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This dissertation discusses the mutual influence between leaders and followers on perception, emotion and behavior, using an attachment theory perspective. Some individuals are more likely to be seen as leaders than others. On the one hand this is determined by the characteristics or attributes as well as skills of the person in question. However, on the other hand, followers’ perception and expectations play a big role as well, in particular which expectations of an ideal leader can be fulfilled by followers’ current leader. Although attachment theory and – styles have only recently entered the organizational psychology literature, this dissertation advances that literature by looking at the role of attachment orientations between leaders and followers. In doing so, this dissertation answers several recent research calls on this topic. The three main subsequent chapters discuss the predictive role of attachment orientations with regard to leader preferences, the transference of behavioural expectations from one leader to another, and the perception of leader prototypicality in groups. The first chapter discusses the connection between implicit leader preferences and attachment orientations as predictors. Results show that avoidant attached individuals prefer a more autonomous and independent leadership style, whereas anxious attached individuals prefer a supportive and team-oriented leadership style. In the second chapter I study the transference of behavioural expectations from one leader to another. Results show that avoidant attached individuals are more likely to engage in this transference process. In addition, I discuss and empirically test the influence of culture with regard to leader transference. In the final chapter, I examine the behavioural influence of attachment orientations on how likely someone is perceived to be a leader in groups. Based on 57 project groups, I find that team members actually perceive avoidant attached individuals to be the most leader-like. Put differently, given certain environmental conditions, insecure attachment orientations can be perceived as leaders. These results show that it is even more important that leaders somewhat adapt to their followers’ preferences and not commit to merely one particular leadership style.
Cells within a tissue form highly complex, cellular interactions. This architecture is lost in two-dimensional (2D) cell cultures. To close the gap between 2D cell cultures and in vivo tissues, three-dimensional (3D) cell cultures such as spheroids or embryoid bodies were developed. To fully take advantage of the third dimension, imaging techniques are essential. The emerging field of "image-based systems biology" exploits the information in images and builds a connection between experimental and theoretical investigation of biological processes. Such interdisciplinary approaches strongly depend on the development of protocols to establish 3D cell cultures, innovations in sample preparation, well-suited imaging techniques and quantitative segmentation methods.
Although 3D cell cultures and image-based systems biology provide a great potential, 2D methods are still not completely replaced by 3D methods. This is mainly due to methodical and technical hurdles. Therefore, this thesis provides a significant contribution to overcome these hurdles and to further develop 3D cell cultures. I established computational and experimental methods related to 3D aggregates and investigated fundamental, cellular processes such as adhesion, growth and differentiation.
The automatic segmentation method "PAS" and "LoS" were developed in the context of this thesis. They extract essential biological properties such as the projected area or features of cell nuclei from 2D or 3D images of 3D aggregates. Both algorithms show their accuracy robustly over image data from different samples and different microscopes. In addition, the superior performance of PAS and LoS was proven in a comparison with state-of-the-art methods.
The PAS approach served as an essential basis for investigating cellular processes such as adhesion and growth which are tightly regulated to contribute to tissue integrity. These processes are involved in the formation of spheroids. The temporally resolved data of spheroid formation of three mammary epithelial cell lines revealed differences in their formation dynamics as well as in the onset of spheroid formation phases (aggregation, compaction and growth). Despite these differences, adhesion- and growth-associated proteins such as E-cadherin, actin, microtubules, and the focal adhesion kinase show similar importance in a particular phase. Notably, certain proteins (e.g. E-Cadherin) contribute differently to spheroid formation of cells from different cell types in terms of cell adhesion and growth. Overall, analyses of the individual phases of spheroid formation revealed the temporal coordination of fundamental tissue-specific processes. The results contribute to a better understanding of the maintenance and disruption of tissue integrity.
An important but yet unknown process is how cells accomplish to arrange themselves against the gravitational force to form a spheroid. Live imaging with light sheet-based microscopy provides the best solution for a temporally and in particular spatially resolved investigation of spheroid formation. Although the imaging possibilities increase with this particular microscopy technique, available sample preparation methods are rare. Therefore, I have significantly optimized "agarose beaker" as preparation method for 3D long-term imaging of spheroid formation. The data show that upward movement of the cells takes place early. This movement is initiated in the centre of the initially flat cell layer. Subsequently, the cells move from the periphery of the cell layer toward the centre. Cells rearrange within the spheroid which is followed by growth. It is very likely that 3D aggregates form by adopting an energetically favoured, spherical shape by increasing cell-cell or cell-matrix contacts.
Besides the knowledge gained from the examination of the self-assembly process in different contexts, fully formed cellular aggregates can serve as basis to investigate differentiation processes. Differentiation guide cell fate specification during early embryonic development (i.e. preimplantation) and is not fully understood yet. Due to the lack of an in vitro system for preimplantation, I have developed "blastoids". These are 3D multicellular aggregates of mouse embryonic stem cells which represent important phases of preimplantation and beyond. In qualitative and quantitative analyses, a strong similarity was proven between blastoids and the inner cell mass of in vivo mouse embryos. Further results strongly suggest that both, the cell number and the trophectoderm play a subordinate role for cell fate decision during preimplantation. Furthermore, 3D neighbourhood analyses have shown that both, blastoids and mouse embryos, do not show a random "salt-and-pepper" pattern during differentiation. Instead, they show a yet unknown local clustering of cells with identical fates, suggesting local cell interactions that influence cell fate decision. Furthermore, the data indicate that the maturation of the epiblast in the later stages of preimplantation is initiated by an interaction between cells of the epiblast and the primitive endoderm.
Using image-based systems biology, I have investigated fundamental cellular processes such as adhesion, growth and differentiation in the context of tissue integrity and early embryonic development using 3D cellular aggregates. This highly interdisciplinary work is a major contribution to 3D cell biology and demonstrates how cells bind and interact within a complex system. The main methods developed in this thesis as well as the biological findings can be used not only in further biological but also in medical and pharmacological studies. They have the potential to advance our understanding of complex biological systems and to provide new opportunities for practical applications.
Acute myeloid leukemia (AML) is a clonal malignancy of hematopoietic stem cells (HSCs) characterized by expansion of myeloid blasts in the bone marrow. It has been shown that autophagy is a degradative process, which delivers cytoplasmic components to lysosomes to prevent malignant transformation by maintaining HSC integrity. Besides its function as a bulk degradation machinery to recycle cytoplasmic components during limited energy supply, autophagy also serves as an intracellular quality control mechanism. Selective autophagy requires autophagy receptors such as p62 to specifically bridge the targeted cargos into autophagosomes. p62 is known as a central signaling hub involved in pro-oncogenic signaling pathways and autophagic degradation pathways. However, little is known about the role of p62 as a selective autophagy receptor in AML. This study aims to elucidate the precise function of p62 as an autophagy receptor in leukemia development and maintenance.
In silico analysis revealed that high p62 expression was significantly associated with poor overall survival of adult patients with de novo AML, suggesting that p62 may promote leukemia maintenance. To address the functional role of p62 in leukemia, genome editing by CRISPR/Cas9 was used to knockout p62 in four human AML cell lines. Importantly, p62 loss reduced cell proliferation in all four cell lines. This observation could be transferred to a murine leukemia cell model in which leukemic transformation of lineage-depleted bone marrow (ldMBM) cells was induced by overexpression of the human transcriptional coactivator MN1. Knockdown of p62 by shRNA in MN1-driven leukemia cells impaired proliferation and decreased colony forming ability without altering apoptosis. This indicates that p62 is crucial for leukemia proliferation in vitro. To further characterize the role of p62 in leukemia development and maintenance a murine AML transplantation model was established. Therefore, ldMBM cells isolated from WT and p62-/- mice were transduced with MN1 and transplanted into lethally irradiated mice. As expected, all mice developed fatal myeloid proliferation. Notably, p62 loss in MN1-driven leukemia significantly prolonged survival in mice and caused a more immature phenotype. Consistent with the in vitro results, ex vivo analysis of p62-/- leukemic cells displayed decreased colony-forming ability, although p62 loss did not affect composition and function of HSCs. Moreover, re-transplantation of primary MN1-driven leukemia cells attenuated leukemia progression upon p62 loss. These findings support a decisive role of p62 in leukemia development and maintenance.
To gain molecular insight into the function of p62 during myeloid transformation an interactome analysis of murine MN1-driven leukemia cells was performed. This revealed first that p62 predominantly interacts with mitochondrial proteins and second that inhibition of autophagic degradation causes accumulation of p62-bound mitochondria. This leads to the first assumption that loss of p62 may provoke mitochondrial accumulation with increasing mitochondrial damage and second that p62 may mediate degradation of mitochondria by mitophagy. Indeed, in the absence of p62, accumulation of dysfunctional mitochondria was detected by morphological changes of the mitochondria, increased mitochondrial ROS and impaired mitochondrial respiration capacity. Furthermore, induction of PINK1/Parkin-independent mitophagy revealed that loss of p62 caused impaired degradation of mitochondrial proteins and reduced translocation of damaged mitochondria into autophagosomes. Taken together, p62 is required for effective degradation of dysfunctional mitochondria by mitophagy in AML.
Due to the fact that p62 is a multifunctional protein, rescue experiments with different mutants of p62 were performed to clarify if p62-mediated mitophagy contributes to leukemia proliferation. Notably, the autophagy-deficient mutant (disabled to bind autophagosomes) reduced cell growth and colony-forming ability to the same extent as knockdown of p62, as the clustering-deficient mutant (disabled to form aggregates) displayed an intermediate phenotype. Strikingly, only the autophagy-deficient mutant failed to rescue mitophagy.
In conclusion, this study demonstrates the prominent role of p62 as a selective autophagy receptor for mitochondrial quality control which contributes to leukemia development and maintenance. Therefore, targeting selective autophagy opens new venues in the treatment of AML.
Metal ions as novel polarizing agents for dynamic nuclear polarization enhanced NMR spectroscopy
(2017)
High-spin complexes of Gd(III) and Mn(II) were introduced as polarizing agents (PAs) for solid-state dynamic nuclear polarization (DNP) in 2011. This dissertation was undertaken in 2013, with the intention of exploring these PAs further. Major goals of this work were to understand their DNP mechanism(s) and explore their application in biomolecular research. This cumulative thesis details the methods, advantages, and practical implications of using high-spin PAs for MAS DNP. Data from electron paramagnetic resonance (EPR) and NMR spectroscopy are discussed for a complete understanding of DNP mechanisms.
Out of the two main mechanisms − solid effect (SE) and cross effect (CE − active under experimental conditions of solid-state DNP, commonly used nitroxide PAs evoke CE owing to their broad EPR spectra. On the other hand, DNP mechanisms evoked by high-spin metal ions seem non-trivial due to additional features (originating from spin-orbit coupling or zero field splitting) in their EPR spectra. The features of the EPR signal generally influence the shape of enhancement profiles. Therefore, the metal ion with a simpler EPR signal i.e., Gd(III) , is chosen as the starting point for the investigation of DNP mechanisms. Varying concentrations (2, 10, 20 mM) of a water-soluble and stable complex Gd-DOTA was dissolved as the PA in a glycerol-water solution of 13C,15N - urea. Field profiles of DNP enhancement on each nuclear type (1H, 13C, and 15N) establishes SE as the active DNP mechanism at the smallest PA concentration (2 mM). This confirms the theoretical predictions that narrow line width of the Gd(III) EPR signal arising from the central transition (CT, ms = -1/2 +1/2) allows for resolved SE DNP. However, that is no longer the case at higher PA concentrations of 10 and 20 mM. At higher Gd(III) concentrations, the CE mechanism contributes significantly and varies with nuclear Larmor frequency (ωn) of the concerned nuclei. The enhancement maxima shifts towards the EPR resonance as the contribution from CE increases. This shift is evident in the field profiles of 15N and 13C, whereas that of 1H is least influenced. This observation can be explained by combining theoretical estimates with the experimental data; the CE is evoked by increased dipolar coupling (Dee) – a prerequisite for CE – between neighboring Gd(III) spins as the statistical inter-spin distance shortens at elevated concentrations. This finding is important because the knowledge of active DNP mechanisms is essential for accurate interpretation of results from DNP experiments.
From the experiments on Gd-DOTA it becomes clear that concentration, inter-spin distances, and hence induced Dee are intertwined. In order to explicitly address the influence of inter-spin distances on DNP mechanisms we started a collaboration with the group of Adelheid Godt (Bielefeld). In this collaborative project, bis-complexes of the type Gd(III)-spacer-Gd(III) with variable spacer lengths were investigated. These PAs provided an excellent model system where the influence of only inter-spin distances can be determined for a fixed Gd(III) concentration. A small PA concentration of 4 mM is used to ensure absence of significant inter-molecular dipolar interactions. A mono-Gd complex of similar geometry and chemistry is taken as a reference for SE DNP.
The mono-Gd complex yields enhancements arising from SE as expected from negligible inter-molecular Dee. The contribution of CE increases as the inter-spin distances between Gd(III) ions become shorter going from 3.4 nm 2.1 nm 1.4 nm 1.2 nm due to corresponding increase in Dee. The extent of CE on ωn follows the same trend as for Gd-DOTA. Highest CE contribution is observed on nuclei with the smallest ωn 15N because smaller ωn approaches the width of the EPR signal, this is an additional requirement for CE DNP.
The field position for maximum DNP enhancement corresponding to Gd-DOTA, is used for DNP experiments on Ubiquitin with an attached Gd-tag as PA. The success of DNP on this sample illustrates the possibility of site-directed DNP with metal ions tags as PAs. As a perspective Gd-tags can be used to examine change in conformation of a protein that would give higher enhancements due to CE if two Gd(III) labeled domains are closer in space. In a separate project, Mn(II) (s=5/2) bound to the divalent site of a hammerhead ribozyme was used as a PA which resulted in the first demonstration of intra-complex DNP using an intrinsically bound metal ion PA.
Due to immigration influxes, Germany’s ethnic diversity is on steady rise. Although citizens of immigrant origin make up a high percentage of the population in all Western European countries, they are descriptively underrepresented in most legislative bodies. As widely acknowledged, political parties form the key channels through which societal developments are fed into parliament. By selecting parliamentary candidates, they constitute the most crucial nexus of the population to be represented and legislative bodies. Despite the pivotal role of the intra-party candidate selection in shaping who runs for election, the question of how candidates of immigrant background fare in the candidate selection and whether the criteria political parties use for selecting candidates of immigrant background are the same as for native-born candidates remained a blind spot of the research on minority representation. Therefore, the dissertation scrutinizes the thresholds candidates of immigrant background need to overcome to run for legislative office. It thus tackles the questions of how political parties go about selecting candidates of immigrant background in comparison to native-born candidates and which contextual factors drive their choice of selection behavior. For this purpose, the dissertation develops three ideal-typical selection strategies political parties can adopt towards candidates of immigrant background, which are referred to as neutrality, opening or closure, and empirically tests which selection strategy is in use. To explore parties’ selection behavior towards candidates of immigrant background, the dissertation combines the advantages of quantitative analysis by employing candidate surveys at the state and national level, with advantages of qualitative analysis by conducting interviews with candidates of immigrant background. As the analysis reveals, neutrality is the predominant selection strategy that political parties use towards candidates of immigrant background, the reason being that neutral selection practices involve the fewest intra-party conflicts.
The adult mammalian heart is unable to regenerate lost myocardial tissue after injury. In contrast, some lower vertebrates including zebrafish are able to undergo complete epimorphic regeneration following multiple types of cardiac injury. During the process of regeneration, spared zebrafish cardiomyocytes in the vicinity of the injured area undergo dedifferentiation and proliferation, thereby giving rise to new cardiomyocytes which replace the injured muscle. Insights into the molecular networks controlling these regenerative processes might help to develop novel therapeutic strategies to restore cardiac performance in humans.
While TGF-β signaling has been implicated in zebrafish cardiac regeneration, the role of individual TGF-β ligands remains to be determined. Here, I report the opposing expression response of two TGF-β ligand genes, mstnb and inhbaa, during zebrafish heart regeneration. Using gain- and loss-of-function approaches, I show that these ligands exert opposite effects on cardiac regeneration and specifically on cardiomyocyte proliferation. Notably, I show that overexpression of mstnb and loss of inhbaa negatively regulate cardiomyocyte proliferation and therefore disturb cardiac regeneration. In contrast, loss of mstnb and activation of inhbaa not only promote physiological cardiomyocyte proliferation but also enhance cardiac regeneration. I also identify Inhbaa as a mitogen which promotes cardiomyocyte proliferation independent of the well-established Nrg-ErbB signaling. Mechanistically, I unraveled that Mstnb and Inhbaa function through alternate Activin type 2 receptor complexes to control the activities of the signal transducers, Smad2 and Smad3, thereby regulating cardiomyocyte proliferation.
Altogether, I reveal novel and unidentified opposite functions of two TGF-β ligands during cardiac development and regeneration, resulting in a pro-mitogenic as well as an anti-mitogenic effect on cardiomyocytes. This study should therefore stimulate further research on targeting specific TGF-β family members to generate novel regenerative therapeutic strategies.
Zur effizienten Beschleunigung von Ionen wird meist nach deren Erzeugung in einer Ionenquelle ein Radio Frequenz Quadrupol verwendet. Die vorliegende Dissertation befasst sich mit Entwicklung, Bau und Messung des Prototyps eines neuartigen Leiter-RFQs, der bei 325 MHz betrieben wird. Der Leiter-RFQ verfügt über ein neuartiges mechanisches Design und versucht die Vorteile der beiden vorrangig im Betrieb befindlichen RFQ Typen, des 4-Rod und 4-Vane RFQs, zu verbinden. Die physikalischen Parameter sind der Spezifikation des RFQs für den geplanten Protonenlinac (p-Linac) am FAIR-Projekt an der GSI Darmstadt entnommen. Darüber hinaus wird der aktuelle Planungs- und Simulationsstand eines modulierten Prototyps mit der vollen Länge von ca. 3,5 m zur Durchführung von Strahltests dargestellt.
Embedding spanning structures into the random graph G(n,p) is a well-studied problem in random graph theory, but when one turns to the random r-uniform hypergraph H(r)(n,p) much less is known. In this thesis we will examine this topic from different perspectives, providing insights into various aspects of the theory of random graphs. Our results cover the determination of existence thresholds in two models, as well as an algorithmic approach. For the embeddings, we work with random and pseudorandom structures.
Together with Person we first notice that a general result of Riordan can be adapted from random graphs to hypergraphs and provide sufficient conditions for when H(r)(n,p) contains a given spanning structure asymptotically almost surely. As applications, we discuss several spanning structures such as cubes, lattices, spheres, and Hamilton cycles in hypergraphs.
Moreover, we study universality, i.e. when does an r-uniform hypergraph contain every hypergraph on n vertices with maximum vertex degree bounded by [delta]? For H(r)(n,p), it is shown with Person that this holds for p = w(ln n/n)1/[delta]) asymptotically almost surely by combining approaches taken by Dellamonica, Kohayakawa, Rödl, and Ruciński, of Ferber, Nenadov, and Peter, and of Kim and Lee.
Any hypergraph that is universal for the family of bounded degree r-uniform hypergraphs has to contain [omega](nr-r/[delta]) edges. With Hetterich and Person we exploit constructions of Alon and Capalbo to obtain universal r-uniform hypergraphs with the optimal number of edges O(nr-r/[delta]) when r is even, r | [delta], or [delta] = 2. Furthermore, we generalise the result of Alon and Asodi about optimal universal graphs for the family of graphs with at most m edges and no isolated vertices to hypergraphs.
In an r-uniform hypergraph on n vertices a tight Hamilton cycle consists of n edges such that there exists a cyclic ordering of the vertices where the edges correspond to consecutive segments of r vertices. In collaboration with Allen, Koch, and Person we provide a first deterministic polynomial time algorithm, which finds asymptotically almost surely tight Hamilton cycles in random r-uniform hypergraphs with edge probability at least C log3 n/n. This result partially answers a question of Nenadov and Skorić and of Dudek and Frieze who proved that tight Hamilton cycles exist already for p = w(1/n) for r = 3 and p [größer/gleich] (e + o(1))/n for r [größer/gleich] 4 using a second moment argument. Moreover our algorithm is superior to previous results of Allen, Böttcher, Kohayakawa, and Person and Nenadov and Skorić.
Lastly, we study the model of randomly perturbed dense graphs introduced by Bohman, Frieze and Martin, that is, the union of any n-vertex graph G[alpha] with minimum degree at least [alpha]n and G(n,p). For any fixed [alpha] > 0, and p = w(n-2/([delta]+1)), we show with Böttcher, Montgomery, and Person that G[alpha] UG(n,p) almost surely contains any single spanning graph with maximum degree [delta], where [delta] [größer/gleich] 5. As in previous results concerning this model, the bound used for p is lower by a log-term in comparison to the conjectured threshold for the general appearance of such subgraphs in G(n,p) alone. The new techniques we introduce also give simpler proofs of related results in the literature on trees and factors.
Das World Wide Web (Web) als die wohl wichtigste Entwicklung von Informations- und Kommunikationstechnologien (engl. information and communication technologies, ICTs) Ende des 20. Jahrhunderts bietet uns Zugang zu einer unbegrenzten Fülle an Informationen. Doch um es als reichhaltige Informationsquelle effektiv nutzen zu können, benötigen wir spezifische ICT-Fähigkeiten. Die Dissertation Development of Interactive Performance Measures for two Components of ICT Literacy: Successfully Accessing and Evaluating Information befasst sich daher mit der Untersuchung zweier grundlegender ICT Fähigkeiten für die erfolgreiche Nutzung des Web als Informationsquelle: der Fähigkeit, auf die gewünschten Information zugreifen zu können, also basale Computerfähigkeiten (engl. basic computer skills, BCS), sowie der Fähigkeit, die Online-Informationen in Bezug auf ihre Glaubwürdigkeit bewerten zu können. Hierzu werden zunächst anhand der Betrachtung des theoretischen Hintergrundes beider ICT-Fähigkeiten Definitionen der Konstrukte vorgestellt. Ziel der Arbeit stellt die Entwicklung zweier Testverfahren zur interaktiven, computer-basierten Erfassung basaler Computerfähigkeiten sowie der Fähigkeit zur Bewertung der Glaubwürdigkeit von Online-Informationen dar. Die den Testverfahren zugrundeliegende faktorielle Struktur sowie die Beziehung beider ICT-Fähigkeiten zu verwandten Konstrukten werden untersucht. Des Weiteren werden Ergebnisse aus der praktischen Anwendung des neu entwickelten Tests zur Evaluation von Online-Informationen (TEO) genutzt, um zu einem tieferen Verständnis über den Suchprozess im Web (engl. web search proccess) zu gelangen und Faktoren zu identifizieren, die diesen beeinflussen. Dabei wird sowohl der Einfluss sogenannter Aufgabencharakteristika (engl. task characteristics) untersucht, die den Kontext des Suchprozesses bestimmen, als auch der Einfluss individueller Prozesscharakteristika (engl. individual process characteristics), welche durch die jeweilige Person bestimmt sind, die die Informationssuche vornimmt.
Um den Forschungszielen der Arbeit gerecht zu werden, wurden drei Studien durchgeführt. Die erste Studie befasst sich mit der Entwicklung der Skala zur Erfassung basaler Computerfähigkeiten (BCS). Im Konkreten wurden Hypothesen über die Zusammenhänge der BCS-Skala mit praktischem Computerwissen, Worterkennung, einer Selbsteinschätzung der eigenen Computerfähigkeiten sowie elektronischer Lesefähigkeit formuliert und analysiert. Die zweite Studie behandelt die Entwicklung des Tests zur Evaluation von Online-Informationen (TEO) und exploriert sowohl die latente Struktur des Konstruktes der Bewertung der Glaubwürdigkeit von Online-Informationen als auch den Zusammenhang mit basalen Computerfähigkeiten, Worterkennung und logischem Denken. In der dritten Studie wird der Suchprozess im Web näher beleuchtet und mögliche Einflussgrößen einer erfolgreichen Bewertung von Online-Informationen erforscht, wobei der Einfluss von Aufgabencharakteristika, individuellen Prozesscharakteristika und deren Interaktion ergründet wird. Im Speziellen wurde der Einfluss dreier Aufgabencharakteristika geprüft, die sich auf die Komplexität einer Aufgabe beziehen: die Anzahl der Suchergebnisse (Links auf der Ergebnisseite einer Suchmaschinenabfrage), die Attraktivität der weniger glaubwürdigen Links auf der Ergebnisseite einer Suchmaschinenabfrage im Vergleich zum glaubwürdigsten Link sowie die Kongruenz zwischen den Glaubwürdigkeitsmerkmalen in den Links auf der Ergebnisseite der Suchmaschinenabfrage und auf den dazugehörigen Webseiten. Dabei war die Attraktivität eines Links definiert als die Gesamtanzahl der Glaubwürdigkeitsmerkmale, welche auf eine hohe Glaubwürdigkeit der Informationen hinweisen. Je mehr Merkmale eines Links hohe Glaubwürdigkeit indizieren, desto attraktiver ist ein Link. Von Kongruenz zwischen den Glaubwürdigkeitsmerkmalen wurde ausgegangen, wenn diese sowohl in einem Link auf der Ergebnisseite der Suchmaschinenabfrage als auch auf der korrespondierenden Webseite gleichermaßen hohe oder gleichermaßen geringe Glaubwürdigkeit anzeigen. Inkongruenz hingegen wurde angenommen, wenn die Glaubwürdigkeitsmerkmale in einem Link auf der Ergebnisseite hohe Glaubwürdigkeit und jene auf der korrespondierenden Webseite geringe Glaubwürdigkeit anzeigen und vice versa. Weiterhin wurde der Einfluss dreier individueller Prozesscharakteristika auf den Bewertungserfolg untersucht: die Anzahl besuchter unterschiedlicher Webseiten, die auf der Ergebnisseite der Suchmaschinenabfrage verbrachte Zeit sowie die auf den korrespondierenden Webseiten verbrachte Zeit.
Zusammengefasst präsentiert die Arbeit reliable Instrumente zur Erfassung basaler Computerfähigkeiten sowie der Fähigkeit zur Bewertung der Glaubwürdigkeit von Online-Informationen. Sie zeigt die hohe Relevanz basaler Lesefähigkeiten (Worterkennung) für beide Konstrukte auf und offenbart die Fähigkeit zum logischen Denken als Prädiktor für die Bewertungskompetenz. Während eine erfolgreiche Bewertung von Online-Informationen durch eine hohe Anzahl von Suchergebnissen negativ beeinflusst wurde, wirkte sich Kongruenz der Glaubwürdigkeitsmerkmale sowie eine hohe Anzahl besuchter unterschiedlicher Webseiten positiv auf den Bewertungserfolg aus. Die Attraktivität der weniger glaubwürdigen Links sowie die zeitbezogenen Prozesscharakteristika beeinflussten den Bewertungserfolg wider Erwarten nicht. Die Anzahl besuchter unterschiedlicher Webseiten erwies sich bei einer hohen Anzahl von Suchergebnissen als weniger prädiktiv für den Bewertungserfolg als bei einer geringen Anzahl von Suchergebnissen.