new field of clinical pathology diagnosis.
Three fungi associated with living leaves of plants are new records for Panama: Annellophora phoenicis causing leaf spots of Cocos nucifera (Arecaceae), Cercospora corniculatae (C. apii s. lat.) on living leaves of Oxalis barrelieri (Oxalidaceae) with and without discoloration, and Sclerotium coffeicola on zonate leaf spots of Annona montana (Annonaceae) and Dioscorea alata (Dioscoreaceae). Some records of A. phoenicis and S. coffeicola relevant for known geographical distribution and available by literature are critically revised.