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Since the late 20th century, spintroncis has become a very active field of research [ŽFS04]. The prospect of spin based information technology, featuring strongly decreased energy consumption and possibly quantum-computation capabilities, has fueled this interest. Standard materials, like bulk gallium arsenide (GaAs), have experienced new attention in this context by exhibiting extraordinarily long lifetimes for nonequilibrium spin information, which is an important requirement for efficient spin based information storage and transfer. Another important factor is the lengthscale over which spin information can be transported in a given material and the role of external influences. Both aspects have been studied experimentally with innovative optical methods since the late 1990s by the groups of D. D. AWSHALOM and S. A. CROOKER et al. [KA99, CS05, CFL+05]. Although the pioneering experimental approaches presented by these authors led to a variety of insights into spin propagation, some questions were raised as well. Most prominently, the classical Einstein relation, which connects the mobility and diffusivity of a given particle species, seemed to be violated for electron spins in a bulk semiconductor. In essence, nonequilibrium spins appeared to move (diffuse) faster than the electrons that actually carry the spin. However, this contradiction was masked by the fact, that the material of interest was n-type GaAs with a doping concentration directly at the transition between metallic and insulating behavior (MIT). In this regime, the electron mobility is difficult to determine experimentally. Consequently, it was not a priori obvious that the spin diffusion rates determined by the newly introduced optical methods were in contradiction with established electrical transport data.
However, in an attempt to extend the available data of optical spin microscopy, another issue surfaced, concerning the mathematical drift-diffusion model that has been commonly used to evaluate lateral spin density measurements. Upon close investigation, this model appears to have a limited range of applicability, due to systematic discrepancies with the experimental data (chapter 4). These deviations are noticeable in original publications as well, and it is shown in the present work that they originate from the local heating of electrons in the process of optical spin pumping. Based on insights gained during the second half of the 20th century, it is recapitulated why conduction electrons are easily overheated at cryogenic temperatures. The main reason is the poor thermal coupling between electrons and the crystal lattice (chapter 3). Experiments in the present work showed that a significant thermal gradient exists in the conduction band under local optical excitation of electron–hole pairs. This information was used to develop a better mathematical model of spin diffusion, which allowed to derive the diffusivity of the undisturbed system, due to an effective consideration of electron overheating. In this way, spin diffusivities of n-GaAs were obtained as a function of temperature and doping density in the most interesting regime of the metal–insulator-transition.
The experiments presented in this work were performed on a series of n-type bulk GaAs samples, which comprised the transition between metallic conductivity and electrical insulation at low temperatures. Local electron temperature gradients were measured by a hyperspectral photoluminescence imaging technique with subsequent evaluation of the electron–acceptor (e,A$^0$) line shape. The local density of nonequilibrium conduction electron spins was deduced from scanning magneto-optic Kerr effect microscopy. Numerical evaluations were performed using the finite elements method in combination with a least-squares fitting procedure.
Chapter 1 provides an introduction to historical and recent research in the field of spintronics, as far as it is relevant for the understanding of the present work. Chapter 2 summarizes related physical concepts and experimental methods. Here, the main topics are semiconductor optics, relaxation of hot conduction electrons, and the dynamics of nonequilibrium electron spins in semiconductors.
Chapter 3 discusses optical heating effects due to local laser excitation of electron–hole pairs. Experimental evaluations of the acceptor-bound-exciton triplet lines led to the conclusion that the crystal lattice is usually not overheated even at high excitation densities. Here, the heat is efficiently dissipated to the bath, due to the good thermal conductivity of the lattice. Furthermore, the heating of the lattice is inherently limited by the weak heat transfer from the electron system, which on the other hand is also the reason why conduction electrons are easily overheated at temperatures below ≈ 30 K. Spatio-spectral imaging of the electron–acceptor-luminescence line shape allowed to trace the thermal gradient within the conduction band under focused laser excitation. A heat-diffusion model was formulated, which reproduces the experimental electron-temperature trend nicely for low-doped GaAs samples of n- and p-type. For high-doped n-type GaAs samples, it could be shown that the lateral electron-temperature profile is well approximated by a Gaussian. This facilitated easy integration of hot electron influence into the mathematical model of spin diffusion.
Chapter 4 deals with magneto-optical imaging of optically induced nonequilibrium conduction-electron spins in n-GaAs close to the MIT. First, the spectral dependence of the magneto-optic Kerr effect was examined in the vicinity of the fundamental band gap. Despite the marked differences among the investigated samples, the spectral shape of the Kerr rotation could be described in terms of a simple Lorentz-oscillator model in all cases. Based on this model, the linearity of the Kerr effect with respect to a nonequilibrium spin polarization is demonstrated, which is decisively important for further quantitative evaluations.
Furthermore, chapter 4 presents an experimental survey of spin relaxation in n-GaAs at the MIT. Here, the dependence of the spin relaxation time on bath temperature and doping density was deduced from Hanle-MOKE measurements. While all observed trends agree with established literature, the presented results extend the current portfolio by adding a coherent set of data.
Finally, diffusion of optically generated nonequilibrium conduction-electron spins was investigated by scanning MOKE microscopy. First, it is demonstrated that the standard diffusion model is inapplicable for data evaluation in certain situations. A systematic survey of the residual deviations between this model and the experimental data revealed that this situation unfortunately persisted in published works. Moreover, the temperature trend of the residual deviations suggests a close connection to the local overheating of conduction electrons. Consequently, a modified diffusion model was developed and evaluated, in order to compensate for the optical heating effect. From this model, much more reliable results were obtained, as compared to the standard diffusion model. Therefore, it was shown conclusively that the commonly reported anomalously large spin diffusivities were at least in parts caused by overheated conduction electrons.
In addition to these new insights some experimental and technological enhancements were realized in the course of this work. First, the optical resolution of scanning MOKE microscopy was improved by implementing a novel scanning mechanism, which allows the application of a larger aperture objective than in the usual scheme. Secondly, imaging photoluminescence spectroscopy was employed for spatially resolved electron-temperature measurements. Here, two different implementations were developed: One for lattice-temperature measurements by acceptor–bound exciton luminescence and a second for conduction-electron temperature measurements via the analysis of the electron–acceptor luminescence line shape.
It is shown in the present work that the originally stated anomalously high spin diffusivities were caused to a large extent by unwanted optical heating of the electron system. Although an efficient method was found to compensate for the influence of electron heating, it became also evident that the classical Einstein relation was nonetheless violated under the given experimental conditions. In this case however, it could be shown that this discrepancy did not originate from an experimental artifact, but was instead a manifestation of the fermionic nature of conduction electrons.
Simple Solution-Phase Syntheses of Tetrahalodiboranes(4) and their Labile Dimethylsulfide Adducts
(2017)
Convenient, solution-phase syntheses of tetrahalodiboranes(4) B\(_2\)F\(_4\), B\(_2\)Cl\(_4\) and B\(_2\)I\(_4\) are presented herein from common precursor B\(_2\)Br\(_4\). In addition, the dimethylsulfide adducts B\(_2\)Cl\(_4\)(SMe\(_2\))\(_2\) and B\(_2\)Br\(_4\)(SMe\(_2\))\(_2\) are conveniently prepared in one-step syntheses from the commercially-available starting material B\(_2\)(NMe\(_2\))\(_4\). The results provide simple access to the full range of tetrahalodiboranes(4) for the exploration of their untapped synthetic potential.
Die Transkranielle Gleichstromstimulation (tDCS) stellt ein Verfahren zur nicht-invasiven und schmerzfreien Stimulation des Gehirns dar. Ziel dabei ist es die kortikale Erregbarkeit zu modulieren, indem das Ruhemembranpotenzial der Nervenzellen verschoben wird. Anodale tDCS führt dabei zu einer Depolarisierung des Membranpotenzials und somit zur Zunahme der neuronalen Aktivität. Kathodale tDCS hat durch die Hyperpolarisierung des Membranpotenzials eine Abnahme der neuronalen Aktivität zur Folge. Durch den exzitatorischen Effekt nach anodaler Stimulation und den inhibitorischen Effekt nach kathodaler Stimulation stellt die tDCS eine vielversprechende Option in der Therapie neurologischer oder neuropsychiatrischer Erkrankungen dar.
In vorliegender Studie sollten die Auswirkungen der transkraniellen Gleichstromstimulation über dem linken dorsolateralen präfrontalen Kortex (DLPFC) auf Arbeitsgedächtnisprozesse untersucht werden. Die Effekte der tDCS wurden an 56 gesunden Versuchspersonen getestet, die randomisiert drei Stimulationsgruppen zugeordnet wurden (anodale, kathodale und Sham-Stimulation). Stimuliert wurde mit 2 mA bei einer Elektrodengröße von 35 cm². Stimulationsort war dabei der linke DLPFC, die Referenzelektrode wurde über dem linken Mastoid platziert. Während der Stimulation führten die Versuchspersonen eine modifizierte N-Back-Aufgabe mit drei Bedingungen (0-Back, 1-Back und 2-Back) aus, um die Funktion des Arbeitsgedächtnisses hinsichtlich des Verhaltens erfassen zu können. Die Auswirkungen der tDCS auf die neuronale Aktivität wurden mittels funktioneller Nah-Infrarot-Spektroskopie (fNIRS) gemessen.
Auf neuronaler Ebene erwarteten wir eine Zunahme der kortikalen Aktivität nach anodaler Stimulation innerhalb des linken DLPFC und gegenteilige Effekte nach kathodaler Stimulation. In vorliegender Untersuchung konnte lediglich eine Tendenz zu dieser Annahme beobachtet werden, eindeutige Signifikanzen blieben jedoch aus. Bei Betrachtung verschiedener Regions of Interest (ROIs) konnten nur signifikante Unterschiede zwischen der anodal und der kathodal stimulierten Gruppe nachgewiesen werden, was dafür spricht, dass die Auswirkungen der tDCS zwar in die intendierte Richtung gehen, die Effekte aber nicht stark genug sind, um auch signifikante Unterschiede zur Kontrollgruppe nachweisen zu können. Somit müssen wir davon ausgehen, dass sich die Neurone des DLPFC nur schwach durch die transkranielle Stimulation beeinflussen lassen.
Desweiteren wurden die Verhaltensdaten während der N-Back-Aufgabe untersucht. Angenommen wurde eine Verbesserung der Arbeitsgedächtnisleistung durch anodale Stimulation und eine Verschlechterung durch kathodale Stimulation. Hier zeigte sich allerdings, dass sich unsere drei Stimulationsgruppen weder in der Anzahl der Fehler, noch in der Anzahl der richtigen Antworten, der Anzahl der verpassten Antworten oder in der mittleren Reaktionszeit signifikant voneinander unterscheiden. Dies lässt darauf schließen, dass die Stimulation des linken DLPFC keinen Einfluss auf das Verhalten während der Durchführung der Arbeitsgedächtnisaufgabe hat und somit auch die Arbeitsgedächtnisleistung nicht beeinflusst wird.
Obwohl die Ergebnisse unserer Studie durch fehlende Signifikanzen nicht hypothesenkonform sind, konnten wir zusammenfassend dennoch eine Tendenz zur anodal-exzitatorischen und kathodal-inhibitorischen Wirkung der tDCS beobachten. Die weitere Erforschung der Auswirkungen der tDCS auf das Arbeitsgedächtnis scheint also sehr vernünftig, vor allem in Anbetracht der möglichen Etablierung der tDCS als Therapieoption neuropsychiatrischer Erkrankungen. Weiterführende Studien sollten die Wirksamkeit der tDCS weiter untersuchen und eine Optimierung der tDCS-induzierten Effekte überprüfen. Ansatzpunkte hierfür wären beispielsweise die Durchführung umfangreicherer Studien mit einem größeren Probandenkollektiv und veränderten Stimulationsparametern oder Studien, die die Auswirkungen der tDCS auf das Arbeitsgedächtnis auch bei psychiatrischen Patienten untersuchen.
Neuerungen in Bildungssystemen können nur erfolgreich sein, wenn sie planmäßig implementiert werden. Maßgeblich ist hierfür, dass die Lehrkräfte über die entsprechenden professionellen Kompetenzen verfügen. Die vorliegende Arbeit untersucht diesen Zusammenhang am Beispiel der Implementation von Seminarfächern im bayerischem Gymnasium. Es wird identifiziert, welche neuen Herausforderungen Chemie-Lehrkräfte mit Einführung der Wissenschaftspropädeutischen (W-) und Projekt-Seminare (P-) bewältigen müssen. Aus Interviews mit Lehrkräften wurden per qualitativer Inhaltsanalyse nach Mayring die Anforderungen an das Professionswissen der Lehrkräfte identifiziert. Für die W-Seminare konnte dargestellt werden, dass eine erfolgreiche Wissenschaftspropädeutik häufig an fehlendem Fachwissen der Lehrkräfte zu Nature of Science Inquiry (NOSI) scheiterte. Analog fehlte den Lehrkräften in den P-Seminaren Fachwissen zu Projektmanagement, sodass sie dies weder umsetzten, noch erfolgreich vermitteln konnten. Um die Lehrkräfte bei der Bewältigung der Herausforderungen zu unterstützen, wurden vielfältige Möglichkeiten der Kooperation von Seminarfächern mit der Universität als externem Partner erprobt. Methodenwerkzeuge für eine systematische Wissenschaftspropädeutik wurden entwickelt und im Rahmen von Lehrerfortbildungen weitergegeben. Weiterhin wurde ein Lehr-Lern-Labor „Analyseverfahren der Chemie“ für W-Seminare konzipiert und wiederholt erfolgreich durchgeführt. Damit wurden Erkenntnisse der empirischen Studie in nachweislich praxistaugliche Konzepte umgesetzt, die die erfolgreiche Implementation der Seminarfächer unterstützen können.
Die Ableitung Akustisch evozierter Potentiale (AEP) durch intraoperatives Monitoring wird regelhaft bei der Operation von Vestibularisschwannomen mit dem Ziel des Hörerhaltes durchgeführt.
Trotz AEP-Erhalt am Ende der Operation wurden Fälle mit postoperativer Taubheit beobachtet. Bisher ist es unklar, ob es sich um falsch positive AEP-Befunde oder Fälle von sekundärer Taubheit handelt.
Diese Pilotstudie, bei der zu definierten Zeitpunkten postoperativ AEP-Messungen durchgeführt wurden, zeigt erhebliche Veränderungen der AEP-Befunde im postoperativen Verlauf. Es fanden sich Patienten mit verbesserten AEP-Befunden, aber auch verschlechterten AEP bis zum vollständigen Verlust aller AEP-Komponenten.
Ob ein sekundärer Hörverlust durch frühzeitiges Erkennen von AEP-Veränderungen verhindert werden kann, wird Inhalt von weiteren Studien sein.
In this thesis the excited-state dynamics of radicals and biradicals were characterized with femtosecond pump-probe spectroscopy.
These open-shell molecules play important roles as combustion intermediates, in the formation of soot and polycyclic aromatic hydrocarbons, in atmospheric chemistry and in the formation of complex molecules in the interstellar medium and galactic clouds. In these processes molecules frequently occur in some excited state, excited either by thermal energy or radiation. Knowledge of the reactivity and dynamics of these excited states completes our understanding of these complex processes.
These highly reactive molecules were produced via pyrolysis from suitable precursors and examined in a molecular beam under collision-free conditions. A first laser now excites the molecule, and a second laser ionizes it. Time-of-flight mass spectrometry allowed a first identification of the molecule, photoelectron spectroscopy a complete characterization of the molecule - under the condition that the mass spectrum was dominated by only one mass. The photoelectron spectrum was obtained via velocity-map imaging, providing an insight in the electronic states involved. Ion velocity map imaging allowed separation of signal from direct ionization of the radical in the molecular beam and dissociative photoionization of the precursor. During this thesis a modified pBasex algorithm was developed and implemented in python, providing an image inversion tool without interpolation of data points. Especially for noisy photoelectron images this new algorithm delivers better results.
Some highlighted results:
• The 2-methylallyl radical was excited in the ππ*-state with different internal energies using three different pump wavelengths (240.6 , 238.0 and 236.0 nm). Ionized with 800 nm multi-photon probe, the photoelectron spectra shows a s-Rydberg fingerprint spectrum, a highly positive photoelectron anisotropy of 1.5 and a bi-exponential decay ( τ1= 141\pm43 fs, τ2= 4.0\pm0.2 ps for 240.6 nm pump), where the second time-constant shortens for lower wavelengths. Field-induced surface hopping dynamics calculations confirm that the initially excited ππ*-state relaxes very fast to an s-Rydberg state (first experimentally observed time-constant), and then more slowly to the first excited state/ground state (second time-constant). With higher excitation energies the conical intersection between the s-Rydberg-state and the first excited state is reached faster, resulting in shorter life-times.
• The benzyl radical was excited yith 265 nm and probed with two wavelengths, 798 nm and 398 nm. Probed with 798 nm it shows a bi-exponential decay (\tau_{1}=84\pm5 fs, \tau_{2}=1.55\pm0.12 ps), whereas with 398 nm probe only the first time-constant is observed (\tau_{1}=89\pm5 fs). The photoelectron spectra with 798 nm probe is comparable to the spectrum with 398 nm probe during the first 60 fs, at longer times an additional band appears. This band is due to a [1+3']-process, whereas with 398 nm only signal from a [1+1']-process can be observed. Non-adiabatic dynamic on the fly calculations show that the initially excited, nearly degenerate ππ/p-Rydberg-states relax very fast (first time-constant) to an s-Rydberg state. This s-Rydberg state can no longer be ionized with 398 nm, but with 798 nm ionization via intermediate resonances is still possible. The s-Rydberg state then decays to the first excited state (second time-constant), which is long-lived.
• Para-xylylene, excited with 266 nm into the S2-state and probed with 800 nm, shows a bi-exponential decay (\tau_{1}=38\pm7 fs, \tau_{2}=407\pm9 fs). The initially excited S2-state decays quickly to S1-state, which shows dissociative photoionization. The population of the S1-state is directly visible in the masses of the dissociative photoionization products, benzene and the para-xylylene -H.
• Ortho-benzyne, produced via pyrolysis from benzocyclobutendione, was excited with 266 nm in the S2 state and probed with 800 nm. In its time-resolved mass spectra the dynamic of the ortho-benzyne signal was superposed with the dynamics from dissociative photoionization of the precursor and of the ortho-benzyne-dimer. With time-resolved ion imaging gated on the ortho-benzyne these processes could be seperated, showing that the S2-state of ortho-benzyne relaxes within 50 fs to the S1-state.
Zusammenfassend lässt sich festhalten, dass in dieser Arbeit 15 neu entwickelte Substanzen zur selektiven und hochaffinen Blockade der Aldosteronsynthase untersucht werden konnten. Es wurden mehrere neue aufeinander aufbauende Testsysteme etabliert, um die neuen Substanzen auf ihre Selektivität und Affinität gegenüber der Aldosteronsynthase zu untersuchen. Eine Testung der Inhibition der humanen Aldosteronsynthase und der 11β-Hydroxylase zuerst in getrennten Zellkulturansätzen, die die humanen Enzyme stabil exprimieren, und anschließend in der NCI-h295 Zelllinie, die beide Enzyme und zusätzlich die meisten anderen Enzyme der Steroidbiosynthese stabil exprimieren, ist eine gute Voraussetzung, um selektive und hochaffine Aldosteronsynthaseinhibitoren zu finden. Hier konnten sechs Inhibitoren ausgewählt werden, die hochaffin und selektiv an die Aldosteronsynthase binden und diese inhibieren. Die weitere Testung der [18F] markierten Substanzen zeigte für eine Substanz eine hochaffine und selektive Bindung an humanes adrenales Gewebe und keine unspezifische Bindung an andere humane Gewebe. Hier liegt die Voraussetzung vor, den Tracer weiteren in vivo Studien zuzuführen, um am humanisierten Mausmodell zu untersuchen, ob eine Bindung in vivo entsprechend den vielversprechenden Ergebnissen in vitro abläuft. Auch die ex vivo Studie an Nebennieren einer gegenüber der CYP11B2 humanisierten Maus bekräftigte diese Ergebnisse. Mit Hilfe dieser Untersuchungsmethoden lassen sich in Zukunft noch weiter entwickelte Substanzen umfangreich auf ihre Selektivität, Spezifität und Affinität testen. Dies dient als Grundlage für weitere Untersuchungen zur Entwicklung eines PET-Tracers für die Differentialdiagnostik bei primärem Hyperaldosteronismus. Eine Erkrankung, die häufiger ist als vermutet, und bei der die Differentialdiagnostik die entscheidende Voraussetzung für die Einleitung einer Therapie ist, die sich entweder operativ oder medikamentös darstellt. Bisherige differentialdiagnostische Vorgehensweisen beim primären Hyperaldosteronismus bieten aktuell keine zufriedenstellenden Ergebnisse; dies kann sich mit der Einführung eines neuen PET Tracers ändern.
This dissertation studies the interrelations between housing markets and monetary policy from three different perspectives. First, it identifies housing finance specific shocks and analyzes their impact on the broader economy and, most importantly, the systematic monetary policy reaction to such mortgage sector disturbances. Second, it investigates the implications of the institutional arrangement of a currency union for the potential buildup of a housing bubble in a member country of the monetary union by, inter alia, fostering border-crossing capital flows and ultimately residential investment activity. This dissertation, third, quantifies the effects of autonomous monetary policy shifts on the macroeconomy and, in particular, on housing markets by conditioning on financial sector conditions. From a methodological perspective, the dissertation draws on time-series econometrics like vector autoregressions (VARs) or local projections models.
The topic of this PhD thesis is the combination of topologically non-trivial phases with correlation effects stemming from Coulomb interaction between the electrons in a condensed matter system. Emphasis is put on both emerging benefits as well as hindrances, e.g. concerning the topological protection in the presence of strong interactions.
The physics related to topological effects is established in Sec. 2. Based on the topological band theory, we introduce topological materials including Chern insulators, topological insulators in two and three dimensions as well as Weyl semimetals. Formalisms for a controlled treatment of Coulomb correlations are presented in Sec. 3, starting with the topological field theory. The Random Phase Approximation is introduced as a perturbative approach, while in the strongly interacting limit the theory of quantum Hall ferromagnetism applies. Interactions in one dimension are special, and are treated through the Luttinger liquid description. The section ends with an overview of the expected benefits offered by the combination of topology and interactions, see Sec. 3.3.
These ideas are then elaborated in the research part. In Chap. II, we consider weakly interacting 2D topological insulators, described by the Bernevig-Hughes-Zhang model. This is applicable, e.g., to quantum well structures made of HgTe/CdTe or InAs/GaSb. The bulk band structure is here a mixture stemming from linear Dirac and quadratic Schrödinger fermions. We study the low-energy excitations in Random Phase Approximation, where a new interband plasmon emerges due to the combined Dirac and Schrödinger physics, which is absent in the separate limits. Already present in the undoped limit, one finds it also at finite doping, where it competes with the usual intraband plasmon. The broken particle-hole symmetry in HgTe quantum wells allows for an effective separation of the two in the excitation spectrum for experimentally accessible parameters, in the right range for Raman or electron loss spectroscopy. The interacting bulk excitation spectrum shows here clear differences between the topologically trivial and topologically non-trivial regime. An even stronger signal in experiments is expected from the optical conductivity of the system. It thus offers a quantitative way to identify the topological phase of 2D topological insulators from a bulk measurement.
In Chap. III, we study a strongly interacting system, forming an ordered, quantum Hall ferromagnetic state. The latter can arise also in weakly interacting materials with an applied strong magnetic field. Here, electrons form flat Landau levels, quenching the kinetic energy such that Coulomb interaction can be dominant. These systems define the class of quantum Hall topological insulators: topologically non-trivial states at finite magnetic field, where the counter-propagating edge states are protected by a symmetry (spatial or spin) other than time-reversal. Possible material realizations are 2D topological insulators like HgTe heterostructures and graphene. In our analysis, we focus on the vicinity of the topological phase transition, where the system is in a strongly interacting quantum Hall ferromagnetic state. The bulk and edge physics can be described by a nonlinear \sigma-model for the collective order parameter of the ordered state. We find that an emerging, continuous U(1) symmetry offers topological protection. If this U(1) symmetry is preserved, the topologically non-trivial phase persists in the presence of interactions, and we find a helical Luttinger liquid at the edge. The latter is highly tunable by the magnetic field, where the effective interaction strength varies from weakly interacting at zero field, K \approx 1, to diverging interaction strength at the phase transition, K -> 0.
In the last Chap. IV, we investigate whether a Weyl semimetal and a 3D topological insulator phase can exist together at the same time, with a combined, hybrid surface state at the joint boundaries. An overlap between the two can be realized by Coulomb interaction or a spatial band overlap of the two systems. A tunnel coupling approach allows us to derive the hybrid surface state Hamiltonian analytically, enabling a detailed study of its dispersion relation. For spin-symmetric coupling, new Dirac nodes emerge out of the combination of a single Dirac node and a Fermi arc. Breaking the spin symmetry through the coupling, the dispersion relation is gapped and the former Dirac node gets spin-polarized. We propose experimental realizations of the hybrid physics, including compressively strained HgTe as well as heterostructures of topological insulator and Weyl semimetal materials, connected to each other, e.g., by Coulomb interaction.
The focus of the work concerned the development of a series of MRI techniques that were specifically designed and optimized to obtain quantitative and spatially resolved information about characteristic parameters of the lung. Three image acquisition techniques were developed. Each of them allows to quantify a different parameter of relevant diagnostic interest for the lung, as further described below:
1) The blood volume fraction, which represents the amount of lung water in the intravascular compartment expressed as a fraction of the total lung water. This parameter is related to lung perfusion.
2) The magnetization relaxation time T\(_2\) und T*\(_2\)
, which represents the component of T\(_2\) associated with the diffusion of water molecules through the internal magnetic field gradients of the lung. Because the amplitude of these internal gradients is related to the alveolar size, T\(_2\) und T*\(_2\) can be used to obtain information about the microstructure of the lung.
3) The broadening of the NMR spectral line of the lung. This parameter depends on lung inflation and on the concentration of oxygen in the alveoli. For this reason, the spectral line broadening can be regarded as a fingerprint for lung inflation; furthermore, in combination with oxygen enhancement, it provides a measure for lung ventilation.
Die Breite der Wirkungen von Aldosteron auf Nierenzellen wurde lange Zeit unterschätzt. Inzwischen zeigte sich ein nicht unerheblicher Anteil des Hyperaldosteronismus an arterieller Hypertonie und ebenso mehren sich die Hinweise auf damit assoziierter erhöhter Inzidenz für maligne Entartung von Nierengewebe. In dieser Arbeit wurde der Effekt von Hyperaldosteronismus auf Nierenzellen von Ratten in vivo untersucht. Mittels real time quantitative PCR wurden die relative Expressionsveränderungen der mRNA von validierten Nierenschädigungsmarkern im Hyperaldosteronismusmodell kontrolliert beobachtet und statistisch ausgewertet. Anders als im analog durchgeführten Vorversuch mit DOCA an der Stelle von Aldosteron, ließ sich größtenteils kein über der natürlichen Streuung der Daten liegender, signifikanter Effekt der Nierenschädigung durch überhöhte Aldosteronspiegel nachweisen. Hierfür kommen vielfältige Gründe in Frage. Neben der technischen Variabilität, der Beschaffenheit der internen Kontrolle, potentiell vorhandenen Inhibitoren und der Qualität der mRNA, konnten eine Reihe von weiteren Gründen als Ursache für die Diskrepanz zu den Ergebnissen der mit DOCA behandelten Tiere ausgeschlossen werden. Neben der theoretischen Möglichkeit inter-methodischer Differenzen und sich daraus ergebender Variationen, sowie der noch weiter zu untersuchenden Rolle des Glukokortikoidrezeptors durch dessen variable gleichzeitige Aktivierung, ist die Interpretation im Sinne eines zu gering ausgeprägten Schädigungseffektes durch den Hyperaldosteronismus für den gewählten Stichprobenumfang naheliegend. Hiermit stimmt auch die Tatsache überein, dass der Effekt der Behandlung mit Aldosteron im Vergleich zur Behandlung mit DOCA von vorne herein deutlich geringer ausfallend erwartet wurde.
Sponges (phylum Porifera) are evolutionary ancient, sessile filter-feeders that harbor a largely diverse microbial community within their internal mesohyl matrix. Throughout this thesis project, I aimed at exploring the adaptations of these symbionts to life within their sponge host by sequencing and analyzing the genomes of a variety of bacteria from the microbiome of the Mediterranean sponge Aplysina aerophoba. Employed methods were fluorescence-activated cell sorting with subsequent multiple displacement amplification and single-cell / ‘mini-metagenome’ sequencing, and metagenomic sequencing followed by differential coverage binning. These two main approaches both aimed at obtaining genome sequences of bacterial symbionts of A. aerophoba, that were then compared to each other and to references from other environments, to gain information on adaptations to the host sponge environment and on possible interactions with the host and within the microbial community.
Cyanobacteria are frequent members of the sponge microbial community. My ‘mini-metagenome’ sequencing project delivered three draft genomes of “Candidatus Synechococcus spongiarum,” the cyanobacterial symbiont of A. aerophoba and many more sponges inhabiting the photic zone. The most complete of these genomes was compared to other clades of this symbiont and to closely related free-living cyanobacterial references in a collaborative project published in Burgsdorf I*, Slaby BM* et al. (2015; *shared first authorship). Although the four clades of “Ca. Synechococcus spongiarum” from the four sponge species A. aerophoba, Ircinia variabilis, Theonella swinhoei, and Carteriospongia foliascens were approximately 99% identical on the level of 16S rRNA gene sequences, they greatly differed on the genomic level. Not only the genome sizes were different from clade to clade, but also the gene content and a number of features including proteins containing the eukaryotic-type domains leucine-rich repeats or tetratricopeptide repeats. On the other hand, the four clades shared a number of features such as ankyrin repeat domain-containing proteins that seemed to be conserved also among other microbial phyla in different sponge hosts and from different geographic locations. A possible novel mechanism for host phagocytosis evasion and phage resistance by means of an altered O antigen of the lipopolysaccharide was identified.
To test previous hypotheses on adaptations of sponge-associated bacteria on a broader spectrum of the microbiome of A. aerophoba while also taking a step forward in methodology, I developed a bioinformatic pipeline to combine metagenomic Illumina short-read sequencing data with PacBio long-read data. At the beginning of this project, no pipelines to combine short-read and long-read data for metagenomics were published, and at time of writing, there are still no projects published with a comparable aim of un-targeted assembly, binning and analysis of a metagenome. I tried a variety of assembly programs and settings on a simulated test dataset reflecting the properties of the real metagenomic data. The developed assembly pipeline improved not only the overall assembly statistics, but also the quality of the binned genomes, which was evaluated by comparison to the originally published genome assemblies.
The microbiome of A. aerophoba was studied from various angles in the recent years, but only genomes of the candidate phylum Poribacteria and the cyanobacterial sequences from my above-described project have been published to date. By applying my newly developed assembly pipeline to a metagenomic dataset of A. aerophoba consisting of a PacBio long-read dataset and six Illumina short-read datasets optimized for subsequent differential coverage binning, I aimed at sequencing a larger number and greater diversity of symbionts. The results of this project are currently in review by The ISME Journal. The complementation of Illumina short-read with PacBio long-read sequencing data for binning of this highly complex metagenome greatly improved the overall assembly statistics and improved the quality of the binned genomes. Thirty-seven genomes from 13 bacterial phyla and candidate phyla were binned representing the most prominent members of the microbiome of A. aerophoba. A statistical comparison revealed an enrichment of genes involved in restriction modification and toxin-antitoxin systems in most symbiont genomes over selected reference genomes. Both are defense features against incoming foreign DNA, which may be important for sponge symbionts due to the sponge’s filtration and phagocytosis activity that exposes the symbionts to high levels of free DNA. Also host colonization and matrix utilization features were significantly enriched. Due to the diversity of the binned symbiont genomes, a within-symbionts genome comparison was possible, that revealed three guilds of symbionts characterized by i) nutritional specialization on the metabolization of carnitine, ii) specialization on sulfated polysaccharides, and iii) apparent nutritional generalism. Both carnitine and sulfated polysaccharides are abundant in the sponge extracellular matrix and therefore available to the sponge symbionts as substrates. In summary, the genomes of the diverse community of symbionts in A. aerophoba were united in their defense features, but specialized regarding their nutritional preferences.
Der Einfluss von Arzneistofftransportern auf die pulmonale Absorption inhalierter Arzneistoffe
(2017)
Arzneistofftransporter ermöglichen endogenen und exogenen Molekülen die Überwindung von Zellmembranen und tragen dadurch zur Aufnahme, Verteilung und Elimination von Arzneistoffen bei. Inhalativ applizierte Wirkstoffe, wie Vertreter aus der Gruppe der Beta-2-Sympathomimetika oder Anticholinergika, zählen zu den Substraten wichtiger, pulmonal exprimierter Arzneistofftransporter. Trotz intensivierter Forschung auf dem Gebiet der Transporter-Expression ist diese im humanen Lungengewebe bisher wenig untersucht und deren pharmakokinetische Auswirkungen auf pulmonal verabreichte Arzneistoffe sind kaum bekannt. Im Rahmen der vorliegenden Arbeit sollte der Einfluss von Arzneistofftransportern auf die pulmonale Absorption inhalierter Arzneistoffe untersucht und Erkenntnisse über deren Expressions-Profil im humanen Lungengewebe gewonnen werden.
Pharmakokinetische Parameter des inhalativen Anticholinergikums Ipratropiumbromid wurden an einem ex vivo Modell der humanen Lunge untersucht. Nach vorheriger Applikation des kompetitiven OCTN1/2-Inhibitors L-Carnitin wurde keine signifikante Reduktion der absorbierten Wirkstoffmenge detektiert. Damit zeigten sich die beiden organischen Kationen/Carnitin-Transporter OCTN1 und OCTN2, anders als bisher vermutet, nicht als primär an der Absorption von Ipratropiumbromid beteiligte Transporter. Infolgedessen wurde die Beteiligung weiterer Transporter hypothetisiert.
Erstmals wurden die am humanen Lungen-Perfusions-Modell gewonnenen pharmakokinetischen Daten zur pulmonalen Absorption in direkter Beziehung zur mRNA- und Protein-Expression von Arzneistofftransportern in den jeweiligen individuellen Gewebeproben betrachtet. Die pulmonale Genexpression des Multidrug Resistance-Related Protein MRP5 wies eine signifikante negative Korrelation mit der Area under the curve (AUC0 – 60 min) von Ipratropiumbromid auf (r = -0,699; p < 0,05), was die Beteiligung von MRP5 an den Umverteilungsprozessen von Ipratropiumbromid in der humanen Lunge nahelegte. Auf Protein-Ebene wurde eine positive Korrelation zwischen der Expression des organischen Kationentransporters OCT3 und der AUC0 – 60 min von Ipratropiumbromid ermittelt (r = 0,7499,p < 0,05), woraus sich eine potentielle Beteiligung von OCT3 an der Aufnahme von Ipratropiumbromid aus dem luminalen Lungenbereich ableiten ließ.
Zur Untermauerung dieser Hypothese wurden Untersuchungen mit stabil transfizierten HEK293-Zellen durchgeführt. Sowohl der organische Kationentransporter OCT1 als auch OCT3 trugen dabei signifikant zu einer erhöhten zellulären Aufnahme der beiden Tritium-markierten Bronchodilatatoren Ipratropiumbromid und Salbutamol bei. Damit wurde für OCT3 zum ersten Mal eine Beteiligung an der zellulären Aufnahme dieser beiden Arzneistoffe nachgewiesen.
Im Kontext der Gendermedizin sind geschlechtsspezifische Unterschiede in der Transporter-Expression von großem Interesse. Inwiefern die drei Sexualsteroidhormone Estradiol, Progesteron und Testosteron einen regulatorischen Effekt auf die mRNA-Expression von Membrantransportern haben, wurde erstmals durch in vitro Inkubationsversuche in physiologischen Hormonkonzentrationen mit der humanen Bronchialepithelzelllinie Calu-3 geprüft. Mittels intensiv optimierter und sorgfältig validierter RT-qPCR-Analytik konnten vor allem nach Inkubation mit weiblichen Sexualhormonen verglichen zu keiner Hormon-Zugabe statistisch signifikante Expressions-Unterschiede detektiert werden: Nach Behandlung mit Estradiol zeigten der Oligopeptid-Transporter PEPT2 (80,8 ± 15,6 %) und OCTN2 (82,8 ± 4,2 %) eine geringere Genexpression, das Multidrug Resistance-Related Protein MRP1 (111,6 ± 9,1 %) sowie OCTN1 (112,9 ± 10,1 %) waren nach Zugabe von Estradiol kombiniert mit Progesteron höher exprimiert als ohne Hormon-Zusatz.
Da Estradiol überdies als Inhibitor des OCT1- und OCT3-vermittelten Transports gilt, wurde die Auswirkung des Hormons, unter anderem in physiologischer Konzentration, auf die Aufnahme von Tritium-markierten Ipratropiumbromid in stabil transfizierte HEK293-Zellen untersucht, wobei tatsächlich eine reduzierte zelluläre Ipratropiumbromid-Aufnahme beobachtet wurde. Somit könnte auch in vivo eine geschlechtsspezifische Inhibition der beiden Transporter stattfinden, wodurch deren Substrate einer geschlechtsspezifisch variierenden Pharmakokinetik unterliegen könnten.
Darüber hinaus wurde in rund 80 humanen Lungengewebsproben die Genexpression von Arzneistofftransportern hinsichtlich geschlechts- und altersspezifischer Unterschiede überprüft. In unter 50-jährigen Männern war das Multidrug-Resistance Protein MDR1 signifikant höher exprimiert verglichen zu Männern von 50 - 60 Jahren. OCT1 war in Patienten von
50 - 60 Jahren signifikant geringer exprimiert als in über 60-Jährigen. Daneben lieferte die Analyse aller Gewebeproben das Genexpressions-Profil von Arzneistofftransportern im humanen Lungengewebe, wobei OCT3 das höchste und OCT2 das geringste mRNA-Expressions-Niveau unter den untersuchten Transportern aufwies. Eine wesentliche Beteiligung von OCT3 an Transportvorgängen im humanen Lungengewebe erschien damit wahrscheinlich.
Resümierend konnte mit der vorliegenden Arbeit ein Beitrag zur Aufklärung des Einflusses von Arzneistofftransportern auf die pulmonale Absorption inhalativ verabreichter Arzneistoffe geleistet werden. Dabei konnte OCT3 erstmals als maßgeblich an der zellulären Aufnahme von Ipratropiumbromid beteiligter Transporter in der humanen Lunge identifiziert werden, womit einerseits die Beteiligung von Arzneistofftransportern an pharmakokinetischen Prozessen in vivo und andererseits die Bedeutung von Arzneistofftransportern für die inhalative Arzneimitteltherapie deutlich wurde.
African trypanosomiasis is a disease endemic to sub-Saharan Africa. It affects humans as well as wild and domestic animals. The human form of the disease is known as sleeping sickness and the animal form as nagana, which are usually fatal if left untreated. The cause of African trypanosomiasis is the unicellular parasite Trypanosoma brucei. During its life cycle, Trypanosoma brucei shuttles between a mammalian host and the tsetse fly vector. In the mammalian host the parasite multiplies as bloodstream form (BSF) extracellularly in the bloodstream or the lymphatic system. Survival of BSF parasites relies on immune evasion by antigenic variation of surface proteins because its extracellular lifestyle leads to direct exposure to immune responses. At any given time each BSF cell expresses a single type of variant surface glycoprotein (VSG) on its surface from a large repertoire. The active VSG is transcribed from one of 15 specialized subtelomeric domains, termed bloodstream expression sites (BESs). The remaining 14 BESs are silenced. This monoallelic expression and periodic switching of the expressed VSG enables to escape the immune response and to establish a persistent infection in the mammalian host. During developmental differentiation from BSF to the insect vector-resident procyclic form (PCF), the active BES is transcriptionally silenced to stop VSG transcription. Thus, all 15 BESs are inactive in the PCF cells as surface protein expression is developmentally regulated.
Previous reports have shown that the telomere complex components TbTRF, TbRAP1 and TbTIF2 are involved in VSG transcriptional regulation. However, the precise nature of their contribution remains unclear. In addition, no information is available about the role of telomeres in the initiation and regulation of developmental BES silencing. To gain insights into the regulatory mechanisms of telomeres on VSG transcription and developmental repression it is therefore essential to identify the complete composition of the trypanosome telomere complex.
To this end, we used two complementary biochemical approaches and quantitative label-free interactomics to determine the composition of telomere protein complexes in T. brucei. Firstly, using a telomeric pull-down assay we found 17 potential telomere-binding proteins including the known telomere-binding proteins TbTRF and TbTIF2. Secondly, by performing a co-immunoprecipitation experiment to elucidate TbTRF interactions we co-purified five proteins. All of these five proteins were also enriched with telomeric DNA in the pull-down assay.
To validate these data, I characterized one of the proteins found in both experiments (TelBP1). In BSF cells, TelBP1 co-localizes with TbTRF and interacts with already described telomere-binding proteins such as TbTRF, TbTIF2 and TbRAP1 indicating that TelBP1 is a novel component of the telomere complex in trypanosomes. Interestingly, protein interaction studies in PCF cells suggested a different telomere complex composition compared to BSF cells. In contrast to known members of the telomere complex, TelBP1 is dispensable for cell viability indicating that its function might be uncoupled from the known telomere-binding proteins. Overexpression of TelBP1 had also no effect on cell viability, but led to the discovery of two additional shorter isoforms of TelBP1. However, their source and function remained elusive.
Although TelBP1 is not essential for cell viability, western blot analysis revealed a 4-fold upregulation of TelBP1 in the BSF stage compared to the PCF stage supporting the concept of a dynamic telomere complex composition. We observed that TelBP1 influences the kinetics of transcriptional BES silencing during developmental transition from BSF to PCF. Deletion of TelBP1 caused faster BES silencing compared to wild-type parasites.
Taken together, TelBP1 function illustrates that developmental BES silencing is a fine-tuned process, which involves stage-specific changes in telomere complex formation.
Sex determination (SD) is a complex and diverse developmental process that leads to the decision whether the bipotential gonad anlage will become a testis or an ovary. This mechanism is regulated by gene cascades, networks and/or chromosomal systems, and can be influenced by fluctuations of extrinsic factors like temperature, exposure to hormones and pollution. Within vertebrates, the group of fish show the widest variety of sex determination mechanism. This whole diversity of processes and mechanisms converges to the formation of two different gametes, the eggs and the sperm, the first bigger and static, and the second smaller and motile. Meiosis is crucial for the formation of both types of gametes, and the timing of meiosis entry is one of the first recognizable differences between male and female in vertebrates. The germ cells go into meiosis first in female than in male, and in mammals, this event has been shown to be regulated by retinoic acid (RA). This small polar molecule induces in the germ cells the expression of the pre-meiotic marker Stra8 (stimulated by retinoic acid gene 8), which is necessary for meiosis initiation. Interestingly, genome analyzes have shown that the majority of fish (including medaka) lack the stra8 gene, adding a question mark to the role of RA in meiosis induction in this group. Since a role of RA in entry of meiosis and sexual development of fish is still far from being understood, I investigated in medaka (Oryzias latipes) a possible signaling function of RA during the SD period in embryos and in reproductively active gonads of adults. I generated a transgenic medaka line that reports responsiveness to RA in vivo. With this tool, I compared RA responsiveness with the expression of the main gene involved in the synthesis of RA. My results show that there is a de-correlation between the action of RA with its source. In adults, expression of the RA metabolizing enzymes show sexually dimorphic RA levels, with aldh1a2 levels being higher in testis, and cyp26a1 stronger in female gonad. In ovary, the responsiveness is restricted to the early meiotic oocytes. In testis, RA is acting directly in the pre-meiotic cells, but also in Sertoli and Leydig cells. Treatment experiments on testis organ culture showed that RA pathway activation leads to a decrease in meiosis markers expression levels. During the development, RA responsiveness in the germ cells was observed in both sexes much earlier than the first female meiosis entry. Treatments with RA-synthesis inhibitor show a decrease in meiosis markers expression levels only after the sex differentiation period in female. Expression analyzes of embryos treated with exogenous RA showed induction of dmrt1a at the gonad levels and an increase of amh levels. Both genes are not only involved in male formation, but also in the regulation of germ cell proliferation and differentiation. RA is important in meiosis induction and gametogenesis in adult medaka. However, there is no evidence for a similar role of RA in initiating the first meiosis in female germ cells at the SD stage. Moreover, contrary to common expectation, RA seems to induce sex related genes that are involved indirectly in meiosis inhibition. In this thesis, I showed for the first time that RA can be involved in both induction and inhibition of meiosis entry, depending on the sex and the developmental stage in a stra8-independent model organism.
Latrophilin, alternatively named calcium-independent receptor of α-latrotoxin (CIRL), resembles a prototype of the adhesion class G-protein coupled receptors (GPCRs). Initially identified as a high-affinity receptor for α-latrotoxin, a component of the black widow spider, latrophilins are now associated with various distinct functions, such as synaptic exocytosis, tissue polarity and fertility (Tobaben et al., 2002; Langenhan et al., 2009; Promel et al., 2012). Despite these exploratory efforts the precise subcellular localisation as well as the endogenous ligand of CIRL still remains elusive. In this work genetic experiments, imaging approaches and behavioural studies have been used to unravel the localisation and physiological function of the latrophilin homolog dCirl in Drosophila melanogaster. Containing only one latrophilin homolog together with its genetic accessibility and well-established transgenic approaches, Drosophila seemed an ideally suited model organism. The present study showed that dCirl is widely expressed in the larval central nervous system including moto- and sensory neurons. Further, this work revealed that removal of the latrophilin homolog does not greatly affect synaptic transmission but it seems that aspects of the postsynaptic structural layout are controlled by dCIRL in the fruit fly. Additionally, dCirl expression at the transcriptional level was confirmed in larval and adult chordotonal organs, specialised mechanosensors implicated in proprioception (Eberl, 1999). Expression of dCIRL at the protein level could not yet been confirmed in moto- and sensory neurons likely due to low endogenous expression. However, behavioural studies using dCirl knockout mutant larvae indicated a putative mechanosensory function of dCIRL regarding touch sensitivity and locomotion behaviour.
The second part of this thesis presents a strategy to examine interactions between several presynaptic proteins in living cells. The attempt described in this work is based on the discovery that GFP when split into two non-fluorescent fragments can form a fluorescent complex. The association of the fragments can be facilitated by fusing them to two proteins that interact with each other. Therefore, the split GFP method enables direct visualization of synaptic protein interactions in living cells. In initial experiments I could show that full length reporter protein fusions with n-Synaptobrevin (n-Syb), Synaptotagmin (Syt) and Syntaxin (Syx) allow expression in Drosophila and confirmed that fusion to either end of each synaptic protein did not impair expression or influence the viability of transgenic flies. Further, transgenes containing protein fusions of Syx, Syt, and n-Syb with split GFP fragments were established in previous studies (Gehring, 2010). The present work characterises the interaction of these protein fusions during different stages of synaptic vesicle turnover at active zones such as synaptic vesicle docking at the presynaptic membrane and vesicle fusion. These results suggest that the spGFP assay seems only partly suitable for resolving fast and transient protein-protein interactions at larval Drosophila active zones in vivo.
Marine sponge-associated actinomycetes are considered as promising source for the discovery of novel biologically active compounds. Metabolomics coupled multivariate analysis can efficiently reduce the chemical redundancy of re-isolating known compounds at the very early stage of natural product discovery. This Ph.D. project aimed to isolate biologically active secondary metabolites from actinomycetes associated with different Mediterranean sponges with the assistance of metabolomics tools to implement a rapid dereplication and chemically distinct candidate targeting for further up-scaling compounds isolation.
This study first focused on the recovery of actinomycetes from marine sponges by various cultivation efforts. Twelve different media and two separate pre-treatments of each bacterial extract were designed and applied to facilitate actinomycete diversity and richness. A total of 64 actinomycetes were isolated from 12 different marine sponge species. The isolates were affiliated to 23 genera representing 8 different suborders based on nearly full-length 16S rRNA gene sequencing. Four putatively novel species belonging to the genera Geodermatophilus, Microlunatus, Rhodococcus, and Actinomycetospora were identified based on a sequence similarity <98.5% to validly described 16S rRNA gene sequences. 20% of the isolated actinomycetes was shown to exhibit diverse biological properties, including antioxidant, anti-Bacillus sp., anti-Aspergillus sp., and antitrypanosomal activities.
The metabolomics approaches combined with the bioassay results identified two candidate strains Streptomyces sp. SBT348 and Streptomyces sp. SBT345 for further up-scaling cultivation and compounds isolation. Four compounds were isolated from Streptomyces sp. SBT348. Three of these compounds including the new cyclic dipeptide petrocidin A were previously highlighted in the metabolomics analyses, corroborating the feasibility of metabolomics approaches in novel compounds discovery. These four compounds were also tested against two pathogen microorganisms since the same activities were shown in their crude extract in the preliminary bioassay screening, however none of them displayed the expected activities, which may ascribe to the insufficient amount obtained. Streptomyces sp. SBT345 yielded 5 secondary metabolites, three of which were identified as new natural products, namely strepthonium A, ageloline A and strepoxazine A. Strepthonium A inhibited the production of Shiga toxin produced by enterohemorrhagic Escherichia coli at a concentration of 80 μM, without interfering with the bacterial growth. Ageloline A exhibited antioxidant activity and inhibited the inclusion of Chlamydia trachomatis with an IC50 value of 9.54 ± 0.36 μM. Strepoxazine A displayed antiproliferative property towards human promyelocytic HL-60 cells with an IC50 value of 16 μg/ml.
11
These results highlighted marine sponges as a rich source for novel actinomycetes and further exhibited the significance of marine sponge-associated actinomycetes as promising producers of novel biologically active compounds. The chemometrics coupled metabolomics approach also demonstrated its feasibility and efficacy in natural product discovery.
Das Renin-Angiotensin-Aldosteron-System (RAAS) reguliert den Blutdruck sowie den Elektrolyt- und Wasserhaushalt. Das aktive Peptid, Angiotensin II (AngII), führt dabei zur Vasokonstriktion und in höheren Konzentrationen zu Bluthochdruck. Hypertensive Patienten haben ein erhöhtes Risiko an Krebs zu erkranken, vor allem an Nierenkrebs. Wir konnten bereits in vivo zeigen, dass AngII in der Lage ist, den Blutdruck zu steigern und dosisabhängig zu DNA-Schäden über den Angiotensin II Typ 1-Rezeptor (AT1R) führt. Ein stimuliertes RAAS kann ferner über die Aktivierung der NADPH-Oxidase, einer Hauptquelle der Generierung reaktiver Sauerstoffspezies (ROS) in der Zelle, zu oxidativem Stress führen. Zielsetzung dieser Arbeit war es zum einen, mit Hilfe von AT1a-Rezeptor-defizienten Mäusen in vivo zu prüfen, ob die Bildung von ROS, sowie die Bildung von DNA-Schäden in der Niere und im Herzen unabhängig von einem erhöhten Blutdruck auftreten. Zum anderen sollte, ebenfalls in vivo, untersucht werden, ob eine oder beide von zwei untersuchten Isoformen der NADPH-Oxidase (Nox) für die Auslösung oxidativen Stresses in der Niere verantwortlich ist.
Zunächst wurden für den Versuch zur Überprüfung der Abhängigkeit AngII-induzierter DNA-Schäden vom Blutdruck männliche C57BL/6-Mäuse und AT1a-Knockout (KO)-Mäuse mit osmotischen Minipumpen ausgestattet, die AngII in einer Konzentrationen von 600 ng/kg min über einen Zeitraum von 28 Tagen abgaben. Zusätzlich wurde eine Gruppe von AngII-behandelten Wildtyp (WT)-Mäusen mit dem AT1-Rezeptor-Blocker Candesartan (Cand) behandelt. Während des Versuchszeitraumes fanden regelmäßige, nicht-invasive Blutdruckmessungen an den wachen Mäusen statt. In WT-Mäusen induzierte AngII Bluthochdruck, verursachte erhöhte Albumin-Level im Urin und führte zur Bildung von ROS in Niere und im Herzen. Außerdem traten in dieser Gruppe DNA-Schäden in Form von Einzel- und Doppelstrangbrüchen auf. All diese Reaktionen auf AngII konnten jedoch durch gleichzeitige Behandlung mit Cand verhindert werden. AT1a-KO-Mäuse hatten, verglichen mit WT-Kontrollmäusen, einen signifikant niedrigeren Blutdruck und normale Albumin-Level im Urin. In AT1a-KO-Mäusen, die mit AngII behandelt wurden, konnte kein Anstieg des systolischen Blutdrucks sowie kein Einfluss auf die Nierenfunktion gefunden werden. Jedoch führte AngII in dieser Gruppe zu einer Steigerung von ROS in der Niere und im Herzen. Zusätzlich wurden genomische Schäden, vor allem in Form von Doppelstrangbrüchen signifikant in dieser Gruppe induziert. Auch wenn AT1a-KO-Tiere, unabhängig von einer AngII-Infusion, keine eingeschränkte Nierenfunktion zeigten, so wiesen sie erhebliche histopathologische Schäden im Hinblick auf die Glomeruli und das Tubulussystem auf. Diese Art von Schäden deuten auf eine besondere Bedeutung des AT1aR im Hinblick auf die embryonale Entwicklung der Niere hin. Zusammenfassend beweisen die Ergebnisse dieses Experiments eindeutig, dass eine AngII-induzierte ROS-Produktion und die Induktion von DNA-Schäden unabhängig von einem erhöhten Blutdruck auftreten. Da in der AngII-behandelten AT1a-KO-Gruppe eine signifikant höhere Expression des AT1b-Rezeptors zu finden war und die Blockade von beiden Rezeptorsubtypen mit Cand zu einer Verhinderung der schädlichen Effekte durch AngII führte, scheint der AT1bR im Falle einer AT1aR-Defizienz für die Entstehung der Schäden zuständig zu sein.
Ziel des zweiten Experimentes war es, den Beitrag der Nox2 und Nox4 zum oxidativen DNA-Schaden in vivo zu untersuchen. Hierfür wurden männliche C57BL/6-Mäuse und Nox2- oder Nox4-defiziente Mäuse mit osmotischen Minipumpen ausgestattet, die AngII in einer Konzentration von 600 ng/kg min über einen Zeitraum von 28 Tagen abgaben. Im WT-Stamm und in beiden Nox-defizienten Stämmen induzierte AngII Bluthochdruck, verursachte erhöhte Albumin-Level im Urin und führte zur Bildung von ROS in der Niere. Außerdem waren in allen AngII-behandelten Gruppen genomische Schäden, vor allem in Form von Doppelstrangbrüchen, erhöht. Auch in Abwesenheit von AngII wiesen Nox2- und Nox4-defiziente Mäuse mehr Doppelstrangbrüche im Vergleich zu WT-Kontrollmäusen auf. Interessanterweise kompensieren allerdings weder Nox2 noch Nox4 das Fehlen der jeweils anderen Isoform auf RNA-Basis. Aufgrund dieser Ergebnisse schließen wir, dass bislang keine Isoform alleine für die Generierung von oxidativen DNA-Schäden in der Niere verantwortlich gemacht werden kann und dass eine Beteiligung einer weiteren Nox-Isoform sehr wahrscheinlich ist. Möglicherweise könnten aber auch andere ROS-generierende Enzyme, wie Xanthinoxidase oder Stickoxidsynthase involviert sein. Da genomische Schäden in Nieren von Nox2- und Nox4-defizienten Mäusen in Abwesenheit von AngII gegenüber den Schäden in WT-Kontrollmäusen erhöht waren, könnten die beiden Isoformen auch eine schützende Funktion im Bereich von Nierenkrankheiten übernehmen. Da dies aber bislang nur für Nox4 beschrieben ist, ist es wahrscheinlicher, dass das Fehlen von einer der beiden Isoformen eher einen Einfluss auf die Embryonalentwicklung hat. Um dies jedoch abschließend zu klären wäre es sinnvoll mit induzierbaren Knockout-Modellen zu arbeiten, bei denen mögliche entwicklungsbedingte Effekte minimiert werden können.
In dieser Arbeit wird die Photophysik von Einzelphotonenemittern unterschiedlicher Materialklassen, wie Fehlstellen in Diamant und Siliziumcarbid sowie organischer Moleküle bei Raumtemperatur untersucht. Zu diesem Zweck wurde ein hochauflösendes konfokales Mikroskop konzipiert und konstruiert, welches die optische Detektion einzelner Quantensysteme ermöglicht. Zusätzlich werden verschiedene Methoden wie die Rotationsbeschichtung, das Inkjet-Printing und das Inkjet-Etching in Bezug auf die Reproduzierbarkeit und Strukturierbarkeit von organischen Leuchtdioden (OLEDs) verglichen. Im weiteren Verlauf werden die optoelektronischen Prozesse in dotierten OLEDs untersucht, ausgehend von hohen Dotierkonzentrationen bis hin zur Dotierung mit einzelnen Molekülen. Dadurch kann die Exzitonen-Ladungsträger Wechselwirkung auf und in der Umgebung von räumlich isolierten Molekülen analysiert werden.
Mechanisms of visual memory formation in bees: About immediate early genes and synaptic plasticity
(2017)
Animals form perceptual associations through processes of learning, and retain that information through mechanisms of memory. Honeybees and bumblebees are classic models for insect perception and learning, and despite their small brains with about one million neurons, they are organized in highly social colonies and possess an astonishing rich behavioral repertoire including navigation, communication and cognition. Honeybees are able to harvest hundreds of morphologically divergent flower types in a quick and efficient manner to gain nutrition and, back in the hive, communicate discovered food sources to nest mates. To accomplish such complex tasks, bees must be equipped with diverse sensory organs receptive to stimuli of different modalities and must be able to associatively learn and memorize the acquired information. Particularly color vision plays a prominent role, e.g. in navigation along landmarks and when bees identify inflorescences by their color signals. Once acquired, bees are known to retain visual information for days or even months. Numerous studies on visual perception and color vision have been conducted in the past decades and largely revealed the information processing pathways in the brain. In contrast, there are no data available on how the brain may change in the course of color learning experience and whether pathways differ for coarse and fine color learning. Although long-term memory (LTM) storage is assumed to generally include reorganization of the neuronal network, to date it is unclear where in the bee brain such changes occur in the course of color learning and whether visual memories are stored in one particular site or decentrally distributed over different brain domains. The present dissertation research aimed to dissect the visual memory trace in bees that is beyond mere stimulus processing and therefore two different approaches were elaborated: first, the application of immediate early genes (IEG) as genetic markers for neuronal activation to localize early processes underlying the formation of a stable LTM. Second, the analysis of late consequences of memory formation, including synaptic reorganization in central brain areas and dependencies of color discrimination complexity.
Immediate early genes (IEG) are a group of rapidly and transiently expressed genes that are induced by various types of cellular stimulation. A great number of different IEGs are routinely used as markers for the localization of neuronal activation in vertebrate brains. The present dissertation research was dedicated to establish this approach for application in bees, with focus on the candidate genes Amjra and Amegr, which are orthologous to the two common vertebrate IEGs c-jun and egr-1. First the general requirement of gene transcription for visual LTM formation was proved. Bumblebees were trained in associative proboscis extension response (PER) conditioning to monochromatic light and subsequently injected with an inhibitor of gene transcription. Memory retention tests at different intervals revealed that gene transcription is not required for the formation of a mid-term memory, but for stable LTM. Next, the appliance of the candidate genes was validated. Honeybees were exposed to stimulation with either alarm pheromone or a light pulse, followed by qPCR analysis of gene expression. Both genes differed in their expression response to sensory exposure: Amjra was upregulated in all analyzed brain parts (antennal lobes, optic lobes and mushroom bodies, MB), independent from stimulus modality, suggesting the gene as a genetic marker for unspecific general arousal. In contrast, Amegr was not significantly affected by mere sensory exposure. Therefore, the relevance of associative learning on Amegr expression was assessed. Honeybees were trained in visual PER conditioning followed by a qPCR-based analysis of the expression of all three Amegr isoforms at different intervals after conditioning. No learning-dependent alteration of gene expression was observed. However, the presence of AmEgr protein in virtually all cerebral cell nuclei was validated by immunofluorescence staining. The most prominent immune-reactivity was detected in MB calyx neurons.
Analysis of task-dependent neuronal correlates underlying visual long-term memory was conducted in free-flying honeybees confronted with either absolute conditioning to one of two perceptually similar colors or differential conditioning with both colors. Subsequent presentation of the two colors in non-rewarded discrimination tests revealed that only bees trained with differential conditioning preferred the previously learned color. In contrast, bees of the absolute conditioning group chose randomly among color stimuli. To investigate whether the observed difference in memory acquisition is also reflected at the level of synaptic microcircuits, so called microglomeruli (MG), within the visual domains of the MB calyces, MG distribution was quantified by whole-mount immunostaining three days following conditioning. Although learning-dependent differences in neuroarchitecture were absent, a significant correlation between learning performance and MG density was observed.
Taken together, this dissertation research provides fundamental work on the potential use of IEGs as markers for neuronal activation and promotes future research approaches combining behaviorally relevant color learning tests in bees with examination of the neuroarchitecture to pave the way for unraveling the visual memory trace.