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Until today, more than 100 years after its first description in Italy, the highly pathogenic avian influenza virus (HPAIV) has not lost its fearsome character for wild birds, poultry and humans. On the contrary, the number of outbreaks with high casualty rates in wild birds and poultry has multiplied in recent years and cases of zoonotic infections are also increasingly reported from HPAI endemic areas. The epidemiology of these infections is complex and also involves surface water and possibly sediments of shallow standing waters, which could play a role as a vector medium and/or virus reservoir. The goal of this project was to expand current knowledge of the influence of water on the spread of AIV. As part of this project, we were able to ...
1. ...improve AIV detection methods using real time RT-PCR in terms of sensitivity and breadth of viruses detected. In addition, we succeeded in economizing the procedure so that fewer resources are required and results are obtained faster (publication I: [173]).
2. ...develop an ultrafiltration-based enrichment method for AIV from surface water and evaluate it with field samples from HPAI outbreak areas in wild bird habitats (Wadden Sea coast of Schleswig-Holstein) and previously unaffected regions (Antarctic Weddell Sea) (publication II: [174]). Furthermore, protocols for testing different environmental sample matrices for AIV screening were tested and compared to results of passive monitoring by dabbing diseased or dead wild birds. AIV was detected in more than half (61%) of 44 water samples. We received additional sediment samples from 36 of the 44 water samples. In 18 of 36 of the sediments tested, as well as in 4.16% of 1705 fecal samples tested AIV was detected. However, the studies of the environmental samples mostly yielded only generic AIV detections, with viral loads in the range of the detection limit. This massively hampered further investigations for sub- and pathotyping. In contrast, 79.41% of 68 samples from passive monitoring showed high to very high HPAIV viral loads which also allowed sub- and pathotyping.
3. ...demonstrate in animal experiments that even very low titers (0.1 TCID50 ml-1) of HPAI viral infectivity in water can induce productive infection in susceptible but clinically largely resistant mallard ducks (publication III: [175]). Furthermore, we were able to develop evidence that there is a difference in virus spread that depends on the type of (contaminated) water source. This means that infections on poultry farms with inverted or nipple drinkers may follow a different course than infections in the wild, which are mediated via larger surface waters.
Overall, the results of this project highlight the important role of surface and drinking water, as well as aquatic sediments, in the spread of AIV. The methods developed here for AIV detection extend the possibilities for surveillance of AIV infections; however, passive remains superior to active surveillance of HPAIV infections in several aspects. Examination of various environmental samples did not yield a significant advantage in terms of an early warning system that would indicate the presence or spread of HPAIV in wild bird habitats prior to the occurrence of lethal infections in wild birds.
Objectives:
This study investigates the effectiveness of the Cold AP on the alteration of the enamel surface
without using acid etchant by using Conventional photo-activated resin bond to bond the
orthodontic brackets.
Materials and Methods:
One hundred and twenty-five Enamel specimens are prepared from disinfected bovine
mandibular incisors are divided into five groups. Group I: brackets are attached on the enamel
surface with the standard adhesive technique (etch + primer +bond). Group II: the brackets are
attached with the Standard Orthodontic adhesive technique without etching. Group III: the
enamel surface is conditioned with pure Argon Cold atmospheric plasma before the application
of the primer without using an acid etchant. Group IV: the enamel surface is conditioned with
the admixture of Argon Cold atmospheric plasma with 0.5 % Oxygen before the application of
the primer without using acid etchant Group V: after the application of Argon Cold atmospheric
plasma with 0.5 % Oxygen the surface is rewetted by deionized water before the application
of the primer and adhesive. After that, the samples are exposed to thermal cycling. The shear
bond strength of the samples is tested by the universal testing machine which measured the
maximum force at which the brackets are deboned from the tooth surface at a speed of
1mm/minute is measured.
Results:
Significant intergroup differences were found. Group V showed the highest shear bond
strength followed by Group I, VI, III, II respectively. There isn’t a statistical difference in the
values of The Shear bond strength values between Group III and IV.
Conclusions:
this study implies that Cold Atmospheric Plasma is a safe method to change the chemical
surface characteristics of the enamel surface.in addition to the significant importance of plasma
treatment followed by water rewetting, which could enhance adhesion between the orthodontic
attachments and the enamel layer
Recent experimental campaigns in the Wendelstein 7-X stellarator, a
plasma-confining device designed to investigate the Magnetic Confinement Fusion
(MCF) approach to generating electrical power, have shown that the injection of
fuelling pellets had an unexpected and considerable impact on the performance of
the plasma. Rather than simply refuelling the device and `diluting' the plasma
energy, pellet injection is followed by a significant increase in the ratio of
the ion temperature to the electron temperature. It has been suggested that this
is not merely due to the improved confinement following the reduction of
turbulent transport after the pellet material has homogenised with the bulk
plasma, but also due to a direct transfer of energy from electrons to ions. The
proposed mechanism for this energy transfer is the ambipolar expansion of the
pellet plasmoid, the localised plasma structure produced by the
ionisation of ablated pellet material, along magnetic field lines.
Early work on pellet plasmoid expansion predicted that half the heating power
deposited in plasmoid electrons by collisions with hot ambient electrons is
transferred to plasmoid ions in the form of flow velocity as the plasmoid
expands. The complicated nature of the system of the pellet plasmoid embedded in
the ambient plasma, particularly the behaviour of electrons, which experience
many collisional and collisionless phenomena on multiple disparate timescales,
means that early models of the expansion were not wholly self-consistent, but
rather made use of strong approximations that apply in some regions of the
plasmoid but not in others. For example, only electrons and ions associated with
the plasmoid were rigorously treated, meaning that the framework was one of
`expansion into vacuum'. Combined with the assumption of Maxwellian electrons,
this led to an electric potential that was unbounded at infinity. Naturally, the
validity of the conclusions of such a model are called into question because the
approximations lose their validity far from the plasmoid and as time advances,
yet predictions about the final state of the plasma are desired. A deeper
investigation is required: careful consideration of the phenomena in question
and the timescales (and lengthscales) on which they act must be made in order to
rigorously construct a model that is valid throughout the entire expansion.
The first two papers presented in this thesis iterate on the model established
in the paper that first predicted the electron-to-ion energy transfer; their aim
was to find out how the character of the expansion changes with a more
sophisticated and accurate description of various phenomena, while remaining
within the existing framework of expansion into vacuum. Ultimately, we find that
the qualitative character is unchanged, and that approximately half the heating
power deposited in plasmoid electrons is transferred to ions.
Two other papers in this thesis address the limitations of the original model.
This is achieved by properly considering the electron kinetic problem in a
plasmoid. One paper considers the electron kinetic problem when electrons are
highly isotropised. In this case the kinetic equation can be integrated to
remove all but two independent variables, which is the maximum possible
reduction considering it is a time-dependent problem. The full nonlinear
integro-differential Landau self-collision operator is integrated exactly and
few approximations are made, leading to a rather general kinetic equation.
However, for fuelling pellets some anisotropy in the electron distribution is
expected. Another paper considers the electron kinetic problem (and the entire
plasmoid expansion) allowing for electron anisotropy. Careful consideration of
the ordering of timescales of electron phenomena in a pellet plasmoid leads to a
steady-state kinetic problem that we call collisional quasi-equilibrium (QE). QE
appears in many ways similar to the collisional steady-state characterising a
true thermal equilibrium. It was found that the time-dependent kinetic problem
of the earlier paper, with isotropic electrons, produces the QE distribution
function, corroborating the existence of the QE state. We then take moments of
the electron kinetic equation that is valid on the expansion timescale, assuming
that the electron distribution is that given as the solution to the QE kinetic
problem. This is completely analogous to what is done to obtain the Braginskii
equations or any Chapman-Enskog theory. The result is a set of equations for the
long-term evolution of the macroscopic quantities that describe the distribution
function existing in a quasi-steady-state at each point in time. It is from this
point that one may feasibly describe the plasmoid expansion with an accurate
picture of the electron kinetics and finally obtain the electron-to-ion energy
transfer so desired in a rigorous model of the expansion.
From a broader point of view, the two frameworks provided by these rigorous
investigations of the electron kinetic problem serve as a basis for the future
study of plasmoids. Such a `first-principles' approach to plasmoid dynamics is
novel and interesting in its own right, but it will be demonstrated that such an
approach is essential for pellet plasmoids owing to the fact that they are
poorly described by the `standard tools' of plasma physics.
Using the QE framework it was found that, once more, about half the heating
power experienced by plasmoid electrons is transferred to plasmoid ions. The
incredible robustness of the prediction of such an energy transfer is, in the
author's opinion, the result of the self-similar nature of the expansion found
as a solution to the original model. As a rule, the profiles of self-similar
solutions tend to be attractors for the `real', more complicated, system, and
the qualitative predictions involving no parameters, of which the
electron-to-ion energy transfer is one, tend to be very sturdy.
Aside from fuelling pellets, composed of hydrogen or deuterium, one paper in
this thesis investigates the physics of high-Z pellets that are designed to
terminate the plasma safely in the event of a `disruption', where much of the
magnetic field energy is channelled into a runaway electron beam with
potentially disastrous consequences if the beam encounters a plasma-facing
component. The paper draws on the work carried out in the paper concerning the
kinetic problem of isotropised electrons in a plasmoid.
This thesis is `cumulative'; the vast majority of the work carried out is
described within a set of Papers, labelled A-E, placed at the back of the text.
There is a preceding `wrapper text' (given in numbered Sections) tasked with
introducing the reader to the topic, guiding the reader through the papers, and
expounding some of their main results. Some amount of material not present in
the papers is also provided in the wrapper text. Naturally, the wrapper text
mainly focusses on the results of the papers which are under my first
authorship. In the course of publishing papers over an extended period of time
the nomenclature is bound to vary. Although it is mostly consistent between the
papers, a few difference do arise, and the section `Common symbols and
subscripts' is provided in the frontmatter to alleviate confusion. Particular
care should be taken with the symbols x and z; both can refer to the
coordinate parallel to the magnetic field line, but in papers where z is used
for this purpose x tends to have another definition. In the wrapper text the
choice of symbols is generally chosen to reflect those in the corresponding
paper.
This thesis presents the production of polyanionic clusters within two ion storage devices:
Considering a Penning trap, the accessible range of polyanionic aluminium clusters has been expanded up to the 10th charge state. In particular, abundance curves for clusters with 5 to 9 excess electrons have been measured for the first time and analysed with respect to their lifetime-dependent appearance sizes. These sizes reveal a nearly quadratic dependency on the charge state for experimentally accessible lifetimes.
Additionally, the production of polyanionic clusters has been enabled in a radiofrequency ion trap. Therefore, the transition from a harmonic to a digital 2- and 3-state guiding signal has been investigated with respect to the ion storage. The passing of electrons through the trap during field-free periods of the guiding signal led to the first production of polyanionic clusters within a radiofrequency ion trap.
Underground hard coal mining operations irreversibly disrupt the pre-existing mechanical equilibrium of the geological media. The employment of high-recovery methods modifies the stress field of the sedimentary sequence, generating movement and faulting of the rock layers above and below mined seams. These new fracture zones do affect the original conditions of the hydrogeological system by modifying flow pathways and increasing the permeability of the rock sequence. Moreover, the surface area of rock exposed to air and water is increased, conditioning the water-rock interaction. Despite this rather clear conceptualization, flow and reactive transport processes in fractured overburdens are rarely modeled simultaneously. Discrete setups that consider fractures and porous matrix require extensive characterization of both media, which is impractical for regional case studies. As a result, most post-mining models explicitly ignore fracture structures by employing the equivalent porous approach or even both media with lumped parameter models. However, omitting either medium represents a delicate simplification, considering that mining-related fractures control the rate and direction of water flow within moderately permeable but relatively highly porous rock sequences.
In this dissertation, the specific contribution of fractured and matrix continua to the transient discharge and water quality of a post-mining coal zone is quantified and evaluated. For this purpose, dual and multiple interacting continua models are employed to simulate fluid flow and reactive mass transport in fractured and variable water-saturated rock sequences. The effectiveness of the models is evaluated by simulating the origin, generation and transport of acid mine drainage (i.e., water with elevated concentrations of hydrogen, iron, sulfate and chloride) within the shallow overburden of the Ibbenbüren Westfield. Compared to other coal districts in Germany, this area is strongly delimited by the local geology and topography, resulting in a well-defined hydrogeological system to test the models. Petrographic and chemical analyses performed on core samples from the area show the strong influence of mining-derived fractures on the water-rock interaction within the Carboniferous sequence. The presence of oxidized pyrite along with amorphous iron hydroxide phases in weathering fronts on both sides of the fractures demonstrates the exchange of solutes and gases between the fractured and the porous matrix media.
Based on the previous evidence, the TOUGHREACT software is employed to characterize flow and reactive transport processes in the Westfield. However, each of the two processes is simulated at separate stages to have more control in the adjustment of sensitive parameters for which little information is available. For the flow component, a dual continuum model, with Richard’s equations is used to characterize the unsaturated water flow in both fractured and matrix media. Under this approach, the model adequately reproduces the bimodal flow behavior of the discharges measured in the mine drainage for the years 2008 and 2017. Simulation results show how the fractured continuum generates intense discharge events during the winter months while the rock matrix controls smooth discharge limbs in summer, when water is slowly released back to the fractures. With the flow component calibrated, the second part of the study incorporates the geochemical processes into the model based on actual data from the rock samples. Their simulation requires extending the two-continuum setup to a multiple continua model with five nested block strings: one for the fractures and four for the rock matrix. This further subdivision prevents under-representations of kinetic reactions with short equilibrium length scales and numerical instabilities due to lack of chemical and flow gradients. As a result, the new multiple continua model provides good agreement with respect to long- and short-term concentrations and discharge trends measured in the mine drainage. The flow of oxygen and meteoric water through the fractured continuum leads to a high and steady release of hydrogen, iron and sulfate ions derived from pyrite oxidation in the matrix continua closest to the fractures. Moreover, high chloride concentrations result from the mixing and gradual release of relatively immobile solutes in the matrix as they interact with percolating water in the fracture. Both findings are equally congruent with the reactive pyrite oxidation and iron hydroxide precipitation fronts identified in the fractured core samples.
In the end, the multiple continua models, the simulation procedure and the results of the benchmark and sensitivity analysis scenarios developed for the Westfield pave the way for the application of the approach in other mining zones. The first candidate emerges in the Ibbenbüren Eastfield, where a coupled elemental-isotopic approach included in this thesis has confirmed that water-conducting fracture zones are primary elements for solute generation and transport in the first 300 meters of the overburden. In the latter case, calibration and verification of the models can be complemented with measurements of δ34S in sulfates and δ18O, δ2H, and Tritium in water.
In den Weltmeeren findet rund die Hälfte der jährlichen globalen Kohlenstofffixierung statt, davon ein großer Anteil in küstennahen Regionen. Hier kommt es zu wiederkehrenden saisonalen Algenblüten, die durch eine zeitlich begrenzte explosionsartige Vermehrung von Mikroalgen (hauptsächlich Diatomeen und Coccolithophoren) charakterisiert sind. Vor allem Frühjahrsblüten (März-Mai) haben aufgrund ihrer zeitlichen und räumlichen Vorhersagbarkeit einen hohen Stellenwert als Modellsysteme, anhand deren sich der Kohlenstoffkreislauf der Meere untersuchen lässt.
Mikroalgen produzieren eine große Vielfalt an Makromolekülen, die für die mit ihnen vergesellschafteten Bakterien als Nahrungsgrundlage dienen. Besonders im Fokus stehen hier die für den Kohlenstoffkreislauf relevanten Polysaccharide. Im Gegensatz zu anderen natürlichen Makromolekülen wie DNA oder Proteinen können Polysaccharide aus vielen verschiedenen Monomeren mit unterschiedlichsten Bindungen bestehen. Zusätzlich finden sich an diesen Zuckermonomeren viele Modifikationen wie Acetylierungen, Methylierungen oder Sulfatierungen, die die Komplexität weiter erhöhen. Diese Variabilität bedingt eine hohe strukturelle und funktionale Diversität. So können Polysaccharide Speicherstoffe, Zellwandbestandteile oder Teile der extrazellulären Matrix darstellen.
Komplementär hierzu besitzen Polysaccharid-verwertende Bakterien entsprechend komplexe, enzymatische Abbaumechanismen. Besonders hervorzuheben sind hier die Bakterien des Phylums Bacteroidota, die sich in verschiedensten Nischen auf den Abbau von Polysacchariden spezialisiert haben. Sie finden sich in Bodenproben, als Teil der menschlichen Darmflora, oder eben auch als bedeutende Begleiter von Algenblüten.
Bacteroidota (und in marinen Systemen hauptsächlich die zu ihnen gehörenden Flavobakterien) besitzen zum Abbau diverser Polysaccharide sogenannte Polysaccharide utilization loci (PULs), genomische Inseln, die alle notwendigen Proteine zur Aufnahme und Abbau eines bestimmten Polysaccharids codieren. Hierzu gehören hochspezifische Enzyme (Carbohydrate-active enzymes, CAZymes), transkriptionelle Regulatoren sowie Transportersysteme, die initial gespaltene Oligosaccharide über die Membran in das Bakterium transportieren, wo sie von weiteren Enzymen vollständig abgebaut werden. Diese Co-Lokalisation der benötigten Gene und deren gemeinsame Regulation stellt einen enormen Selektionsvorteil der Bacteroidota dar und ist der Grund, warum sie, ähnlich wie Algen, einer jährlich wiederkehrenden Sukzession folgen, die sich gut untersuchen lässt.Die Forschungsartikel, die Teil dieser Doktorarbeit sind, untersuchen das Zusammenspiel von Polysaccharid-produzierenden Algen mit den Bakterien, die sie abbauen, aber auch darauf basierende Beziehungen der Bakterien untereinander. Die erste Publikation beschäftigt sich mit dem weit verbreiteten Speicherpolysaccharid α-Glucan, für das der Großteil der blütenbegleitenden Bakterien einen spezifischen aktiven PUL besitzt. Eine Untersuchung der in der Blüte vorhandenen Algenarten bestätigte, dass die Blüte von β-Glucan-produzierenden Algen dominiert wird. Da Bakterien aber selbst α-Glucane als Speicherpolysaccharide verwenden, konnte gezeigt werden, dass nicht die Algen selbst, sondern die Bakterien Hauptproduzent dieser Polysaccharide während einer Phytoplanktonblüte sind. Bakterielle Proteine, die dem Abbau von Algen-β-Glucan und dem daraus folgenden Aufbau von bakteriellem α-Glucan dienen, waren in Umweltproben und in Laborkulturen unter ähnlichen Bedingungen abundant. Die Untersuchung von extrahiertem bakteriellem Polysaccharid bewies, dass dieses nicht nur α-Glucan enthält, sondern dass dieses Polysaccharid auch in der Lage war, α-Glucan PULs mariner Bakterien zu induzieren. Hier zeigte sich ein innerhalb des marinen Kohlenstoffkreislaufs bisher wenig berücksichtigter Kreislauf, indem Bakterien Polysaccharide anderer Bakterien nutzen, die z.B. durch Viren lysiert wurden.
Die anderen zwei Artikel dieser Arbeit befassen sich mit dem Abbau von Zellwandpolysacchariden durch blütenassoziierte Modellbakterien. In einer der Studien wird detailliert der Abbau eines β-Mannans (ein Polysaccharid das hauptsächlich aus dem Monosaccharid Mannose besteht) durch ein Bakterium des Genus Muricauda beschrieben. Die PUL-Struktur dieses Bakteriums kam in mehreren anderen Phytoplanktonblüten-assoziierten Bakterien vor. Diese Beobachtung wies darauf hin, dass es sich hier um ein Mannan mit zusätzlichen Galactose- und Glucose-Substitutionen handelte. Proteom-Untersuchungen bestätigten, dass das Bakterium derartige Substrate unter Induktion des β-Mannan-PULs nutzen können. β-Mannan konnte durch Antikörpermarkierung in Blütenproben sowie spezifischen Mikroalgenarten (Chaetoceros, Coscinodiscus) nachgewiesen werden. Die in dieser Publikation charakterisieren β-Mannan-PUL-codierten Enzyme waren in der Lage, dieses Signal zu löschen, was bewies, dass Muricauda sp. Mannan-basierte Zellwandpolysaccharide bestimmter Arten von Mikroalgen abbauen kann.
Die dritte Studie geht näher auf den Abbau von Xylanen (bestehend aus Xylose) durch ein blütenassoziiertes Bakterium des Genus Flavimarina ein. In diesem Bakterium wurden anhand der enthaltenen Xylanasen zwei putative Xylan-PULs annotiert. Wachstumsexperimente und Proteom-Untersuchungen zeigten, dass einer dieser PULs hauptsächlich bei Wachstum auf Glucoronoxylan induziert wird, während der andere PUL aufArabinoxylane stärker reagierte. Untersuchung der PUL-CAZymes bestätigte diese Ergebnisse durch Charakterisierung mehrerer Xylanasen sowie Glucoronidasen und Arabinofuranosidasen. Zusätzlich codierten beide PULs für Esterasen, die eine Modifikation der natürlichen Substrate durch Acetylierungen oder Methylierungen nahelegen. Da all diese Merkmale von terrestrischen Xylanen geteilt werden und in Blütenproben aus Küstennahen Regionen Xylane nachgewiesen wurden, ist es möglich, dass Bakterien aus solchen Regionen sowohl Xylane terrestrischen Ursprungs (z.B. durch Flusseinspeisung) sowie marinen Ursprungs abbauen können.
Responses of bovine and human neutrophils to members of the Mycobacterium tuberculosis complex
(2023)
PMN are one of the most important cells of the innate immune system and are responsible for fast clearance of invading pathogens in most circumstances. The role of human PMN during mycobacterial infection have been widely studied. Nevertheless, there are contradicting results regarding their role in protection or pathology during TB. Similar studies focusing on bovine PMN and their role in M. bovis infection remain understudied. Also, not much is known about attenuation of M. tb in cattle and responses of PMN to this MTBC member.
The major aims of this study were to i) gain insights into bovine PMN biology and the cellular processes triggered by challenge with virulent mycobacteria and to ii) find out whether interspecies differences result in different outcomes upon in vitro challenge. In the first part of the work, a new isolation method for bovine PMN from whole blood was developed. Human and bovine PMN have different buoyant properties and hence need to be isolated using different procedures. The magnetic isolation method developed within this thesis is robust and results in very good yields of highly pure, viable bovine PMN populations. This is extremely advantageous and indispensable for downstream functional assays that are required to be performed on a single day.
The second goal of this study was to compare and contrast the functional differences between bovine and human PMN upon BCG infection. The findings reveal for the first time that human PMN phagocytose more BCG in comparison to bovine counterparts. Non-opsonized bacteria were internalized via the lectin-like C-domain, require cholesterol and an active cytoskeleton in human PMN, whereas opsonized bacteria entered cells via the CR3 and, in particular, CD11b. It remains unresolved why bovine PMN reacted differently, notably phagocytosis remained unaltered, to various treatments, including blocking monoclonal antibodies to CD11b and chemical inhibitors altering the cell membrane. Nonetheless, the increased uptake of BCG by human PMN correlates to more potent response of these cells in functional assays in comparison to bovine PMN. No PMN intrinsic differences were found in the basal cholesterol content. Comparative assays with the virulent strains would be essential in order to generalize these observations.
The third aim was to investigate the responses of bovine PMN to BCG, M. tb and M. bovis. While there was no difference in uptake between BCG and M. tb, serum opsonized BCG was taken up at a higher amount. This finding suggests differential binding of bacterial epitopes to host cell receptors which modulates mycobacteria uptake. However, between the virulent strains M. tb and M. bovis, the human-adapted bacillus was phagocytosed at a higher rate which hints towards the possibility of rapid recognition and clearance of M. tb in bovine host thereby possibly preventing pathology. The release of selective cytokines by PMN post infection with the virulent strains offers baseline information relevant for processes that probably occur in vivo. This work for the first time provides insights into responses of bovine PMN to mycobacteria in a two-tier approach: by cross-species analysis of PMN responses to selected mycobacterium and by head-to-head analysis of bovine PMN to animal-adapted and human-adapted mycobacteria.
As a prospect for future research in bovine PMN biology in the context of mycobacterial infection, it would be highly advantageous to compare the subcellular localization of M. tb and M. bovis in bovine PMN using confocal and/or electron microscopy. This analysis would confer proof on attachment or internalization of mycobacteria by PMN and identify the features of the mycobacteria-containing compartments. Also, in-depth investigations of additional entry pathways for the pathogen in bovine cells would be informative for unlocking downstream cell signaling events. In addition, PMN viability studies will be meaningful particularly in bovine PMN challenged with M. bovis and M. tb, given the impact of death patterns on tissue pathology. Current results and follow up studies will contribute to the understanding of the roles of PMN in controlling elimination or growth of M. bovis and M. tb in cattle.
Background: Intact socio-cognitive abilities, such as theory of mind (ToM), facial emotion recognition (FER), social decision making (SDM) and visual perspective taking (VPT), are essential for human well-being and quality of life. Impairment in social cognition can have major implications for health in affected individuals and society as a whole. Evidence for changes in social cognition in healthy and pathological aging processes, such as subjective cognitive decline (SCD) and mild cognitive impairment (MCI), is currently either sparse or inconclusive. It is important to determine how social cognition changes in healthy and pathological aging and provide grounds for targeted and early assessment and intervention. The aims of this thesis were to investigate social cognition across four domains, in particular, ToM, FER, SDM and VPT, in healthy young and older individuals, as well as in individuals with cognitive deficits, such as SCD and MCI. In the case of a decline, further goals were to investigate the degree of impairment and the domains affected.
Methods: A systematic literature search was conducted in four major academic databases, MEDLINE, Web of Science Core Collection, CENTRAL, and PsycInfo, for studies investigating social cognition in healthy young and old individuals as well as individuals affected by SCD and MCI which met the inclusion criteria. The primary outcome was ToM and secondary outcomes were FER, SDM and VPT. After a systematic review was performed, studies eligible for meta-analysis were divided according to comparison groups and outcomes. Random-effects meta-analyses were conducted using standardized mean differences (SMD). Risk of Bias was assessed using the “Tool to assess risk of bias in cohort studies” modified for the present study design.
Results: After a thorough systematic literature search, 86 studies containing 88 comparisons were included in the systematic review, of which 47 were eligible for quantitative analysis. The meta-analysis revealed a progressive decline in ToM and FER abilities from young adulthood to MCI. Varying effect sizes demonstrated different trajectories of change for specific domains. Due to a lack of research, data investigating SDM and VPT, as well as SCD were insufficient for quantitative analysis.
Conclusion: ToM and FER decline gradually from healthy to pathological aging. Therefore, assessment of social cognition is important and should be incorporated in routine neurocognitive testing, so that targeted interventions can be introduced when needed. With this information in mind, future research should focus on the development of new assessment tools, as well as preventive and treatment strategies. This review also identified research gaps in certain populations (e.g. SCD, middle age, MCI-subtypes) as well as domains (VPT and SDM) that need to be addressed in the future.
This dissertation focuses on the characterization of novel enzymes and metabolic pathways that fulfill crucial functions during marine carbohydrate degradation by Bacteroidetes and thus contributes to an advanced understanding of the global carbon cycle. Depolymerization and utilization of marine polysaccharides by Bacteroidetes requires a tremendous repertoire of enzymes with a wide range of functions. For instance, during the breakdown of the marine red algal polysaccharide porphyran, an oxidative demethylation of the methoxy sugar 6-O-methyl-D-galactose (G6Me) by cytochrome P450 monooxygenases occurs. This reaction produces huge amounts of cytotoxic formaldehyde, marine bacteria capable of degrading porphyran must therefore possess suitable formaldehyde detoxification pathways. Consequently, Article I focus on the identification of possible formaldehyde detoxification pathways in marine
Flavobacteriia, which led to the discovery of the ribulose monophosphate pathway as specific pathway for the detoxification of formaldehyde in certain Bacteroidetes like Zobellia galactanivorans. Furthermore, it was demonstrated in Article II that alcohol dehydrogenases play an essential role in the microbial utilization of G6Me and therefore possess a function in porphyran degradation. Discovering novel enzymes, entire enzymatic cascades or biotechnologically important microorganisms that can metabolize these marine carbohydrates also contributes to the utilization of marine polysaccharides as feedstock for potential biotechnological applications. A prospective biorefinery process was proposed in Article III by the identification of Bacillus licheniformis as promising utilizer of marine carbohydrate-derived monosaccharides and the creation of a microbial cell factory capable of growing on ulvan, a marine carbohydrate obtainable from algal bloom-dominating green algae, enabling an industrial use of the renewable and abundant algal biomass in future.
Emerging zoonotic viruses are a constant threat to human and animal health. Therefore, knowledge about the host factors influencing viral pathogenicity is highly welcome as a basis for developing treatment or vaccine strategies. In order to identify host factors that potentially determine the
pathogenicity of three highly pathogenic (’high consequence’) zoonotic viruses, the interactomes of
selected viral proteins were analysed in parallel with the interactomes of the homologous proteins from closely related viruses which lack high pathogenicity. For this purpose, affinity purification mass spectrometry (AP-MS) was performed with the virus proteins as baits and lists of candidate proteins were generated that may determine the pathotype and warrant follow-up studies to characterise their function concerning the viral life cycles. In detail, the interactomes of virus pairs from the arenaviruses, filoviruses and henipaviruses were studied. The following protein homologues were selected: for filoviruses, the transcription factor VP30, the co-transcription factor VP35 and matrix protein VP40 of the non-pathogenic Reston virus
(RESTV, species Reston ebolavirus), the pathogenic Ebola virus (EBOV, species Zaire ebolavirus),
and, in addition, the Lloviu virus (LLOV, species Lloviu cuevavirus); in case of the arenaviruses
the nucleoprotein (NP), matrix protein (Z) and glycoprotein (GP) of the pathogenic Junín virus (JUNV, species Argentine mammarenavirus) and the non-pathogenic Tacaribe virus (TCRV, species Tacaribe mammarenavirus); and for the henipaviruses, the fusion protein F of the apathogenic Cedar virus (CedV, species Cedar henipavirus) and the pathogenic Nipah virus (NiV, species Nipah henipavirus). The experimental approach was to express the tagged bait proteins in human cells by transfection with appropriate constructs, purify the interactomes by affinity enrichment and analyse their protein content by MS. Quantitation was performed by labelling with stable isotopes or by label-free quantification (LFQ). High-confidence interactions for the LFQ approach were identified using the Mass Spectrometry interaction STatistics (MiST) scoring tool. Qualitative and quantitative data were used to identify a limited number of candidates for follow-up research. Additionally,
the interactomes were analysed with bioinformatical tools like term enrichment analysis and network analysis to identify cellular pathways which are possibly impacted by the expression of viral proteins. A novel specific interactor of EBOV VP30 was identified, ubiquitin carboxyl-terminal hydrolase7
(USP7, also known as HAUSP), and the interaction was partially characterised. The interaction was confirmed by reverse-pull-down experiments, and the Kd value (determined by Microscale Thermophoresis, MST) was found to be lower than for the interaction of USP7 with the RESTV VP30.
This work adds insight into virus protein interactomes, especially for the often neglected low pathogenic virus species. Furthermore, the pathogenicity of the viruses was refl ected to some degree
in the interactomes of their proteins. The generated interactome data for the different virus species
create a basis in the search for interactions that determine pathogenicity.