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This thesis has two main parts.
The first part is based on our publication [1], where we use perturbation theory to calculate decay rates of magnons in the Kitaev-Heisenberg-Γ (KHΓ) model. This model describes the magnetic properties of the material α-RuCl 3 , which is a candidate for a Kitaev spin liquid. Our motivation is to validate a previous calculation from Ref. [2]. In this thesis, we map out the classical phase diagram of the KHΓ model. We use the Holstein-Primakoff
transformation and the 1/S expansion to describe the low temperature dynamics of the Kitaev-Heisenberg-Γ model in the experimentally relevant zigzag phase by spin waves. By parametrizing the spin waves in terms of hermitian fields, we find a special parameter region within the KHΓ model where the analytical expressions simplify. This enables us to construct the Bogoliubov transformation analytically. For a representative point in the special parameter region, we use these results to numerically calculate the magnon damping, which is to leading order caused by the decay of single magnons into two. We also calculate the dynamical structure factor of the magnons.
The second part of this thesis is based on our publication [3], where we use the functional renormalization group to analyze a discontinuous quantum phase transition towards a non-Fermi liquid phase in the Sachdev-Ye-Kitaev (SYK) model. In this thesis, we perform a disorder average over the random interactions in the SYK model. We argue that in the thermodynamic limit, the average renormalization group (RG) flow of the SYK model is identical to the RG flow of an effective disorder averaged model. Using the functional RG, we find a fixed point describing the discontinuous phase transition to the non-Fermi liquid phase at zero temperature. Surprisingly, we find a finite anomalous dimension of the fermions, which indicates critical fluctuations and is unusual for a discontinuous transition. We also determine the RG flow at zero temperature, and relate it to the phase diagram known from the literature.
Das Capillary-Leak-Syndrom (CLS) präsentiert sich als plötzlicher Verlust von intravasaler Flüssigkeit ins Interstitium und kann als Komplikation nach einer Stammzelltransplantation (SZT) auftreten. Das Ziel der vorliegenden Studie war es, die CLS-Inzidenz, Risikofaktoren für das Auftreten und den Einfluss auf das Überleben nach SZT in einer pädiatrischen Kohorte allogener SZT-Empfänger zu bestimmen. Wir untersuchten die klinischen Berichte aller Patienten unter 18 Jahren, die in der Abteilung für Stammzelltransplantation der Klinik für Kinder- und Jugendmedizin des Universitätsklinikums Frankfurt am Main zwischen Januar 2002 und Mai 2012 allogen stammzelltransplantiert wurden. 234 Patienten erhielten 275 SZT im oben genannten Zeitraum. In 15 Fällen (5,5 %) entwickelten Patienten ein CLS.
Bedingung für die Vergabe der CLS-Diagnose war das Vorhandensein dieser drei Kriterien: Gewichtszunahme von über 3 % des Körpergewichts in 24 Stunden, positive Ein-/Ausfuhrbilanz trotz Diuretikagabe und Ödeme.
Die Wahrscheinlichkeit, ein CLS zu entwickeln war signifikant höher bei Patienten, die auch unter einer Sepsis litten (p < 0,001). Patienten mit CLS hatten zudem ein höheres Risiko innerhalb der ersten 30 Tage nach SZT an einer GvHD zu erkranken (p = 0,005).
10 der 15 CLS-Patienten mussten intensivmedizinisch behandelt werden.
CLS hängt signifikant mit dem Gesamtüberleben an Tag + 100 und Tag + 365 nach SZT zusammen (p < 0,001), indem es einen starken prädiktiven Faktor für die TRM an Tag + 100 und Tag + 365 nach SZT darstellt (p < 0,001).
CLS ist eine schwere Komplikation bei pädiatrischen SZT-Empfängern. Der biologische Zusammenhang zwischen Sepsis, GvHD und CLS-Entwicklung im Hinblick auf Zytokinfreisetzung und Endothelschaden sollte in weiteren Studien untersucht werden, um neue zielgerichtete Therapien zu unterstützen.
The relevant field of interest in High Energy Physics experiments is shifting to searching and studying extremely rare particles and phenomena. The search for rare probes requires an increase in the number of available statistics by increasing the particle interaction rate. The structure of the events also becomes more complicated, the multiplicity of particles in each event increases, and a pileup appears. Due to technical limitations, such data flow becomes impossible to store fully on available storage devices. The solution to the problem is the correct triggering of events and real-time data processing.
In this work, the issue of accelerating and improving the algorithms for reconstruction of the charged particles' trajectories based on the Cellular Automaton in the STAR experiment is considered to implement them for track reconstruction in real-time within the High-Level Trigger. This is an important step in the preparation of the CBM experiment as part of the FAIR Phase-0 program. The study of online data processing methods in real conditions at similar interaction energies allows us to study this process and determine the possible weaknesses of the approach.
Two versions of the Cellular Automaton based track reconstruction are discussed, which are used, depending on the detecting systems' features. HFT~CA Track Finder, similar to the tracking algorithm of the CBM experiment, has been accelerated by several hundred times, using both algorithm optimization and data-level parallelism. TPC~CA Track Finder has been upgraded to improve the reconstruction quality while maintaining high calculation speed. The algorithm was tuned to work with the new iTPC geometry and provided an additional module for very low momentum track reconstruction.
The improved track reconstruction algorithm for the TPC detector in the STAR experiment was included in the HLT reconstruction chain and successfully tested in the express production for the online real data analysis. This made it possible to obtain important physical results during the experiment runtime without the full offline data processing. The tracker is also being prepared for integration into a standard offline data processing chain, after which it will become the basic track search algorithm in the STAR experiment.
This Ph. D. thesis with the title "Characterisation of laser-driven radiation beams: Gamma-ray dosimetry and Monte Carlo simulations of optimised target geometry for record-breaking efficiency of MeV gamma-sources" is dedicated to the study of the acceleration of electrons by intense sub-picosecond laser pulses propagating in a sub-millimeter plasma with near-critical electron density (NCD) and resulting generation of the gamma bremsstrahlung and positrons in the targets of different materials and thickness.
Laser-driven particle acceleration is an area of increasing scientific interest since the recent development of short pulse, high-intensity laser systems. The interaction of intense high-energy, short-pulse lasers with solid targets leads to the production of high-energy electrons in the relativistic laser intensity regime of more than 1018 W /cm2. These electrons play the leading role in the first stage of the interaction of laser with matter, which leads to the creation of laser sources of particles and radiation. Therefore, the optimisation of the electron beam parameters in the direction of increasing the effective temperature and beam charge, together with a slight divergence, plays a decisive role, especially for further detection and characterisation of laser-driven photon and positron beams.
In the context of this work, experiments were carried out at the PHELIX laser system (Petawatt High-Energy Laser for Heavy Ion eXperiments) at GSI Helmholtz Center for Heavy-Ion Research GmbH in Darmstadt, Germany. This thesis presents a thermoluminescence dosimetry (TLD) based method for the measurement of bremsstrahlung spectra in the energy range from 30 keV to 100 MeV. The results of the TLD measurements reinforced the observed tendency towards the strong increase of the mean electron energy and number of super-ponderomotive electrons. In the case of laser interaction with long-scale NCD-plasmas, the dose caused by the gamma-radiation measured in the direction of the laser pulse propagation showed a 1000-fold increase compared to the high contrast shots onto plane foils and doses measured perpendicular to the laser propagation direction for all used combinations of targets and laser parameters.
In this thesis I present novel characterisation method using a combination of TLD measurements and Monte Carlo FLUKA simulations applicable to laser-driven beams. The thermoluminescence detector-based spectrometry method for simultaneous detection of electrons and photons from relativistic laser-induced plasmas initially developed by Behrens et al. (Behrens et al., 2003) and further applied in experiments at PHELIX laser (Horst et al., 2015) delivered good spectral information from keV energies up to some MeV, but as it was presented in (Horst et al., 2015) this method was not really suitable to resolve the content of photon spectra above 10 MeV because of the dominant presence of electrons. Therefore, I created new evaluation method of the incident electron spectra from the readings of TLDs. For this purpose, by means of MatLab programming language an unfolding algorithm was written. It was based on a sequential enumeration of matching data series of the dose values measured by the dosimeters and calculated with of FLUKA-simulations. The significant advantage of this method is the ability to obtain the spectrum of incident electrons in the low energy range from 1 keV, which is very difficult to measure reliably using traditional electron spectrometers.
The results of the evaluation of the effective temperature of super-ponderomotive electrons retrieved from the measured TLD-doses by means of the Monte-Carlo simulations demonstrated, that application of low density polymer foam layers irradiated by the relativistic sub-ps laser pulse provided a strong increase of the electron effective temperature from 1.5 - 2 MeV in the case of the relativistic laser interaction with a metallic foil up to 13 MeV for the laser shots onto the pre-ionized foam and more than 10 times higher charge carried by relativistic electrons.
The progressive simulation method of whole electron spectra described with two -temperatures Maxwellian distribution function has been developed and the results of dose simulations were compared with the acquired experimental data. The advanced feature of this method, which distinguishes it from the results of the simulation of the photon spectrum using the interaction with the target of mono-energetic electron beams (Nilgün Demir, 2013; Nilgün Demir, 2019) or the initial electron spectrum expressed as a function of one electron temperature (Fiorini, 2012), is the ability to simulate the initial electron spectrum described by the Maxwellian distribution function with two temperatures.
The important objective of this thesis was dedicated to the study and characterisation of laser-driven photon beams. In addition to this, the positron beams were evaluated. The investigation of bremsstrahlung photons and positrons spectra from high Z targets by varying the target thickness from 10 µm to 4 mm in simulated models of the interactions of electron spectra with Maxwellian distribution functions allowed to define an optimal thickness when the fluences of photons and positrons are maximal. Furthermore based on the results of FLUKA simulations the gold material was found to be the most suitable for the future experiments as e − γ target because of its highest bremsstrahlung yield.
Additionally Monte Carlo simulations were performed applying the obtained electron beam parameters from the electron acceleration process in laser-plasma interactions simulated with particle-in-cell (PIC) code for two laser energies of 20 J and 200 J. The corresponding electron spectra were imported into a Monte Carlo code FLUKA to simulate the production process of bremsstrahlung photons and positrons in Au converter. FLUKA simulations showed the record conversion of efficiency in MeV gammas can reach 10%, which reinforces the generation of positrons. The obtained results demonstrate the advantages of long-scale plasmas of near critical density (NCD) to increase the parameters of MeV particles and photon beams generated in relativistic laser-plasma interaction. The efficiency of the laser-driven generation of MeV electrons and photons by application of low-density polymer foams is essentially enhanced.
Adhesion to host cells is the first and most crucial step in infections with pathogenic Gram negative bacteria and is often mediated by trimeric autotransporter adhesins (TAAs). TAA-producing bacteria are the causative agent of many human diseases and TAA targeted anti-adhesive compounds might counteract such bacterial infections. The modularly structured Bartonella adhesin A (BadA) is one of the best characterised TAAs and serves as an attractive adhesin to study the domain-function relationship of TAAs during infection. BadA is a major virulence factor of B. henselae and is essential for the initial attachment to host cells via adhesion to extracellular matrix proteins. B. henselae is the causative agent of cat scratch disease and adheres to fibronectin using its long BadA fibres. The life cycle of this pathogen, with alternating host conditions, drives evolutionary and host-specific adaptations.
Human, feline, and laboratory adapted B. henselae isolates display genomic and phenotypic differences. By analysing the genomes of eight B. henselae strains using long-read sequencing, a variable genomic badA island with a diversified and highly repetitive badA gene flanked by badA pseudogenes was identified. Moreover, numerous conserved flanking genes were characterised, however, their influence on the regulation of badA expression and modification remains to be explored. It seems that B. henselae G 5436 is the evolutionary ancestor of the other B. henselae strains analysed in this work. The diversity of the badA island among the B. henselae strains indicates that the downstream badA-like domain region might be used as a ‘toolbox’ for rearrangements in the badA gene. Overall, it is suggested that badA-domain duplications, insertions, and/or deletions are the result of active phase variation via site-specific recombination and contribute to rapid host adaptation in the scope of pathogenicity, immune evasion, and/or enhanced long-term colonisation.
The model strain B. henselae Marseille expresses a badA gene that includes 30 repetitive neck/stalk domains, each consisting of several predicted structural motifs. To further elucidate the motif sequences that mediate fibronectin binding, various modified badA constructs were generated. Their ability to bind fibronectin was assessed via whole-cell ELISA and fluorescence microscopy. In conclusion, it is suggested that BadA adheres to fibronectin in a cumulative fashion with quick saturation via unpaired β-strands appearing in structural motifs present in BadA neck/stalk domains 19, 27, and other homologous domains. Furthermore, antibodies targeting a 15-mer amino acid sequence in the DALL motif of BadA neck/stalk domain 27 were able to reduce fibronectin binding of the B. henselae mutant strain S27. Moreover, this DALL motif sequence is conserved in the genome of all analysed B. henselae strains. The identification of common binding motifs between BadA and fibronectin supports the development of new anti-adhesive compounds that might inhibit the initial adherence of B. henselae and other TAA-producing pathogens during infection.
Characteristics of critical incident reporting systems in primary care: an international survey
(2022)
Aim: The aim of the study was to support the development of future critical incident reporting systems (CIRS) in primary care by collecting information on existing systems. Our focus was on processes used to report and analyse incidents, as well as strategies used to overcome difficulties.
Methods: Based on literature from throughout the world, we identified existing CIRS in primary care. We developed a questionnaire and sent it to operators of a purposeful sample of 17 CIRS in primary care. We used cross-case analysis to compare the answers and pinpoint important similarities and differences in the CIRS in our sample.
Results: Ten CIRS operators filled out the questionnaire, and 9 systems met the inclusion criteria. The sample of CIRS came from 8 different countries and was rather heterogeneous. The reporting systems invited a broad range of professions to report, with some also including reports by patients. In most cases, reporting was voluntary and conducted via an online reporting form. Reports were analysed locally, centrally, or both. The various CIRS used interesting ideas to deal with barriers. Some, for example, used confidential reporting modes as a compromise between anonymity and the need for follow-up investigations, whereas others used smartphone applications and call centres to speed up the reporting process.
Conclusion: We found multiple CIRS that have operated in primary care for many years, have received a high number of reports and were largely developed in accordance with recommendations found in literature. Although primary care in Germany differs from other countries, these CIRS could serve as an inspiration for CIRS in German primary care.
Lipopolysaccharide (LPS) is a major glycolipid component in the outer leaflet of the outer membrane of Gram-negative bacteria and known as endotoxin exhibited by the lipid A moiety, which serves as a membrane anchor. The effective permeability barrier properties of the outer membrane contributed by the presence of LPS in the extracellular layer of the outer membrane confer Gram-negative bacteria a high resistance against hydrophobic compounds such as antibiotics, bile salts and detergents to survive in harsh environments. The biogenesis of LPS is well studied in Escherichia coli (herewith E. coli) and the LPS transport (Lpt) is carried out by a transenvelope complex composed of seven essential proteins (LptABCDEFG), which are located in the three compartments of the cell such as the outer membrane, the inner membrane and the periplasm. The Lpt system also exists in Anabaena sp. PCC 7120 (herewith Anabaena sp.), however, homologues of LptC and LptE are still missing. BLAST search failed to identify a homologue of LptC, in contrast, the secondary structure analysis using the Pfam database based on the existing ecLptC secondary structure identified one open reading frame All0231 as the putative Anabaena sp. homologue of LptC, which is designated anaLptC. Despite the low sequence similarity, the secondary structure alignment between anaLptC and ecLptC using the HHpred server showed that both proteins share high secondary structural similarities. The genotypic analysis of the insertion mutant anaLptC did not identify a fully segregated genome and its phenotypic analysis revealed that it was sensitive against chemicals, suggesting that the analptC gene is essential for the growth of Anabaena sp. and involved in the outer membrane biogenesis. This is further supported by the observation of the small cell phenotype in the anaLptC mutant via transmission electron microscopy. Moreover, physical interactions between the anaLptC periplasmic domain with anaLptA as well as with anaLptF were established, indicating that the anaLptC periplasmic domain is correctly folded and alone functional and that the transmembrane helix is not required for the interaction with anaLptA and anaLptF. Furthermore, the reduction of the O-antigen containing LPS was observed in the insertion mutant anaLptC and the dissociation constant Kd of the anaLptC periplasmic domain for ecLPS was determined.The three-dimensional structure of the periplasmic domain of anaLptC was solved by X-ray crystallography with a resolution of 2.8 Å. The structural superposition between the ecLptC crystal structure (PDB number 3my2) and the crystal structure of anaLptC periplasmic domain obtained by this study showed the similarity in the folding of the two proteins with a Cα r.m.s.d value of about 1 Å and confirmed that the length of anaLptC is more than two times longer than that of ecLptC. The structural comparison also revealed that both structures share the typical β-jellyroll fold and conserved amino acids, which were shown in ecLptC to bind to LPS in vivo and found in anaLptC. Overall, these data strongly suggest that anaLptC is involved in the transport of LPS and support the model whereby the bridge spanning the inner membrane and the outer membrane would be assembled via interactions of the structurally conserved β-jellyroll domains shared by five (LptACDFG) out of seven Lpt proteins.
Zika-virus (ZIKV), a flavivirus mainly transmitted by Aedes mosquitoes, is a single-stranded, positive-sense RNA virus. The viral genome is surrounded by a nucleocapsid and a lipid bilayer, in which membrane and envelope proteins are embedded. ZIKV disease is mainly characterized by mild symptoms, such as fever, rash as well as pain in head and joints. However, after epidemics it caused in the Americas in 2015/16, ZIKV infections were also associated with severe neurological complications like the Guillain-Barré syndrome (GBS) and microcephaly in fetuses and newborns. So far there are no specific antiviral treatments or vaccines available against ZIKV. This strengthens the need for a detailed understanding of the viral life cycle and virus-host interactions.
The antiviral host factor tetherin (THN) is an interferon-stimulated protein and therefore part of the cellular innate immune response. It comprises an N-terminal cytoplasmic domain, followed by a transmembrane helix, an extracellular coiled-coil domain and a C-terminal glycosylphosphatidylinositol (GPI) anchor. Containing two sites for membrane insertion linked by a flexible structure, THN is able to integrate into the membrane of budding viruses, thereby attaching them to each other and to the cell membrane and preventing their further release and spread.
In this study, the crosstalk of ZIKV and THN was analyzed. Previous gene expression analyses by microarray and quantitative polymerase chain reaction (qPCR) had revealed a strong upregulation of the BST2 gene encoding for THN in ZIKV-infected cells. However, this enhanced expression did not correlate with an enhanced THN protein level. On the contrary, the amount of THN in THN-overexpressing cells was after infection even heavily reduced. Furthermore, immunofluorescence analyses revealed a loss of THN membrane localization in these cells. By performing a cycloheximide assay, this loss could be traced back to a reduced protein half-life of THN in infected versus uninfected cells. Treatment with inhibitors of different protein degradation pathways as well as colocalization analyses with markers of several subcellular compartments indicated an involvement of the endo-lysosomal route. A knock-down of the ESCRT-0 protein HRS however prevented the sorting of THN for lysosomal degradation and led to a stabilization of THN protein levels. After HRS depletion, the release and spread of viral particles was reduced in THN-overexpressing compared to wildtype cells.
Taken together, the data obtained in this study revealed the potential of THN to restrict ZIKV release and spread. The enhanced degradation of THN in ZIKV-infected cells via the endo-lysosomal pathway could therefore be explained as an effective viral escape strategy. This could be circumvented by knockdown of the ESCRT-0 protein HRS, which highlighted HRS as a potential target for the development of antiviral treatments.
In dieser Arbeit wurden zur Funktionsanalyse gelagerter ThZ zwei ex vivo Messverfahren verwendet, die unterschiedliche Qualitäten der ThZ-Funktion quantifizieren. Die in vitro Aggregationsfunktion der ThZ wurde mittels Multiplate® Analyzer untersucht, die Mitochondrienfunktion mittels Oxyraph-2k.
Der Multiplate® Analyzer ist eine wohl etablierte und gut zugängliche POC-Methode, die zeitnah verlässliche Daten zur ThZ-Aggregationsfähigkeit in Vollblutproben liefert. Von Interesse war zunächst die Frage nach der Durchführbarkeit valider Multiplate®-Messungen an POOL-TK. Das für Vollblutproben konzipierte Multiplate® kann unseren Ergebnissen zufolge zur in vitro Testung von POOL-TK herangezogen werden. Die Kombination der verwendeten Mischungsverhältnisse, Suspensionsmedien und Reagenzien eignen sich zur ThZ-Stimulation außerhalb der physiologischen Umgebung des Vollbluts. In zukünftigen Studien mit höheren Fallzahlen sollte jedoch die Messgenauigkeit des Multiplate® an TK durch Anpassungen der Suspensionsmedien, sowie der ThZ- und Reagenzienkonzentration überprüft und optimiert werden. Die Entwicklung der ThZ-Funktion im Verlauf der viertägigen TK-Haltbarkeit wurde hinsichtlich der thrombozytären Aggregations- und Mitochondrienfunktion beurteilt. Weiterhin wurde der Einfluss einer kontinuierlichen Agitation durch Vergleich mit der TK-Lagerung ohne Agitation untersucht. Während die Aggregationsfähigkeit der ThZ über den viertägigen Beobachtungszeitraum überwiegend erhalten blieb, verzeichnet die mitochondriale Funktion einen signifikanten Rückgang. Unter kontinuierlicher Agitation der TK verzeichnete sich keine signifikante Abnahme der thrombozytären Aggregationsfähigkeit im Laufe der TK-Haltbarkeit. Wurden die TK ohne Agitation gelagert zeigte das Aggregationsausmaß in den ersten Tagen gegenüber den richtlinienkonform gelagerten TK keine signifikante Verschlechterung. Am vierten Tag resultierte lediglich die ThZ-Stimulation mit TRAP in einer signifikant verminderten Plättchenaggregation in der Gruppe der nicht agitierten TK. Eine Toleranz der TK bezüglich temporären Agitationspausen von ein bis zwei Tagen ist demnach anzunehmen. Nach längeren Agitationspausen ist mit signifikanten Beeinträchtigungen der Aggregationsfunktion zu rechnen.
Der Oxygraph-2k ist ein anerkanntes Messgerät zur Analyse der mitochondrialen Leistungsfähigkeit mittels hochauflösender Respirometrie. Die Daten dieser Arbeit demonstrieren eine signifikante Abnahme der mitochondrialen Leistungsfähigkeit mit - 116 -zunehmendem Alter der TK. Es zeigten sich keine Unterschiede zwischen kontinuierlich agitierten und ruhenden TK am Ende der Lagerungsperiode. Auch an den restlichen Lagerungstagen waren ruhende TK nicht verstärkt in ihrer mitochondrialen Leistung eingeschränkt, als stetig agitierte TK. Dies impliziert, dass sich die mitochondriale Leistungsfähigkeit im Laufe der TK-Alterung reduziert, ungeachtet dessen, ob die Lagerung unter der empfohlenen kontinuierlichen oder unterlassenen Agitation erfolgt. Aus den Multiplate®- und Oxygraph-Ergebnissen lässt sich schlussfolgern, dass ein TK den für die Transfusion erforderlichen Qualitätsanspruch nicht durch kurzzeitige Agitationspausen verliert. Im Klinikalltag kann es, irrtümlich sowie durch Organisationsversagen bedingt, zu unterbrochener oder gar unterlassener Agitation vor TK-Transfusion kommen. Gemäß den Ergebnissen dieser Arbeit zufolge, wird darunter jedoch die TKQualität nicht nennenswert negativ beeinflusst.
Ein weiterer Teil dieser Arbeit befasste sich mit der Untersuchung des Einflusses von Extrembedingungen, wie Kälte von 4°C oder Be- und Entschleunigungen sowie Turbulenzen beim Transport durch Rohrpostsysteme. Die Mehrzahl der Testergebnisse verzeichnete keine signifikante Beeinträchtigung der ThZ-Aggregationsfunktion. Die vorübergehende, fehlerhafte Deposition eines TK im Kühlschrank und der Rohrpostversand können somit als unbedenklich für die mittels Multiplate® und Oxygraph gemessenen TK-Qualitätsparameter angesehen werden.
Die Gesamtheit der Ergebnisse zeigt, dass kurzfristige Abweichungen von der richtlinienkonformen TK-Lagerung keine negativen Auswirkungen auf die thrombozytäre Aggregationsfähigkeit und Mitochondrienfunktion ausüben. Die Berücksichtigung dieser Erkenntnisse könnte verhindern, dass kurzzeitig fehlgelagerte TK verworfen werden, was sich positiv auf die Nutzung dieser begrenzten Ressource auswirken würde. Als Einschränkung ist zu erwähnen, dass die dargebotenen Veränderungen lediglich ex vivo ermittelt wurden. Aufgrund der Nutzung etablierter Verfahren kann angenommen werden, dass sich unsere Ergebnisse gleichsinnig auf die tatsächliche in vivo ThZ-Funktion auswirken. Der Effekt auf die in vivo ThZ-Funktion muss in zukünftigen Studien verifiziert werden. Insbesondere bleibt die Frage offen, inwiefern ein Zusammenhang zwischen einer eingeschränkten mitochondrialen Respirationsleistung und der Aggregationsfunktion besteht.
Die oxygene Photosynthese bildet den Grundpfeiler des heutigen Ökosystems unseres Planeten. Neben den gut untersuchten Landpflanzen bilden Mikroalgen eine äußerst bedeutende Organismengruppe der phototrophen Lebewesen. Zu den Mikroalgen zählen die Diatomeen, welche sich beispielsweise durch eine Silikatschale und spezielle Lichtsammelkomplexe auszeichnen und für einen Großteil der marinen Primärproduktion verantwortlich sind. Die stoffwechselphysiologischen Grundlagen des ökologischen Erfolgs der Kieselalgen sind bislang noch unzureichend erforscht. Ein Vertreter der zentrischen Diatomeen, Cyclotella, wurde bereits zur Jahrtausendwende zur biochemischen Charakterisierung der Diatomeen Photosynthese verwendet (Eppard und Rhiel, 1998; Eppard und Rhiel, 2000), das Genom des Organismus aber erst vor kurzem sequenziert (Traller et al., 2016). Die Sequenzierung des Genoms konnte einige Gene für Lichtsammelproteine identifizieren, die Homologie zu den LhcSR-Proteinen aus C. reinhardtii aufweisen, welche nachweislich eine photoprotektive Funktion besitzen (Peers et al., 2009). Diese sogenannten Lhcx-Proteine der Diatomeen sind in den zwei Gruppen der Kieselalgen, den zentrischen und pennaten Diatomeen zu finden, unterscheiden sich aber in ihren jeweiligen Lhcx-Kandidaten. So können in der pennaten Diatomee P. tricornutum vier lhcx-Gene ausgemacht werden, während die zentrische Kieselalge T. pseudonana sechs lhcx-Gene besitzt und C. cryptica vier verschiedene lhcx-Kandidaten genomisch aufweist (Armbrust et al., 2004; Bowler et al., 2008; Traller et al., 2016). Die beschriebenen Diatomeen weisen alle eine Homologie im Lhcx1 auf, während sich die übrigen Lhcx-Kandidaten zwischen pennaten und zentrischen Diatomeen unterscheiden. Ein zwischen T. pseudonana und C. cryptica konserviertes Lhcx ist das Lhcx6_1, welches 2011 das erste Mal massenspektrometrisch an Photosystemen von T. pseudonana nachgewiesen wurde (Grouneva et al., 2011) und in weiteren Massenspektrometrie-gestützten Untersuchungen in beiden zentrischen Diatomeen an Photosynthese-Komplexen gefunden werden konnte (Gundermann et al., 2019; Calvaruso et al., 2020). Die Funktion des Lhcx6_1 ist bislang unklar.
Diese Arbeit konnte das Lhcx6_1 aus C. meneghiniana charakterisieren und Antikörper-gestützt genauer lokalisieren, eine nicht dynamische Phosphorylierung der Thylakoidmembran-Proteine der zentrischen Diatomee nachweisen und die molekularbiologische Zugänglichkeit des Organismus optimieren. qRT-PCR gestützte Expressions-Analysen konnten eine unerwartete Expression des lhcx6_1-Gens aufdecken. Dieses weist, im Vergleich zum Lhcx1, keine Starklicht induzierte Expression auf. Die Expression des Gens konnte nach wenigen Stunden Schwachlicht als maximal bestimmt werden, während sie im Starklicht abnimmt. Das Muster der Genexpression glich im Schwachlicht eher der des lhcf1-Gens. Die Sequenzierung des lhcx6_1 aus C. meneghiniana identifizierte eine verlängerte N-terminale Sequenz des Proteins, welche Homologie zu den minoren Antennen aus A. thaliana besitzt und Teil des reifen Proteins ist. Mittels eines C-terminalen Epitops wurde ein Antikörper gegen das Lhcx6_1 entworfen, welcher das Protein in C. meneghiniana spezifisch nachweisen kann. Die Isolation von Thylakoidmembranen der zentrischen Diatomee und weitergehende Aufreinigung mittels Saccharosedichtegradienten und lpBN-PAGE konnten die Lokalisation des Lhcx6_1 eingrenzen. Das Protein zeigt dabei keine Unterschiede in seiner Lokalisation nach Inkubation in Schwach-, Stark- und Fernrot-Licht und ist vorrangig mit Photosystem I assoziiert. In geringerer Menge konnte es zudem an Photosystem II nachgewiesen werden, während der immunologische Nachweis in Lichtsammelkomplexen (FCPs) minimale Mengen erbrachte. Ferner konnte eine Phosphorylierung des Lhcx6_1 an Threonin-Resten nachgewiesen werden, während die meisten anderen Thylakoidmembran-Proteine mittels Phospho-Serin Antikörper detektiert werden konnten. Weder die Phosphorylierung des Lhcx6_1, noch der anderen Thylakoidmembran-Proteine, zeigt eine dynamische Regulation, im Stile einer state-transition ähnlichen Kinase auf. Die Qualität des Umgebungslichts führte zu keinerlei Unterschieden in Phosphorylierungsmustern. Weiterführende Untersuchungen der Lhcx6_1-Phosphorylierung mittels Phos-tag PAGE identifizieren eine unphosphorylierte und eine einfach phosphorylierte Form des Proteins. Dabei kann an PSI ausschließlich die phosphorylierte Version des Lhcx6_1 gefunden werden. Im Zuge der Arbeit konnte zudem erstmalig die Elektroporation und Konjugation für C. meneghiniana als Transformations-Methoden etabliert werden, während das Protokoll für die biolistische Transformation optimiert wurde. Die Elektroporation erbrachte die höchste Transformationseffizienz. Molekularbiologische Unterfangen eines Lhcx6_1-Knockdowns mittels Antisense-RNA erzielten zunächst, aufgrund der starken Gegenregulation der Diatomee, keinen Erfolg...