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Institute
- Theodor-Boveri-Institut für Biowissenschaften (83) (remove)
Sonstige beteiligte Institutionen
EU-Project number / Contract (GA) number
- 226852 (1)
Background: Gene function analysis of the obligate intracellular bacterium Chlamydia pneumoniae is hampered by the facts that this organism is inaccessible to genetic manipulations and not cultivable outside the host. The genomes of several strains have been sequenced; however, very little information is available on the gene structure and transcriptome of C. pneumoniae. Results: Using a differential RNA-sequencing approach with specific enrichment of primary transcripts, we defined the transcriptome of purified elementary bodies and reticulate bodies of C. pneumoniae strain CWL-029; 565 transcriptional start sites of annotated genes and novel transcripts were mapped. Analysis of adjacent genes for cotranscription revealed 246 polycistronic transcripts. In total, a distinct transcription start site or an affiliation to an operon could be assigned to 862 out of 1,074 annotated protein coding genes. Semi-quantitative analysis of mapped cDNA reads revealed significant differences for 288 genes in the RNA levels of genes isolated from elementary bodies and reticulate bodies. We have identified and in part confirmed 75 novel putative non-coding RNAs. The detailed map of transcription start sites at single nucleotide resolution allowed for the first time a comprehensive and saturating analysis of promoter consensus sequences in Chlamydia. Conclusions: The precise transcriptional landscape as a complement to the genome sequence will provide new insights into the organization, control and function of genes. Novel non-coding RNAs and identified common promoter motifs will help to understand gene regulation of this important human pathogen.
Das angeborene Immunsystem von Insekten besteht aus einer humoralen Komponente, einer zellulären Komponente und dem Prophenoloxidase-aktivierenden System. Fast alle Erkenntnisse über das angeborene Immunsystem stammen von Arbeiten mit Modellorganismen wie z.B. Drosophila oder Anopheles gambiae. Wie genau das Immunsystem der Honigbiene (Apis mellifera) funktioniert, ist jedoch noch relativ unbekannt. In der vorliegenden Arbeit wurden die unterschiedlichen Immunreaktionen aller drei Entwicklungsstadien der Honigbiene nach artifizieller Infektion mit Gram-negativen und Gram-positiven Bakterien (Escherichia coli und Micrococcus flavus) und dem Akuten Bienen Paralyse Virus (ABPV) untersucht und verglichen. Eine E. coli-Injektion zeigt bei Larven und adulten Arbeiterinnen nur wenig Auswirkung auf das äußere Erscheinungsbild und die Überlebensrate. In beiden Entwicklungsstadien wird die humorale Immunantwort stark induziert, erkennbar an der Expression der antimikrobiellen Peptide (AMPs) Hymenoptaecin, Defensin1 und Abaecin. Zusätzlich werden allein in Jungbienen nach bakterieller Infektion vier weitere immunspezifische Proteine exprimiert. Unter anderem eine Carboxylesterase (CE1) und das Immune-Responsive Protein 30 (IRp30). Die Expression von CE1 und IRp30 zeigt dabei den gleichen zeitlichen Verlauf wie die der AMPs. In Jungbienen kommt es zudem nach E. coli-Injektion zu einer raschen Abnahme an lebenden Bakterien in der Hämolymphe, was auf eine Aktivierung der zellulären Immunantwort schließen lässt. Ältere Bienen und Winterbienen zeigen eine stärkere Immunkompetenz als Jungbienen. Selbst nicht-infizierte Winterbienen exprimieren geringe Mengen der immunspezifischen Proteine IRp30 und CE1. Die Expression von IRp30 kann dabei durch Verwundung oder Injektion von E. coli noch gesteigert werden. Eine weitere Besonderheit ist die im Vergleich zu Jungbienen raschere Abnahme an lebenden Bakterien in der Hämolymphe bis hin zur vollständigen Eliminierung. Die Reaktion von Puppen auf eine bakterielle Infektion war völlig unerwartet. Nach Injektion von E. coli-Zellen kommt es innerhalb von 24 h p.i. zu einem tödlichen Kollaps, der sich in einer Graufärbung des gesamten Puppenkörpers äußert. Da keine Expression von AMPs nachzuweisen war, wird die humorale Immunantwort offensichtlich nicht induziert. Auch die zelluläre Immunantwort scheint nicht aktiviert zu werden, denn es konnte keine Abnahme an lebenden E. coli-Zellen beobachtet werden. Aufgrund dieser fehlenden Immunreaktionen vermehrt sich E. coli im Hämocoel infizierter Puppen und scheint damit deren Tod herbeizuführen. Nach viraler Infektion wurden in allen drei Entwicklungsstadien der Honigbiene gänzlich andere Reaktionen beobachtet als nach bakterieller Infektion. Bei dem verwendeten Akuten Bienen Paralyse Virus (ABPV) handelt es sich um ein Picorna-ähnliches Virus, dessen Vermehrung in der Hämolymphe über die massive Synthese der Capsidproteine verfolgt werden kann. Eine Injektion von sehr wenigen ABPV-Partikeln ins Hämocoel hat dramatische Auswirkungen auf Larven. Nach Virusinjektion kommt es innerhalb weniger Stunden zu einer raschen Virusvermehrung und schon 24 h p.i. zum Tod, häufig begleitet von einer Schwarzfärbung der gesamten Larve. Kurz vor dem Ableben kommt es neben dem Abbau hochmolekularer Speicherproteine zur Expression zahlreicher Proteine, die u.a. an der Translation oder dem Schutz vor oxidativem Stress beteiligt sind. Auf Jungbienen hat eine ABPV-Infektion keine so dramatischen Auswirkungen wie auf Larven. Sie zeigen lediglich Zeichen von Paralyse, zudem überleben sie länger bei höheren injizierten Partikelzahlen, die Virusvermehrung ist langsamer und es kommt zu keiner starken Veränderung des Hämolymph-Proteinmusters. Es konnte gezeigt werden, dass es in ABPV-infizierten Larven oder adulten Bienen zu keiner erkennbaren Aktivierung des humoralen Immunsystems in Form von exprimierten AMPs kommt. Zudem scheint die humorale Immunantwort auch nicht unterdrückt zu werden, denn nach gleichzeitiger Injektion von E. coli und ABPV kommt es neben der Expression viraler Capsidproteine auch zur Expression von AMPs. Zusätzlich konnte in Jungbienen nach Infektion mit ABPV eine zelluläre Immunantwort in Form von Nodulation ausgeschlossen werden. Ältere Bienen scheinen nicht nur mit bakteriellen Infektionen, sondern auch mit einer ABPV-Infektion besser zurechtzukommen. Bei einer Menge an ABPV-Partikeln, die in Jungbienen spätestens 72 h p.i. zum Tod führt, ist in Winterbienen eine Virusvermehrung erst ab 96 h p.i. erkennbar und diese beeinträchtigt die Überlebensrate kaum. Puppen sind einer Virusinfektion genauso schutzlos ausgeliefert wie einer Bakterieninfektion. Es kommt zwar zu keiner starken Änderung des äußeren Erscheinungsbildes, jedoch bleiben Puppen in ihrer Entwicklung komplett stehen. Das Virus muss sich daher stark vermehren, allerdings nicht überwiegend - wie bei Larven und adulten Bienen - in der Hämolymphe.
Yersinia enterocolitica subsp. palearctica serobiotype O:3/4 comprises about 80-90 % of all human patient isolates in Germany and Europe and is responsible for sporadic cases worldwide. Even though this serobiotype is low pathogenic, Y. enterocolitica subsp. palearctica serobiotype O:3/4 is involved in gastroenteritis, lymphadenitis and various extraintestinal sequelae as reactive arthritis. The main animal reservoir of this serobiotype are pigs, causing a high rate of O:3/4 contaminations of raw pork in butcher shops in Germany (e.g. Bavaria 25 %) and countries in north-east Europe. As Y. enterocolitica O:3/4 is geographically and phylogenetically distinct from the so far sequenced mouse-virulent O:8/1B strain, complete genome sequencing has been performed for the European serobiotype O:3/4 DSMZ reference strain Y11, which has been isolated from a patient stool. To gain greater insight into the Y. enterocolitica subspecies palearctica group, also draft genome sequences of two other human O:3/4 isolates (strains Y8265, patient isolate, and Y5307, patient isolate associated with reactive arthritis), a closely related Y. enterocolitica palearctica serobiotype O:5,27/3 (strain Y527P), and two biotype 1A strains (a nosocomial strain of serogroup O:5 and an environmental serogroup O:36 isolate) have been performed. Those strains were compared to the high-pathogenic Y. enterocolitica subsp. enterocolitica serobiotype O:8/1B strain 8081 to address the peculiarities of the strain Y11 and the Y. enterocolitica subspecies palearctica group. The main focus was to unravel the pathogenic potential of strain Y11 and thus to identify novel putative virulence genes and fitness factors, especially those that may constitute host specificity of serobiotype O:3/4. Y. enterocolitica subspecies palearctica serobiotype O:3/4 strains lack most of the mouse-virulence-associated determinants of Y. enterocolitica subsp. enterocolitica serotype O:8, for example the HPI, Yts1 type 2 and Ysa type three secretion systems. In comparison, serobiotype O:3/4 strains obviously acquired a different set of genes and genomic islands for virulence and fitness such as the Ysp type three secretion system, an RtxA-like putative toxin, insecticidal toxins and a functional PTS system for N-acetyl-galactosamine uptake, named aga-operon. The aga-operon is able to support the growth of the Y. enterocolitica subsp. enterocolitica O:8/1B on N-acetyl-galactosamine after transformation with the aga operon. Besides these genes, also two prophages, PhiYep-2 and PhiYep-3, and a asn tRNA-associated GIYep-01 genomic island might influence the Y. enterocolitica subsp. palearctica serobiotype O:3/4 pathoadaptation. The PhiYep-3 prophage and the GIYep-01 island show recombination activity and PhiYep-3 was not found in all O:3/4 strains of a small strain collection tested. Y. enterocolitica subsp. palearctica serobiotype O:5,27/3 strain Y527P was found to be closely related to all serobiotype O:3/4 strains, whereas the biotype 1A isolates have more mosaic-segmented genomes and share putative virulence genes both with serobiotypes O:8/1B and O:3/4, which implies their common descent. Besides the pYV virulence plasmid, biotype 1A strains lack classical virulence markers as the Ail adhesin, the YstA enterotoxin, and the virulence-associated protein C. Interestingly, there are no notable differences between the known virulence factors present in nosocomial and environmental strains, except the presence of a truncated Rtx toxin-like gene cluster and remnants of a P2-like prophage in the hospital serogroup O:5 isolate.
In recent years high-throughput experiments provided a vast amount of data from all areas of molecular biology, including genomics, transcriptomics, proteomics and metabolomics. Its analysis using bioinformatics methods has developed accordingly, towards a systematic approach to understand how genes and their resulting proteins give rise to biological form and function. They interact with each other and with other molecules in highly complex structures, which are explored in network biology. The in-depth knowledge of genes and proteins obtained from high-throughput experiments can be complemented by the architecture of molecular networks to gain a deeper understanding of biological processes. This thesis provides methods and statistical analyses for the integration of molecular data into biological networks and the identification of functional modules, as well as its application to distinct biological data. The integrated network approach is implemented as a software package, termed BioNet, for the statistical language R. The package includes the statistics for the integration of transcriptomic and functional data with biological networks, the scoring of nodes and edges of these networks as well as methods for subnetwork search and visualisation. The exact algorithm is extensively tested in a simulation study and outperforms existing heuristic methods for the calculation of this NP-hard problem in accuracy and robustness. The variability of the resulting solutions is assessed on perturbed data, mimicking random or biased factors that obscure the biological signal, generated for the integrated data and the network. An optimal, robust module can be calculated using a consensus approach, based on a resampling method. It summarizes optimally an ensemble of solutions in a robust consensus module with the estimated variability indicated by confidence values for the nodes and edges. The approach is subsequently applied to two gene expression data sets. The first application analyses gene expression data for acute lymphoblastic leukaemia (ALL) and differences between the subgroups with and without an oncogenic BCR/ABL gene fusion. In a second application gene expression and survival data from diffuse large B-cell lymphomas are examined. The identified modules include and extend already existing gene lists and signatures by further significant genes and their interactions. The most important novelty is that these genes are determined and visualised in the context of their interactions as a functional module and not as a list of independent and unrelated transcripts. In a third application the integrative network approach is used to trace changes in tardigrade metabolism to identify pathways responsible for their extreme resistance to environmental changes and endurance in an inactive tun state. For the first time a metabolic network approach is proposed to detect shifts in metabolic pathways, integrating transcriptome and metabolite data. Concluding, the presented integrated network approach is an adequate technique to unite high-throughput experimental data for single molecules and their intermolecular dependencies. It is flexible to apply on diverse data, ranging from gene expression changes over metabolite abundances to protein modifications in a combination with a suitable molecular network. The exact algorithm is accurate and robust in comparison to heuristic approaches and delivers an optimal, robust solution in form of a consensus module with confidence values. By the integration of diverse sources of information and a simultaneous inspection of a molecular event from different points of view, new and exhaustive insights into biological processes can be acquired.
Background
Neisseria meningitidis is a naturally transformable, facultative pathogen colonizing the human nasopharynx. Here, we analyze on a genome-wide level the impact of recombination on gene-complement diversity and virulence evolution in N. meningitidis. We combined comparative genome hybridization using microarrays (mCGH) and multilocus sequence typing (MLST) of 29 meningococcal isolates with computational comparison of a subset of seven meningococcal genome sequences.
Principal Findings
We found that lateral gene transfer of minimal mobile elements as well as prophages are major forces shaping meningococcal population structure. Extensive gene content comparison revealed novel associations of virulence with genetic elements besides the recently discovered meningococcal disease associated (MDA) island. In particular, we identified an association of virulence with a recently described canonical genomic island termed IHT-E and a differential distribution of genes encoding RTX toxin- and two-partner secretion systems among hyperinvasive and non-hyperinvasive lineages. By computationally screening also the core genome for signs of recombination, we provided evidence that about 40% of the meningococcal core genes are affected by recombination primarily within metabolic genes as well as genes involved in DNA replication and repair. By comparison with the results of previous mCGH studies, our data indicated that genetic structuring as revealed by mCGH is stable over time and highly similar for isolates from different geographic origins.
Conclusions
Recombination comprising lateral transfer of entire genes as well as homologous intragenic recombination has a profound impact on meningococcal population structure and genome composition. Our data support the hypothesis that meningococcal virulence is polygenic in nature and that differences in metabolism might contribute to virulence.
Background: Acquisition of information about food sources is essential for animals that forage collectively like social insects. Foragers deliver two commodities to the nest, food and information, and they may favor the delivery of one at the expenses of the other. We predict that information needs should be particularly high at the beginning of foraging: the decision to return faster to the nest will motivate a grass-cutting ant worker to reduce its loading time, and so to leave the source with a partial load. Principal Findings: Field results showed that at the initial foraging phase, most grass-cutting ant foragers (Acromyrmex heyeri) returned unladen to the nest, and experienced head-on encounters with outgoing workers. Ant encounters were not simply collisions in a probabilistic sense: outgoing workers contacted in average 70% of the returning foragers at the initial foraging phase, and only 20% at the established phase. At the initial foraging phase, workers cut fragments that were shorter, narrower, lighter and tenderer than those harvested at the established one. Foragers walked at the initial phase significantly faster than expected for the observed temperatures, yet not at the established phase. Moreover, when controlling for differences in the fragment-size carried, workers still walked faster at the initial phase. Despite the higher speed, their individual transport rate of vegetable tissue was lower than that of similarly-sized workers foraging later at the same patch. Conclusions/Significance: At the initial foraging phase, workers compromised their individual transport rates of material in order to return faster to the colony. We suggest that the observed flexible cutting rules and the selection of partial loads at the beginning of foraging are driven by the need of information transfer, crucial for the establishment and maintenance of a foraging process to monopolize a discovered resource.
Background: Successful cooperation depends on reliable identification of friends and foes. Social insects discriminate colony members (nestmates/friends) from foreign workers (non-nestmates/foes) by colony-specific, multi-component colony odors. Traditionally, complex processing in the brain has been regarded as crucial for colony recognition. Odor information is represented as spatial patterns of activity and processed in the primary olfactory neuropile, the antennal lobe (AL) of insects, which is analogous to the vertebrate olfactory bulb. Correlative evidence indicates that the spatial activity patterns reflect odor-quality, i.e., how an odor is perceived. For colony odors, alternatively, a sensory filter in the peripheral nervous system was suggested, causing specific anosmia to nestmate colony odors. Here, we investigate neuronal correlates of colony odors in the brain of a social insect to directly test whether they are anosmic to nestmate colony odors and whether spatial activity patterns in the AL can predict how odor qualities like ‘‘friend’’ and ‘‘foe’’ are attributed to colony odors. Methodology/Principal Findings: Using ant dummies that mimic natural conditions, we presented colony odors and investigated their neuronal representation in the ant Camponotus floridanus. Nestmate and non-nestmate colony odors elicited neuronal activity: In the periphery, we recorded sensory responses of olfactory receptor neurons (electroantennography), and in the brain, we measured colony odor specific spatial activity patterns in the AL (calcium imaging). Surprisingly, upon repeated stimulation with the same colony odor, spatial activity patterns were variable, and as variable as activity patterns elicited by different colony odors. Conclusions: Ants are not anosmic to nestmate colony odors. However, spatial activity patterns in the AL alone do not provide sufficient information for colony odor discrimination and this finding challenges the current notion of how odor quality is coded. Our result illustrates the enormous challenge for the nervous system to classify multi-component odors and indicates that other neuronal parameters, e.g., precise timing of neuronal activity, are likely necessary for attribution of odor quality to multi-component odors.
Background:
Chloroplast-encoded genes (matK and rbcL) have been formally proposed for use in DNA barcoding efforts targeting embryophytes. Extending such a protocol to chlorophytan green algae, though, is fraught with problems including non homology (matK) and heterogeneity that prevents the creation of a universal PCR toolkit (rbcL). Some have advocated the use of the nuclear-encoded, internal transcribed spacer two (ITS2) as an alternative to the traditional chloroplast markers. However, the ITS2 is broadly perceived to be insufficiently conserved or to be confounded by introgression or biparental inheritance patterns, precluding its broad use in phylogenetic reconstruction or as a DNA barcode. A growing body of evidence has shown that simultaneous analysis of nucleotide data with secondary structure information can overcome at least some of the limitations of ITS2. The goal of this investigation was to assess the feasibility of an automated, sequence-structure approach for analysis of IT2 data from a large sampling of phylum Chlorophyta.
Methodology/Principal Findings:
Sequences and secondary structures from 591 chlorophycean, 741 trebouxiophycean and 938 ulvophycean algae, all obtained from the ITS2 Database, were aligned using a sequence structure-specific scoring matrix. Phylogenetic relationships were reconstructed by Profile Neighbor-Joining coupled with a sequence structure-specific, general time reversible substitution model. Results from analyses of the ITS2 data were robust at multiple nodes and showed considerable congruence with results from published phylogenetic analyses.
Conclusions/Significance:
Our observations on the power of automated, sequence-structure analyses of ITS2 to reconstruct phylum-level phylogenies of the green algae validate this approach to assessing diversity for large sets of chlorophytan taxa. Moreover, our results indicate that objections to the use of ITS2 for DNA barcoding should be weighed against the utility of an automated, data analysis approach with demonstrated power to reconstruct evolutionary patterns for highly divergent lineages.
Here we describe a novel conditional mouse lung tumor model for investigation of the pathogenesis of human lung cancer. On the basis of the frequent involvement of the Ras-RAF-MEK-ERK signaling pathway in human non-small cell lung carcinoma (NSCLC), we have explored the target cell availability, reversibility, and cell type specificity of transformation by oncogenic C-RAF. Targeting expression to alveolar type II cells or to Clara cells, the two likely precursors of human NSCLC, revealed differential tumorigenicity between these cells. Whereas expression of oncogenic C-RAF in alveolar type II cells readily induced multifocal macroscopic lung tumors independent of the developmental state, few tumors with type II pneumocytes features and incomplete penetrance were found when targeted to Clara cells. Induced tumors did not progress and were strictly dependent on the initiating oncogene. Deinduction of mice resulted in tumor regression due to autophagy rather than apoptosis. Induction of autophagic cell death in regressing lung tumors suggests the use of autophagy enhancers as a treatment choice for patients with NSCLC.
Background: Patterns that arise from an ecological process can be driven as much from the landscape over which the process is run as it is by some intrinsic properties of the process itself. The disentanglement of these effects is aided if it possible to run models of the process over artificial landscapes with controllable spatial properties. A number of different methods for the generation of so-called ‘neutral landscapes’ have been developed to provide just such a tool. Of these methods, a particular class that simulate fractional Brownian motion have shown particular promise. The existing methods of simulating fractional Brownian motion suffer from a number of problems however: they are often not easily generalisable to an arbitrary number of dimensions and produce outputs that can exhibit some undesirable artefacts. Methodology: We describe here an updated algorithm for the generation of neutral landscapes by fractional Brownian motion that do not display such undesirable properties. Using Monte Carlo simulation we assess the anisotropic properties of landscapes generated using the new algorithm described in this paper and compare it against a popular benchmark algorithm. Conclusion/Significance: The results show that the existing algorithm creates landscapes with values strongly correlated in the diagonal direction and that the new algorithm presented here corrects this artefact. A number of extensions of the algorithm described here are also highlighted: we describe how the algorithm can be employed to generate landscapes that display different properties in different dimensions and how they can be combined with an environmental gradient to produce landscapes that combine environmental variation at the local and macro scales.
In many animals the ability to navigate over long distances is an important prerequisite for foraging. For example, it is widely accepted that desert ants and honey bees, but also mammals, use path integration for finding the way back to their home site. It is however a matter of a long standing debate whether animals in addition are able to acquire and use so called cognitive maps. Such a 'map', a global spatial representation of the foraging area, is generally assumed to allow the animal to find shortcuts between two sites although the direct connection has never been travelled before. Using the artificial neural network approach, here we develop an artificial memory system which is based on path integration and various landmark guidance mechanisms ( a bank of individual and independent landmark-defined memory elements). Activation of the individual memory elements depends on a separate motivation network and an, in part, asymmetrical lateral inhibition network. The information concerning the absolute position of the agent is present, but resides in a separate memory that can only be used by the path integration subsystem to control the behaviour, but cannot be used for computational purposes with other memory elements of the system. Thus, in this simulation there is no neural basis of a cognitive map. Nevertheless, an agent controlled by this network is able to accomplish various navigational tasks known from ants and bees and often discussed as being dependent on a cognitive map. For example, map-like behaviour as observed in honey bees arises as an emergent property from a decentralized system. This behaviour thus can be explained without referring to the assumption that a cognitive map, a coherent representation of foraging space, must exist. We hypothesize that the proposed network essentially resides in the mushroom bodies of the insect brain.
Die intakte Signalübertragung im animalischen Nervensystem erfordert eine an richtiger Stelle ausgebildete funktionsfähige Synapse zwischen zwei Nervenzellen bzw. zwischen Nerv und Muskel. In der vorliegenden Arbeit wurde eine Mutante von Drosophila melanogaster untersucht, bei der es zu Veränderungen der Verteilung eines wichtigen Organisationsproteins der synaptischen aktiven Zone kommt. Ein wichtiges Ergebnis der Untersuchungen ist die Beobachtung, dass es in der Mutante zu einer ektopen Ausbildung von Elementen aktiver Zonen in Axonen kommt. In den Arbeitsgruppen von E. Buchner und S. Sigrist ist bereits das Protein Bruchpilot (BRP) charakterisiert worden, das Bestandteil der präsynaptischen Ribbons, bei Drosophila als T-bars bezeichnet, ist. Bei der Suche nach Interaktionspartnern von BRP, ist eine Serin-Arginin-Protein spezifische Kinase SRPK79D entdeckt worden, die offenbar an der Regulation des Aufbaus der Tbars beteiligt ist (Nieratschker et al., 2009). Es gibt vier verschiedene Isoformen der Kinase. Werden nur zwei Isoformen der Kinase (SRPK79D-RB und -RE) exprimiert bzw. das Gen der Kinase komplett ausgeschaltet, findet man Ansammlungen von BRP als immunreaktive Aggregate in der Immunfluoreszenz- Färbung von larvalen Motoneuron-Axonen (Nieratschker, 2008). Es ist unser übergeordnetes Ziel, die Funktion und den molekularen Signalweg der Kinase SRPK79D zu entschlüsseln. Ein Ziel der vorliegenden Arbeit war es, PB-Protein in Reinform für eine Affinitätsreinigung eines PB-Antikörpers zu gewinnen, um in nachfolgenden Untersuchungen die Lokalisation dieser Kinase-Isoform zu untersuchen. Die Proteinreinigung war erfolgreich, aber es gelang nicht, eine für eine Affinitätsreinigung ausreichende Menge des Proteins zu isolieren. Ein weiterer Versuch, Lokalisationsuntersuchungen zur Expression der Kinase in Drosophila- Embryonen durchzuführen, war ebenfalls nicht erfolgreich. Obwohl die Herstellung einer für die SRPK79D mRNA spezifischen RNA Sonde für die in-Situ-Hybridisierung gelang, war die Sensitivität dieser Sonde nicht hoch genug, um die Lokalisation vornehmen zu können. Eindeutige und aufschlussreiche Ergebnisse dagegen ergab die Untersuchung der Ultrastruktur der BRP-Ansammlungen in den larvalen Motornerven. Als deren Korrelat fanden sich elektronenmikroskopisch charakteristische Ansammlungen elektronendichter intraaxonaler Strukturen, deren Form Ähnlichkeiten zu T-bars aufwies und die von Vesikeln umgeben waren. Die elektronendichten Strukturen zeigten zahlreiche Formvariationen, die wie Ansammlungen von T-bars nebeneinander bzw. „miteinander verklebte“ T-bars oder wie zerstörte T-bars aussahen. In einer nachfolgenden Studie wurde durch eine immun-elektronenmikroskopische Untersuchung gezeigt, dass diese Strukturen in der Tat BRP enthalten (Nieratschker et al., 2009). Ergebnis der Untersuchungen der vorliegenden Arbeit war der Nachweis, dass prinzipiell ähnliche Aggregate auch im Wildtyp gelegentlich gefunden werden, dass sie aber in Mutanten signifikant häufiger vorkommen und auch einen signifikant höheren Durchmesser aufweisen. Doppelimmunreaktionen mit Antikörpern, die den C- bzw. N-terminalen Bereich von BRP erkennen, belegten darüber hinaus, dass in den Aggregaten das vollständige BRP-Protein vorliegt. Angeregt durch die Ultrastrukturbefunde von mit den elektronendichten Strukturen in den Aggregaten assoziierten Vesikeln wurde in weiteren Doppelimmunreaktionen untersucht, ob ein typisches Protein synaptischer Vesikel neuromuskulärer Synapsen in Drosophila, der vesikuläre Glutamattransporter (DVGlut), in den BRP-Ansammlungen nachweisbar ist. Während Kolokalisation von BRP und DVGlut in aktiven Zonen präsynaptischer Boutons nachgewiesen werden konnte, war der Vesikelmarker in BRP-Aggregaten nicht kolokalisiert. Die Ergebnisse belegen, dass die Kinase SRPK79D für die Vermeidung einer ektopen Bildung von BRP-enthaltenden, elektronenmikroskopisch atypischen aktiven Zonen ähnelnden Strukturen in larvalen Motoneuronaxonen notwendig ist. Die in diesen Aggregaten regelmäßig zu beobachtenden Vesikel ähneln morphologisch synaptischen Vesikeln, besitzen aber keine dafür typischen Vesikelmarker.
Zurzeit sterben jährlich ca. 11.000 Männer in Deutschland am Prostatakarzinom. Damit stellt dies die zweithäufigste Krebstodesursache von Männern dar. Da das Prostatakarzinom häufig asymptomatisch verläuft, wird die Erkrankung oftmals erst so spät erkannt, dass zum Zeitpunkt der Diagnose bereits eine Metastasierung stattgefunden hat. Durch metastasierende Prostatakarzinomzellen werden Lymphknoten, Knochen und Lungen befallen. Es sind zwei unterschiedliche Verbreitungsarten von metastasierenden Tumorzellen beschrieben. Zum einen kann eine Migration über Lymphgefäße erfolgen, ein Prozess der als lymphatische Metastasierung bezeichnet wird. Zum anderen können Tumorzellen über das Blutsystem im Körper zirkulieren: die hämatogene Metastasierung. In dieser Arbeit wurde die lymphatische Metastasierung der humanen Prostatakarzinomzellline PC-3 im Detail analysiert und Teilaspekte der hämatogenen Verteilung untersucht. Ausgangspunkt der Untersuchungen bildete die Vergrößerung lumbaler und renaler Lymphknoten in PC-3-Tumor-tragenden Mäusen 60 Tage nach der Implantation von PC-3-Zellen. Es wurde daraufhin der zeitliche Verlauf der Vergrößerung untersucht und festgestellt, dass sowohl das Volumen als auch die Anzahl vergrößerter Lymphknoten von Woche zu Woche nach Implantation der PC-3-Tumore zunehmen. Anschließend wurden alle vergrößerten Lymphknoten bezüglich des Vorhandenseins von metastasierenden humanen PC-3-Zellen in den Mäusen untersucht. Dies geschah mit Hilfe einer RT-PCR unter Verwendung von Primern für humanes β-Aktin. Sechs Wochen nach Implantation konnten in 90 % der vergrößerten Lymphknoten PC-3-Zellen nachgewiesen werden. Weiterhin wurde durch lentivirale Transduktion das Gen für das rot fluoreszierende Protein (RFP) in die PC-3-Zellen inseriert, wodurch eine Visualisierung dieser Zellen in der Maus ermöglicht wurde. Es konnten metastasierende PC-3-RFP-Zellen in lumbalen und renalen Lymphknoten PC-3-RFP-Tumor-tragender Mäuse nachgewiesen werden. Ebenso konnte mittels RFP gezeigt werden, dass die Lymphknotenmetastasierung in Abhängigkeit von der Lokalisation des PC-3-RFP-Tumors erfolgt. Es kam zur Metastasierung jener Lymphknoten, in deren Einzugsgebiet sich der PC-3-Tumor befand. Es wurde eine PC-3-RFP-Zellmigration zwischen lumbalen und renalen Lymphknotenmetastasen nachgewiesen und bei immunhistologischen Untersuchungen stellte sich heraus, dass PC-3-RFP-Zellen tatsächlich in lymphatischen Bahnen zwischen lumbalen und renalen Lymphknotenmetastasen migrieren. Außerdem wurde gezeigt, dass es von Woche zu Woche nach Implantation von PC-3-Zellen zu einer Zunahme der Anzahl von Lymphgefäßen in PC-3-Tumoren kommt. Die Zunahme der Lymphgefäßdichte korrelierte hierbei positiv mit der Bildung von Lymphknotenmetastasen. Es konnten weiterhin neben Lymphknotenmetastasen hämatogene Mikrometastasen in den Lungen PC-3-RFP-Tumor-tragender Mäuse beobachtet werden. Da die Haupttodesursache von Prostatakarzinompatienten in der Bildung von Metastasen liegt, ist es von herausragender Bedeutung eine effektive Therapie gegen lymphatische und hämatogene Metastasen zu entwickeln. Aus diesem Grund erlangt die onkolytische Virustherapie große Bedeutung. Deshalb wurde als zweiter Aspekt in dieser Arbeit der Einfluss des onkolytischen Vaccinia-Virus GLV-1h68 auf den Prozess der PC-3-Zellmetastasierung untersucht. Dabei konnte zunächst gezeigt werden, dass GLV-1h68 in der Lage ist, erfolgreich sowohl migrierende PC-3-Zellen als auch metastasierende PC-3-Zellen in Lymphknoten zu kolonisieren. In der Folge wurde deshalb ein möglicher Metastasen-inhibierender Effekt von GLV-1h68 untersucht. Hierbei stellte sich heraus, dass GLV-1h68 drei Wochen nach intravenöser Injektion eine signifikante Reduktion der Anzahl der für PC-3-Zellen positiven Lymphknoten bewirkt. Des Weiteren konnte ein inhibierender Effekt von GLV-1h68 auf die im Blut zirkulierenden PC-3-Zellen und auf hämatogene Metastasen in den Lungen beobachtet werden. Durch intravenöse Injektion von GLV-1h68 in PC-3-RFP-Tumor-tragenden Mäusen konnte gezeigt werden, dass es zu einer präferentiellen Virus-Kolonisierung der Lymphknotenmetastasen im Vergleich zu den Tumoren kommt. Auch nach intraperitonealer und intratumoraler Injektion von GLV-1h68 konnte eine präferentielle Virus-Kolonisierung der Lymphknotenmetastasen gezeigt werden. Darüber hinaus wurden die Lymph- und Blutgefäße von PC-3-Tumoren und Lymphknotenmetastasen analysiert. Hierbei wurde gezeigt, dass es sieben Tage nach intravenöser Injektion von GLV-1h68 zu einer signifikanten Abnahme von beiden Gefäßarten kam. Es wurde in dieser Arbeit somit gezeigt, dass GLV-1h68 in der Lage ist, sowohl lymphatische als auch hämatogene Metastasen der Prostatakarzinomzelllinie PC-3 erfolgreich zu eliminieren. Folglich dürften onkolytische Vaccinia-Viren ein vielversprechendes Therapeutikum für die Behandlung des fortgeschrittenen Prostatakarzinoms darstellen.
The Ecology and Population structure of the invasive Yelllow Crazy Ant Anoplolepis gracilipes
(2011)
The invasive Yellow Crazy Ant Anoplolepis gracilipes is a widespread tropical ant species which is particularly common in anthropogenically disturbed habitats in South-East Asia and the Indopacific region. Its native range is unknown, and there is little information concerning its social structure as a potential mechanism facilitating invasion as well as its ecology in one of the putative native ranges, South-East Asia. Using mitochondrial DNA sequences, I demonstrated that the majority of the current Indopacific colonies were likely introduced from South-East Asian populations, which in turn may have been introduced much earlier from a yet unidentified native range. By conducting behavioral, genetic and chemical analyses, I found that A. gracilipes supercolonies contain closely related individuals, thus resembling enlarged versions of monogynous, polydomous colonies of other ant species. Furthermore, mutually aggressive A. gracilipes supercolonies were highly differentiated both genetically and chemically, suggesting limited or even absent gene flow between supercolonies. Intranidal mating and colony-budding are most likely the predominant, if not the exclusive mode of reproduction and dispersal strategy of A. gracilipes. Consequently, a positive feedback between genetic, chemical and behavioral traits may further enhance supercolony differentiation though genetic drift and neutral evolution. This potential scenario led to the hypothesis that absent gene flow between different A. gracilipes supercolonies may drive them towards different evolutionary pathways, possibly including speciation. Thus, I examined one potential way by which gene flow between supercolonies of an ant species without nuptial flights may be maintained, i.e. the immigration of sexuals into foreign supercolonies. The results suggest that this option of maintaining gene flow between different supercolonies is likely impaired by severe aggression of workers towards allocolonial sexuals. Moreover, breeding experiments involving males and queens from different supercolonies suggest that A. gracilipes supercolonies may already be on the verge of reproductive isolation, which might lead to the diversification of A. gracilipes into different species. Regarding the ecological consequences of its potential introduction to NE-Borneo, I could show that A. gracilipes supercolonies may affect the local ant fauna. The ant community within supercolonies was less diverse and differed in species composition from areas outside supercolonies. My data suggest that the ecological dominance of A. gracilipes within local ant communities was facilitated by monopolization of food sources within its supercolony territory, achieved by a combination of rapid recruitment, numerical dominance and pronounced interspecific aggression. A. gracilipes’ distribution is almost exclusively limited to anthropogenically altered habitat, such as residential and agricultural areas. The rate at which habitat conversion takes place in NE-Borneo will provide A. gracilipes with a rapidly increasing abundance of suitable habitats, thus potentially entailing significant population growth. An potentially increasing population size and ecological dominance, however, are not features that are limited to invasive alien species, but may also occur in native species that become ‘pests’ in an increasing abundance of anthropogenically altered habitat. Lastly, I detected several ant guests in supercolonies of A. gracilipes. I subsequently describe the relationship between one of them (the cricket Myrmecophilus pallidithorax) and its ant host. By conducting behavioral bioassays and analyses of cuticular hydrocarbon (CHC) profiles, I revealed that although M. pallidithorax is attacked and consumed by A. gracilipes whenever possible, it may evade aggression from its host by a combination of supreme agility and, possibly, chemical deception. This thesis adds to our general understanding of biological invasions by contributing species-specific data on a previously understudied invasive organism, the Yellow Crazy Ant Anoplolepis gracilipes. Introductions which may have occurred a long time ago may make it difficult to determine whether a given species is an introduced invader or a native pest species, as both may have pronounced ecological effects in native species communities. Furthermore, this thesis suggests that supercolonialism in invasive ants may not be an evolutionary dead end, but that it may possibly give rise to new species due to reproductive boundaries between supercolonies evoked by peculiar mating and dispersal strategies.
In the last decades, both the incidence and the severity of asthma have steadily increased. Furthermore, available therapies only treat the symptoms but do not cure the disease. Immune modulation induced by TLR agonists may be a promising novel approach to effectively treat asthma as it targets the underlying immunopathology directly rather than one mediator alone. The aim of this thesis was to investigate if the immunostimulatory properties of Toll-like receptor (TLR) agonists can be utilized to develop novel therapeutic intervention strategies for the treatment of asthma using murine models of allergic inflammation. For this purpose five different TLR agonists were tested in preclinical mouse models of acute and chronic asthma, both in preventive and therapeutic settings. Firstly, TLR-2, 3, 4, 7/8 and 9 agonists were delivered intratracheally at different doses before pulmonary allergen exposure in the asthma model of acute inflammation. TLR9 agonist CpG-containing oligodeoxynucleotides (CpG) > TLR7 agonist Resiquimod (R848) > TLR3 agonists poly(I:C) strongly reduced allergen induced airway eosinophilia and IL-4 levels in a dose-dependent manner. All TLR agonists increased neutrophil numbers, TLR4 agonist lipopolysaccharide (LPS) > TLR2 agonist lipoteichonic acid (LTA) > poly(I:C) > CpG > R848 and, with the exception of R848, the amount of pro-inflammatory cytokines in the airways. Suppressive effects were not dependent upon IFN-γ and IL-10 or associated with increased numbers of regulatory T cells in the airways. All TLR agonists, except LTA, similarly reduced airway eosinophilia and IL-4 levels when applied therapeutically after allergen challenge. These results show that the TLR agonists have different suppressive effects on TH2 responses in the airways which further depend on the dose and the experimental setup in which they were tested. Interestingly, all agonists induced airway neutrophilia, albeit to different degrees, raising the question if TLR ligands are safe for human use when applied directly into the lung. Different TLR agonists are also being developed for human use as adjuvants combined with allergen in specific immunotherapy. Recent clinical data suggest that this may be achieved by induction of allergen-specific TH1 responses. For this reason, the ability of different TLR agonists to induce allergen-specific TH1 and suppress allergen-specific TH2 responses in a preclinical setting was investigated in this thesis. Different doses of the TLR agonists were applied together with allergen, then mice were exposed to allergen aerosol. CpG > LPS >LTA dose-dependently strongly suppressed the development of airway eosinophilia with poly(I:C) and R848 having no effect. The decrease in eosinophilic numbers was associated withincreased neutrophils present in the airways. IL-4 and IL-5 levels in the bronchoalveolar lavage fluid were also decreased when poly(I:C), LPS, and CpG were used. All TLR agonists increased allergen-specific IgG2a, and with the exception of poly(I:C), reduced allergen-specific IgE levels in the serum. Cutaneous anaphylaxis to allergen was completely prevented when LPS or CpG were given as adjuvant. The strongest TH1 responses were induced by CpG and poly(I:C), characterized by the presence of IFN-γ in the bronchoalveolar lavage and the highest allergen-specific IgG2a levels in the serum. This data supports approaches to use TLR9 or TLR4 agonists for human therapy as adjuvant in combination with allergen in novel specific immunotherapy formulations. In the last part of the thesis, it was investigated if TLR activation can also affect the pathology of severe chronic asthma. Therapeutic administration of R848 or CpG reduced features of inflammation and remodeling. Both agonists showed superior effects to dexamethasone, with CpG being more efficient than R848. This result again supports a TLR9-based therapy as a viable option for the treatment of severe chronic asthma which may present a potential alternative for anti-inflammatory therapy with steroids. Taken together, the results of this thesis support the use of TLR agonists to treat asthma. The most favorable efficacy/safety ratio is to be expected from TLR-based therapies combining TLR4 or TLR9 agonists with allergen in specific immunotherapy. In regard to TLR agonist monotherapy, R848 and CpG showed the most promising profiles, CpG particularly in a model of severe chronic asthma. However, since all TLR agonists used in this study also showed pro-inflammatory potential, the safety aspect of such an approach needs to be taken into account.
Fluorescently labeled human immunodeficiency virus (HIV) derivatives, combined with the use of advanced fluorescence microscopy techniques, allow the direct visualization of dynamic events and individual steps in the viral life cycle. HIV proteins tagged with fluorescent proteins (FPs) have been successfully used for live-cell imaging analyses of HIV-cell interactions. However, FPs display limitations with respect to their physicochemical properties, and their maturation kinetics. Furthermore, several independent FP-tagged constructs have to be cloned and characterized in order to obtain spectral variations suitable for multi-color imaging setups. In contrast, the so-called SNAP-tag represents a genetically encoded non-fluorescent tag which mediates specific covalent coupling to fluorescent substrate molecules in a self-labeling reaction. Fusion of the SNAP-tag to the protein of interest allows specific labeling of the fusion protein with a variety of synthetic dyes, thereby offering enhanced flexibility for fluorescence imaging approaches. Here we describe the construction and characterization of the HIV derivative HIV(SNAP), which carries the SNAP-tag as an additional domain within the viral structural polyprotein Gag. Introduction of the tag close to the C-terminus of the matrix domain of Gag did not interfere with particle assembly, release or proteolytic virus maturation. The modified virions were infectious and could be propagated in tissue culture, albeit with reduced replication capacity. Insertion of the SNAP domain within Gag allowed specific staining of the viral polyprotein in the context of virus producing cells using a SNAP reactive dye as well as the visualization of individual virions and viral budding sites by stochastic optical reconstruction microscopy. Thus, HIV(SNAP) represents a versatile tool which expands the possibilities for the analysis of HIV-cell interactions using live cell imaging and sub-diffraction fluorescence microscopy.
Epimutations in Germ-Cell and Embryo Development: Possible Consequences for Assisted Reproduction
(2011)
Assisted reproductive technologies (ART) emerged in the late 1970’s as a therapy for human infertility. Up till now more than 3 million babies have been conceived through ART, demonstrating the safety and efficiency of the technique. Published reports showed an increase in the rate of imprinting disorders (Beckwith Wiedemann Syndrome, Angelman Syndrome, etc.) in babies born after ART. What are the effects imposed through ART and should researchers reassess its safety and implications on the future offspring? Throughout this thesis, I analyzed the methylation patterns of germ cells and embryos to determine whether in vitro maturation and in vitro fertilization have a negative impact on the epigenetic patterns. Furthermore, DNA methylation was compared between sperm of infertile and presumably fertile controls in order to understand whether epigenetic disturbances lead to infertility at the first place. The occurrence of methylation aberrations in germ cells of infertile patients could be transmitted to new-borns and then cause epigenetic disorders. In order to elucidate the imprinting status within single cells, I developed a new technique based on limiting dilution where bisulfite treated DNA is distributed across several wells before amplification. This allowed methylation measurement at the single allele level as well parent of origin detection. In a total of 141 sperm samples from couples undergoing in vitro fertilization (IVF) or intracytoplasmic sperm injection (ICSI) including 106 with male factor or combined infertility and 28 with female infertility, I detected a significant correlation between lower quality of semen parameters (sperm count, percentage of abnormal sperm, and percentage of motile sperm) and the rate of imprinting errors. ALU repeats displayed a higher methylation in sperm DNA of patients leading to a pregnancy and live birth, compared to patients in which pregnancy was not achieved or a spontaneous abortion occurred. A discriminant analysis based on ALU methylation allowed correct classification of >70% of cases. Preliminary data from illumina methylation arrays where more than 27,000 CpGs were analyzed determined that only a single CpG site from the open reading frame C14orf93 was significantly different between the infertile and presumably fertile control group. However, further improvements on data normalization might permit detection of other differentially methylated regions. Comparison of embryos after natural conception, in vitro fertilized embryos from superovulated oocytes, and embryos achieved through fertilization of in vitro cultured oocytes revealed no dramatic effect on the imprinting patterns of Igf2r, H19, and Snrpn. Oocyte cryotop vitrification did not result in a dramatic increase of imprinting mutations in oocytes even though the rate of sporadic methylation errors in single Snrpn CpGs were higher within the in-vitrified group. Collectively, the results I will present within this thesis suggest an increase in the rate of imprinting errors within the germ cells of infertile patients, in addition to a decrease in genome wide methylation of ALU repetitive elements. I did not observe a detrimental effect on the methylation patterns of oocytes and the resulting embryos using in vitro maturation of oocytes and/or standard IVF with in vivo grown superovulated oocytes.
We review fluorescent probes that can be photoswitched or photoactivated and are suited for single-molecule localization based super-resolution microscopy. We exploit the underlying photochemical mechanisms that allow photoswitching of many synthetic organic fluorophores in the presence of reducing agents, and study the impact of these on the photoswitching properties of various photoactivatable or photoconvertible fluorescent proteins. We have identified mEos2 as a fluorescent protein that exhibits reversible photoswitching under various imaging buffer conditions and present strategies to characterize reversible photoswitching. Finally, we discuss opportunities to combine fluorescent proteins with organic fluorophores for dual-color photoswitching microscopy.
We review fluorescent probes that can be photoswitched or photoactivated and are suited for single-molecule localization based super-resolution microscopy. We exploit the underlying photochemical mechanisms that allow photoswitching of many synthetic organic fluorophores in the presence of reducing agents, and study the impact of these on the photoswitching properties of various photoactivatable or photoconvertible fluorescent proteins. We have identified mEos2 as a fluorescent protein that exhibits reversible photoswitching under various imaging buffer conditions and present strategies to characterize reversible photoswitching. Finally, we discuss opportunities to combine fluorescent proteins with organic fluorophores for dual-color photoswitching microscopy.
Die Kernhülle umgibt als geschlossenes Membransystem einen jeden Zellkern und ist damit ein gemeinsames Merkmal aller eukaryotischen Zellen. Sie besteht aus einer inneren und einer äußeren Kernmembran sowie der nukleoplasmatischen Kernlamina, die aufgrund zahlreicher assoziierter Proteine in enger Wechselbeziehung mit der inneren Kernmembran steht. Neben der rein räumlichen Trennung nukleärer und zytoplasmatischer Strukturen hat die Kernhülle bedeutenden regulatorischen Einfluss auf die gesamte Zelle. So ist sie unter anderem an der Steuerung der genomischen Aktivität, an der nukleo- und zytoplasmatischen Signalübertragung und in hohem Maße an der Positionierung und Formerhaltung des Zellkerns beteiligt. Es mehren sich die Hinweise, dass die Kernhülle auch während der Gametogenese, der Differenzierung befruchtungsfähiger Keimzellen, eine zentrale Rolle einnimmt und folglich auch mit bislang ungeklärten Ursachen humaner Infertilität in Kontext stehen könnte. Um die Bedeutung der Kernhülle für die Keimbahn der Säuger generell besser verstehen zu können, wurden in dieser Arbeit ausgewählte Bestandteile der Keimzellkernhülle untersucht. Dadurch sollte der Kenntnisstand erweitert werden, in welcher Weise die Kernhülle dynamische, morphologische und vor allem für die Keimbahn essentielle Prozesse beeinflusst; insbesondere während der meiotischen und der postmeiotischen Differenzierungsphase bei männlichen Mäusen. Im Mittelpunkt stand dabei einerseits Lamin C2, ein meiosespezifisches A-Typ Lamin, dessen Verlust zu einer schwer geschädigten Meiose und infolgedessen zu vollständiger männlicher Infertilität führt. Es zeigte sich, dass Lamin C2-defiziente männliche Mäuse schwerwiegende Defekte bei der Paarung und Synapsis der homologen Chromosomen in der meiotischen Prophase I aufweisen und aufgrund apoptotischer Spermatocyten keine reifen Spermien bilden können. Es wird angenommen, dass die Assoziation homologer Chromosomen bzw. die Abstoßung nicht-homologer durch gerichtete Telomerbewegungen entlang der Kernhüllenperipherie vorangetrieben bzw. verhindert wird. Da Lamin C2 seinerseits diese Wanderung der Telomere durch eine Flexibilisierung der Spermatocytenkernhülle vereinfachen soll, ist es durchaus vorstellbar, dass sein Verlust verlangsamte Telomerbewegungen, eine gestörte Homologenfindung und folglich Fehlpaarungen zur Folge hat. Ein weiteres zentrales Thema war die Erforschung potentieller LINC-Komplexe während der Differenzierungs- und morphologischen Umgestaltungsphase postmeiotischer Keimzellen. LINC-Komplexe sind kernhüllendurchspannende Proteingebilde aus SUN-Proteinen in der inneren und Nesprinen in der äußeren Kernmembran, die nukleäre Strukturen an das Zytoskelett binden. Da sie aufgrund dieser strukturellen Eigenschaft die Kernmorphologie beeinflussen können, erscheinen sie als äußerst geeignet, an der Formierung des Spermienkopfes beteiligt zu sein. Die detaillierte Untersuchung spermiogeneserelevanter LINC-Komplex-Bestandteile ergab, dass während der Spermiogenese tatsächlich zwei neue, strukturell einzigartige LINC-Komplexe gebildet werden, die darüber hinaus auf den entgegengesetzten Seiten differenzierender Spermatiden polarisieren. Da sie den Kern dort an jeweils spezielle Zytoskelettelemente binden könnten, wurde in dieser Arbeit das Modell der LINC-Komplex vermittelten Umformung des Spermienkopfes aufgestellt. Insgesamt trägt diese Arbeit durch die funktionelle Analyse von Lamin C2 und die Identifizierung neuer LINC-Komplexe dazu bei, die Wichtigkeit der Kernhülle für die Spermatogenese zu vertiefen und auszuweiten.
Mammalian Sun1 belongs to an evolutionarily conserved family of inner nuclear membrane proteins, which are known as SUN domain proteins. SUN domain proteins interact with KASH domain partners to form bridging complexes, so-called LINC complexes, that physically connect the nuclear interior to the cytoskeleton. LINC complexes are critical for nuclear integrity and play fundamental roles in nuclear positioning, shaping and movement. The mammalian genome codes for at least five different SUN domain proteins used for the formation of a number of different LINC complexes. Recently, we reported on the identification of everal Sun1 isoforms, which tremendously enlarges the alternatives to form functional LINC complexes. We now confirmed that Sun1 actually exists in at least seven distinct splice variants. Besides that, we observed that expression of individual Sun1 isoforms remarkably depends on the cell type, suggesting a cell type-specific adaption of Sun1 dependent LINC complexes to specific cellular and physiological requirements.
For a large fraction of the proteins expressed in the human brain only the primary structure is known from the genome project. Proteins conserved in evolution can be studied in genetic models such as Drosophila. In this doctoral thesis monoclonal antibodies (mAbs) from the Wuerzburg Hybridoma library are produced and characterized with the aim to identify the target antigen. The mAb ab52 was found to be an IgM which recognized a cytosolic protein of Mr ~110 kDa on Western blots. The antigen was resolved by two-dimensional gel electrophoresis (2DE) as a single distinct spot. Mass spectrometric analysis of this spot revealed EPS-15 (epidermal growth factor receptor pathway substrate clone 15) to be a strong candidate. Another mAb from the library, aa2, was already found to recognize EPS-15, and comparison of the signal of both mAbs on Western blots of 1D and 2D electrophoretic separations revealed similar patterns, hence indicating that both antigens could represent the same protein. Finally absence of the wild-type signal in homozygous Eps15 mutants in a Western blot with ab52 confirmed the ab52 antigen to be EPS-15. Thus both the mAbs aa2 and ab52 recognize the Drosophila homologue of EPS-15. The mAb aa2, being an IgG, is more suitable for applications like immunoprecipitation (IP). It has already been submitted to the Developmental Studies Hybridoma Bank (DSHB) to be easily available for the entire research community. The mAb na21 was also found to be an IgM. It recognizes a membrane associated antigen of Mr ~10 kDa on Western blots. Due to the membrane associated nature of the protein, it was not possible to resolve it by 2DE and due to the IgM nature of the mAb it was not possible to enrich the antigen by IP. Preliminary attempts to biochemically purify the endogenously expressed protein from the tissue, gave promising results but could not be completed due to lack of time. Thus biochemical purification of the protein seems possible in order to facilitate its identification by mass spectrometry. Several other mAbs were studied for their staining pattern on cryosections and whole mounts of Drosophila brains. However, many of these mAbs stained very few structures in the brain, which indicated that only a very limited amount of protein would be available as starting material. Because these antibodies did not produce signals on Western blots, which made it impossible to enrich the antigens by electrophoretic methods, we did not attempt their purification. However, the specific localization of these proteins makes them highly interesting and calls for their further characterization, as they may play a highly specialized role in the development and/or function of the neural circuits they are present in. The purification and identification of such low expression proteins would need novel methods of enrichment of the stained structures.
This work delves into the recently developed ‘Whedo’-aquaculture-system in the rural community of Malanville (North Benin)and aims on providing a closer insight on this – for the area--recent system including the ecological but also the sociological and economical aspects in order to develop this extensive traditional fishery to a more productive semi-intensive aquaculture system. With the retreat of the flood ‘Whedos’ usually become infested with numerous hydato-and tenagophytes, while the presence and density of the free-floating macrophytes were positively related to the nutrient content of the ‘Whedo’. Extensive plant infestation also affects water quality through the decomposition of organic material and its accumulation in thick mud layers on the pond bottom as well as through the nocturnal oxygen consumption. Unfavourable water quality, especially low dissolved oxygen as well as high conductivity and nitrite levels, was identified to be the main factor determining which fish species were able to survive the harsh conditions prevailing in the ‘Whedos’ during the dry season. With the deteriorating water quality with advancing dry season, fish diversity decreased significantly leaving only species that are highly adapted to such unfavourable conditions. The most abundant species were Clarias gariepinus, Heterotis niloticus, Oreochromis niloticus L., Hemichromis c.f. letourneauxi, Polypterus senegalus and Epiplatys spilargyreius. Besides, the investigations also concentrated on the fish diversity of the rivers Niger and Sota with the results that for three species distribution gaps could be closed and for further three species their already known distribution could be expanded. But otherwise it could also be detected that some economically important species that were abundant in the past. In regard to the ‘Whedo’-management, the investigations showed that the owners lack most of the knowledge on appropriate management strategies, e.g. the feeding and stocking regime. The exploitation period depends on the extent of the previous annual flood and the location of the ‘Whedo’ within the floodplain, but the main season is from February to April. The biomass harvested on a hectare basis separated for each of the ‘Whedos’ averaged 17 tons/ha in 2008 and 8.6 tons/ha in 2009. However, 72 percent of the total biomass of Clarias only had an average weight of 40 grams. Therefore, two separated feeding trials were conducted and in total 6 supplementary feeds were tested on Clarias gariepinus. Groundnut cake, fish trash, rice bran, blood meal and azolla meal were used in different combination and rations to formulate the experimental diets. Diet containing 19 percent blood meal resulted in the best economical benefits showing that the use of high quality feed ingredients such as groundnut cake is not recommendable because local fish prices are too low to compensate the additional feeding costs. Instead of high quality feed farmers should focus on ingredients that are free of charge and easy to process. The supplementation based on 19 percent blood meal resulted in the doubling of the net profit compared to the income based on feeding only rice bran, thus provided higher additional income, enhancing the livelihood of the fish farmers. Concluding, the ‘Whedo’-aquaculture system is still in its infancy but nevertheless is an attractive system for the rural population because of existing knowledge of post-flood wetland fisheries as well as the low investment needed for its installation. Additionally, the local fish supply will increase and hence not only contribute to a better provision of protein-rich food and reduced pressure on the wild fish stocks but might also prevent fish prices to increase in a way that the poor won’t be able anymore to afford their most important source of animal protein. But fish farmers need more knowledge on appropriate management strategies and thus should be provided with technical support to guarantee a successful development and not to discourage the owners as a consequence of avoidable failures. Furthermore, the use of supplementary feed offers a cheap and effective means to increase the biomass production and thus enhance the extensive fishery to a semi-intensive aquaculture system.
Trypanosomen sind Protozoen, die Krankheiten bei Mensch und Tier verursachen, die unbehandelt infaust verlaufen. Die Zellen sind hoch motil, angetrieben von einem einzelständigen Flagellum, welches entlang des Zellkörpers angeheftet ist. Selbst in Zellkultur hören Trypanosomen niemals auf sich zu bewegen und eine Ablation funktioneller Bestandteile des Flagellarapparates ist letal für Blutstromformen. Es wurde gezeigt, dass Motilität notwendig ist für die Zellteilung, Organellenpositionierung und Infektiosität. Dies macht Trypanosomen zu besonders geeigneten Modellorganismen für die Untersuchung der Motilität. Dennoch ist erstaunlich wenig über die Motilität bei Trypanosomen bekannt. Dies gilt auch noch genereller für die Protozoen. Unlängst ist dieses Gebiet allerdings in den Fokus vieler Arbeiten gerückt, was bereits erstaunliche, neue Erkenntnisse hervorgebracht hat. Doch Vieles ist noch nicht abschliessend geklärt, so z.B. wie der Flagellarschlag genau reguliert wird, oder wie sich der Schlag des Flagellums entlang des Zellkörpers ausbreitet. Die vorliegende Arbeit befasst sich besonders mit den Einflüssen, die die Mikroumgebung auf die Motilität von Blutstromform-Trypanosomen ausübt. In ihrem natürlichen Lebensraum finden sich Trypanosomen in einer hoch komplexen Umgebung wieder. Dies gilt sowohl für den Blutkreislauf, als auch für den Gewebezwischenraum in ihrem Säugerwirt. Die hohe Konzentration von Zellen, Gewebeverbänden und extrazellulären Netzwerken könnte man als Ansammlung von Hindernissen für die Fortbewegung auffassen. Diese Arbeit zeigt dagegen, dass der Mechanismus der Bewegung eine Adaptation an genau diese Umweltbedingungen darstellt, so z.B. an die Viskosität von Blut. Es wird auch ein Bewegungsmodell vorgestellt, das erläutert, worin diese Adaption besteht. Dies erklärt auch, warum die Mehrheit der Zellen einer Trypanosomenkultur eine ungerichtete Taumel-Bewegung aufweist in nieder-viskosem Medium, das keine solchen “Hindernisse” enthält. Die Zugabe von Methylcellulose in einer Konzentration von ca. 0,5% (w/v) erwies sich als geeigneter Ersatz von Blut, um optimale Bedingungen für gerichtetes Schwimmen von Blutstromform Trypanosomen zu erreichen. Zusätzlich wurden in dieser Arbeit unterschiedliche Arten von Hindernissen, wie Mikroperlen (Beads) oder molekulare Netzwerke, sowie artifizielle, geordnete Mikrostrukturen verwendet, um die Interaktion mit einer festen Matrix zu untersuchen. In deren Anwesenheit war sowohl die Schwimmgeschwindigkeit, als auch der Anteil an persistent schwimmenden Trypanosomen erhöht. Zellen, die frei schwimmend in Flüssigkeiten vorkommen (wie Euglena oder Chlamydomonas), werden effizient durch einen planaren Schlag des Flagellums angetrieben. Trypanosomen hingegen mussten sich evolutionär an eine komplexe Umgebung anpassen, die mit einer zu raumgreifenden Welle interferieren würde. Der dreidimensionale Flagellarschlag des, an die Zelloberfläche angehefteten, Flagellums erlaubt den Trypanosomen eine effiziente Fortbewegung durch die Interaktion mit Objekten in jedweder Richtung gleichermassen. Trypanosomen erreichen dies durch eine hydrodynamisch verursachte Rotation ihres Zellkörpers entlang ihrer Längsachse, entgegen dem Uhrzeigersinn. Der Einfluss der Mikroumgebung wurde in früheren Untersuchungen bisher vernachlässigt, ist zum Verständnis der Motilität von T. brucei jedoch unerlässlich. Ein weiterer, bisher nicht untersuchter Aspekt der Beeinflussung der Motilität durch die Umwelt sind hydrodynamische Strömungseffekte, denen Trypanosomen im kardiovaskulären System ausgesetzt sind. Diese wurden in dieser Arbeit mittels Mikrofluidik untersucht. Um unser Verständnis der Motilität von Trypanosomen von 2D, wie üblich in der Motilitätsanalyse mittels Lebend-Zell-Mikroskopie, auf drei Dimensionen auszudehnen, wurde als bildgebendes Verfahren auch die Holographie eingesetzt. Mikrofluidik und Holographie sind beides aufkommende Techniken mit großem Anwendungspotential in der Biologie, die zuvor noch nie für die Motilitätsanalyse von Trypanosomen eingesetzt worden waren. Dies erforderte daher interdisziplinäre Kooperationen. Zusätzlich wurde in dieser Arbeit auch ein vollständig automatisiertes und Software-gesteuertes Fluoreszenzmikroskopiesystem entwickelt, das in der Lage ist, einzelne Zellen durch entsprechende Steuerung des Mikroskoptisches autonom zu verfolgen und somit eine Bewegungsanalyse in Echtzeit ermöglicht, ohne weitere Benutzerinteraktion. Letztendlich konnte dadurch auch die Bewegung der schlagenden Flagelle und des gesamten Zellkörpers mit hoher zeitlicher und räumlicher Auflösung mittels Hochgeschwindigkeits-Fluoreszenzmikroskopie aufgeklärt werden.
Der Notch Signalweg spielt während der Embryonalentwicklung eine zentrale Rolle in der Spezifizierung des Zellschicksales, der Proliferation und der Kommunikation benachbarter Zellen. Die Hey bHLH Transkriptionsfaktoren sind Zielgene des Notch-Signalweges und besitzen wichtige Funktionen in der kardiovaskulären Entwicklung. Hey2 Knockout (KO) Mäuse und Hey1/HeyL Doppelknockout-Mäuse (DKO) sind gekennzeichnet durch eine fehlerhafte Ausbildung der Herzscheidewand und der Herzklappen und durch eine unzureichende Differenzierung während der Blutgefäßentwicklung. Ziel dieser Arbeit war es, neue Zielgene der Hey Proteine zu finden, um ihre Funktion in der Organentwicklung und die Ausprägung der Hey KO Maus-Phänotypen besser verstehen zu können. Dazu wurde als Methode eine Kombination aus Microarray-Analyse und Chromatinimmunpräzipitation (ChIP) gewählt, um gleichzeitig einen Überblick über die regulierten Zielgene und der direkt gebundenen Promotoren zu gewinnen. Als Zellkulturmodell wurden HEK293-Zellen genutzt, die doxyzyklin-induzierbar Flag-markiertes Hey1, bzw. Hey2 Protein überexprimieren. Eine Microarray-Analyse nach Überexpression von Hey1, bzw. Hey2 ergab insgesamt ca. 100 bis zu 5-fach herunterregulierte Zielgene und nur für Hey2 15 Gene, die stärker als 2-fach hochreguliert waren. Eine ChIP mit αFlag-Antikörper zeigte eine direkte DNA-Bindung von Hey1, bzw. Hey2, im proximalen Promotorbereich von 4 herunterregulierten Zielgenen (HEY1, BMP2, KLF10 und FOXC1). Ist jedoch die DNA-bindende basische Domäne des Hey1-Proteins deletiert, bzw. durch Aminosäureaustausche (3 Arginine zu 3 Lysine) vermutlich nicht mehr DNA-bindend, kann eine Herunterregulation der Zielgene nach Überexpression der Hey1-Mutanten nicht mehr festgestellt werden. Ebenso kann eine Bindung der Hey1-Mutanten an die ausgewählten Promotoren von HEY1, BMP2, KLF10 oder FOXC1 mit ChIP nicht mehr nachgewiesen werden. Dies deutet darauf hin, dass die basische Domäne essentiell für die DNA-Bindung und für die Funktion der Hey Proteine ist. Mit ChIP-PET und anschließender Hochdurchsatz-Sequenzierung wurde ein genomweiter Screen der Hey1- und der Hey2-Bindungsstellen in HEK293-Zellen durchgeführt. Für Hey1 wurden 1453 Zielgene, für Hey2 4288 Zielgene bestimmt, wobei 1147 Gene gemeinsame Zielgene von Hey1 und Hey2 waren. Obwohl die Bindungsstellen in 5'- und 3'-Richtung von kodierenden Sequenzen und auch in Exons und Introns lokalisiert waren, waren 55 %, bzw. 49 % aller Bindungsstellen für Hey1, bzw. Hey2 im proximalen Promotorbereich von -0,5 kb und im ersten Exon lokalisiert. Eine in silico Analyse des Bindemotivs deutete auf eine repetitive GC-haltige Sequenz hin, die vermutlich in CpG Inseln lokalisiert ist. Diese Ergebnisse weisen auf eine direkte Regulation der Transkriptionsmaschinerie durch die Hey Proteine hin. Ein Vergleich der Zielgene aus den Microarray-Analysen mit den ChIP-PET Daten zeigte einen hohen Anteil an herunterregulierten Genen mit Bindestellen, die direkt von Hey gebunden waren. Während 60 % der herunterregulierten Hey2 Zielgene in der ChIP-PET Analyse eine direkte DNA-Bindung zeigen, weisen nur 20 % der hochregulierten Gene Bindestellen für Hey2 auf. Dies spricht für eine überwiegende Repressorfunktion der Hey Proteine. Um zu überprüfen, inwieweit die Hey Proteine zelltypspezifisch verschiedene Zielgene regulieren, wurden embryonale Stammzellen (ES-Zellen) generiert, die ebenfalls doxyzyklin-induzierbar Hey1, bzw. Hey2 überexprimieren. Diese ES-Zellen konnten effektiv zu Kardiomyozyten differenziert werden, so dass auch in diesen Zellen eine Hey Überexpression induziert und somit eine Genexpressionsanalyse durchgeführt werden konnte. Microarray Analysen der ES-Zellen und Kardiomyozyten ergaben mehr hoch- als herunterregulierte Gene im Vergleich zu HEK293-Zellen. Die Überlappung an gemeinsam regulierten Zielgenen in HEK293, ES-Zellen und Kardiomyozyten war sehr gering. Nur zwei Hey2-Zielgene wurden gleichzeitig in HEK293 und ES-Zellen stärker als 2-fach reguliert (Hes1, Zic2). Diese geringe Überlappung deutet auf ein enges zelltypspezifische Regulationspotential hin. Eine Genontologie-Analyse aller Zielgene zeigte Interaktionen der Hey Proteine mit verschiedenen Signalwegen (z.B. TGFβ-, Id- oder Wnt-Signalweg), die alle unersetzlich in frühen Entwicklungsprozessen sind. Diese Ergebnisse deuten darauf hin, dass die Hey Proteine zelltypspezifisch die Expression von Genen aus verschiedenen Signalwegen beeinflussen und modulieren können. Weiterhin eröffnen diese Daten neue Möglichkeiten für zukünftige Forschung, um die Rolle der Hey Proteine in der frühen Organentwicklung genauer ergründen.
Non-target effects of a multiple insect resistant Bt-maize on the honey bee (Apis mellifera L.)
(2011)
Honey bee pollination is an ecologically and economically important ecosystem service. New methodological developments are needed to research the underlying factors of globally observed bee losses. The honey bee (Apis mellifera) is a key non-target arthropod species for environmental risk assessment of genetically modified (GM) crops. For GM-crop risk assessments, mainly methods for monitoring adult honey bees under laboratory conditions are documented. However, protocols with robust methods for standardized colonies or in vitro reared honey bee larvae are currently lacking. Within the research, presented in this this dissertation, multiple methodological developments are achieved; a mortality trap (Chapter II), a ‘full life cycle test’ (III), a novel in vitro rearing methodology (IV), a standardized in vitro test for Bt-pollen (V), a mixed toxicity test for purified transgenic proteins (VI), and a bacterial flora test with pollen digestion rate monitoring (VII). Overall, the studies did not indicate a detrimental effect caused by Bt-maize pollen, or by purified Bt-proteins at worst case exposure levels. Considering the risk for honey bees and larvae, we conclude that the tested Bt-maize Mon89034xMon88017 is not likely to cause harm to honey bee colonies. The study methods presented are highly recommended for future environmental risk assessment studies testing GM-crop biosafety on honey bees.
Testing Pollen of Single and Stacked Insect-Resistant Bt-Maize on In vitro Reared Honey Bee Larvae
(2011)
The ecologically and economic important honey bee (Apis mellifera) is a key non-target arthropod species in environmental risk assessment (ERA) of genetically modified (GM) crops. Honey bee larvae are directly exposed to transgenic products by the consumption of GM pollen. But most ERA studies only consider responses of adult bees, although Bt-proteins primarily affect the larval phases of target organisms. We adopted an in vitro larvae rearing system, to assess lethal and sublethal effects of Bt-pollen consumption in a standardized eco-toxicological bioassay. The effects of pollen from two Bt-maize cultivars, one expressing a single and the other a total of three Bt-proteins, on the survival and prepupae weight of honey bee larvae were analyzed. The control treatments included pollen from three non-transgenic maize varieties and of Heliconia rostrata. Three days old larvae were fed the realistic exposure dose of 2 mg pollen within the semi-artificial diet. The larvae were monitored over 120 h, until the prepupal stage, where larvae terminate feeding and growing. Neither single nor stacked Bt-maize pollen showed an adverse effect on larval survival and the prepupal weight. In contrast, feeding of H. rostrata pollen caused significant toxic effects. The results of this study indicate that pollen of the tested Bt-varieties does not harm the development of in vitro reared A. mellifera larvae. To sustain the ecosystem service of pollination, Bt-impact on A. mellifera should always be a crucial part of regulatory biosafety assessments. We suggest that our approach of feeding GM pollen on in vitro reared honey bee larvae is well suited of becoming a standard bioassay in regulatory risk assessments schemes of GM crops.
Ziel dieser Arbeit ist es ein besseres Verständinis der molekularen Prozesse der Melanomentstehung und Tumorprogression zu gewinnen. Hierfür wurde ein Tiermodell transgener Medakas (Oryzias latipes) verwendet, welche als stabiles Transgen das Konstrukt mitf::xmrk besitzen. Diese Fische entwickelten Pigmentzelltumore, welche für eine Microarrayanalyse herangezogen wurden. Aus diesem Microarraydatensatz wurden 11 Gene ausgewählt, welche in dieser Arbeit näher untersucht wurden. Beobachtungen haben ergeben, dass sich bei transgenen Medakas, welche Xmrk exprimieren, verschiedene pigmentierte Hauttumore entwickeln. Diese Tumore wurden je nach ihrem verschiedenen Histiotyp klassifiziert und untersucht. Um einen Eindruck zu gewinnen, wie Xmrk die Transkription verschiedener Gene, welche in der Krebsentstehung und –progression eine wichtige Rolle spielen, beeinflusst, wurden pigmentierte Hauttumore transgener Medakas, so wie zu Vergleichszwecken hyperpigmentierte Haut transgener Medakas und Lymphome und gesunde Organe von Wildtyp-Medakas, untersucht. Mit Hilfe von Real-time-PCR’s wurden die folgenden Gene untersucht: G6PC, GAMT, GM2A, MAPK3, NID1, SLC24A5, SPP1, PDIA4, RASL11B, TACC2 und ZFAND5. Dabei konnte festgestellt werden, dass die Expression der Gene GM2A, MAPK3, NID1, PDIA4, RASL11B, SLC24A5 und ZFAND5 von Xmrk beeinflusst wird, während dies für die Gene G6PC, GAMT, SPP1 und TACC2 nicht zutrifft. Im Vergleich zu gesunder Haut werden GM2A, MAPK3, PDIA4, RASL11B, SLC24A5 und ZFAND5 in Tumoren höher exprimiert. Die Gene G6PC, GAMT, NID1, SPP1 und TACC2 werden dagegen verglichen mit gesunder Haut unverändert oder niedriger exprimiert. Die Bedeutung der erhöhten Genexpression lässt sich in vielen Fällen zurzeit nur theoretisch erfassen. Eine höhere Expression von SLC24A5 beispielsweise lässt vermuten, dass ein Zusammenhang zwischen der Melaninproduktion und der Zellproliferation besteht. Die Überexpression von GM2A weist dagegen auf eine Rolle von GM2A als Tumormarker hin. Dahingegen scheint die erniedrigte Expression von GAMT und G6PC Auskunft über den veränderten Stoffwechsel in Tumoren zu geben. Um diese Ergebnisse zu bestätigen und zu entschlüsseln wie genau Xmrk die Expression der getesteten Gene beeinflusst, sind allerdings noch weitere funktionelle Studien nötig. Generell kommt man zu dem Schluss, dass die Genexpression sich in jedem Tumor unterscheidet. Daher scheint jeder Tumor seinen eigenen Evolutionsweg zu beschreiten.
Although age is one of the most salient and fundamental aspects of human faces, its processing in the brain has not yet been studied by any neuroimaging experiment. Automatic assessment of temporal changes across faces is a prerequisite to identifying persons over their life-span, and age per se is of biological and social relevance. Using a combination of evocative face morphs controlled for global optical flow and functional magnetic resonance imaging (fMRI), we segregate two areas that process changes of facial age in both hemispheres. These areas extend beyond the previously established face-sensitive network and are centered on the posterior inferior temporal sulcus (pITS) and the posterior angular gyrus (pANG), an evolutionarily new formation of the human brain. Using probabilistic tractography and by calculating spatial cross-correlations as well as creating minimum intersection maps between activation and connectivity patterns we demonstrate a hitherto unrecognized link between structure and function in the human brain on the basis of cognitive age processing. According to our results, implicit age processing involves the inferior temporal sulci and is, at the same time, closely tied to quantity decoding by the presumed neural systems devoted to magnitudes in the human parietal lobes. The ventral portion of Wernicke’s largely forgotten perpendicular association fasciculus is shown not only to interconnect these two areas but to relate to their activations, i.e. to transmit age-relevant information. In particular, post-hoc age-rating competence is shown to be associated with high response levels in the left angular gyrus. Cortical activation patterns related to changes of facial age differ from those previously elicited by other fixed as well as changeable face aspects such as gender (used for comparison), ethnicity and identity as well as eye gaze or facial expressions. We argue that this may be due to the fact that individual changes of facial age occur ontogenetically, unlike the instant changes of gaze direction or expressive content in faces that can be “mirrored” and require constant cognitive monitoring to follow. Discussing the ample evidence for distinct representations of quantitative age as opposed to categorical gender varied over continuous androgyny levels, we suggest that particular face-sensitive regions interact with additional object-unselective quantification modules to obtain individual estimates of facial age.
A major goal of the main topics of ecology is to answer the question of how species can co-exist and maintain biodiversity. To understand how community dynamics operate in different spatio-temporal dimensions to govern biodiversity patterns requires a process-based knowledge. Thus, this study focused primarily on biodiversity patterns and ecological processes at both spatial and temporal scales. Spatially, the diversity and similarity of spider communities in high, intermediate, and low strata of beech trees represented a set of age-related effects: Old-growth trees provided unique and distinct resources to spiders and in turn possessed discrete spider compositions. Intra-annually, spider communities in different seasons showed a repeated, predictable temporal dynamics. Inter-annually, comparison revealed that neutral and niche models can operate in tandem, and that both are needed to fully explain the dynamics of arboreal spider assemblages among different canopy strata in this beech forest.
Understanding of complex interactions and events in a nervous system, leading from the molecular level up to certain behavioural patterns calls for interdisciplinary interactions of various research areas. The goal of the presented work is to achieve such an interdisciplinary approach to study and manipulate animal behaviour and its underlying mechanisms. Optical in vivo imaging is a new constantly evolving method, allowing one to study not only the local but also wide reaching activity in the nervous system. Due to ease of its genetic accessibility Drosophila melanogaster represents an extraordinary experimental organism to utilize not only imaging but also various optogenetic techniques to study the neuronal underpinnings of behaviour. In this study four genetically encoded sensors were used to investigate the temporal dynamics of cAMP concentration changes in the horizontal lobes of the mushroom body, a brain area important for learning and memory, in response to various physiological and pharmacological stimuli. Several transgenic lines with various genomic insertion sites for the sensor constructs Epac1, Epac2, Epac2K390E and HCN2 were screened for the best signal quality, one line was selected for further experiments. The in vivo functionality of the sensor was assessed via pharmacological application of 8-bromo-cAMP as well as Forskolin, a substance stimulating cAMP producing adenylyl cyclases. This was followed by recording of the cAMP dynamics in response to the application of dopamine and octopamine, as well as to the presentation of electric shock, odorants or a simulated olfactory signal, induced by acetylcholine application to the observed brain area. In addition the interaction between the shock and the simulated olfactory signal by simultaneous presentation of both stimuli was studied. Preliminary results are supporting a coincidence detection mechanism at the level of the adenylyl cyclase as postulated by the present model for classical olfactory conditioning. In a second series of experiments an effort was made to selecticvely activate a subset of neurons via the optogenetic tool Channelrhodopsin (ChR2). This was achieved by recording the behaviour of the fly in a walking ball paradigm. A new method was developed to analyse the walking behaviour of the animal whose brain was made optically accessible via a dissection technique, as used for imaging, thus allowing one to target selected brain areas. Using the Gal4-UAS system the protocerebral bridge, a substructure of the central complex, was highlighted by expressing the ChR2 tagged by fluorescent protein EYFP. First behavioural recordings of such specially prepared animals were made. Lastly a new experimental paradigm for single animal conditioning was developed (Shock Box). Its design is based on the established Heat Box paradigm, however in addition to spatial and operant conditioning available in the Heat Box, the design of the new paradigm allows one to set up experiments to study classical and semioperant olfactory conditioning, as well as semioperant place learning and operant no idleness experiments. First experiments involving place learning were successfully performed in the new apparatus.
Control of host cell death is of paramount importance for the survival and replication of obligate intracellular bacteria. Among these, human pathogenic Chlamydia induces the inhibition of apoptosis in a variety of different host cells by directly interfering with cell death signaling. However, the evolutionary conservation of cell death regulation has not been investigated in the order Chlamydiales, which also includes Chlamydia-like organisms with a broader host spectrum. Here, we investigated the apoptotic response of human cells infected with the Chlamydia-like organism Simkania negevensis (Sn). Simkania infected cells exhibited strong resistance to apoptosis induced by intrinsic stress or by the activation of cell death receptors. Apoptotic signaling was blocked upstream of mitochondria since Bax translocation, Bax and Bak oligomerisation and cytochrome c release were absent in these cells. Infected cells turned on pro-survival pathways like cellular Inhibitor of Apoptosis Protein 2 (cIAP-2) and the Akt/PI3K pathway. Blocking any of these inhibitory pathways sensitized infected host cell towards apoptosis induction, demonstrating their role in infection-induced apoptosis resistance. Our data support the hypothesis of evolutionary conserved signaling pathways to apoptosis resistance as common denominators in the order Chlamydiales.
Background
Currently established methods to identify viable and non-viable cells of cyanobacteria are either time-consuming (eg. plating) or preparation-intensive (eg. fluorescent staining). In this paper we present a new and fast viability assay for unicellular cyanobacteria, which uses red chlorophyll fluorescence and an unspecific green autofluorescence for the differentiation of viable and non-viable cells without the need of sample preparation.
Results
The viability assay for unicellular cyanobacteria using red and green autofluorescence was established and validated for the model organism Synechocystis sp. PCC 6803. Both autofluorescence signals could be observed simultaneously allowing a direct classification of viable and non-viable cells. The results were confirmed by plating/colony count, absorption spectra and chlorophyll measurements. The use of an automated fluorescence microscope and a novel ImageJ based image analysis plugin allow a semi-automated analysis.
Conclusions
The new method simplifies the process of viability analysis and allows a quick and accurate analysis. Furthermore results indicate that a combination of the new assay with absorption spectra or chlorophyll concentration measurements allows the estimation of the vitality of cells.
Bordetellen sind Gram-negative Kokkobazillen, die phylogenetisch zu den β-Proteobakterien zählen und in der Familie der Alcaligenaceae eingeordnet sind. Der bedeutendste Vertreter der Gattung, die nach heutigem Kenntnisstand neun Arten umfasst, ist Bordetella pertussis, der Erreger des Keuchhustens. Der Keim ist obligat humanpathogen und besitzt zahlreiche Virulenzfaktoren, um die Epithelzellen des Respirationstraktes zu besiedeln und zu zerstören, wodurch es zu dem charakteristischen Krankheitsverlauf kommt. Neben B. pertussis werden noch B. bronchiseptica und B. parapertussis dem sogenannten B. bronchiseptica-Cluster zugeteilt. Alle Vertreter des B. bronchiseptica-Clusters sind in der Lage, bei verschiedenen Wirtsspezies respiratorische Erkrankungen mit unterschiedlichem Schweregrad auszulösen. Dabei weist B. bronchiseptica ein breiteres Wirtsspektrum auf und kann Atemwegserkrankungen in einer Vielzahl von Säugetieren auslösen, wohingegen B. parapertussis vornehmlich Schafe und Menschen infiziert und bei letzteren eine schwächere Form des Keuchhustens bewirkt. Das Hfq-Protein wurde ursprünglich als Wirtsfaktor identifiziert, welcher für die Replikation des RNA-Phagen Qβ in Escherichia coli benötigt wird (host factor for Qβ oder HF-1). Es ist in Struktur und Funktion homolog zu den Sm-Proteinen aus Eukaryoten, die am Splicing von mRNAs involviert sind. Die Beteiligung des Hfq-Proteins an regulatorischen Vorgängen, die durch kleine nicht-kodierende RNAs (sRNAs) vermittelt werden, wurde erstmals in einer Studie zum Mechanismus der rpoS-Regulation durch die kleine regulatorische RNA OxyS ersichtlich. Seitdem konnte für eine Vielzahl an sRNAs gezeigt werden, dass sie an Hfq gebunden vorliegen und die Hilfe des Proteins bei der post-transkriptionellen Kontrolle ihrer Ziel-mRNAs benötigen. In dieser Hinsicht übernimmt Hfq die Rolle eines RNA-Chaperons, indem es trans-kodierte sRNAs stabilisiert und die Basenpaarung mit ihren Ziel-mRNAs fördert. Dabei beeinflusst die Bindung der sRNA-Regulatoren an ihre Ziel-mRNAs deren Translation, sowohl aktivierend als auch inhibierend. Bislang wurden Hfq-Homologe in der Hälfte aller sequenzierten Gram-positiven und Gram-negativen Bakterienarten gefunden. Eine BLAST-Analyse ergab, dass B. pertussis und B. bronchiseptica Homologe zum Hfq-Protein aufweisen und diese in der veröffentlichten Genomsequenz bereits als Hfq-Protein annotiert sind. Fokus dieser Arbeit war weitestgehend, die Funktion des Hfq-Proteins in B. pertussis und vergleichend in B. bronchiseptica zu charakterisieren. Mittels Primer Extension-Analyse konnte zunächst der Startpunkt des hfq-Transkripts in B. pertussis und B. bronchiseptica unter logarithmischen Wachstumsbedingungen bestimmt werden. Dieser Startpunkt war zudem unter stationären Wachstumsbedingungen und nach Hitzestress aktiv, was in Diskrepanz zur Beobachtung in E. coli steht. Ferner konnte festgestellt werden, dass die hfq-Transkription nach Induktion verschiedener Stressformen in beiden Organismen erhöht war. Nach Generierung der jeweiligen Δhfq-Mutanten in beiden Organismen wurden diese charakterisiert. Die B. pertussis Δhfq-Mutante zeigte ein deutliches Wachstumsdefizit gegenüber dem Wildtyp, im Gegensatz zu B. bronchiseptica Δhfq, die sich im Wachstum wie der Wildtyp verhielt. Beide Mutanten zeigten sich sensitiver gegenüber H2O2-Stress als der Wildtyp, nicht jedoch gegenüber weiteren oxidativen Stressbedingungen oder Membranstress induzierenden Substanzen. Die Δhfq-Mutante in B. pertussis war zudem in ihrer Fähigkeit zur Biofilmbildung beeinträchtigt, was jedoch nicht für B. bronchiseptica Δhfq galt. Da Hfq an sRNA-mRNA-Interaktionen, welche die Translation der mRNAs beeinflussen, beteiligt ist, sollte über 2D-Gelelektrophorese das Hfq-regulierte Proteom in B. pertussis und B. bronchiseptica bestimmt werden. Auffällig war, dass viele periplasmatische Transport-bindeproteine von der Δhfq-Mutation betroffen waren. Es zeigten sich aber auch Stoffwechselenzyme und wichtige Housekeeping-Faktoren, wie z. B. der Elongationsfaktor EF-Tu und das Chaperon GroEL, in der Δhfq-Mutante dereguliert. Generell scheint das Hfq-regulierte Proteom in B. pertussis und B. bronchiseptica nur einen kleinen Teil des gesamten Proteoms auszumachen. Zudem ist das Hfq-regulierte Proteom variabel zwischen verschiedenen Wachstumsbedingungen, aber auch zwischen den beiden Organismen trotz der engen Verwandtschaft. Die Expression ausgewählter Virulenzfaktoren zeigte keinen Unterschied zwischen Δhfq-Mutante und B. pertussis-Wildtyp.
In the initial phase of development of fish embryos, a prominent and critical event is the midblastula transition (MBT). Before MBT cell cycle is rapid, highly synchronous and zygotic gene transcription is turned off. Only during MBT the cell cycle desynchronizes and transcription is activated. Multiple mechanisms, primarily the nucleocytoplasmic ratio, are supposed to control MBT activation. Unexpectedly, we find in the small teleost fish medaka (Oryzias latipes) that at very early stages, well before midblastula, cell division becomes asynchronous and cell volumes diverge. Furthermore, zygotic transcription is extensively activated already after the 64-cell stage. Thus, at least in medaka, the transition from maternal to zygotic transcription is uncoupled from the midblastula stage and not solely controlled by the nucleocytoplasmic ratio.
Organic farming is one of the most successful agri-environmental schemes, as humans benefit from high quality food, farmers from higher prices for their products and it often successfully protects biodiversity. However there is little knowledge if organic farming also increases ecosystem services like pest control. We assessed 30 triticale fields (15 organic vs. 15 conventional) and recorded vascular plants, pollinators, aphids and their predators. Further, five conventional fields which were treated with insecticides were compared with 10 non-treated conventional fields. Organic fields had five times higher plant species richness and about twenty times higher pollinator species richness compared to conventional fields. Abundance of pollinators was even more than one-hundred times higher on organic fields. In contrast, the abundance of cereal aphids was five times lower in organic fields, while predator abundances were three times higher and predator-prey ratios twenty times higher in organic fields, indicating a significantly higher potential for biological pest control in organic fields. Insecticide treatment in conventional fields had only a short-term effect on aphid densities while later in the season aphid abundances were even higher and predator abundances lower in treated compared to untreated conventional fields. Our data indicate that insecticide treatment kept aphid predators at low abundances throughout the season, thereby significantly reducing top-down control of aphid populations. Plant and pollinator species richness as well as predator abundances and predator-prey ratios were higher at field edges compared to field centres, highlighting the importance of field edges for ecosystem services. In conclusion organic farming increases biodiversity, including important functional groups like plants, pollinators and predators which enhance natural pest control. Preventative insecticide application in conventional fields has only short-term effects on aphid densities but long-term negative effects on biological pest control. Therefore conventional farmers should restrict insecticide applications to situations where thresholds for pest densities are reached.
Alzheimer’s disease (AD) is a progressive neurodegenerative disease of the brain. Today AD is the most common form of dementia in elderly people. It is clinically characterized by a progressive loss of memory and later on a decline in higher cognitive functions. The pathological hallmarks of AD, consistently demonstrated in brain tissue of patients, are extracellular amyloid-β (Aβ plaques, intracellular neurofibrillary tangles of tau protein and a profound loss of mainly cholinergic and glutamatergic synapses and ultimatively neurons. Estimates foresee that more than 80 million individuals will be affected by the disease by 2040 due to population aging worldwide underlining the high medical need for this disease. In order to find suitable drugs for the treatment of AD, experimental model systems are utilized to explore potential drug candidates. Such an experimental system is hippocampal long-term potentiation (LTP), which is widely accepted as an in vitro model of cellular processes fundamentally involved in memory formation. The present thesis focuses on the establishment and validation of LTP in rat hippocampal slices to characterize memory enhancing drugs as a potential treatment of AD. First, a multi-slice recording system was set up enabling stable measurements of LTP for up to seven hours from several slices simultaneously (chapter 2). Then, distinct protocols to induce early and late CA1 LTP, resembling short-term and long-term memory, were established. They were validated by addressing the hallmarks accepted for these forms of LTP: protein-synthesis independence and NMDA receptor dependence without contribution of L-VDCCs for early LTP, as opposed to protein-synthesis and NMDA / L-VDCCs dependence for late LTP (chapter 3). As in AD patients a loss of mainly cholinergic and glutamatergic synapses is obvious, these validated forms of LTP were used to study drugs potentially being able to enhance cholinergic and/or glutamatergic neuronal functions. The effects of two drugs exclusively interfering with cholinergic function on LTP were tested: the α4β2 nicotinic acetylcholinergic receptor agonist TC-1827 (chapter 4) and the acetylcholine esterase inhibitor donepezil (chapter 5). Both drugs were found to increase early LTP, but to not affect late LTP. Furthermore, two drugs exclusively interfering with glutamatergic function were analyzed: the metabotropic glutamate 5 receptor postive allosteric modulator ADX-47273 (chapter 3) and the phosphodiesterase (PDE) 9A inhibitor BAY 73-6691 (chapter 5). ADX-47273 increased late LTP, but had no effect on early LTP, whereas BAY 73-6691 showed enhancing effects on both early and late LTP and even transformed early into late LTP. The same effects like for the PDE9A inhibitor were observed for the α7 nicotinic acetylcholinergic receptor partial agonist SSR180711 (chapter 4), which interferes with both, cholinergic and glutamatergic function. Thus, drugs facilitating glutamatergic function or both glutamatergic and cholinergic function seem to be more efficacious in enhancing LTP than drugs facilitating solely cholinergic function. To evaluate whether this finding also proves true for experimental circumstances mimicking decreased cognitive function together with pathophysiology in AD patients, the ability of the drugs to ameliorate LTP impaired by soluble Aβ oligomer was analyzed (chapter 6). Soluble Aβ oligomers, also referred to as amyloid-β derived diffusible ligands (ADDLs), are thought to a putative cause of AD. Here, they were demonstrated to impair early and late LTP to different extents by exclusively targeting NMDA receptors and/or their signaling. These results further contribute to the hypothesis that soluble Aβ oligomers cause synaptic dysfunction which might lead to cognitive decline seen in AD patients. Regarding drug effects, donepezil and TC-1827 slightly restored ADDLs induced impairment of early LTP, but had no effect on late LTP impaired by ADDLs. In contrast, both, SSR180711 and BAY 73-6691 completely rescued early as well as late LTP impaired by ADDLs. ADX-47273 had no restoring effect on ADDLs induced early LTP impairment, but partially restored late LTP impaired by ADDLs. Thus, the earlier finding of the present thesis was confirmed: drugs facilitating glutamatergic function not only seem to be more efficacious in enhancing LTP than drugs facilitating solely cholinergic function, but are also superior in ameliorating soluble Aβ oligomer induced LTP deficits. Therefore, from a preclinical perspective and based on the results of the present thesis, drugs interfering with glutamatergic function seem to have a high therapeutic potential as alternative treatment concerning cognitive deficits. Probably, they represent more efficacious approaches for the symptomatic treatment of AD than current treatments solely facilitating cholinergic function.
Background: Hybridization can have complex effects on evolutionary dynamics in ants because of the combination of haplodiploid sex-determination and eusociality. While hybrid non-reproductive workers have been found in a range of species, examples of gene-flow via hybrid queens and males are rare. We studied hybridization in East African army ants (Dorylus subgenus Anomma) using morphology, mitochondrial DNA sequences, and nuclear microsatellites. Results: While the mitochondrial phylogeny had a strong geographic signal, different species were not recovered as monophyletic. At our main study site at Kakamega Forest, a mitochondrial haplotype was shared between a “Dorylus molestus-like” and a “Dorylus wilverthi-like” form. This pattern is best explained by introgression following hybridization between D. molestus and D. wilverthi. Microsatellite data from workers showed that the two morphological forms correspond to two distinct genetic clusters, with a significant proportion of individuals being classified as hybrids. Conclusions: We conclude that hybridization and gene-flow between the two army ant species D. molestus and D. wilverthi has occurred, and that mating between the two forms continues to regularly produce hybrid workers. Hybridization is particularly surprising in army ants because workers have control over which males are allowed to mate with a young virgin queen inside the colony.
Isolation of a Cancer-Associated Microchromosome in the Sperm-Dependent Parthenogen Poecilia formosa
(2011)
In the asexual all-female fish species Poecilia formosa, the Amazon molly, supernumerary chromosomes have frequently been found in both laboratory-reared and wild-caught individuals. While wild-caught individuals with B chromosomes are phenotypically indifferent from conspecifics, individuals carrying B chromosomes from recent introgression events in the laboratory show phenotypic changes. Former analyses showed that the expression of a pigment cell locus is associated with the presence of these B chromosomes. In addition, they contain a so far unidentified locus that confers a higher susceptibility to tumor formation in the presence of pigmentation pattern. Isolation by microdissection and hybridization to metaphase chromosomes revealed that they contain one or several sequences with similarity to a highly repetitive pericentromeric and subtelomeric sequence in A chromosomes. Isolation of one particular sequence by AFLP showed that the B chromosomes contain at least 1 copy of an A-chromosomal region which is highly conserved in the whole genus Poecilia, i.e. more than 5 million years old. We propose it to be a single copy sequence.
The diversity of species is striking, but can be far exceeded by the chemical diversity of compounds collected, produced or used by them. Here, we relate the specificity of plant-consumer interactions to chemical diversity applying a comparative network analysis to both levels. Chemical diversity was explored for interactions between tropical stingless bees and plant resins, which bees collect for nest construction and to deter predators and microbes. Resins also function as an environmental source for terpenes that serve as appeasement allomones and protection against predators when accumulated on the bees’ body surfaces. To unravel the origin of the bees’ complex chemical profiles, we investigated resin collection and the processing of resin-derived terpenes. We therefore analyzed chemical networks of tree resins, foraging networks of resin collecting bees, and their acquired chemical networks. We revealed that 113 terpenes in nests of six bee species and 83 on their body surfaces comprised a subset of the 1,117 compounds found in resins from seven tree species. Sesquiterpenes were the most variable class of terpenes. Albeit widely present in tree resins, they were only found on the body surface of some species, but entirely lacking in others. Moreover, whereas the nest profile of Tetragonula melanocephala contained sesquiterpenes, its surface profile did not. Stingless bees showed a generalized collecting behavior among resin sources, and only a hitherto undescribed species-specific ‘‘filtering’’ of resin-derived terpenes can explain the variation in chemical profiles of nests and body surfaces fromdifferent species. The tight relationship between bees and tree resins of a large variety of species elucidates why the bees’ surfaces contain a much higher chemodiversity than other hymenopterans.
Background
Squalius alburnoides is an Iberian cyprinid fish resulting from an interspecific hybridisation between Squalius pyrenaicus females (P genome) and males of an unknown Anaecypris hispanica- like species (A genome). S. alburnoides is an allopolyploid hybridogenetic complex, which makes it a likely candidate for ploidy mosaicism occurrence, and is also an interesting model to address questions about gene expression regulation and genomic interactions. Indeed, it was previously suggested that in S. alburnoides triploids (PAA composition) silencing of one of the three alleles (mainly of the P allele) occurs. However, not a whole haplome is inactivated but a more or less random inactivation of alleles varying between individuals and even between organs of the same fish was seen.
In this work we intended to correlate expression differences between individuals and/or between organs to the occurrence of mosaicism, evaluating if mosaics could explain previous observations and its impact on the assessment of gene expression patterns.
Results
To achieve our goal, we developed flow cytometry and cell sorting protocols for this system generating more homogenous cellular and transcriptional samples. With this set-up we detected 10% ploidy mosaicism within the S. alburnoides complex, and determined the allelic expression profiles of ubiquitously expressed genes (rpl8; gapdh and β-actin) in cells from liver and kidney of mosaic and non-mosaic individuals coming from different rivers over a wide geographic range.
Conclusions
Ploidy mosaicism occurs sporadically within the S. alburnoides complex, but in a frequency significantly higher than reported for other organisms. Moreover, we could exclude the influence of this phenomenon on the detection of variable allelic expression profiles of ubiquitously expressed genes (rpl8; gapdh and β-actin) in cells from liver and kidney of triploid individuals. Finally, we determined that the expression patterns previously detected only in a narrow geographic range is not a local restricted phenomenon but is pervasive in rivers where S. pyrenaicus is sympatric with S. alburnoides.
We discuss mechanisms that could lead to the formation of mosaic S. alburnoides and hypothesise about a relaxation of the mechanisms that impose a tight control over mitosis and ploidy control in mixoploids."
An animal depends heavily on its sense of smell and its ability to form olfactory associations as this is crucial for its survival. This thesis studies in two parts about such associative olfactory learning in larval Drosophila. The first part deals with different aspects of odour processing while the second part is concerned with aspects related to memory and learning. Chapter I.1 highlights how odour intensities could be integrated into the olfactory percept of larval Drosophila. I first describe the dose-effect curves of learnability across odour intensities for different odours and then choose odour intensities from these curves such that larvae are trained at intermediate odour intensity, but are tested for retention with either that trained intermediate odour intensity, or with respectively HIGHer or LOWer intensities. I observe a specificity of retention for the trained intensity for all the odours used. Further I compare these findings with the case of adult Drosophila and propose a circuit level model of how such intensity coding comes about. Such intensity specificity of learning adds to appreciate the richness in 'content' of olfactory memory traces, and to define the demands on computational models of olfaction and olfactory learning. Chapter I.2 provides a behaviour-based estimate of odour similarity using four different types of experiments to yield a combined, task-independent estimate of perceived difference between odour-pairs. Further comparison of these perceived differences to published measures of physico- chemical difference reveals a weak correlation. Notable exceptions to this correlation are 3-octanol and benzaldehyde. Chapter I.3 shows for two odours (3-octanol and 1-octene-3-ol) that perceptual differences between these odours can either be ignored after non-discriminative training (generalization), or accentuated by odour-specific reinforcement (discrimination). Anosmic Or83b1 mutants have lost these faculties, indicating that this adaptive adjustment is taking place downstream of Or83b expressing sensory neurons. Chapter II.1 of this thesis deals with food supplementation with dried roots of Rhodiola rosea. This dose-dependently improves odour- reward associative function in larval Drosophila. Supplementing fly food with commercially available tablets or extracts, however, does not have a 'cognitive enhancing' effect, potentially enabling us to differentiate between the effective substances in the root versus these preparations. Thus Drosophila as a genetically tractable study case should now allow accelerated analyses of the molecular mechanism(s) that underlie this 'cognitive enhancement' conveyed by Rhodiola rosea. Chapter II.2 describes the role of Synapsin, an evolutionarily conserved presynaptic phosphoprotein using a combined behavioural and genetic approach and asks where and how, this protein affects functions in associative plasticity of larval Drosophila. This study shows that a Synapsin-dependent memory trace can be pinpointed to the mushroom bodies, a 'cortical' brain region of the insects. On the molecular level, data in this study assign Synapsin as a behaviourally- relevant effector of the AC-cAMP-PKA cascade.
How do physico-chemical stimulus features, perception, and physiology relate? Given the multi-layered and parallel architecture of brains, the question specifically is where physiological activity patterns correspond to stimulus features and/ or perception. Perceived distances between six odour pairs are defined behaviourally from four independent odour recognition tasks. We find that, in register with the physico-chemical distances of these odours, perceived distances for 3-octanol and n-amylacetate are consistently smallest in all four tasks, while the other five odour pairs are about equally distinct. Optical imaging in the antennal lobe, using a calcium sensor transgenically expressed in only first-order sensory or only second-order olfactory projection neurons, reveals that 3-octanol and n-amylacetate are distinctly represented in sensory neurons, but appear merged in projection neurons. These results may suggest that within-antennal lobe processing funnels sensory signals into behaviourally meaningful categories, in register with the physico-chemical relatedness of the odours.
How do physico-chemical stimulus features, perception, and physiology relate? Given the multi-layered and parallel architecture of brains, the question specifically is where physiological activity patterns correspond to stimulus features and/or perception. Perceived distances between six odour pairs are defined behaviourally from four independent odour recognition tasks. We find that, in register with the physico-chemical distances of these odours, perceived distances for 3octanol and n-amylacetate are consistently smallest in all four tasks, while the other five odour pairs are about equally distinct. Optical imaging in the antennal lobe, using a calcium sensor transgenically expressed in only first-order sensory or only second-order olfactory projection neurons, reveals that 3-octanol and n-amylacetate are distinctly represented in sensory neurons, but appear merged in projection neurons. These results may suggest that within-antennal lobe processing funnels sensory signals into behaviourally meaningful categories, in register with the physico-chemical relatedness of the odours.
Background: In a number of gram-positive bacteria, including Listeria, the general stress response is regulated by the alternative sigma factor B (SigB). Common stressors which lead to the activation of SigB and the SigB-dependent regulon are high osmolarity, acid and several more. Recently is has been shown that also blue and red light activates SigB in Bacillus subtilis. Methodology/Principal Findings: By qRT-PCR we analyzed the transcriptional response of the pathogen L. monocytogenes to blue and red light in wild type bacteria and in isogenic deletion mutants for the putative blue-light receptor Lmo0799 and the stress sigma factor SigB. It was found that both blue (455 nm) and red (625 nm) light induced the transcription of sigB and SigB-dependent genes, this induction was completely abolished in the SigB mutant. The blue-light effect was largely dependent on Lmo0799, proving that this protein is a genuine blue-light receptor. The deletion of lmo0799 enhanced the red-light effect, the underlying mechanism as well as that of SigB activation by red light remains unknown. Blue light led to an increased transcription of the internalin A/B genes and of bacterial invasiveness for Caco-2 enterocytes. Exposure to blue light also strongly inhibited swimming motility of the bacteria in a Lmo0799- and SigB-dependent manner, red light had no effect there. Conclusions/Significance: Our data established that visible, in particular blue light is an important environmental signal with an impact on gene expression and physiology of the non-phototrophic bacterium L. monocytogenes. In natural environments these effects will result in sometimes random but potentially also cyclic fluctuations of gene activity, depending on the light conditions prevailing in the respective habitat.
Background:
In a number of gram-positive bacteria, including Listeria, the general stress response is regulated by the alternative sigma factor B (SigB). Common stressors which lead to the activation of SigB and the SigB-dependent regulon are high osmolarity, acid and several more. Recently is has been shown that also blue and red light activates SigB in Bacillus subtilis.
Methodology/Principal Findings:
By qRT-PCR we analyzed the transcriptional response of the pathogen L. monocytogenes to blue and red light in wild type bacteria and in isogenic deletion mutants for the putative blue-light receptor Lmo0799 and the stress sigma factor SigB. It was found that both blue (455 nm) and red (625 nm) light induced the transcription of sigB and SigB-dependent genes, this induction was completely abolished in the SigB mutant. The blue-light effect was largely dependent on Lmo0799, proving that this protein is a genuine blue-light receptor. The deletion of lmo0799 enhanced the red-light effect, the underlying mechanism as well as that of SigB activation by red light remains unknown. Blue light led to an increased transcription of the internalin A/B genes and of bacterial invasiveness for Caco-2 enterocytes. Exposure to blue light also strongly inhibited swimming motility of the bacteria in a Lmo0799- and SigB-dependent manner, red light had no effect there.
Conclusions/Significance:
Our data established that visible, in particular blue light is an important environmental signal with an impact on gene expression and physiology of the non-phototrophic bacterium L. monocytogenes. In natural environments these effects will result in sometimes random but potentially also cyclic fluctuations of gene activity, depending on the light conditions prevailing in the respective habitat.
Honeybees (Apis mellifera) forage on a great variety of plant species, navigate over large distances to crucial resources, and return to communicate the locations of food sources and potential new nest sites to nest mates using a symbolic dance language. In order to achieve this, honeybees have evolved a rich repertoire of adaptive behaviours, some of which were earlier believed to be restricted to vertebrates. In this thesis, I explore the mechanisms involved in honeybee learning, memory, numerical competence and navigation. The findings acquired in this thesis show that honeybees are not the simple reflex automats they were once believed to be. The level of sophistication I found in the bees’ memory, their learning ability, their time sense, their numerical competence and their navigational abilities are surprisingly similar to the results obtained in comparable experiments with vertebrates. Thus, we should reconsider the notion that a bigger brain automatically indicates higher intelligence.
Honeybee foragers frequently fly several kilometres to and from vital resources, and communicate those locations to their nest mates by a symbolic dance language. Research has shown that they achieve this feat by memorizing landmarks and the skyline panorama, using the sun and polarized skylight as compasses and by integrating their outbound flight paths. In order to investigate the capacity of the honeybees’ homing abilities, we artificially displaced foragers to novel release spots at various distances up to 13 km in the four cardinal directions. Returning bees were individually registered by a radio frequency identification (RFID) system at the hive entrance. We found that homing rate, homing speed and the maximum homing distance depend on the release direction. Bees released in the east were more likely to find their way back home, and returned faster than bees released in any other direction, due to the familiarity of global landmarks seen from the hive. Our findings suggest that such large scale homing is facilitated by global landmarks acting as beacons, and possibly the entire skyline panorama.
The Wuerzburg Hybridoma Library against the Drosophila brain represents a collection of around 200 monoclonal antibodies that bind to specific structures in the Drosophila brain. Here we describe the immunohistochemical staining patterns, the Western blot signals of one- and two-dimensional electrophoretic separation, and the mass spectrometric characterization of the target protein candidates recognized by the monoclonal antibodies aa2 and ab52 from the library. Analysis of a mutant of a candidate gene identified the Drosophila homolog of the Epidermal growth factor receptor Pathway Substrate clone 15 (Eps15) as the antigen for these two antibodies.
Die Apoptose der Leberzellen ist abhängig von externen Signalen wie beispielsweise Komponenten der Extrazellulären Matrix sowie anderen Zell-Zell-Kontakten, welche von einer Vielfalt und Vielzahl an Knoten verarbeitet werden. Einige von ihnen wurden im Rahmen dieser Arbeit auf ihre Systemeffekte hin unter- sucht. Trotz verschiedener äußerer Einflüsse und natürlicher Selektion ist das System daraufhin optimiert, eine kleine Anzahl verschiedener und klar voneinander unterscheidbarer Systemzustände anzunehmen. Die verschiedenartigen Einflüsse und Crosstalk-Mechanismen dienen der Optimierung der vorhandenen Systemzustände. Das in dieser Arbeit vorgestellte Modell zeigt zwei apoptotische sowie zwei nicht-apoptotische stabile Systemzustände, wobei der Grad der Aktivierung eines Knotens bis zu dem Moment stark variieren kann, in welchem der absolute Systemzustand selbst verändert wird (Philippi et al., BMC Systems Biology,2009) [1]. Dieses Modell stellt zwar eine Vereinfachung des gesamten zellulären Netzwerkes und seiner verschiedenen Zustände dar, ist aber trotz allem in der Lage, unabhängig von detaillierten kinetischen Daten und Parametern der einzelnen Knoten zu agieren. Gleichwohl erlaubt das Modell mit guter qualitativer Übereinstimmung die Apoptose als Folge einer Stimulation mit FasL zu modellieren. Weiterhin umfasst das Modell sowohl Crosstalk-Möglichkeiten des Collagen-Integrin-Signalwegs, ebenso berücksichtigt es die Auswirkungen der genetischen Deletion von Bid sowie die Konsequenzen einer viralen Infektion. In einem zweiten Teil werden andere Anwendungsmöglichkeiten dargestellt. Hormonale Signale in Pflanzen, Virusinfektionen und intrazelluläre Kommunikation werden semi-quantitativ modelliert. Auch hier zeigte sich eine gute Ubereinstimmung der Modelle mit den experimentellen Daten.