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- Biowissenschaften (245) (remove)
A promising strategy to reduce the dependency from fossil fuels is to use the yeast Saccharomyces cerevisiae to bioconvert renewable non-food feedstocks or waste streams, like lignocellulosic biomass, into bioethanol and other valuable molecule blocks. Lignocellulosic feedstocks contain glucose and significant fractions of the pentoses xylose and arabinose in varying proportions depending on the biomass type. S. cerevisiae is an efficient glucose consumer, but it cannot metabolize xylose and arabinose naturally. Therefore, extensive research using recombinant DNA techniques has been conducted to introduce and improve the biochemical pathways necessary to utilize these non-physiological substrates. However, any functional pathway capable of metabolizing D xylose and L arabinose in S. cerevisiae requires the transport of these sugars across the plasma membrane. The endogenous sugar transport system of S. cerevisiae can conduct a limited uptake of D-xylose and L-arabinose; this uptake enables only basal growth when the enzymatic pathways are provided. For this reason, the uptake of D xylose and L-arabinose has been recognized as a limiting step for the efficient utilization of these non-physiological substrates.
Gal2, a member of the major facilitator superfamily, is one of the most studied hexose transporters in S. cerevisiae. Although its expression is repressed in the presence of glucose, it also transports this sugar with high affinity when constitutively expressed. Recent efforts to engineer yeast strains for the utilization of plant biomass have unraveled the ability of Gal2 to transport non-physiological substrates like xylose and arabinose, among others. Improving Gal2 kinetic and substrate specificity, particularly for pentoses, has become a crucial target in strain engineering. The main goal of this study is to improve the utilization of xylose and arabinose by increasing the cell permeability of these non physiological substrates through the engineering of the galactose permease Gal2.
GAL2 gene expression depends on galactose, which acts as an inducer; nevertheless, even in the presence of galactose, glucose act as a strict repressor; consequently, GAL2 gene is usually placed under the control of a constitutive promoter. However, the presence of glucose additionally triggers the Gal2 degradation, which is mediated by the covalent attachment of the small 76 amino acid protein ubiquitin (Ub) to the targeted transporter; in a multi-step process called ubiquitination.
Ubiquitination of hexose permeases involves the activation of the Ub molecule by the E1 Ub-activating enzyme using ATP; then, the activated Ub is transferred to a specific Ub-conjugating enzyme E2, which donates the Ub indirectly through a specific HECT E3 enzyme (Rsp5) to a lysine residue of the substrate, with the aid of an adaptor protein which recognizes the target (Rsp5-adaptor). Ubiquitinated permeases are sent by membrane invagination to early endosomes, where they encounter ESCRTs (endosomal sorting complex required for transport). The targeted permeases are sorted in intralumenal vesicles (ILV) inside of the endosome, which after several cycles, turns into a multivesicular body (MVB) that subsequently fuses with the vacuole to expose the protein content of the ILVs to lumenal hydrolases for degradation.
Gal2 contains 30 lysine residues that may accept the ubiquitin molecule, which targets its degradation. It is known that mono-ubiquitination by Rsp5 on multiple lysine residues is necessary to internalize Gal2 (Horak & Wolf, 2001). However, the authors did not identify the specific lysine residues involved in the ubiquitination processes. This study screened several Gal2 variants where lysine residues were mutated or removed from the protein sequence to discover which lysine residues are likely involved in ubiquitination and consequent turnover of the transporter. The results of the screening showed that mutation of the N terminal lysine residues 27, 37, and 44 to arginine (Gal23KR) produced a functional transporter that, when fused with GFP (Gal23KR_GFP), showed an exclusive localization at the plasma membrane in cells growing in galactose or glucose as a sole carbon source (Tamayo Rojas et al., 2021b).
This study furthermore evaluated upstream signals caused by phosphorylation which triggers ubiquitination and consequent turnover of the targeted protein; using similar screening approaches to assess the stabilization of Gal2 by lysine residue modifications, it was possible to identify that N terminal serine residues 32, 35, 39, 48, 53, and 55 are likely involved in the internalization of Gal2, since a Gal2 construct where all these serines were mutated to alanine residues and tagged with GFP (Gal26SA_GFP) exhibited practically complete localization at the plasma membrane in cells growing in galactose or glucose as a sole carbon source (Tamayo Rojas et al., 2021b)...
In view of a growing world population and the finite nature of fossil resources, the development of eco-friendly production processes is essential for the transition towards a sustainable industry. Methanol, which can be produced both petrochemically and from renewable resources, offers itself as bridging technology and attractive alternative raw material for biotechnological processes. This work describes developments for the progress of the well-studied methylotrophic α proteobacterium Methylorubrum extorquens AM1 towards an efficient methylotrophic cell factory. Although many homologous and heterologous production routes have already been described and realized for M. extorquens in a laboratory scale, no industrial process has yet been realized. Three major reasons can be identified for this: (1) A limited choice of tools for genetic modifications, (2) a lack of understanding of carbon fluxes and side reactions occurring in modified strains, such as product reimports, and (3) the lack of tailored production strains for profitable target products and optimized bioprocessing protocols. The aim of the present work was to achieve developments for the mentioned areas. As a model application, the high-level production of chiral dicarboxylic acids from the substrate methanol was chosen. Enantiomerically pure chiral compounds are of great interest, e.g., as building blocks for chiral drugs. The ethylmalonyl CoA metabolic pathway (EMCP) which is part of the primary metabolism of M. extorquens, harbors unique chiral CoA-ester intermediates. Their acid derivatives can be released by cleavage of the CoA-moiety using heterologous enzymes. The dicarboxylic acids 2 methylsuccinic acid and mesaconic acid were produced in a previous study by introducing the heterologous thioesterase YciA into M. extorquens. In the said study, a combined product titer of 0.65 g/L was obtained in shake flask experiments. These results serve as the basis for the developments in the present work.
First, the previously described reuptake of products was thoroughly investigated and dctA2, a gene encoding for an acid transporter, was identified as target for reducing the product reuptake. In addition, reuptake of mesaconic acid was prevented by converting it to (S)-citramalic acid, a product not metabolizable by M. extorquens, by the introduction of a heterologous mesaconase. Together with 2-methylsuccinic acid, for which a high enantiomeric excess of (S)-2-methylsuccinic acid was determined, a second chiral molecule was thus added to the product spectrum. For the release of dicarboxylic acid products, YciA, a broad-range thioesterase that accepts a variety of CoA-esters with different chain lengths as substrates, was chosen. The enzyme should theoretically be able to hydrolyze all CoA-esters of interest present in the EMCP. However, in culture supernatants of M. extorquens strains that were overexpressing the corresponding yciA gene, only mesaconic acid and 2 methylsuccinic acid could be detected. To expand the substrate spectrum of YciA thioesterase with respect to other EMCP intermediates, semi-rational enzyme engineering was attempted. Screening of the corresponding strains carrying the respective YciA variants did not result in strains capable of producing new dicarboxylic acid products. However, the experiments revealed an amino acid position that strongly affected the production of mesaconic acid and 2-methylsuccinic acid in vivo. By substituting the according amino acid in YciA, the maximum titers of mesaconic acid and 2-methylsuccinic acid could be increased substantially. Application of an improved thioesterase variant in a second E. coli-based process confirmed the enhanced activity of the enzyme. The desired extension of the product spectrum by another chiral molecule (2-hydroxy-3-methylsuccinic acid, presumably the (2S,3R)-form) was finally achieved by using an alternative thioesterase. Tailored fermentation strategies were developed for the high-level production of the above-mentioned products.
As second part of the work, two novel genetic tools for M. extorquens were developed and characterized. The pBBR1-derived plasmid pMis1_1B was shown to be stably maintained in M. extorquens cells. In addition, its suitability for co-transformations with other plasmids was demonstrated. The second tool, the cumate-inducible promoter Ps6, is tailored for expression of pathways with toxic products, as the transcription of genes controlled by Ps6 is strongly repressed in the absence of an inducer.
Overall, the present work demonstrates the enormous potential of using M. extorquens as a methylotrophic cell factory. In the applications shown, the biotechnological production of high-priced chiral molecules is combined with the use of an attractive alternative substrate. In addition, new achievements and approaches are presented to facilitate the development of future M. extorquens production strains.
In conclusion, I described for the first time the in vivo functions of PAK2 during cardiac development and its requirement for heart contractility
AIM1 – Characterization of Pak2a and Pak2b functions during cardiovascular system development: description of the phenotype triggered by the loss of expression of pak2b in the pak2a mutant Firstly, in addition to the confirmation of the published data regarding the pak2a mutant and morphant phenotype, I showed that pak2bbns159 mutant does not exhibit morphological defects, neither in the ISV formation nor in the brain vascular patterning. More importantly, I analyzed in more details the phenotypic consequences of pak2a and pak2b loss of expression in the trunk and brain vasculatures. Indeed, the lack of blood flow in the embryos, was associated with central arteries migration defects and reduced lumen in these central arteries and the ISVs. Moreover, pak2a and pak2b loss of expression resulted in cardiac failure.
AIM2 – Role of Pak2 on cardiac contractility From 40 -46 hpf, I found a weaker heart contractility in the pak2ami149/mi149;pak2bbns159/bns159. Although, the PAK proteins have been shown to impact the actin cytoskeleton organization, the heart morphological defects associated with the altered contractility, were not associated with acto-myosin filament reorganization. However, by analyzing in more details the structure of the sarcomeres, I was able to demonstrate that the proteins constituting the sarcomeres were strongly affected and showed an altered spatial organization. Then, I also described the effects of the loss of expression of both paralogs on the junctional protein localization. I demonstrated the loss of Pak2 function resulted in junction protein rearrangement in the cardiomyocytes in the pak2ami149/mi149;pak2bbns159/bns159 mutants at 40 and 46 hpf.
Thus, I was able for the first time to demonstrate in vivo PAK2 functions during cardiac development and its requirement for proper cardiac contractility activity.
AIM3 – Decipher mechanism of Pak2 signaling cascade involved during cardiac development Both pak2a and pak2b WT mRNAs were able to rescue the pak2ami149/mi149;pak2bbns159/bns159 mutant heart defects and the results indicated that these paralogs share overlapping function during cardiac development. Moreover, although I was not able to examine the control transgenic lines, myocardial and endothelial specific pak2a overexpression did not ameliorate the mutant cardiac deficiency. Thus,the absence of rescue by reactivating pak2a in cardiomyocytes indicates a non-cell autonomous function of Pak2a on cardiomyocytes.
For the first time, this study allowed to follow PAK2 in vivo functions during cardiovascular development. More importantly, its role on heart contractility regulation would enable further investigations to generate new tools for the treatment of cardiomyopathies.
The intensive use of the North Sea area through offshore activities, sand mining, and the spreading of dredged material is leading to increasing pollution of the ecosystem by chemicals such as hydrophobic organic contaminants (HOCs). Due to their toxicological properties and their ability to accumulate in the environment, HOCs are of particular concern. The contaminants partition between aqueous (pore water, overlying water) and solid phases (sediment, suspended particulate matter, and biota) within these systems. The accumulated contaminants in the sediment are of major concern for benthic organisms, who are in close contact with sediment and interstitial water. It is thus particularly important to better understand how contaminants interact with biota, as these animals may contribute to trophic transfer through the food web. Furthermore, sediments are a crucial factor for the water quality of aquatic systems. They not only represent a sink for contaminants but also determine environmental fate, bioavailability, and toxicity. The Marine Strategy Framework Directive (MSFD) was introduced to protect our marine environment across Europe and includes the assessment of pollutant concentrations in the total sediment, which, however, rarely reflects the actual exposure situation. The consideration of the pollutant concentrations in the pore water is not implemented, although this is needed for the evaluation of bioavailability and risk assessment. For this reason, special attention is given to further development, implementation, and validation of pollutant monitoring methods that can determine the bioavailable fraction in sediment pore water. For risk assessment purposes, it is furthermore important to use biological indicators in addition to classical analytics to determine the effect of pollutants on organisms. The main objective of this thesis was to gain insight into the pollution load and the potential risk of hydrophobic organic chemicals (HOCs) in the sediment of the North Sea and to evaluate these results with regard to possible risks for benthic organisms and the ecosystem. The following five aims are covered within these studies to gain a holistic assessment of sediment contamination:
1. Assessment of the pore water concentrations of PAHs and PCBs
2. Determination of the bioturbation potential by macrofauna analysis
3. Application of the SPME method on biological tissue
4. Assessment of recreated environmental mixtures in passive dosing bioassays
5. Development of SPME method for DDT in sediments
The thesis is comprised of three main studies supported by three additional studies ...
Phenology is the study of periodic life cycle events of living organisms and how these are influenced by environmental factors. Late phenological phases such as the timing of seed release and subsequent seed dispersal considerably affect ecology and evolution in plants. Since plants are mostly sessile organisms, seed dispersal is a crucial life cycle event for the ecology and evolution of plants. In fact, long-distance seed dispersal (LDD) is a very complex process in plant biology and significantly shapes the spatial and temporal dynamics of plant populations. For example, wind dispersal in plants is influenced by a variety of factors such as plant traits, habitat type and environmental conditions (e.g. wind speed). Considering the variability of wind conditions throughout the year, the timing of seed release and dispersal is known to have considerable effects on LDD. Even though late phenologies such as ripening duration and timing of seed release and subsequent dispersal are vital in estimating ecologically highly relevant LDD, these phenologies are not appropriately addressed in ecological research. The aim of this thesis is to gain insights into the factors that shape late plant phenologies. In particular, we address the following questions: which ecologically or evolutionary parameters drive the ripening process of plant species? How does the seasonal variability of wind affect the seed release phenology of plant species? How do these factors interact for plant species in different habitat types?
In order to address these questions, we applied different methodological approaches, ranging from fieldwork and monitoring phenology to computational simulation studies and statistical modeling. To study the ripening process of species, we monitored the flowering, ripening and seed release phenology of more than 100 Central European plant species. We conducted computational simulation studies for estimating LDD by wind to study the phenology of seed release and the parameters determining LDD by wind. In conjunction with phenological data from literature, we used the obtained simulation results to investigate evidence for the existence of phenological adaptations towards LDD in 165 plant species. Further, we used the results from simulation studies of LDD by wind to disentangle the effects of species, habitat types and meteorological conditions and their interactions on the spatial spread of plant species.
The results of the relationship between plant traits, phylogeny, the ripening process and climatic factors provide insights into the basic understanding of the ripening process of plants. We identified ecological factors that shape species’ ripening phenology and seed release timing. In particular, we suggest that the species’ seed weight, life form and phylogeny shapes ripening and seed release phenology. With the statistical models on species’ temperature demands for reproduction, we introduce data that that are well suitable for parametrization and further development of plant dispersal models. The results from the simulation study based on a seasonal perspective showed that heavier seeded tree species with medium wind dispersal potential (including genera Abies, Acer, Fraxinus and Larix) have a clear synchronisation of seed abscission with periods favouring LDD. These species, which are both ecologically and economically important, showed significant synchronisation of the highest rate of seed release with high wind-speed that promoted LDD by wind in wintertime. For the tree species mentioned, we suggest strong seasonal synchronisation as evidence for phenological adaptations in order to match favourable conditions during seed release. With a closer look at the wind conditions that promote LDD by wind, our results showed considerable differences in how specific wind conditions affect LDD in different species and habitat types. We suggest that LDD by wind in species from open habitats with high wind dispersal potential is likely to be driven by thermal updrafts that are mainly driven by the sun providing energy to the ground. By contrast, LDD of heavier-seeded species from open and forested habitats is more likely to be driven by storms that produce shear-driven turbulence. The results from this thesis contribute to an increased understanding of the complete dispersal process of plants and to making more realistic projections of (future) plant distribution.
The results obtained on factors driving ripening and release phenology provide valuable insights into their ecological and phylogenetic factor constraints. The implementation of more realistic assumptions in assessing species’ dispersal potential throughout the year could help considerably in improving landscape management (e.g. timing of mowing) and in the conservation of plant populations. The evidence found for phenological adaptations towards LDD in plants is an important step in understanding the evolutionary basis of LDD in these species.
Freshwater is one of the most fundamental resources for life and is the habitat for a wide diversity of species. One of the most diverse aquatic insect taxa is Trichoptera Kirby, 1813, caddisflies. These semi-aquatic insects have aquatic larvae and terrestrial adults and are found all around the globe in freshwater habitats. Water is also one of the most important natural resources for the human population, but alarmingly, freshwaters are among the most threatened natural habitats. Thus, the monitoring and preservation of the quality of freshwater habitats should have a high priority. In order to track changes in the biota a baseline reference is necessary, but freshwater biodiversity is under-studied in many parts of the Earth such as the biodiversity hotspots of the Himalaya and the Hengduan Mountains. This thesis treats the trichopteran genus Himalopsyche Banks, 1940 (Rhyacophilidae) which has its diversity center in the Himalayas and the Hengduan Mountains. Himalopsyche larvae are large and conspicuous and only occur in clean, unpolluted streams. This makes Himalopsyche potentially suited as indicator organisms for freshwater quality monitoring, but taxonomic knowledge is yet insufficient. Based on samples from a field survey in the Hengduan Mountains targeting both larvae and adults I uncovered three new Himalopsyche species which are described in this thesis (Chapter II), and with the aid of molecular data I associated larvae of Himalopsyche to adult species (Chapter I). The molecular association enabled the first comparative morphological study of Himalopsyche species in the larval stage, and the morphological study in Chapter II revealed that there are four distinct larval types of Himalopsyche. However, no diagnostic characters to identify Himalopsyche larvae to species level were found. To understand Himalopsyche larval morphology from an evolutionary perspective, I reconstructed the first molecular phylogeny of the genus (Chapter III). This demonstrated that each larval type corresponds to a deep phylogenetic split, indicating that larval types evolved early in Himalopsyche evolution and remained constant since. Based on the phylogenetic results as well as larval and adult morphology, I re-defined five species groups of Himalopsyche: H. kuldschensis Group, H. lepcha Group, H. navasi Group, H. phryganea Group, and H. tibetana Group. The species groups differ with respect to their diversity centers. The monotypic H. lepcha Group resides in the Himalayas, and the monotypic H. phryganea Group inhabits Western Nearctic. The H. kuldschensis and H. tibetana Groups are geographically overlapping with distributions in the Himalayas, but the distribution of H. kuldschensis Group stretches more to the west to include the Tian Shan, and the H. tibetana Group is more concentrated around the eastern Himalayas and the Hengduan Mountains. The H. navasi Group has a more eastern distribution than most Himalopsyche including isolated areas such as Japan and Indonesia. The earliest split in Himalopsyche divides the H. navasi Group from remaining Himalopsyche, suggesting a more eastern area of origin of Himalopsyche than its current diversity center, with subsequent radiations in the Himalayas and Hengduan Mountains. In addition to the three chapters, in this thesis I discuss further aspects of Himalopsyche biology including genital evolution, species complexes, and Himalopsyche ecology.
Taxa under scrutiny in this thesis are Halophytophthora-like oomycetes. The genus Halophytophthora, proposed in 1990, is an assemblage of unrelated species grouped together on the basis habitat preference, i.e. the mangrove or saltmarsh biome, and morphological similarity to Phytophthora. The premise “Phytophthora-like species from the mangrove environment” became the genus concept for Halophytophthora and lasted for almost 2 decades which resulted to the addition of several species (i.e. H. elongata, H. exoprolifera, H. porrigovesica, H. kandeliae, H. masteri, and H. tartarea). At the onset of molecular phylogenetics, Halophytophthora was inferred as a highly polyphyletic taxon and the genus concept was found to be unsuitable. This thesis adds to this, since six Phytophthora spp. were isolated from the mangrove environment, two of which were found in the Philippines (Phytophthora elongata and Phytophthora insolita). After a thorough assessment of the morphologic and phylogenetic data of taxa included in this thesis, several taxonomic novelties were introduced – a new family (Salispinaceae), a new genus (Calycofera), new species (Calycofera cryptica, Phytopythium dogmae, Phytopythium leanoi, Salisapilia coffeyi, and Salispina hoi), and new combinations (Calycofera operculata, Salisapilia bahamensis, S. elongata, S. epistomia, S. masteri, S. mycoparasitica). In addition, Salisapiliaceae and Salisapilia were emended.
Seed dispersal is a key ecosystem function for plant regeneration, as it involves the movement of seeds away from the parental plants to particular habitats where they can germinate and transition to seedlings and ultimately adult plants. Seed dispersal is shaped by a diversity of abiotic and biotic factors, particularly by associations between plants and climate and between plants and other species. Due to the ongoing loss of biodiversity and changing global conditions, such interactions are prone to change and pose a severe threat to plant regeneration. One way to address this challenge is to study associations between plant traits and abiotic and biotic factors to understand the potential impacts of global change on plant regeneration. Plant communities have long been analyzed through the lens of vegetative traits, mainly ignoring how other traits interact and respond to the environment. For instance, while associations between vegetative traits (e.g., specific leaf area, leaf nitrogen content) and climate are well studied, there are few case studies of reproductive traits in relation to trait-environment associations in the context of global change.
Thus, the overarching aim of this dissertation is to explore how trait-environment associations, with a special focus on reproductive traits, can improve our understanding of the effect that global change may have on seed dispersal, and ultimately on plant regeneration. To this end, my research focuses on studying associations between plant traits and abiotic and biotic factors along an elevational gradient in both forests and deforested areas of tropical mountains. This dissertation addresses three principal research objectives.
First, I investigate the extent to which reproductive (seed and fruit traits) and vegetative traits (leaf traits) are related to abiotic and biotic factors for communities of fleshy-fruited plants in the Ecuadorian Andes. I used multivariate analyses to test associations between four (a)biotic factors and seven reproductive traits and five vegetative traits measured on 18 and 33 fleshy fruited plant species respectively. My analyses demonstrate that climate and soil conditions are strongly associated with the distribution of both reproductive and vegetative traits in tropical tree communities. The production of “costly” vs. “cheap” seeds, fruits and leaves, i.e., the production of few rewarding fruits and acquisitive leaves versus the production of many less-rewarding fruits and conservative leaves, is primarily limited by temperature, whereas the size of plant organs is more related to variation in precipitation and soil conditions. My findings suggest that associations between reproductive and vegetative traits and the abiotic environment follow similar principles in tropical tree communities.
Second, I assess how climate and microhabitat conditions affect the prevalence of endozoochorous plant species in the seed rain of tropical montane forests in southern Ecuador. I analyzed seed rain data for an entire year from 162 traps located across an elevational gradient spanning of 2000 m. I documented the microhabitat conditions (leaf area index and soil moisture next to each seed trap) at small spatial scale as well as the climatic conditions (mean annual temperature and rainfall in each plot) at large spatial scale. After a one-year of sampling, I counted 331,838 seeds of 323 species/morphospecies. My analyses demonstrate that the prevalence of endozoochorous plant species in the seed rain increases with temperature across elevations and with leaf area index within elevations. These results show that the prevalence of endozoochory is shaped by the interplay of both abiotic and biotic factors at large and small spatial scales.
Third, I examine the potential of seed rain to restore deforested tropical areas along an elevational gradient in southern Ecuador. For this chapter, I collected seed rain using 324 seed traps installed in 18 1-ha plots in forests (nine forest plots) and in pastures (nine deforested plots) along an elevational gradient of 2000 m. After a sampling period of three months, I collected a total of 123,039 seeds of 255 species/morphospecies from both forests and pastures along the elevational gradient. I did not find a consistent decrease in the amount and richness of seed rain between forests and pastures, but I detected a systematic change in the type of dispersed seeds, as heavier seeds and a higher proportion of endozoochorous species were found in forests compared to pastures at all elevations. This finding suggests that deforestation acts as a strong filter selecting seed traits that are vital for plant regeneration.
Understanding the role that trait-environment associations play in how plant communities regenerate today could serve as a basis for predicting changes in regeneration processes of plant communities under changing global conditions in the near future. Here, I show how informative the measurement of reproductive traits and trait environment associations are in facilitating the conservation of forest habitats and the restoration of deforested areas in the context of global change.
The production of ribosomes is a complicated multistep, that is susceptible to changes occurring within the cell and its environment. The process itself requires many proteins, known as ribosome biogenesis factors (RBFs) and many non-coding RNAs like the small nucleolar RNAs (snoRNAs). While RBFs are required for the accurate processing of the pre-rRNA into mature rRNAs, the snoRNAs act to coordinate and guide enzymes for post-transcriptional modifications, chiefly 2´-O-ribose methylation and pseudouridylation. While ribosome biogenesis is mostly described in human and yeast model eucaryotes, similar detailed studies in the model plant Arabidopsis thaliana are far less explored and understood. Furthermore, for many experimentally confirmed modification sites the according snoRNAs and for many pre-rRNA processing steps the responsible RBFs are missing. Therefore, it is expected that a high number of snoRNAs and RBFs are not identified till yet. For this reason, RNA-deep sequencing was performed in order to identify novel snoRNAs and MS analysis data of nucleoli and nuclei of A. thaliana from a former PhD student were used in order to find new proteins involved in pre-rRNA processing.
In here, it is shown that with RNA deep-sequencing still new snoRNAs and snRNAs can be identified and that detection of predicted snoRNAs can be fulfilled with a) antisense oligonucleotides tagged with fluorescence dyes and b) with radioactive labeled antisense probes. Furthermore, a secondary structure map of the 60S and 40S subunit highlighting the predicted and moreover verified modification sites in 5.8S, 25S and 18S rRNA was created. Especially, the correlation between the modification sites and the guiding snoRNA is highlighted further shedding light on overview about current pre-rRNA modification sites and corresponding guiding snoRNAs. The next chapter reveals the complex and multi-layered existence of the 5.8S rRNA and its numerous precursors. The mutant prp24 (also known as seap1) encoding AtPRP24, is recognized as factor being important for splicing as it is promoting the recruitment of the U4 and U6 snRNAs to the spliceosome. In here, it was found that AtPRP24 is involved in processing of 5.8S rRNA precursors, recognizable by precursors that are over accumulating in the mutant. Moreover, it could be shown for the first time that the plant-specific precursor 5´-5.8S is exported to the cytoplasm, where final cleavage steps of 5.8S rRNA takes place. In the prp24.2 mutant, this precursor is exported at an increased rate to the cytoplasm, where it can be detected in the actively translating ribosomes (polysomes). A lower sensitivity of the mutant seeds to cycloheximide (CHX) suggests that due to the extension at the 5´-end of 5.8S, the structure of the 60S subunit has altered CHX binding. In conclusion, this work highlights the importance and complexity of 5.8S rRNA and its precursors for ribosome biogenesis and displays new insights into pre-rRNA processing in A. thaliana.
Polyploidie in Prokaryoten
(2018)
Diese Arbeit teilt sich in drei Teile auf, die sich mit der Regulation der Polyploidie sowie mit der Genkonversion als evolutionären Vorteil von Polyploidie in Haloferax volcanii beschäftigen.
Im ersten Teil dieser Arbeit, wurde der Einfluss der DNA-Replikationsinitiatorproteine Orc1/Cdc6 auf das Ploidielevel untersucht. Hierbei konnte anhand von Deletionsmutanten zunächst gezeigt werden, dass lediglich drei der 16 Orc1/Cdc6-Proteine in H. volcanii essentiell sind. Bestimmung des Ploidielevels mittels qPCR-Analyse ergab, dass jedes der 12 untersuchten Orc1/Cdc6-Proteine das Ploidielevel mindestens eines Replikons beeinflusst und dementsprechend sowohl die mit einem Replikationsursprung assoziierten als auch die „verwaisten“ Orc1/Cdc6-Proteine eine Funktion haben. Die mit einem Replikationsursprung assoziierten Orc1/Cdc6-Proteine hatten hierbei keinen größeren Einfluss auf das Ploidielevel als die „verwaisten“. Zusätzlich konnte durch Wachstumsanalysen in Mikrotiterplatten gezeigt werden, dass die meisten Deletionsmutanten unter allen getesteten Bedingungen ein mit dem Wildtyp vergleichbares oder besseres Wachstum zeigen. Eine Deletionsmutante eines Orc1/Cdc6-Proteins hingegen zeigte nur verbessertes Wachstum bei Glukose als Kohlenstoffquelle, was ein Hinweis auf die Verwendung verschiedener Orc1/Cdc6-Proteine unter verschiedenen Bedingungen sein könnte. Zusätzlich wurden zwei mit dem Replikationsursprung assoziierte Orc1/Cdc6-Proteine überexprimiert und via ihres N-terminalen His-Tag im Western-Blot nachgewiesen, sodass diese nun für Co-Affinitätsaufreinigungen zur weiteren Charakterisierung des komplexen Zusammenspiels der Orc1/Cdc6-Proteine zur Verfügung stehen.
Im Rahme des zweiten Teils der Arbeit wurde der Einfluss der in der 5‘-Region der der Replikationsursprünge ori1 und ori2 kodierten Proteine auf Wachstum und die Kopienzahl des Hauptchromosoms bestimmt. Zunächst wurde die Expression der drei in Haloarchaea hoch-konservierten oap-Gene upstream von ori1 mittels Nothern-Blot untersucht und es konnte gezeigt werden, dass das oap-Operon tatsächlich als Operon abgelesen wird. Um alle Gene in den 5‘-Regionen von ori1 und ori2 genauer zu charakterisieren, wurden induzierbare Überexpressionsmutanten im Wildtyp-Hintergrund angefertigt. Es konnte mittels Wachstumsversuchen in Mikrotiterplatten gezeigt werden, dass bei Induktion von Beginn an die Überexpression der Hef-Helikase und des oapB-Proteins zu einem starken Wachstumsdefekt führen, die von oapC und HVO_1724 zu einem moderaten Wachstumsdefekt, wohingegen für die Überexpressionsmutante von oapA vergleichbares Wachstum zum Wildtyp und für die Überexpression der Rad25d-Helikase verbessertes Wachstum beobachtet werden konnte. Es konnte darüber hinaus gezeigt werden, dass sowohl die Deletion als auch die Überexpression der Helikasen keinen Einfluss auf das Ploidielevel hat; die Deletion von oapC führt jedoch zu einer Reduktion der Genomkopienzahl in exponentieller und stationärer Phase, was ein erster Hinweis darauf ist, dass das oap-Operon eine Rolle bei der Regulation des Ploidielevels spielen könnte.
Im dritten Teil der Arbeit wurde eine Methode entwickelt, um Genkonversion farblich sichtbar zu machen. Hierbei wurde sich H. volcaniis Carotinoidbiosynthese zu Nutze gemacht. Es wurden zwei verschiedene, auxotrophe Elternstämme mittels Protoplastenfusion verschmolzen, um eine heterozygote Tochterzelle zu erzeugen. Ein Genkonversionsereignis wurde durch einen roten Keil angezeigt, der aus einer weißen Kolonie wuchs und durch die erfolgreiche Reparatur des Carotinoidbiosynthesegens entstand. Es wurden insgesamt 8525 Klone ausgestrichen und 0,14 % der Kolonien zeigten eine entsprechende rote Färbung. Das Proof-of-Principle dieser Methode ist in damit in dieser Arbeit gelungen. Um die Genkonversion in den weißen Kolonien auf genetischer Ebene genauer zu untersuchen, wurde PCR verwendet. Es konnte gezeigt werden, dass in den Zellen aller 135 untersuchten Kolonien Genkonversion stattgefunden hatte und zwar so effizient, dass nur in seltenen Fällen Heterozygotie vorlag. Unter Selektionsdruck stehende Loci hatten in beiden untersuchten Fällen eine starke Präferenz in Richtung Homozygotie und Erhalt der Prototrophie. Für nicht unter Selektionsdruck stehende Loci konnte gezeigt werden, dass die Hälfte der untersuchten Kolonien dem Elternstamm 1 glich, während die andere Hälfte dem Elternstamm 2 glich. Auch hier waren die Zellen nur in seltenen Fällen homozygot.
By far not all genetic information is expressed by mRNA coding regions of the DNA. 98% of the human genome is not encoding for proteins. Therefore, these non-coding regions have been considered as “junk DNA” for a long time [1, 2]. The last years, new high throughput sequencing techniques have allowed the elucidation of the heterogeneous population of non-coding RNAs (ncRNAs, Table 1). RNAs longer than 200 nucleotides (nt) belong to the family of long non-coding RNAs (lncRNAs). They can exhibit numerous functions: The biggest family of RNAs is represented by the ribosomal RNAs (rRNAs). Together with the transfer RNAs (tRNAs) they are essential for the translation of mRNA into an amino acid sequence.
In welchen Situationen steht ein Tier unter Stress und wie beeinflusst Stress dessen Wohlbefinden? Dies sind die Kernfragen, mit denen Zoos konfrontiert sind, wenn es darum geht, den Bedürfnissen ihrer Tiere gerecht zu werden. Die Beantwortung dieser Fragen ist jedoch angesichts der großen individuellen Variabilität des Inputs, der Stress hervorrufen kann,und des Outputs, der das Wohlbefinden bestimmt, eine Herausforderung. Um diese Herausforderung zu meistern, brauchen Zoos Kenntnisse darüber, welche Haltungsbedingungen und Managementsituationen Verhaltens-, physiologische oder emotionale Veränderungen hervorrufen, sowohl positive als auch negative. Dies trifft insbesondere auf Arten zu, die aufgrund ihrer Biologie und des großen öffentlichen Interesses große Anforderungen an das Management in Menschenobhut stellen, wie den Afrikanischen Elefanten. Die vorliegende Arbeit hatte daher das Ziel, unter Berücksichtigung der individuellen Variation die Auswirkungen bestimmter Managementsituationen auf physiologischen Stress und das Wohlbefinden der Tiere zu evaluieren.
Für diese Arbeit wurden zehn Afrikanische Elefanten aus drei Zoos im Rahmen eines Experiments in 2016 und 2017 mehrmals untersucht. Dieses Experiment umfasste zum einen die Messung von physiologischem Stress auf der Basis der Konzentration des „Stresshormons“ Cortisol im Speichel der Elefanten. Zu diesem Zweck wurden an bestimmten Tagen und zu folgenden Zeitpunkten Speichelproben entnommen: morgens, nachmittags vor und mehrmals nach einer von zwei Managementsituationen (positives Verstärkungstraining [PRT] und neuartiges Enrichmentobjekt [NOV]). Zum anderen diente die Exposition gegenüber dem neuartigen Enrichmentobjekt als sogenannter Novel Object Test. Dieser Standardtest der Persönlichkeitsforschung bei Tieren deckte bei anderen Arten konsistente Verhaltensunterschiede zwischen Individuen auf. Um zu untersuchen, ob dies auch auf Afrikanische Elefanten zutrifft, wurden die individuellen Verhaltensreaktionen auf das neuartige Objekt aufgezeichnet. Darüber hinaus wurden unabhängig von dem Experiment vor und nach einem Transport jeweils morgens und nachmittags Speichelproben von dem transferierten Tier und von zwei Tieren im Bestimmungszoo gesammelt, um den Effekt dieses potenziellen Stressors auf die individuellen Cortisolspiegel zu untersuchen.
Publikation A zeigt, dass die Elefanten unter den Bedingungen des Routinemanagements (das heißt dem routinemäßigen Tagesablauf der Tierpflege) am Morgen signifikant höhere Cortisolwerte im Speichel aufwiesen als am Nachmittag. Diese diurnale Variation der Cortisolsekretion ist typisch für tagaktive Arten und wurde daher auch für die untersuchten Elefanten erwartet. Unter Stressbedingungen wurde weder ein signifikanter Unterschied zwischen den Cortisolspiegeln vor und nach dem Transport noch zwischen den Cortisolwerten am Morgen und am Nachmittag festgestellt. Der prozentuale Unterschied zwischen dem morgendlichen und nachmittäglichen Cortisolspiegel war jedoch beim transferierten Tier nach dem Transport wesentlich geringer als vor dem Transport, was möglicherweise auf eine Stressreaktion auf den Transport und die Eingewöhnung im neuen Zoo hindeutet. Darüber hinaus zeigten sich deutliche Cortisolanstiege unmittelbar nach der ersten Zusammenführung des transferierten Tiers mit dem Bullen im neuen Zoo. Dieses Ergebnis demonstriert zum einen, dass Cortisol physiologischen Stress widerspiegelt. Zum anderen zeigt es die Notwendigkeit, zeitnah nach einem Stressor Speichelproben zu entnehmen, was nach dem Transport nicht möglich war.
Die Studie in Manuskript B zeigt unterschiedliche durchschnittliche Zeitverläufe der Cortisolantworten im Speichel auf die Managementsituationen PRT und NOV. PRT könnte aufgrund des beobachteten cortisolsenkenden und damit potenziell stresspuffernden Effekts förderlich für das Wohlbefinden sein. NOV induzierte im Mittel eine moderate, kurzfristige Cortisolantwort. Dies deutet darauf hin, dass die Tiere geringem physiologischem Stress ausgesetzt waren, mit dem sie jedoch erfolgreich umgehen konnten. Außerdem bestand eine bemerkenswerte individuelle Variation in den Cortisolverläufen in derselben Situation. Die Unterschiede im Cortisolspiegel zwischen den Tieren hingen mit dem Alter (bei NOV) und dem Zoo (bei PRT) zusammen. Der Effekt des Geschlechts und des Haltungssystems auf den Cortisolspiegel war hingegen variabel. Die Ergebnisse der Studie zeigen, dass die individuelle Variation der Cortisolsekretion unbedingt berücksichtigt werden muss, um physiologischen Stress zuverlässig zu erkennen.
Die Studie in Manuskript C ergab, dass sich die untersuchten Tiere im Novel Object Test konsistent in ihrem Verhalten gegenüber einem neuartigen Objekt unterschieden. Dieses Ergebnis zeigt, dass der Novel Object Test auch bei Elefanten genutzt werden kann, um die Persönlichkeit der Tiere zu untersuchen...
Photorhabdus and Xenorhabdus bacteria live in a highly specific symbiosis with nematodes that belong to the genus of Heterorhabditis and Steinernema, respectively. These cruiser type nematodes actively search for soil-dwelling insects and infect them via natural openings. Inside of the insect, the bacteria are released into the hemocoel where they start producing an array of secondary metabolites to bypass the insect immune system and kill the prey within 48 hours. Many of those natural products possess bioactivities against other bacteria, fungi, protozoa or insects, which makes them interesting candidates for pharmaceutical applications. Even though advanced molecular biological methods in combination with bioinformatics tools can now be used to predict biosynthetic gene clusters (BGCs) and their products, there are still many BGCs with unknown products. Even for the plethora of natural products that were successfully identified in the last couple of years, the exact ecological function often remains elusive, as laboratory conditions can vary considerably from the natural environment of the bacteria. Knowledge about the natural conditions that stimulate, or repress production of certain natural products and their underlying regulatory mechanisms yield new approaches for natural product research and enables possibilities for selective manipulations of the regulatory cascades.
The overarching goal of this work was to examine the regulatory networks in Photorhabdus and Xenorhabdus strains. The first part of this work focused on the Hfq-dependent regulation of specialized metabolite production. In those genera, the RNA chaperone, Hfq, represses expression of hexA, which encodes for a global transcriptional regulator that acts as the master repressor for SM production. Multiple global approaches were used to identify the sRNA ArcZ, which targets a specific region in the 5’-untranslated region of the hexA mRNA and ultimately guides Hfq in order to repress its expression. It was shown that a deletion of arcZ led to a drastic reduction of SM production in Photorhabdus and Xenorhabdus, consistent with the phenotype of their respective hfq deletion mutants. Transcriptomic profiling revealed far-reaching effects on the transcriptome, with up to 735 coding sequences significantly affected in the arcZ deletion strain. Finally, it was shown that the resulting chemical background, devoid of SMs, in combination with targeted promotor exchange can be used to exclusively overproduce a desired natural product, representing an alternative route of genetic manipulation.
The second part of this work focused on the influence and identification of insect related compounds that affect SM production in P. laumondii, X. szentirmaii and X. nematophila. Insect homogenate was generated from G. mellonella larvae, a model host for these bacteria. Supplementation of the cultivation medium with homogenate induced considerable shifts in the SM profiles of those bacteria. A global effect on the transcriptional output was determined by transcriptomic profiling. The core response to the simulation of an insect environment consisted of ten CDS, eight of which are involved in the degradation of fatty acids or the import of maltose and maltodextrin into the cells. Two abundant components in the insect homogenate, trehalose and putrescin, were added to the cultivation medium of those strains and subsequent HPLC-MS analysis revealed a direct correlation of their concentration in the medium and the production titres of certain SMs. These results indicated that the bacteria sense the insect environment via different insect specific components in order to initiate a metabolic adjustment, which is probably required for adaptation to the insect host.
The last part of this work examined the influence of other, so far not directly related genes on SM production, based on the isolation of P. laumondii transposon-insertion mutants with clear phenotypic alterations. Re-sequencing and SM profiling of the mutant strains revealed that a transposon-insertion in the gene encoding for a putative DNA-adenine methyltransferase affected SM production. The phenotype was confirmed by deleting this gene. Based on Single-Molecule Real-Time sequencing, the complete methylome of the WT, deletion- and complementation mutant were analysed (experimental work performed by Sacha J. Pidot, Melbourne, Australia). No obvious alterations were detected in the methylation patterns of the strains, indicating that the dam gene product does not methylate the adenine in GATC-motifs, as it was described in literature for E. coli. This data raises the question what the function of the putative DNA-adenine methyltransferase is in P. laumondii and how it can influence the secondary metabolism. Even though there is currently no clear evidence, the potential role of epigenetic gene regulation mechanisms should be considered in further work.
Heat stress transcription factors (Hsfs) are required for transcriptional changes during heat stress (HS) thereby playing a crucial role in the heat stress response (HSR). The target genes of Hsfs include heat shock proteins (Hsps), other Hsfs and genes involved in protection of the cell from irreversible damages due to exposure to elevated temperatures. Among 27 Hsfs in Solanum lycopersicum, HsfA1a, HsfA2 and HsfB1 constitute a functional triad which regulates important aspects of the HSR. HsfA1a is constitutively expressed and described as the master regulator of stress response and thermotolerance. Activation of HsfA1a under elevated temperatures leads to the induction of HsfA2 and HsfB1 which further stimulate the transcription of HS-responsive genes by forming highly active complexes with HsfA1a. Despite the well-established role of these three Hsfs in tomato HSR, information about functional relevance of other Hsfs is currently missing.
The heat stress inducible HsfA7 belongs alongside with HsfA2 to a phylogenetically distinct clade. Thereby the two proteins share high homology and a functional redundancy has been assumed. However, HsfA7 function and contribution to stress responses have not been investigated into detail in any plant species.
Tomato HsfA7 protein accumulates already at moderately elevated temperatures (~35°C) while HsfA2 becomes dominant at higher temperatures (>40°C). HsfA7 pre-mRNA undergoes complex and temperature-dependent alternative splicing resulting in several transcripts that encode for three protein isoforms. HsfA7-I contains a functional nuclear export signal (NES) and shows nucleocytoplasmic shuttling while HsfA7-II and HsfA7-III have a truncated NES which leads to the strong nuclear retention of the protein. Differences in the nucleocytoplasmic equilibrium have a major impact on the stability of protein isoforms, as nuclear retention is associated with increased protein turnover. Consequently, HsfA7-I shows a higher stability and can be detected even after 24 hours of stress attenuation, while HsfA7-II is rapidly degraded. The degradation of these factors is mediated by the ubiquitin-proteasome pathway.
HsfA7 can physically interact with HsfA1a and HsfA3 and form co-activator (“superactivator”) complexes with a very high transcriptional activity as shown on different HS-inducible promoters. In order for the complex to be successfully transferred to the nucleus and confer its activity it needs a functional nuclear localization signal (NLS) of HsfA7. In contrast, the activator (AHA) motif of HsfA7 is not essential for its co-activator function. Interestingly, while interaction of HsfA7 with either HsfA3 or HsfA1a stabilizes HsfA7 isoforms, concomitantly this leads to an increased turnover of HsfA1a and HsfA3. In contrast, HsfA2 has a stabilizing effect on the master regulator HsfA1a.
Thus, HsfA7 knockout mutants generated by CRISPR/Cas9 gene editing, show increased HsfA1a levels and a stronger induction of HS-related genes at 35°C compared to wild-type plants and HsfA2 knockout mutants. Consequently, HsfA7 knockout seedlings exhibit increased thermotolerance as shown by the enhanced hypocotyl elongation under a prolonged mild stress treatment at 35°C. In summary, these results highlight the importance of HsfA7 in regulation of cellular responses at elevated temperatures. Under moderately elevated temperatures, the accumulation of HsfA7 and its subsequent interaction with HsfA1a, leads to increased turnover of the latter, thereby ensuring a milder transcriptional activation of temperature-responsive genes like Hsps. In turn, in response to further elevated temperatures, HsfA2 becomes the dominant stress-induced Hsf. HsfA2 forms co-activator complexes with HsfA1a which in contrast to HsfA7, allows the stabilization of the master regulator, leading to the stronger expression of HS-responsive genes required for survival. Thereby, this study uncovers a new regulatory mechanism, where the temperature-dependent competitive interaction of HsfA2 and HsfA7 with HsfA1a control the fate of the master regulator and consequently the activity of temperature-responsive networks.
Cancer is a disease characterized by uncontrolled cell growth and the capacity to disseminate to distant organs. The properties of cancers are caused by genetic and epigenetic alterations when compared to their normal counterparts. Genetic mutations occur in oncogenes and tumor suppressor genes and are the initial drivers of cellular transformation (Lengauer et al., 1998; Vogelstein and Kinzler, 2004). In addition, epigenetic alterations, which influence the expression of oncogenes and tumor suppressor genes independently from sequence alterations, are also involved in the transformation process (Esteller and Herman, 2001; Sharma et al., 2010). Genetic alterations and epigenetic regulatory signals cooperate in tumor etiology. Glioblastoma multiforme (GBM) is a frequent and aggressive malignant brain tumor in humans. The median survival of GBM patients is about 15 months after diagnosis. Like in other cancers, genetic and epigenetic alterations can be detected in GBM. Genetic alterations in GBM affect cell growth, apoptosis, angiogenesis, and invasion; however, epigenetic alterations in GBM also affect the expression of oncogenes or tumor suppresser genes that increase tumor malignancy (Nagarajan and Costello, 2009).
Reprogramming is a cellular process in which somatic cells can be induced to assume the properties of less differentiated stem cells. This process can be mediated through epigenetic modifications of the genome of somatic cells by the action of four defined transcription factors (Oct4, Sox2, Klf4 and Myc) or by the action of the miR 302/367 cluster (Anokye-Danso et al., 2011; Takahashi and Yamanaka, 2006; Takahashi et al., 2007) and result in the generation of induced pluripotent stem cells (iPS cells). Reprogramming of somatic cells by the miR 302/367 cluster can generate nontumorigenic iPS cells through the inhibition of the epithelial to mesenchymal transition (EMT), cell cycle regulatory genes and epigenetic modifiers (Lin and Ying, 2013).
Die vorliegende, publikationsbasierte Dissertation, bestehend aus den drei Einzelpublikationen Bayer (2011, 2012) und Bayer und Schönhofer (2012), verfolgte das Ziel, die Spinnenfamilie Psechridae zu revidieren. Weiterhin sollten die phylogenetische Position dieser Familie im System der höheren Webspinnen (Araneomorphae) sowie die phylogenetischen Beziehungen der einzelnen Arten innerhalb der beiden Gattungen der Psechridae untersucht werden. In Form von morphologisch-taxonomischen Bearbeitungen wurden die beiden die Psechridae bildenden Gattungen Psechrus und Fecenia revidiert, wobei sämtliches Typus-Material sowie reichhaltiges, weiteres Material eingehend beschrieben, illustriert und diagnostiziert wurde. Hierbei wurden auch intraspezifische Variabilität sowie die Prä-Epigynen subadulter Weibchen, die in taxonomischen Arbeiten bislang nur eine unwesentliche Rolle gespielt haben, beschrieben, illustriert und taxonomisch ausgewertet. Zudem wurden im Rahmen dieser Untersuchungen bereits Überlegungen über mögliche Verwandtschaftsbeziehungen innerhalb der beiden Gattungen angestellt. ...
Angiogenesis, the formation of new blood vessels from existing ones, is a fundamental biological process required for embryonic development; it also plays an important role during postnatal organ development and various physiological and pathological remodeling processes in the adult organism. Vascular endothelial growth factor (VEGF) and its main receptor, VEGF receptor-2 (VEGFR-2), play a central role in angiogenesis. VEGFR-2 expression is strongly upregulated in angiogenic vessels, but the mechanisms regulating VEGFR-2 expression are not well understood. We found in this study that the G-protein α subunit Gα13 plays an important role in the regulation of VEGFR-2 expression. In vitro, we found that knockdown of Gα13 reduced VEGFR-2 expression in human umbilical vein endothelial cells and impaired responsiveness to VEGF-A. This phenotype was rescued by adenoviral normalization of VEGFR-2 expression. Gα13-dependent VEGFR-2 expression involved activation of the small GTPase RhoA and transcription factor NF-κB; it was abrogated by deletion of the NF-κB binding site at position -84 of the VEGFR-2 promoter. In vivo, endothelial cell-specific loss of Gα13 resulted in reduced VEGFR-2 expression, impaired responsiveness towards VEGF-A in Matrigel assays, and reduced retinal angiogenesis. Importantly, also tumor vascularization was diminished in the absence of endothelial Gα13, resulting in reduced tumor growth. Taken together, we identified Gα13-dependent NF-κB activation as a new pathway underlying the transcriptional regulation of VEGFR-2 during retinal and tumor angiogenesis.
Autism spectrum disorder (ASD) is a common neurodevelopmental disorder with a multifarious clinical presentation. Even though many genetic risk factors have been identified and studied in mouse models, the neurophysiological mechanisms underlying the autistic phenotype are still unclear. Based on the high rates of comorbidity with epilepsy, it was hypothesized that the balance between excitation and inhibition in neural circuits may be disrupted in autistic individuals.
In this dissertation, synaptic and network activity was measured in three different genetically modified mouse models that exhibit the characteristic behavioral abnormalities of the disorder: the Neurobeachin (Nbea) haploinsufficient mouse, the Neuroligin-3 (Nlgn3) knockout (KO) mouse, and the Neuroligin-4 (Nlgn4) KO mouse. Each of the affected proteins is involved in the formation and/or function of synapses in the central nervous system. Therefore, it was posited that the reduction or deletion of these proteins might alter the balance of excitatory to inhibitory synaptic transmission in individual neurons and in neural circuits. Extracellular recordings in the hippocampal dentate gyrus of anesthetized mice revealed that the excitation-inhibition (E-I) balance was reduced in Nbea haploinsufficient and Nlgn4 KO mice, but unchanged in Nlgn3 KO mice despite a reduction in excitatory synaptic transmission to dentate granule cells. Unexpectedly, the intrinsic excitability of dentate granule cells was altered in all three mouse models. These results imply that a homeostatic increase in the intrinsic excitability is able to compensate for the decreased excitatory transmission in Nlgn3 KO mice, whereas the decreased intrinsic excitability in the Nbea haploinsufficient and Nlgn4 KO mice leads to a reduction in the E-I balance. Taken together, these findings suggest that the influence of genetic factors on the E-I balance might be a potential common mechanism underlying the development of ASD.
In der vorliegenden dreiteiligen Studie werden Mongolische Wüstenrennmäuse untersucht, deren Hörspektren im tieffrequenten Bereich und deren Unterscheidungsfähigkeiten von Kommunikationsrufen denen des Menschen ähneln. Die extrazelluläre Aktivität im primären auditorischen Kortex (AI) der narkotisierten Versuchstiere, evoziert durch Reintöne und arteigene Kommunikationsrufe, wird in der linken (LH) und rechten Gehirnhemisphäre (RH) aufgenommen. Es werden Multikanalelektroden (16 Eingangskanäle) verwendet, welche eine simultane Aufnahme der neuronalen Aktivitäten aller kortikalen Schichten ermöglichen. Zur Analyse der neuronalen Mechanismen werden Wellenformen einzelner Elektrodenkanäle und Aktivitätsprofile, bestehend aus den Wellenformen aller Elektrodenkanäle in einem Zeitfenster von 600 ms, auf Ebene von Aktionspotentialen (MUA), lokalen Feldpotentialen (LFP) und Current-source-density (CSD) Analysen, untersucht. Während MUAs die neuronalen Aktionspotentiale im Nahfeld der Elektrode reflektieren, umfassen die LFPs die summierten Potentiale (inhibitorisch und exzitatorisch) von Neuronen eines größeren Areals. Die CSDs hingegen werden durch die Integration von LFP-Wellenformen benachbarter, linear angeordneter Elektrodenkanäle berechnet und ermöglichen so eine Lokalisation der Ursprünge geräuschspezifischer Aktivitätsflüsse.
Im ersten Teilprojekt werden CSD-Profile in Antwort auf unterschiedliche Reintöne untersucht, um die Aktivitätskomponenten, die so genannten Sinks, für weiterführende Analysen zu quantifizieren. Es können zwei primäre (s1 und s2), drei mittlere (s3-s5) und vier späte (s6-s9) Sinks in einem Zeitfenster von 600 ms definiert werden. Eine Veränderung der Stimulusfrequenz eine Oktave über und unter der charakteristischen Frequenz (CF), beziehungsweise des Lautstärkepegels = 24 dB über der minimalen Schwelle, führt zu qualitativen Veränderungen in der CSD-Profilstruktur. Die Sink s7 wird durch Stimuli mit niedrigem Lautstärkepegel weniger verlässlich evoziert, wohingegen die Sink s9 bei Stimuli eine Oktave über der CF verlässlicher evoziert wird. Die Ergebnisse weisen darauf hin, dass im AI die spektralen Informationen eine Oktave über und unter der CF asymmetrisch integriert werden.
Auf Einzelschichtebene konnte bereits gezeigt werden, dass spektrotemporale Eigenschaften von Stimuli durch MUAs schlechter reflektiert wurden als durch LFPs, was vermutlich eine direkte Konsequenz der unterschiedlichen Ursprünge der Signaltypen ist. Daher werden im zweiten Teilprojekt die spezifischen Unterschiede der MUA-, LFP- und CSD-Antworten auf Ebene kortikaler Schichten und kompletter laminarer Profile untersucht, um die Unterschiede und den Informationsgehalt der drei Signaltypen zu charakterisieren. Signifikante Unterschiede, welche durch zwei Reintöne und sieben Kommunikationssignale evoziert werden, können verstärkt im mittleren und späten Latenzbereich und in granulären und infragranulären Schichten vorgefunden werden. Der Grad der Rufspezifizität ist in LFP und CSD-Antworten im Vergleich zu demjenigen in MUA-Antworten größer. Die Segregationsleistung ist im Vergleich zu einzelnen kortikalen Schichten in den von kortikalen Kolumnen abgeleiteten laminaren Profilen um den Faktor 1,8-2,6 erhöht. Die Neuronenpopulationen einzelner kortikaler Kolumnen sind vermutlich wichtig für die Kodierung von Geräuschen, welche sich in ihren spektrotemporalen Eigenschaften unterscheiden.
Viele vorangegangene Studien konnten zeigen, dass die Gehirnhemisphären akustische Signale asymmetrisch verarbeiten. Daher werden im dritten Hauptteil die laminaren Profile der LH und RH quantitativ und statistisch verglichen. Die MUA-, CSD-Profile und im geringeren Maße auch die LFP-Profile zeigen systematische Unterschiede auf signifikantem Niveau in der Dauer, Onset Latenz und vertikalen Ausdehnung bestimmter Aktivitäten. Kommunikationsrufe evozieren in der LH, welche beim Menschen auf Sprachstimuli spezialisiert ist, im Vergleich zur RH komplexere CSD-Profile. Die neuronale MUA-, LFP- und CSD-Aktivitätsstärke ist in der RH für weniger komplexe Stimuli teilweise signifikant erhöht. Die Asymmetrie in der Auftrittsverlässlichkeit der Sink s6 lässt vermuten, dass sich die intrakolumnäre Vernetzung in Schicht VIa zwischen der LH und RH unterscheidet. Die wenigen, signifikanten und nicht systematischen Unterschiede zwischen den Sink-Parametern der LH und RH nach kortikaler Ausschaltung mit dem GABAA-Rezeptor Agonist Muscimol weisen darauf hin, dass die Hemisphärenasymmetrie durch Prozesse des ipsilateralen Kortex maßgeblich beeinflusst wird.
Die Neurowissenschaften sind in Forschungsarbeiten für Schüler und Studierende immer wieder als eines der schwierigsten Teilgebiete der Biologie angeführt. Die Inhalte werden überwiegend nicht verstanden. Als mögliche Ursache gelten die seltenen praktischen Zugänge für die Lernenden aufgrund limitierter Ressourcen. Diese Ursache konnte in der vorliegenden Arbeit durch eine Befragung der Lehrkräfte zu ihren Praxisumsetzungen bestätigt werden. 70 % der Lehrkräfte gaben an, dass sie keine Experimente in der Schule zum Thema Nervenzellen anbieten. Experimente zur Verhaltensbiologie führen 65 % der Lehrkräfte nicht durch.
Um Schülern die Möglichkeit zu geben, sich experimentell mit den Themenfeldern der Neuro- und Verhaltensbiologie auseinanderzusetzen, wurden im Rahmen der vorliegenden Arbeit Schülerlabortage auf dem Feld der Neurowissenschaften konzipiert. Die Konzepte wurden schülerorientiert umgesetzt und neurowissenschaftliche Forschung durch den eigenen Umgang mit modernen Forschungsapparaturen erfahrbar gemacht. Die drei Labortage für die Sekundarstufe II wurden wissenschaftlich begleitet: 1) Verhaltensbiologie, 2) systemische Ebene der Elektrophysiologie, 3) elektrophysiologische Forschungsmethoden. Um die Qualität und Wirksamkeit der Labortage beurteilen zu können, wurden sie mit Feedbackerhebungen begleitet. Die drei Labortage wurden sowohl von den Lehrkräften als auch von den Schülern bezüglich ihrer Qualität positiv bewertet. Für die Schüler konnte gezeigt werden, dass die Beurteilung weitgehend unabhängig von einem zugrunde liegenden Interesse an Biologie und Forschung ausfällt. Anhand einer retrospektiven Erhebung wird außerdem gezeigt, dass alle drei Labortage eine höchst signifikante, selbsteingeschätzte Steigerung des „Wissens“, der „Anwendungszuversicht“ und des „Interesses“ bewirken. Schüler mit niedrigen Ausgangswerten zeigen einen besonders hohen Anstieg. Für das Interesse kann weiter gezeigt werden, dass auch Schüler mit hohem Ausgangswert eine große Interessenssteigerung durch den Labortag aufweisen. Das Interesse für den verhaltensbiologischen Labortag liegt etwas niedriger – die Labortage mit elektrophysiologischen Inhalten zeigen dagegen für die Anwendungszuversicht etwas niedrigere Werte.
Der Fokus der fachdidaktischen Forschung lag auf der Betrachtung des experimentellen Zugangs zur Elektrophysiologie über ein entwickeltes „EPhys-Setup“. Dabei handelt es sich um einen quasi-realen Messaufbau. Die Umsetzung kombiniert dazu Komponenten eines realen Elektrophysiologie-Setups (Hands-on Komponenten) mit einer speziell entwickelten schülerfreundlichen Software (Neurosimulation) und einem virtuellen Nervensystem in Form einer Platine. Als Modellnervensystem werden für diese Umsetzung Ganglien von Hirudo medicinalis verwendet – der Neurosimulation liegen originale elektrophysiologische Messspuren des Ganglions zugrunde. Experimentelle Vermittlungsansätze für die Elektrophysiologie finden sich kaum für den Schulbereich. Dem Bedarf einer entsprechenden Beforschung wurde mit verschiedenen Testinstrumenten nachgegangen, um den Vermittlungsansatz mit dem EPhys-Setup bewerten zu können. Dafür fand eine Wirksamkeitsanalyse über die Erhebung der Motivation der Schüler statt (Lab Motivation Scale; Dohn et al. 2016). Von Bedeutung war auch, inwiefern gegenüber der Umsetzung eine Technologieakzeptanz vorliegt (Technology Acceptance Model; Davis 1989), die im Schulkontext ausgehend von der steigenden Einbindung von Technologien einen entsprechenden Forschungsbedarf aufweist. Weiter wurde untersucht, ob sich die Bewertung des EPhys-Setups von der Bewertung einer Kontrollgruppe unterscheidet. Für die Kontrollgruppe wurde die Neurosimulation von den Hands-on Komponenten gelöst und die Schüler arbeiteten ausschließlich PC-basiert. Die Ergebnisse zeigen, dass beide Umsetzungen die Motivation förderten und eine Technologieakzeptanz bei den Schülern aufwiesen. Der Unterschied der Untersuchungsgruppen fällt gering aus. Die Abhängigkeiten, die für die verwendete Simulationsumsetzung gefunden wurden, beziehen sich ausschließlich auf Komponenten der „Freude“. Somit wird der intrinsische Bereich von den Schülern die am EPhys-Setup gearbeitet haben höher bewertet. Zur weiteren Analyse der Testinstrumente wurde auch eine Abhängigkeit der Bewertung vom zugrunde liegenden Biologieinteresse sowie von den Computerfähigkeiten vergleichend betrachtet. Der Einfluss auf die Bewertungen der drei Testskalen ist in vielen Fällen höher als der Einfluss der verwendeten Simulation. Vom individuellen Biologieinteresse der Schüler zeigen alle untersuchten Komponenten eine Abhängigkeit. Die größeren Effekte beziehen sich auf die Komponenten der „Lernwirksamkeit“ oder der „Freude“. Von den individuellen Computerfähigkeiten der Schüler zeigen Komponenten zur „Zuversicht bezüglich der Methoden und der Inhalte“ eine Abhängigkeit.