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This dissertation is about case competition in headless relatives. Case competition is a situation in which two cases are assigned but only one of them surfaces. One of the constructions in which case competition takes place is in headless relatives, i.e. relative clauses that lack a head. This dissertation has two goals: (i) to give an overview of the data, and (ii) to provide an account for the observed data.
The grammaticality of a headless relative is determined by two aspects. The first aspect concerns which case wins the case competition. In all languages with case competition that I am aware of, this is determined by the case scale in NOM < ACC < DAT. A case more to the right on the scale wins over a case more to the left on the scale. This scale is not specific to case competition in headless relatives, but it can also be observed in syncretism patterns and morphological case containment. I show that that the case scale can be derived from assuming the cumulative case decomposition (cf. Caha 2009). A case wins over another case when it contains all features that the other case contains.
The second aspect of case competition in headless relatives concerns whether the winner of the case competition is allowed to surface when it wins the case competition. The winning case can be either the internal case required by the predicate in the relative clause, or the external case required by the predicate in the main clause. It differs from language to language whether they allow the internal and the external case to surface.
All language types I discuss allow for a headless relative when the internal and the external case match. The unrestricted type of language allows both the internal case and the external case to surface when either of them wins the case competition. Examples of this language type are Old High German, Gothic and Ancient Greek. The internal-only type of language allows only the internal case to surface when it wins the case competition, and it does not allow the external case to do so. An example of this language type is Modern German. The external-only type of language allows only the external case to surface when it wins the case competition, and it does not allow the internal case to do so. To my knowledge, there is no language that behaves like this. The matching type of language allows neither the internal nor the external case to surface when either of them wins the case competition. An example of this language type is Polish.
To account for the data, I set up a proposal that generates the attested patterns and excludes the non-attested ones. I let the variation between languages follow from properties of languages that can be independently observed. By investigating the morphology of the languages, I suggest differences between the lexical entries in the different languages. These different lexical entries ultimately lead languages to be of different types. In my proposal, I assume that headless relatives are derived from light-headed relatives. Light-headed relatives contain a light head and a relative pronoun. In a headless relative either the light head or the relative pronoun is deleted. The necessary requirement for deletion is that the deleted element (either the light head or relative pronoun) is structurally or formally contained in the other element.
I motivate the analysis for the internal-only type of language for Modern German, for the matching type of language for Polish and for the unrestricted type of language for Old High German. I first identify the morphemes that the light heads and relative pronouns in the languages consist of, and then I show to which features each of the morphemes correspond. The crucial difference between the internal-only type of language Modern German and the matching type of language Polish is how the phi and case features are spelled out. In Modern German they are spelled out by a phi and case feature portmanteau, and, in Polish, the same features are spelled out by a phi feature morpheme and a case feature morpheme. Old High German differs from the other two languages in that it has light heads and relative pronouns that are syncretic. I show how these differences in the morphology of the languages ultimately leads to different grammaticality patterns in headless relatives.
Comparing my account to others shows that all proposals account for the case facts using some kind of case hierarchy. The proposals differ in how they model the variation, both in the technical details of the proposal, but more importantly, also in empirical scope and predictions they make.
Experiments on Vibrational Energy Transfer (VET) in proteins contribute to our understanding of fundamental biological processes such as allostery, dissipation of excess energy, and possibly enzymatic catalysis. While these processes have been studied for a long time, many questions remain unanswered. The aim of this work was to expand the application of existing spectroscopic techniques to investigate VET, seeking tailored solutions for the diversity of proteins and amino acid environments. Additionally, new target proteins were to be established to broaden the spectrum of VET experiments towards the role of VET and low-frequency protein modes (LFMs).
To test their suitability as VET sensors, the non-canonical amino acids (ncAAs) Azidoalanine (N3Ala), azido-L-Homoalanine (Aha), p-azido-Phenylalanine (N3Phe), p-cyano-Phenylalanine (CNPhe), and 4-cyano-Tryptophan (CNTrp) were coupled to the VET donor β-(1-azulenyl)-L-Alanine (AzAla) in dipeptides. Their spectral properties were compared using FTIR and VET spectra in H2O, dimethyl sulfoxide, and tetrahydrofuran.
The solvent strongly influences the measured VET signals, which can be explained by the direct interaction of the solvent with the dipeptides. Additionally, the peak time within the subgroups of azide and nitrile sensors increased with the size of the side chain, indicating the dependence between peak time and the distance between VET donor and sensor. When incorporated into a protein, solvent interactions are less dominant. Therefore, Aha, N3Phe, and CNPhe were additionally incorporated at two different positions in the PDZ protein domain and investigated. Due to Fermi resonances, signals from azide sensors are challenging to predict, unlike those of the nitrile sensors.
Overall, the experiments showed that nitrile groups can serve well as VET sensors, as their lower extinction coefficient is compensated for by a narrower bandwidth. This expands the number of potential target proteins, and sensor incorporation can be less disruptive at various protein locations.
Since the VET donor AzAla can inject the energy of a photon into a protein as vibrational energy at a specific location, it can also be used for the targeted excitation of LFMs. If these modes are involved in an enzymatic reaction, a direct influence on activity is expected. This hypothesis has long existed but has not been definitively verified. Some studies have found evidence for the involvement of LFMs in formate dehydrogenase (FDH) catalysis. Therefore, FDH was chosen for the investigation of LFMs in enzymes. This specific system additionally allows the use of a natural VET sensor: it forms a stable complex with NAD+ and N3-, an excellent IR marker. Thus, it provided the opportunity to test low-molecular-weight non-covalent ligands as VET sensors.
After ensuring sufficient AzAla supply through the internal establishment of an enzymatic synthesis, AzAla could be incorporated at various positions in FDH. Despite spectral overlap between free and bound N3-, the latter could be identified by its narrower FWHM. For some variants, no binding could be observed. Circular dichroism spectra showed that these variants structurally deviate slightly from other variants and the wild type (WT). VET could be observed over 22 Å from two regions of the protein to the N3- bound in the active center, at protein concentrations of below 2 mM. Unbound N3- did not generate signals, allowing it to be added in excess ensuring the saturation of the protein in VET experiments.
The activity of FDH WT and four AzAla mutants was investigated under substrate saturation without and with AzAla excitation. In these experiments, a slight reduction in activity under illumination was observed, even for the WT, who is not expected to interact with the excitation light. So far, a difference in sample temperature cannot be excluded as the cause for this decline.
The presented experiments with FDH illustrate the potential of low-molecular-weight ligands as VET sensors, with N3- being particularly attractive due to its simple structure (preventing Fermi resonances) and its high extinction coefficient. Its use can add many metalloproteins as potential targets for VET experiments and allows investigation without a VET sensor ncAA. Additionally, initial experiments were conducted to measure light-dependent FDH activity. By specifically exciting protein LFMs, this project could contribute in the future to answering longstanding questions about the extraordinary catalytic efficiency of enzymes.
In the past decade, the optogenetic toolbox for the manipulation of ion currents and cNMP levels in Caenorhabditis elegans (C. elegans) expanded. However, the implemented tools for cAMP generation were soluble enzymes (euPAC, bPAC, IlaC22 k27 and PaaC) and thus they do not precisely mimic physiological cAMP signalling occurring in microdomains in close proximity to the plasma membrane. Here, cAMP is predominantly generated by membrane-bound adenylyl cyclases, that are located in microdomains together with G protein-coupled receptors (GPCRs), protein kinase A (PKA) and their targets, enabling spatially and temporal regulation of cAMP signalling. For this reason, one aim of this study was to develop and implement membrane bound photoactivatable adenylyl cyclases for the manipulation of cAMP mediated signalling in close proximity to the plasma membrane. For this purpose, the guanylyl cyclase domains of the Blastocladiella and Catenaria Cyclase Opsins (CyclOps) were mutated to adenylyl cyclases either by introducing the mutations E497K and C566D (abbreviated as (A-2x)) or by the mutations E497K, H564D, and C566T (abbreviated as (A-3x)).
To determine the nucleotide specificity switch from GTP to ATP and the extent of light-dependent cAMP generation, the engineered enzymes were expressed in body wall muscle cells of C. elegans and in vitro cNMP measurements using C. elegans extracts were performed. Here, the highest levels of light induced cAMP generation during sustained stimulation (0.5 mW/mm2; 470 nm, 15 min) were detected for the variants BeCyclOp(A-2x), YFP-BeCyclOp(A-2x), and YFP-CaCyclOp(A-2x) (39, 57, 40 nM, respectively), though they did not reach the extent produced by the soluble bPAC (142 nM). In contrast, low magnitudes of generated cAMP were measured for the versions BeCyclOp(A-3x) and CaCyclOp(A-2x) (8 and 7 nM, respectively). Importantly, no obvious residual cGMP and basal activity was ascertained for any of the engineered enzymes.
To assess their potential to trigger and modulate cAMP mediated cholinergic neurotransmission, and to evaluate the influence of cytosolic and membrane proximal optogenetic cAMP generation, the enzymes were expressed in cholinergic motor neurons and compared to the implemented soluble bPAC via locomotion behaviour analysis on solid and in liquid media. Photoactivation of BeCyclOp(A-2x), YFP-BeCyclOp(A-2x), and YFP-CaCyclOp(A-2x) caused similarly enhanced or even more potent behavioural changes (swimming and crawling) as bPAC, whereas a more rapidly decaying response was observed for the bPAC evoked effects. Moreover, an increased diversity of the behavioural output was detected for cytosolic cAMP production by bPAC, i.e. increased bending angles and a decreased body length.
Confocal fluorescence microscopy was performed to examine the expression levels of YFP-tagged enzymes in cholinergic neurons, whereas both YFP-CyclOp(A-2x)s were expressed at similar levels, but 1.4-fold lower relative to the soluble bPAC-YFP. To compare the amount of light-dependent cAMP generation bPAC and BeCyclOp(A-2x) at light conditions that match the conditions of the behavioural experiments (30 s), cAMP measurements using C. elegans extracts were performed, whereas BeCyclOp(A-2x) depicted a 4-fold lower amount of optogenetic cAMP production than the soluble bPAC.
In sum, local (membrane proximal) cAMP generation by the membrane-bound photoactivatable adenylyl cyclases may more specifically activate cAMP dependent neurotransmission of cholinergic motor neurons than cytosolic cAMP generation, i.e. an increased mobilization and priming/docking of synaptic vesicles and an increased filling of the synaptic vesicles with the neurotransmitter acetylcholine and thus an increase in locomotion behaviour.
The optogenetic toolbox for the manipulation of cGMP mediated signalling in C. elegans consisted of the natural membrane-bound BeCyclOp and the artificial soluble bPGC. The latter generates cGMP with low efficiency and slow kinetics (~0.2 cGMP s-1), whereas BeCyclOp enables the production of much larger amounts of cGMP (L/D = 5000) at a high turnover rate (~17 cGMP s-1). Thus, one aim of this thesis was to implement a tool with features in between those of BeCyclOp and bPGC. Several orthologous CyclOps were assessed by Gao et al., 2015 for light-regulated cGMP production by in vitro assays based on the measurement of the cNMP content from CyclOp containing oocyte membranes. Here, CaCyclOp showed the highest ratio of light versus dark activity (L/D = 230) after BeCyclOp, and thus was selected for characterization in C. elegans...
First-principles modeling techniques offer the ability to simulate a wide range of systems under different physical conditions, such as temperature, pressure, and composition, without relying on empirical knowledge. Density functional theory (DFT), a quantum mechanical method, has become an exceptionally successful framework for materials science modeling. Employing DFT makes it possible to gain valuable insights into the fundamental state of a system, enabling the reliable determination of equilibrium crystal structures. Over time, DFT has become an essential tool that can be incorporated into various schemes for predicting the properties of a material related to its structure, insulating/metallic behavior, magnetism, and optics. DFT is regularly applied in numerous fields, spanning from fundamental subjects in condensed matter physics to the study of large-scale phenomena in geosciences. In the latter, the effectiveness of DFT stems from its ability to simulate the properties found on the Earth, other planets, and meteorites, which may pose challenges for their direct study or laboratory investigation.
In this thesis, a comprehensive examination of a family of monosulfides and a perovskite heterostructure was conducted. These materials are relevant for their potential applications in technology, energy harvesting, and in the case of monosulfides, their speculated abundance on the planet Mercury.
Firstly, a DFT approach was used to analyze two non-magnetic monosulfides, CaS and MgS. We determined their structural properties and then focused on the modeling of their reflectivity in the infrared region. The calculation of the reflectivity considered both harmonic and anharmonic contributions. In the harmonic limit, the non-analytic correction was employed to accurately determine the LO/TO splitting, which is necessary to delimit the retstrahlend band, that is, the maximum of the reflectivity. The anharmonic effects given by up to three-phonon and isotopic scatterings, which were included using perturbation theory, primarily smeared the reflectivity spectra edges in the high-wave region.
Secondly, four polymorphs of MnS were studied using a combination of first-principles methods to simulate their antiferromagnetic (AFM) and paramagnetic (PM) states. The integration of DFT+$U$ with special quasirandom structures (SQS) supercells, and occupation matrix control techniques was crucial for achieving convergence, structural optimization accuracy, and obtaining finite energy band gaps and local magnetic moments in the PM phases. The addition of the Hubbard $U$ correction was necessary to treat the highly-correlated Mn $d$-electrons. The success of our approach was clear based on our electronic structure predictions for the PM rock-salt B1-MnS polymorph. Experimentally this phase has been observed to be an insulator, but multiple \emph{ab initio} works resulted previously in metallic behavior. Our computations, on the other hand, predicted insulating and magnetic properties that compare well with available measurements. Additionally, the pressure-field stability of the four MnS polymorphs was studied. In the case of the PM phases, B1-MnS was identified to be the most stable up to about 21 GPa, then transforming into the B31-MnS polymorph. This finding was in close agreement with high-pressure experiments reporting a similar phase transformation. The optical properties of B1-, B4-, and B31-MnS were also simulated. The SQS technique was used to obtain soft-mode-free phonon band structures within the harmonic approximation. Then, the anharmonic effects were included, and the reflectivity was calculated for B1-MnS and B4-MnS. In both cases, a good agreement for the LO/TO splitting was achieved in comparison to experimental results.
Lastly, the oxygen-deficient heterostructure of LaAlO$_{3-\delta}$ /SrTiO$_{3-\delta}$ was investigated also employing DFT+$U$, with a particular emphasis on the potential impact of vacancy clustering at the interface. Six distinct configurations of pairs of vacancies were studied and their energies were compared to find the most stable one. The orbital reconstruction of Ti orbitals was also examined based on their location with respect to the vacancies and the local magnetic moments were calculated. The final results showed that linearly arranged vacancies located opposite to Ti ions give the most energetically stable configuration.
Menschen mit Epilepsie (engl. PWE) haben im Vergleich zur Allgemeinbevölkerung ein erhöhtes Risiko, vorzeitig zu versterben. Der plötzliche, unerwartete Tod bei Epilepsie (engl. Sudden Unexpected Death in Epilepsy, kurz SUDEP) stellt die häufigste epilepsiebedingte Todesursache dar. Obwohl das Thema in Fachkreisen zunehmende Aufmerksamkeit erfährt, die Empfehlung zur SUDEP Aufklärung zunehmend in nationalen Leitlinien aufgenommen wird, und der Patientenwunsch nach einer generellen SUDEP Aufklärung in verschiedenen Studien gezeigt werden konnte, besteht weiterhin ein Informationsdefizit unter PWE. Ursache hierfür scheint insbesondere die Sorge der behandelnden Neurolog*innen zu sein, Menschen mit Epilepsie übermäßig emotional zu belasten und ihre Lebensqualität zu mindern. Diese Studie untersucht sowohl das Vorwissen über SUDEP als auch unmittelbare sowie langfristige Auswirkungen einer SUDEP Aufklärung auf Erwachsene mit Epilepsie. Ziel ist mögliche negative Auswirkungen der Aufklärung sowie Auswirkungen auf das Verhalten aufzudecken. Aus diesem Zweck wählten wir ein prospektives, multizentrisches, longitudinales Studiendesign. Die Daten wurden in halbquantitativen Interviews vor (vor der Aufklärung), unmittelbar nach (nach der Aufklärung) und drei Monate nach (3-Monats Follow-up) der SUDEP Aufklärung erhoben. Um die direkte Vergleichbarkeit zwischen den Zeitpunkten zu ermöglichen wurden folgende validierte Instrumente verwendet: das Neurological Disorders Depression Inventory for Epilepsy (NDDI-E) zur Erfassung depressiver Symptome, der EuroQoL (EQ-5D) zur Erfassung der gesundheitsbezogenen Lebensqualität (HRQoL), eine visuelle Analogskala (VAS) zur Erfassung des allgemeinen Gesundheitszustandes, die revised Epilepsy Stigma Scale (rESS) zur Erfassung der wahrgenommenen Stigmatisierung und die Seizure Worry Scale zur Erfassung anfallsbezogener Sorgen. Insgesamt wurden 236 Teilnehmende (Durchschnittsalter: 39,3 Jahre, Spannweite: 18-77 Jahre, 51,7 % Frauen) in die Studie eingeschlossen. 205 (86,9 %) der Teilnehmenden konnten erneut im Langzeit Follow-up nach drei Monaten befragt werden. Eine der Teilnehmenden verstarb im Zeitraum des Follow-ups an SUDEP. Keines der validierten Instrumente zeigte zwischen den Zeitpunkten vor der Aufklärung und dem 3-Monats Follow-up eine Verschlechterung. Vor der Aufklärung hatten nur 27,5 % der Teilnehmenden von SUDEP gehört, und nur 9,3 % gaben an, diese Informationen von ihrer bzw. ihrem Neurolog*in erhalten zu haben. Nach der Aufklärung gaben mehr als 85 % der Teilnehmenden an, mit der SUDEP Aufklärung zufrieden oder sehr zufrieden zu sein. Drei Viertel der Teilnehmenden gaben an, durch die Aufklärung nicht oder überhaupt nicht belastet zu sein. Mehr als 80 % der Teilnehmenden befürworteten eine generelle SUDEP Aufklärung für alle Menschen mit Epilepsie. Bei dem 3-Monats Follow-up gab die Mehrheit der Teilnehmenden an, keine Verhaltensänderung vorgenommen zu haben, 24,8 % berichteten jedoch von starken Verhaltensänderungen.
Unsere Studie zeigt, dass eine SUDEP Aufklärung keine negativen Auswirkungen auf den allgemeinen Gesundheitszustand, die HRQoL, depressive Symptome, krankheitsbezogene Stigmatisierung oder Sorgen vor Anfällen hat. Insgesamt zeigte sich eine hohe Zustimmung zur SUDEP Aufklärung. Eine generelle SUDEP Aufklärung könnte sich zudem positiv auf die Compliance auswirken und das Mortalitätsrisiko senken. Eine SUDEP Aufklärung bietet allerdings keinen sicheren Schutz vor SUDEP.
Identifizierung und funktionelle Analyse von Pathogenitätsfaktoren in Bartonella bacilliformis
(2023)
Die Carrión-Krankheit ist eine durch Vektoren übertragene vernachlässigte Tropenkrankheit (neglected tropical disease), die in den südamerikanischen Andentälern auf einer Höhe von 600 3.200 m über dem Meeresspiegel vor allem in Peru, aber auch in Ecuador und Kolumbien endemisch ist. Der Erreger dieser Infektionskrankheit ist Bartonella bacilliformis, ein strikt humanpathogenes, Gram-negatives, fakultativ intrazelluläres Stäbchen der Klasse der Alphaproteobakterien. In der akuten Krankheitsphase, die als "Oroya-Fieber" bezeichnet wird, infizieren die Erreger Erythrozyten und verursachen eine schwere akute hämolytische Anämie, hohes Fieber sowie eine ausgeprägte Immunsuppression. Für diese Phase wurden Sterblichkeitsraten von bis zu 88% beschrieben. Dem Oroya-Fieber folgt meist eine chronische Infektion der vaskulären Endothelzellen, bei der durch vaskulo-endotheliale Proliferationen noduläre, Hämangiom-ähnliche, kutane Gefäßläsionen, die als "Verruga peruana" bezeichnet werden, entstehen. Diese beiden Phasen treten in der Regel nacheinander, manchmal aber auch unabhängig voneinander auf. Die Übertragung auf dem Menschen erfolgt durch den Biss infizierter Sandmücken (Lutzomyia spp.), die in den hochgelegenen Regionen der Anden vorkommen. Klimatische Veränderungen führen jedoch zur Expansion des Vektors auf angrenzende Regionen und begünstigen damit die Ausbreitung von B. bacilliformis-Infektionen.
In der Erforschung der Carrión-Krankheit besteht ein erheblicher Wissensmangel zu zahlreichen Aspekten (z. B. Epidemiologie, Infektionsbiologie, Diagnostik, Therapie), wodurch die Entwicklung von potenziellen Diagnostika, Therapeutika oder Vakzinen verhindert wird. Auch wenn frühere Studien zum Ziel hatten, immundominante Proteine für die Entwicklung serodiagnostischer Verfahren und Impfstoffe zu identifizieren, ist bislang kein validierter serologischer Test bzw. ein Impfstoff verfügbar. Daher sollte im ersten Teil dieser Arbeit ein serologischer Test zum Nachweis von anti-B. bacilliformis-Antikörpern entwickelt werden. Hierzu wurde ein Ansatz aus reverser Vakzinologie in Kombination mit einer Analyse heterologer genomischer Expressionsbibliotheken verfolgt, um geeignete immundominante Proteine zu identifizieren. Insgesamt wurden 21 potenziell immundominante Proteine identifiziert, rekombinant produziert, und auf ihre Reaktivität mit B. bacilliformis Patientenseren mittels Immunoblotting analysiert. Von den 21 Antigenkandidaten erwiesen sich 14 als immunreaktiv, die anschließend in einer Lineblot-Analyse mit 26 Serumproben von peruanischen B. bacilliformis Patienten und 96 Serumproben von gesunden deutschen Blutspendern ohne Reisevorgeschichte in Südamerika auf ihren potenziellen Nutzen für serologische Test untersucht wurden. Drei Antigene (Porin-B, Autotransporter-E und hypothetisches Protein-B) erwiesen sich für die Entwicklung eines diagnostischen ELISA als geeignet und wurden in zwei verschiedenen Antigenkombinationen (ELISA 1: Porin-B, Autotransporter-E, ELISA 2: Porin-B, Autotransporter-E, hypothetisches Protein B) verwendet. Um die Leistungsfähigkeit des B. bacilliformis ELISA zu bewerten, wurde eine Receiver-Operating-Characteristic-Analyse durchgeführt. Für die Kombination aus Porin-B und Autotransporter-E lag die Sensitivität des Tests bei 80,8% und die Spezifität bei 94,8%, wohingegen die Kombination aus Porin-B, Autotransporter-E und dem hypothetischem Protein-B in einer Sensitivität von 76,9% und einer Spezifität von 93,8% resultierte. Dieser neu entwickelte ELISA könnte ein nützliches serodiagnostisches Instrument für künftige epidemiologische Studien über B. bacilliformis in endemischen Gebieten darstellen. Darüber hinaus könnten die hier identifizierten immundominanten Antigene eine erste Grundlage für die zukünftige Entwicklung von Impfstoffen für die Prävention Carrión-Krankheit bilden.
Erythrozyten-Invasion und Hämolyse sind wahrscheinlich die wichtigsten Schritte in der Pathogenese der Carrión-Krankheit und verantwortlich für die hohe Sterblichkeitsrate beim Menschen. Genaue mechanistische Kenntnis dieses Prozesses sind entscheidend für die Entwicklung therapeutischer Arzneimittel. Im zweiten Teil dieser Arbeit sollten die in der Hämolyse involvierten Pathogenitätsfaktoren von B. bacilliformis identifiziert werden. Hierzu wurde eine Tn5-Transposonmutagenese in den beiden B. bacilliformis Stämmen KC583 und KC584 durchgeführt. Ein screening nach Hämolyse-defizienten Mutanten führte zur Identifizierung von zwei Pathogenitätsfaktoren: einem Porin (Porin-A) und einer α/β-Hydrolase. Ihre vermutete Funktion im Prozess der Hämolyse wurde durch eine zielgerichtete markerlose Deletion sowie durch genetische Komplementationen in vitro funktionell bestätigt. Dabei zeigte sich, dass Porin-A und die α/β Hydrolase jeweils essenzielle Faktoren für die Hämolyse darstellen. Durch eine in silico-Charakterisierung konnte konservierte biologische Funktionen identifiziert sowie die dreidimensionale Struktur der Proteine vorhergesagt werden. Diese Versuche bilden eine experimentelle Basis, um die Rolle von Porin-A und der α/β-Hydrolase näher untersuchen zu können und um potenzielle (Porin-A und α/β-Hydrolase) Inhibitoren mit anti-hämolytischer und damit therapeutische Wirkung testen zu können.
mRNS ist einer der wichtigsten Informationsträger in lebenden Zellen. Mit ihr wird die in der DNS gespeicherte Information zu aktiven Zellprozessen umgesetzt. Dabei finden erste regulatorische Prozesse, die den Phänotyp eines Organismus bestimmen können, bereits über Strukturelemente auf der mRNS statt. Diese, als Riboschalter bezeichneten Strukturen, können spezifisch, kleine Moleküle binden und dadurch ihre Struktur ändern. Durch diese dynamische Änderung der Struktur, in An- oder Abwesenheit des Liganden, wird reguliert, ob nachfolgende Gene vom Ribosom abgelesen werden können. Der Cd1-Riboschalter aus Clostridium Difficile ist schon während der Transkription aktiv und ein Teil des regulatorischen Netzwerkes, das bestimmt, ob das Bakterium einen mobilen oder stationären Lebensstil einnimmt. Das zentrale Signalmolekül in diesem Netzwerk ist der sekundäre Botenstoff c-di-GMP, der gleichzeitig auch der Ligand des Cd1-Riboschalters ist. In der folgenden Arbeit wurde der zeitliche und strukturelle Ablauf des Cd1 Regulationsmechanismus und die Bindung von c-di-GMP untersucht. Auch ohne einen Riboschalter in der Sequenz ist strukturierte mRNS ein interessanter Forschungsgegenstand. Wie die Covid-19 Pandemie und die Forschungen, mRNS Abschnitte als Krebsmedikamente zu gebrauchen, zeigen, gewinnt RNS immer mehr an Bedeutung für die medizinische Forschung und Anwendung. Mit dieser Motivation im Hintergrund wurden drei weitere RNS Projekte bearbeitet. Im ersten wurde ein 19F-Screening für die Erkennung von RNS bindenden Fragmenten etabliert. Im zweiten wurde ein RNS Doppelstrang untersucht, der mit Hilfe verschiedener, kovalent gebundener Spiropyrane reversibel gefaltet und entfaltet werden sollte. Im abschließenden Projekt wurden im Rahmen der COVID-19-NMR Initiative zwei Sekundärstrukturelemente der Covid-19 RNS untersucht.
Bei der Untersuchung des Cd1-Riboschalters konnten folgende Ergebnisse erzielt werden. Es wird gezeigt, dass die Bindung von c-di-GMP an das Cd1-Aptamer ein konzentrationsabhängiges Magnesiumverhältnis braucht. Dieses Verhältnis wurde ausgehend von initialen Messungen als 1/40 (RNS/Ligand) bestimmt. Spätere ITC Messungen geben aber Hinweise darauf, dass dieses Verhältnis bei niedrigen RNS Konzentrationen höher liegt und bei größeren RNS Konzentrationen niedriger. Die Bestimmung des Start- und Endpunktes der c-di-GMP Bindung wird in Unterkapitel 3.1.2 behandelt. Es wurde ermittelt, dass Cd1 bei 83 Nukleotiden eine alternative schwach Ligand bindende Konformation einnimmt, die wahrscheinlich durch eine P1 Helix bis zum Erreichen von Cd1-87 stabilisiert wird. Ab Cd1-87 bildet sich die reguläre von der Literatur vorhergesagte Bindetasche. Das Ende der c-di-GMP Bindung wird mit Cd1-148 erreicht, auch wenn hier noch Reste der Reportersignale für Bindung zu sehen sind. Diese Reste werden aber aller Wahrscheinlichkeit nach durch eine Cd1-83 entsprechende Konformation der Bindetasche erzeugt. In Kapitel 3.2 wird gezeigt, wie durch NMR Messungen die Zuordnung der Sekundärstruktur des Cd1-Riboschalters vollzogen wurde. Durch diese Messungen konnte bestätigt werden, dass in allen Längen eine P2 und P3 Helix vorhanden ist. Im Aptamer wird die Ligandbindung durch zwei Interaktionen zwischen P2 und P3 stark stabilisiert und der untere Abschnitt der P3 erst dann nicht mehr dynamisch, wenn c-di-GMP gebunden wird. Durch x-filter Experimente und Mutationen konnte nachgewiesen werden, dass C87 das basenpaarende Nukleotid an einem G des Liganden ist. Die Anwesenheit des HP1 Stamms konnte in den Längen 147, 148 und 160 nachgewiesen werden, wobei besonders der Vergleich der NOESY Spektren von Cd1-147 und Cd1-148 die Änderung der Sekundärstruktur hin zum Antiterminator zeigen. Der Verlauf der Bindungsaffinitäten wurde auch durch ITC Messungen an Cd1-83, 86, 87, 88, 135 und 146 bestätigt. Für die volle Länge (Cd1-160) des Riboschalters konnte gezeigt werden, dass der Terminatorstamm ausgeformt ist. Die erreichten Ergebnisse wurden in einem Modell zusammengefasst und der zeitliche Verlauf der Cd1 Regulation simuliert. Aus der Simulation ist zu erkennen, dass Cd1, wie erwartet, Ligand abhängig schaltet. Dabei ist der Aus-Zustand bei hoher Ligandkonzentration zu 90% populiert und der An-Zustand zu 100% bei niedriger Konzentration. Des Weiteren konnte gezeigt werden, dass die Transkriptionsgeschwindigkeit bei hohen Ligandkonzentrationen einen starken Einfluss auf die Regulationseffizienz des Riboschalters hat. So ist bei einer Transkriptionsgeschwindigkeit von 100 nt/s nach 1 s eine Gleichverteilung von An- und Aus-Zustand zu erkennen. Dieses Verhalten kann durch einen Stopp der Transkription an der potentiellen Pausierstelle U141-145 aufgehoben werden. Unter den Rahmenbedingungen des Modells erwiesen sich Transkriptionsgeschwindkeiten von um die 20 nt/s als optimal und bei niedrigen Ligandkonzentrationen hatte die Transkriptionsgeschwindigkeit faktisch keine Auswirkungen auf die Regulation. Ein interessantes Ergebniss der Modellierung ergab sich aus der Notwendigkeit der Verwendung einer Rate für konkurrenzlose Basenpaarschließungen. Hier konnte gezeigt werden, dass eine Rate von 400 nt/s ausreicht um einen voll funktionsfähigen Riboschalter zu beschreiben.
Beim 19F Bindungsscreenings von 101 Fragmenten, die alle ein oder mehrere 19F Atome besaßen, an Cd1-98 wurden 9 Fragmente gefunden die an Cd1-98 binden. Diese sind größtenteils planar mit Ausnahme von 2 Fragmenten bei denen die eine Hälfte des Moleküls nicht aromatisch ist. Des Weiteren besitzen alle Fragmente, außer einem, mindestens eine Aminogruppe im Molekül. Die daraus resultierende Vermutung, dass die Fragmente in die RNS interkalieren, konnte durch RNS beobachtende NMR Messungen nicht überprüft werden, da keine Signaländerung im Imino-Bereich zu erkennen war. Durch Verdrängungsexperimente konnte gezeigt werden, dass die Fragmente, nicht wie c-di-GMP, die RNS Faltung homogenisieren und auch nicht in der Bindetasche gebunden werden.
Our mind has the function of representing the physical and social world we are in, so that we can efficiently interact with it. This results in a constant and dynamic interaction between mind and world that produces a balance when representations are at the same time accurate with respect to what the world is communicating to our organism, but also compatible with how our mind works.
A paradigmatic case of this interaction is offered by perception, which is the mental function that represents contingent aspects of the world built from what is captured by our senses. Indeed, the dominant philosophical view in cognitive science is that our perceptual states are representations of the world and not direct access to that world. These representational perceptual states therefor include the aspects of the world they represent and that initiate the perception by stimulating our sensory organs.
Perceptual representations are built using information from the sensory system, i.e., bottom-up information, but are also integrated with information previously acquired, i.e., top-down information, so that perception interacts with memory through language and other mental functions. Such organization is believed to reflect a general mechanism of our mind/brain, which is to acquire and use information to make efficient predictions about the future, continuously updating older information with present information.
This predictive processing works because the world is not random, but shows a regular structure from which reliable expectations can be built. One way that our minds make these predictions is by adapting to the structure of the world in an implicit, automatic and unconscious way, a process that has been called Implicit Statistical Learning (ISL). ISL is a learning process that does not require awareness and happens in an incidental and spontaneous way, with mere exposure to statistical regularities of the world. It is what happens when we learn a language during early childhood, and that allows us to be implicitly sensitive to the phonological structure of speech, or to associate speech patterns with objects and events to learn word meaning.
A specific case of ISL is the learning of spatial configuration in the visual world, which we apply to abstract arrays of items, but most importantly, also to more ecological settings such as the visual scenes we are immersed in during our everyday life. The knowledge we acquire about the structure of visual scenes has been called “Scene Grammar”, because it informs about presence and position of objects in a similar way to what linguistic grammar tells us about the presence and position of words. So, we implicitly acquire the semantics of scenes, learning which objects are consistent with a certain scene, as well as the syntax of scenes, learning where objects are positioned in a consistent way within a certain scene.
More recent developments have proposed that scene grammar knowledge might be organized based on a hierarchical system: objects are arranged in the scene, which offers the more general context, but within a scene we can identify different spatial and functional clusters of objects, called “phrases”, that offer a second level of context; within every phrase, then, objects have different status, with usually one object (“anchor object”) offering strong prediction of where and which are the other objects within the phrase (“local objects”). However, these further aspects of the organization of objects In scenes remain poorly understood.
Another problem relates to the way we measure the structure of scenes to compare the organization of the visual world with the organization in the mind. Typically, to decide if an object appears or not in a certain scene, and whether or not it appears in a certain position within a scene, researchers based their decision on intuition and common-sense, maybe validating those decisions with independent raters. But it has been shown that often these decisions can be limited and more complex information about objects’ arrangement in scenes can be lost.
A potential solution to this problem might be using large set of real-world images, that have annotations and segmentations of objects, to measures statistics about how objects are arranged in the environment. This idea exploits the nowadays larger availability of this kind of datasets due to increasing developments of computer vision algorithms, and also parallels with the established usage of large text corpora in language research.
The goals of the current investigation were to extract object statistics from this image datasets and test if they reliably predict behavioural responses during object processing, as well as to use these statistics to investigate more complex aspects of scene grammar, such as its hierarchical organization, to see if this organization is reflected in the organization of objects in our mind.
Climatology of morphology and cloud-radiative properties of marine low-level mixed-phase clouds
(2023)
Marine stratocumuli cover about 40 - 60% of the ocean surface. They self-organize into different morphological regimes. The two organized cellular regimes are called open and closed mesoscale-cellular convective (MCC) clouds. In mid-to-high latitudes, open and closed cells are the two most frequent types of MCC clouds. In particular, many MCC clouds consist of a mixture of vapor, liquid droplets, and ice particles, referred to as mixed-phase clouds (MPCs). Even for the same cloud fraction, the albedo of open cells is, on average, lower than that of closed MCC clouds. Cloud phase and morphology individually influence the cloud radiative effect. Thus, this thesis investigates the relationships between the cloud phase, MCC organization, cell size, and differences regarding the cloud-radiative effect.
This thesis focuses on space-borne retrievals to achieve extensive temporal and spatial coverage. The liDAR-raDAR (DARDAR) version 2 product collocates two active and one passive satellite: CloudSat, Cloud-Aerosol Lidar and Infrared Pathfinder Satellite Observations (CALIPSO), and Moderate Resolution Imaging Spectroradiometer (MODIS). The cloud phase of DARDAR is vertically integrated to establish a single cloud phase at each data point. The MCC classification data set based on the liquid water path (LWP) of MODIS scenes is collocated with the DARDAR product to determine the MCC organization. Cell-size statistics of both MCC clouds are obtained using a marker-based image segmentation method on MODIS reflectance scenes. In addition, based on MODIS reflectance scenes, a convolutional neural network (CNN) is developed to classify open and closed MCC scenes to avoid missing mature MPCs with a low LWP.
The first part of this thesis explores the relationships between cloud phase, morphology, and cloud albedo in the Southern Ocean (SO). At a given cloud-top temperature (CTT), seasonal changes in the mixed-phase fraction, defined as the number of MPCs divided by the sum of MPC and supercooled liquid cloud (SLC) pixels, are stronger than the morphological changes. Therefore, external factors seem to influence these changes instead of morphology. The dependence of cloud phase on cloud-top height (CTH) is more substantial than on CTT in clouds with CTHs below 2.5 km. The previously observed acceleration of closed-to-open transition in MPCs, known as preconditioning, is not the primary driver of climatological cloud morphology statistics in the SO. The morphological differences in cloud albedo are more pronounced in SLCs than in MPCs. This change in albedo alters the cloud radiative effect in the SO by 21Wm−2 to 39Wm−2 depending onseason and cloud phase.
Open and closed MCC clouds exhibit larger equivalent cell diameters in the MPCs than in SLCs in austral summer, whereas, in austral winter, the SLCs are larger. The cell’s aspect ratio accounts for varying CTHs. Closed cells have smaller aspect ratios than open cells, so their cell diameter is smaller, independent of CTH. While the seasonal differences in closed cells are due to changes in CTH, the seasonal aspect ratio differences in open cells are mainly caused by MPCs. With increasing aspect ratios, the cloud albedo decreases in both open and closed MCC clouds, with the most substantial decrease in open MPCs clouds. This leads to cloud-radiative changes of 60 - 75Wm−2 in the SO, depending on cloud phase and aspect ratio.
The established CNN exhibits a good accuracy of 80.6%, with even higher accuracies in the Open (85.5%) and Closed (87.3%) categories. The global MCC climatology based on the CNN generally agrees well with previous MCC distributions. The most notable difference occurs in the Northern Hemisphere (NH) in boreal winter, with a higher occurrence frequency of closed and open MCC clouds. This might indicate missing MPCs in previous studies based on the LWP and some restricted to warm cloud scenes. Thus, the developed CNN seems to better represent the different morphologies in MPCs than in previous classifications.
In conclusion, this thesis shows that understanding the dependencies of cloud phase, cloud morphology, and cell size is important to enhance predictions of the cloud-radiative effect and thus, it is important to evaluate how cloud phase, cloud morphology, and cellsize change in a warming climate.
This study examines the political contestation among Malay Professional Satirists (MPS) through their selected political satire works between 2011-2018. Political satire challenges those in power and is often regarded as fake news and libel. Therefore, political satirists tend to be frequently subject to legal action and are accused of disrupting national harmony. However, there is another group within the social and cultural community, which I call Social and Cultural Professionals (SCP), who also use satire but are supported by the government. This group frequently received financial benefits from the state and are at lower risk of suffering legal consequences. These contrasting conditions raise several important questions: who are the Malaysian Professional Satirists? Who are the targets of MPS in their satirical work? Why do MPS satirise them? And why do the MPS still produce political satire despite the potential legal consequences? Therefore, this study attempts to identify the characters, themes, and issues the MPS highlight; it also considers the reasons and motivations that political satirists have for creating such allegedly controversial works. Malaysia’s Reformasi movement and the booming use of the internet in 1998 mobilised multiple alternative social movements, mainly through art-related activities. Art workers, NGOs, as well as musical and cultural groups, protested creatively against the UMNO-BN ruling regime. Creative protests that employed satire and humour somehow succeeded in attracting a significant proportion of the public to follow political and current issues, especially youths in universities who had been depoliticised with the inception of the University and University College Act (AUKU 1979). This study establishes a point of view that political satire is a fun, loose, free form of resistance, contrasting with formal procedural democracy. The previous literature proposes that the study of Malaysia’s political system should focus on formal political procedures, especially election and representation. However, the study of political satire vis-à-vis democratisation is often neglected and thus such studies are scarce, which might have resulted from how satire is strictly discussed in terms of language and media. There has been a growing interest in how satirist and satirical works are regarded; hence, this study attempts to fill a gap in research on political satire in Malaysia. In contrast, democratisation is often discussed in terms of history, politics, anthropology, sociology, and economics. This qualitative study presents a comprehensive account of interviews with four (4) art workers identified as MPS, as based on appropriate criteria. Each informant had either partaken in alternative social movements or faced legal action from authorities or, indeed, both. In this study, the Theory of Contestation and Two-Social Reality serves as a primary framework to lead to an understanding of the contestation of power in Malaysia through political satire. This study further intends to broaden the knowledge of political satire and humour in the study of democratisation, adding to the existing literature, particularly outside formal political procedures.