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Spinocerebellar ataxia type 2 (SCA2) is an autosomal dominant neurodegenerative movement disorder caused by expansion of CAG repeats in the ATXN2 gene beyond 33 units, while healthy individuals carry 22-23 repeats. First symptoms of SCA2 include uncoordinated movement, ataxic gait and slowing of the saccadic eye movements in line with the early pronounced atrophy of cerebellum, spinal cord and brainstem. Cerebellar Purkinje cells and spinal cord motor neurons are the most affected cells from ATXN2 expansions. Later on, patients manifest distal amyotrophy, problems in breathing and swallowing, depression and cognitive decline caused by widespread degeneration throughout the brain. The striking loss of mass in the brain, due to severe myelin fat atrophy, is accompanied by a similar reduction in the peripheral fat stores. After the devastating progression of disease, the severity and duration of which depends on the CAG repeat size, genetic background and environmental factors, patients succumb to SCA2 mostly because of respiratory failure at the terminal stage. Larger repeat sizes lead to an earlier manifestation of the disease and a more rapid progression. Aside from SCA2, intermediate-length and short pathogenic CAG expansions in ATXN2 between 26-39 repeats significantly increase the risk of developing other neurodegenerative disorders, such as amyotrophic lateral sclerosis (ALS), fronto-temporal lobar dementia (FTLD) or Parkinson plus tauopathies like progressive supranuclear palsy (PSP) in various cohorts across the world.
Ataxin-2 (ATXN2) is a ubiquitously expressed cytosolic protein most famous for its involvement in neurodegenerative disease caused by the expanded poly-glutamine (polyQ) domain corresponding to a genomic (CAG)n tract. This N-terminal polyQ domain has no known function, other than increasing the aggregation propensity of mutant ATXN2 and facilitating interaction with other polyQ containing proteins, leading to their sequestration. The progressive accumulation of ATXN2 into cytosolic foci, and also that of its interaction partners over time, underlies the molecular pathomechanism. Next to polyQ domain, ATXN2 also contains a Like-Sm domain (Lsm), an Lsm-associated domain (LsmAD), multiple proline-rich domains (PRD) and a Poly(A)-Binding-Protein (PABP)-interacting motif (PAM2).
Through its Lsm/LsmAD domains, ATXN2 directly binds to a large number of transcripts, regulating their quality and translation rate. In a similar fashion, through its direct interaction with PABP via PAM2 motif, ATXN2 indirectly modifies the fate of even larger number of transcripts and global translation. Several PRDs scattered across the protein help ATXN2 associate with growth factor receptors and other endocytosis factors, modulating nutrient uptake and downstream signaling.
ATXN2 is a stress response factor. Therefore, its involvement in nutrient uptake plays a crucial part in cell’s capability to overcome non-permissive conditions. Upon nutrient deprivation, oxidative stress, proteotoxicity, heat stress or Ca2+ imbalance, ATXN2 relocalizes into cytosolic ribonucleoprotein particles known as stress granules (SGs), together with PABP, several eukaryotic translation initiation factors, many other RNA-binding proteins (RBP) with their target transcripts and the small ribosomal subunit. Collectively, they modulate the stability of the trapped transcripts, favoring the maturation and translation of IRES-dependent stress response proteins instead, according to the specific need. Many RBPs interact either directly or in an RNA-dependent manner in the SGs, and due to the large number of ALS-causing mutations identified in them (such as TDP-43, FUS, TIA-1, hnRNPA2/B1), SGs became a hot topic in neuropathology. Acute SGs serve to halt translation and growth, and to spend energy only for survival until stress disappears. However, chronic SG assembly eventually activates apoptotis leading to cell death. While the polyQ expansions in ATXN2 enhance SG stability, reduce their dissociation rate after stress, and lead to aberrant post-translational modifications of other SG components like TDP-43, complete loss of ATXN2 delays SG formation and results in easily dissolvable foci.
Most of the stressors that induce SG formation eventually converge on energetic deficit. Therefore, it is logical that the ultimate task of SGs is to stop further growth when it cannot be afforded. In yeast, the molecular mechanism underlying this growth arrest was explained as sequestration of the master growth regulator complex, Target-of-Rapamycin Complex 1 (TORC1), into SGs in an ATXN2-dependent manner. The repressor effect of ATXN2 on mammalian TORC1 (mTORC1) and global protein translation had already been documented in earlier studies; complete loss of ATXN2 function in knock-out mouse (Atxn2-KO) resulted in mTORC1 hyperactivity and transcriptional upregulation of multiple ribosomal subunits indicating an increased need for these machines. ...
Evidence is increasingly pointing towards a significant global decline in biodiversity. The drivers of this decline are numerous, including habitat change and overexploitation, rapid deforestation, pollution, exotic species and disease, and finally climate change as an emerging driver of biodiversity change (Nakamura, et al., 2013; Hancocks, 2001; Pereira, Navarro & Martins, 2012). Raising public awareness of the need to conserve biological diversity is essential to safeguard the richness of life forms all over the world (Lindemann-Matthies, 2002). In this regard, institutions such as science museums, zoos and aquariums have the potential to play an important role (Rennie & Stocklmayer, 2003). Especially, zoos can provide a productive learning environment (Miles & Tout, 1992), facilitating the promotion of public conservation awareness and the adoption of pro-environmental behaviours that would reduce negative human impacts on biodiversity (Barongi, et al., 2015).
Based on these concepts, my study contributes to the developing field of visitor studies. Taking as reference non-zoo visitors and zoo visitors, I have focused on reviewing some aspects of conservation education, such as people's awareness of conservation, people's interest in animals and people's feelings towards animals and attitudes towards zoos. The study identified differences between non-regular and regular zoo visitors in interests in animals, as well as visitor attitudes towards conservation issues and zoos. Therefore, the present study indicated that positive emotional reactions and, in particular, a perceived sense of connection to the animal were linked and depended on the frequency of zoo visits. It was as well remarkable, that conservation awareness was influenced by the interest in animals, the interest in visiting zoos, the attitudes towards these institutions, and the age and the country of origin. All these variables had a greater effect in the conservation consciousness of the participants. Additionally interestingly, the main reason for visiting zoos in every country was to learn something about animals. This highlights the educational role of zoos and broadly supports the idea that people want to visit zoos to learn something about animals, in turn facilitating pro-conservation learning and changes in attitude. They are uniquely positioned to interact with visitors, communities, and society and to contribute by providing an informative and entertaining environment. Visiting zoos could led to contribute to promoting animal connectedness and interest in species.
The application of natural products (NPs) as drugs and lead compounds has greatly improved human health over the past few decades. Despite their success, we still need to find new NPs that can be used as drugs to combat increasing drug resistance via new modes of action and to develop safer treatments with less side effects.
Entomopathogenic bacteria of Xenorhabdus and Photorhabdus that live in mutualistic symbiosis with nematodes are considered as promising producers of NPs, since more than 6.5% of their genomes are assigned to biosynthetic gene clusters (BGCs) responsible for production of secondary metabolites. The investigation on NPs from Xenorhabdus and Photorhabdus can not only provide new compounds for drug discovery but also help to understand the biochemical basis involved in mutualistic and pathogenic symbiosis of bacteria, nematode host and insect prey.
Nonribosomal peptides (NRPs) are a large class of NPs that are mainly found in bacteria and fungi. They are biosynthesized by nonribosomal peptide synthetases (NRPSs) and display diverse functions, representing more than 20 clinically used drugs. Although a large number of NRPs have been identified in Xenorhabdus and Photorhabdus, the advanced genome sequencing and bioinformatic analysis indicate that these bacteria still have many unknown NRPS-encoding gene clusters for NRP production that are worth to explore. Therefore, this thesis focuses on the discovery, biosynthesis, structure identification, and biological functions of new NRPs from Xenorhabdus and Photorhabdus.
The first publication describes the isolation and structure elucidation of seven new rhabdopeptide/xenortide-like peptides (RXPs) from X. innexi, incorporating putrescine or ammonia as the C-terminal amines. Bioactivity testing of these RXPs revealed potent antiprotozoal activity against the causative agents of sleeping sickness (Trypanosoma brucei rhodesiense) and malaria (Plasmodium falciparum), making them the most active RXP derivatives known to date. Biosynthetically, the initial NRPS module InxA might act iteratively with a flexible methyltransferase activity to catalyze the incorporation of the first five or six N-methylvaline/valine to these peptides.
The second publication focuses on the structure elucidation of seven unusual methionine-containing RXPs that were found as minor products in E. coli carrying the BGC kj12ABC from Xenorhabdus KJ12.1. To confirm the proposed structures from detailed HPLC-MS analysis, a solid-phase peptide synthesis (SPPS) method was developed for the synthesis of these partially methylated RXPs. These RXPs also exhibited good effects against T. brucei rhodesiense and P. falciparum, suggesting RXPs might play a role in protecting insect cadaver from soil-living protozoa to support the symbiosis with nematodes.
The third publication presents the identification of a new peptide library, named photohexapeptide library, which occurred after the biosynthetic gene phpS was activated in P. asymbiotica PB68.1 via promoter exchange. The chemical diversity of the photohexapeptides results from unusual promiscuous specificity of five out of six adenylation (A) domains being an excellent example of how to create compound libraries in nature. Furthermore, photohexapeptides enrich the family of the rare linear D-/L-peptide NPs.
The fourth publication concentrates on the structure elucidation of a new cyclohexapeptide, termed photoditritide, which was produced by P. temperata Meg1 after the biosynthetic gene pdtS was activated via promoter exchange. Photoditritide so far is the only example of a peptide from entomopathogenic bacteria that contains the uncommon amino acid homoarginine. The potent antimicrobial activity of photoditritide against Micrococcus luteus implies that photoditritide can protect the insect cadaver from food competitor bacteria in the complex life cycle of nematode and bacteria.
The last publication reports a new family of cyclic lipopeptides (CLPs), named phototemtides, which were obtained after the BGC pttABC from P. temperata Meg1 was heterologously expressed in E. coli. The gene pttA encodes an MbtH protein that was required for the biosynthesis of phototemtides in E. coli. To determine the absolute configurations of the hydroxy fatty acids, a total synthesis of the major compound phototemtide A was performed. Although the antimalarial activity of phototemtide A is only weak, it might be a starting point towards a selective P. falciparum compound, as it shows no activity against any other tested organisms.
The genus Giraffa likely evolved around seven million years ago in Indo-Asia and spread over the Arabian-African land bridge into Eastern Africa. The oldest fossil of the African lineage was found in Kenya and dated to 7-5.4 Mya. Beside modern giraffe, four additional African species have likely existed (G. gracilis, G. pygmaea, G. stillei, and G. jumae). Based on their morphological similarities, G. gracilis is often considered to be the closest relative of the modern giraffe. Nevertheless, the phylogeny within the genus Giraffa is largely unresolved.
Modern giraffe (Giraffa sp.) have been neglected by the scientific community for a long time and still very little is known about their biology. Traditionally, present-day giraffe have been considered a single species (G. camelopardalis) which is divided into six to eleven subspecies, with nine subspecies being the most accepted classification. This classification was based on morphological differences and geographic ranges. However, recent genetic analyses found hidden diversity within Giraffa and proposed four genetically distinct giraffe species (G. camelopardalis, G. reticulata, G. tippelskirchi, G. giraffa) with presumably little gene flow among them.
Gene flow on a population level is the exchange of genetic information among populations facilitated by the migration of individuals between populations. Additionally, it is an important criterion to delineate species, because many species concepts, especially the Biological Species Concept, rely on the concept of reproductive isolation. Yet, new genetic methods are identifying an increasing number of species that show signs of introgressive hybridization or gene flow among them. Therefore, strict reproductive isolation cannot always be applied to delineate species, especially in young, probably still diverging, species such as giraffe.
Therefore, giraffe are ideal study organisms to investigate the level of gene flow in recently diverged species with adjacent or potentially overlapping ranges. Furthermore, their recent classification as “Vulnerable” by the IUCN and their unreliable distribution maps require the genetic evaluation of their population structure, distribution and conservation status.
In Publication 1 (Winter et al. (2018a), Ecological Genetics and Genomics, 7–8, 1–5), I studied the distribution and matrilineal population structure of Angolan giraffe (G. giraffa angolensis) using sequences from the cytochrome b gene (1,140 bp) and the mitochondrial control region for individuals from across their known range and beyond, and additionally including individuals from all known giraffe species and subspecies. The reconstruction of a phylogenetic tree and a mitochondrial haplotype network allowed to identify the most easterly known natural population of Angolan giraffe, a population that was previously assigned to their sister-subspecies South African giraffe (G. giraffa giraffa), indicating the limit of classification by morphology and geography. Furthermore, the analyses show that Namibia’s iconic desert-dwelling giraffe population is genetically distinct, even from the nearest population at Etosha National Park, suggesting very limited, if any, natural exchange of matrilines. Yet, no geographic barriers are known for this region that would prevent genetic exchange. Therefore, the two populations are likely on different evolutionary trajectories. Limited individuals with an Etosha haplotype further suggest that translocation of Etosha giraffe into the desert population had only a minor impact on the local population. Two separate haplogroups within Etosha National Park suggest an “out of Etosha” radiation of Angolan giraffe to the East followed by a later back-migration.
In Publication 2 (Winter et al. (2018b), Ecology and Evolution, 8(20), 10156–10165), I investigated the genetic population structure of giraffe across their range (n = 137) with focus on the amount of gene flow among the proposed giraffe species with a 3-fold increased set of nuclear introns (n = 21). Limited gene flow of less than one effective migrant per generation, even between the closely related northern (G. camelopardalis) and reticulated giraffe (G. reticulata) further supports the existence of four giraffe species by a different methodology, gene flow. This is significant because most species concepts build on reproductive isolation. Furthermore, this result is corroborated by four distinct major clades in a phylogenetic tree analysis, and distinct clusters in Principal Component Analysis and STRUCTURE analysis. All these analyses suggest a low level of genetic exchange among the four giraffe species and, therefore, a high degree of reproductive isolation in accordance with the Biological Species Concept (BSC). In Addition, only a single individual in 137 was identified as being potential of natural hybrid origin, which promotes the four-species concept further. ...
The compound class of the fabclavines was described as secondary or specialized metabolites (SM) for Xenorhabdus budapestensis and X. szentirmaii. Their corresponding structure was elucidated by NMR and further derivatives could be identified in both strains. Biochemically, fabclavines are hybrid SMs derived from two non-ribosomal-peptide-synthetases (NRPS), one type I polyketide-synthase (PKS) and polyunsaturated fatty acid (PUFA) synthases. In detail, a hexapeptide is connected via partially reduced polyketide units to an unsual polyamine. Structurally, they are related to the (pre-)zeamines, described for Serratia plymuthica and Dickeya zeae. Fabclavines exhibit a broad-spectrum bioactivity against a variety of different organisms like Grampositive and Gram-negative bacteria, fungi, protozoa but also against eukaryotic celllines.
In this work, the fabclavine biosynthesis was elucidated and assigned to two independently working assembly lines. The NRPS-PKS-pathway is initiated by the first NRPS FclI via generation of a tetrapeptide, which is elongated by the second NRPS FclJ, leading to a hexapeptide. Alternatively, FclJ can also act as direct start of the biosynthesis, resulting in the final formation of shortened fabclavine derivatives with a diinstead of a hexapeptide. In both cases, the peptide moiety is transferred to the iterative type I PKS FclK, leading to an elongation with partially reduced polyketide units. The resulting NRPS-PKS-intermediate is still enzyme-bound. The PUFA-homologues FclC, FclD and FclE in combination with FclF, FclG and FclH belong to the polyamine-forming pathway. Briefly, repeating decarboxylative Claisen thioester condensation reactions of acyl-coenzym A building blocks lead to the generation of an acyl chain in a PKS- or fatty acid biosynthesis-like manner. The corresponding β-keto-groups are either completely reduced or transaminated in a specific and repetitive way, resulting in the concatenation of so-called amine-units. The final β-keto-group is reduced to a hydroxy-group and the intermediate is reductively released by the thioester reductase FclG. A subsequent transamination step leads to the final polyamine. The NRPS-PKS- as well as the polyamine-pathway are connected by FclL. This condensation domain-like protein catalyzes the condensation of the polyamine with the NRPS-PKS-part, which results in the release of the final fabclavine. The results are described in detail in the first publication (first author).
Fabclavine biosynthesis gene cluster (BGC) are widely spread among the genus Xenorhabdus and Photorhabdus. In Xenorhabdus strains a high degree of conservation regarding the BGC synteny as well as the identity of single proteins can be observed. However, Photorhabdus strains harbor only the PUFA-homologues. While in Photorhabdus no product could be detected, our analysis revealed that the Xenorhabdus strains produce a large chemical diversity of different derivatives. Briefly, the general backbone of the fabclavines is conserved and only four chemical moieties are variable: The second and last amino acids of the NRPS-part, the number of incorporated polyketide units as well as the number of amine units in the polyamine. In combination with the elucidated biosynthesis, these variables could be assigned to single biosynthesis components as diversity mechanisms. Together with the 10 already described derivatives, a total of 32 derivatives could be detected. Interestingly, except for taxonomic closely related strains, all analyzed strains produce their own set of derivatives. Finally, we could confirm that the fabclavines are the major bioactive compound class in the analyzed strains under laboratory conditions. The results are described in detail in the second publication (first author).
Together with our collaboration partner Prof. Selcuk Hazir a potent bioactivity against Enterococcus faecalis, which is associated with endodontic infections, could be contributed to X. cabanillasii. Here, we could confirm that this bioactivity can be assigned to the fabclavines. The results are described in detail in the third publication(co-author).
Among the genus Xenorhabdus, X. bovienii represents an exception as its NRPS and PKS genes of the fabclavine BGC are missing or truncated, resulting in the exclusive production of polyamines. Furthermore, its PUFA-homologue FclC harbors an additional dehydratase (DH) domain. Upon extensive analysis a yet unknown deoxy-polyamine was identified and assigned to this additional domain. Finally, the DH domain was transferred into other polyamine pathways. Regardless of an in cis or in trans integration, the chimeric pathways produced deoxy-derivatives of its naturally occurring polyamines, suggesting that this represents another diversification mechanism. The results are described in detail in the attached manuscript (first author).
Synaptic plasticity is the activity dependent alteration of the composition, form and strength of synapses and believed to be the underlying mechanism of learning and memory formation. While initial changes in synaptic transmission are caused by second messenger signaling pathways and rapid modifications in the cytoskeleton, to achieve stable and persistent changes at individual synapses, the expression of new mRNAs and proteins is required. The central dogma postulated that the cell body is the only source of newly synthesized proteins. For neurons, with their unique morphology, this meant that proteins would need be transported long distances, often hundreds of microns, to reach their destined locations in dendrites and at spines. To overcome this limitation, neurons have developed a strategy to regulate protein synthesis locally by distributing thousands of mRNAs into neuronal processes and use them for local protein synthesis. Ample research has demonstrated the importance of local protein synthesis to many forms of long-term synaptic plasticity. One potential regulator of mRNA localization and local translation in neurons are non-coding RNAs. Intensive work over the past decades has highlighted the importance of non-coding RNAs in many aspects of brain function. The aim of this thesis is to obtain a better understanding of the role of non-coding RNAs in synaptic function and plasticity in the murine hippocampus. For this, we focused our studies on two classes of non-coding RNAs.
In the first part of my thesis, I describe our efforts on characterizing circular RNAs, a novel and peculiar family of non-coding RNAs, in the murine hippocampus by combining high throughput RNA-Sequencing with fluorescence in situ hybridization. Furthermore, we investigated the mechanisms of circular RNA biogenesis in hippocampal neurons by temporarily inhibiting spliceosome activity and analyzing the differentially regulated circular RNAs.
Xenorhabdus and Photorhabdus are bacterial genera that live in symbiosis with entomopathogenic nematodes of the genera Steinernema and Heterorhabditis, respectively. These nematodes infect insect larvae through the trachea and then enter the hemocoel. Once inside the hemocoel, the nematodes release the bacteria through their intestine. Thereafter, the bacteria become active and kill the larvae within 48 h. During this process, the immune system of the insect host is compromised by molecules produced and secreted by the bacteria. This illustrates that the bacteria possess not only a large arsenal of biological weaponry such as antibiotics and fungicides but also lipases, proteases, etc. Therefore, they are not only able to kill the insect but also protect the cadaver from other food competitors.
During the past decades, a large number of natural products have been identified from Xenorhabdus and Photorhabdus. However, the targets and functions for many of these biological molecules are still unknown. Therefore, the goal of the doctoral thesis is to elucidate the modes of action of these natural products from Xenorhabdus and Photorhabdus with the main focus on non-ribosomal peptides (NRPs). The work can be divided into two parts. Initially, it starts with the synthesis of natural compounds and various chemically modified derivatives. Besides that, a number of peptides were synthesized for other projects to either verify their structures or quantify the amount produced by the bacteria. Then, secondary analysis methods are applied and provide additional insight into the modes of action of these compounds.
During the thesis, I carried out peptide synthesis either manually or with an automatic synthesizer system from Biotage. Here, the Fmoc-protecting group strategy was preferred in most cases. Natural products, such as silathride, xenoautoxin, phenylethylamide, tryptamide, rhabdopeptide, 3-hydroxyoctanoic acid, and PAX, were produced during this process. Furthermore, new peptide derivatives derived from synthetic NRPS approaches using the XU concept or SYNZIP were generated as standards.
Most of these natural compounds were experimentally verified by MIC tests (broth microdilution, plate diffusion) to be biologically active. For example, silathride, phenylethylamide, and tryptamide showed quorum quenching effects when tested against Chromobacterium violaceum. Initial results from collaborators (PD Dr. Nadja Hellmann/Mainz) showed that tryptamide and phenylethylamide interact with membrane or membrane proteins.
(R)-3-hydroxyoctanoic acid was synthesized to verify the molecule structure of phototemtide A, a cyclic lipopeptide with antiprotozoal activity. The rhabdopeptides are another class, which showed remarkable antiprotozoal effects. However, their mode of action was unknown. These compounds are relatively short peptide sequences, which contain hydrophobic residues, such as valine, leucine, or phenylalanine. Moreover, they possess N methylation, resulting in a rod-shaped highly hydrophobic structure. In this work, I synthesized eight new derivatives of rhabdopeptides for photo-affinity labeling (PAL). These molecules should react covalently under UV-light irradiation with the biological target of the peptides. In addition, these derivatives can be enriched in a pull-down assay using click chemistry. Afterward, analytic methods such as mass detection (proteome analysis) can be applied to elucidate the protein targets.
The PAX peptides derivatives are well-known to have anti-microbial activities and believed to be secreted into the environment by the producing bacteria. However, I found that the majority of these peptides are located in the cell pellet fraction and not in the supernatant. This has been shown through quantification using HPLC MS. New PAX derivatives were synthesized, which carry a moiety suitable for covalent modification using click-chemistry, therefore being functionalizable with a fluorescence dye. In collaboration with Dr. Christoph Spahn (Prof. Dr. Mike Heilemann group), we used confocal, as well as super-resolution microscopy, in particular, single-molecule localization microscopy (SMLM) to investigate the spatial distribution of clickable PAX molecules and revealed that they localize at the bacterial membrane. Furthermore, bioactivity assays revealed that the promotor exchanged X. doucetiae PAX mutants, which do not produce PAX molecules without chemical induction (hereby termed as pax-), were more susceptible to several insect AMPs tested. Based on these findings, a new dual mechanism of action for PAX was proposed. Besides the previously shown antimicrobial activity, these molecules with a positive net charge of +5 (pH = 7) would bind to the negatively charged bacterial surface. Hereby, the surface charge (typically negative) would be inversed resulting in a protective effect for Xenorhabdus against other positively charged AMPs. Furthermore, PAX was investigated as AMP against E. coli to study its antimicrobial mechanism of action. Here, the results show that PAX can disrupt the E. coli membrane at higher concentrations (> 30 µg/ml), enter the cytosol, and lead to reorganization of subcellular structures, such as the nucleoid during this process.
Another aspect of secondary analysis is the application of proteomic analysis. Therefore, I induced X. nematophila, X. szentirmaii, and P. luminescens with insect lysate. These samples were analyzed using HPLC-MS/MS (Q Exactive) together with a database approach (Maxquant/Andromeda). The results showed that in all strains the lipid degradation and the glyoxylate pathway were induced. This is in line with the given insect lysate diet, which mostly contained lipids. Moreover, several interesting unknown peptides and proteins were also upregulated and might get into the focus of future research.
The growing number of infections with multi-resistant bacteria or the current COVID-19 pandemic put compounds with therapeutic properties into the public focus. Non-ribosomal peptides (NRPs) are natural products that are already marketed as antibiotics, cytotoxic agents or immunosuppressants. Their biological activities rely on the structural diversity including non-proteinogenic amino acids (AAs), heterocycles or modifications like methylation or acylation.
The biosynthesis of NRPs is carried out by non-ribosomal peptide synthetases (NRPSs). These multifunctional megaenzymes show a modular architecture like in an assembly-line. Each module is thereby responsible for the incorporation and modification of one AA and therefore contains different catalytic domains. The adenylation (A) domain recognizes and activates its specific substrate in an ATP-dependent manner which is transferred to a 4’-phosphopantetheine cofactor post-translationally attached to the thiolation (T) domain. Peptide bond formation between two T domain bound substrates catalysed by the condensation (C) domain transfers the growing peptide chain to the following module. Such a C-A-T module can be extended with optional domains to integrate structural diversity and a terminal thioesterase (TE) domain usually releases the peptide via hydrolysis or intramolecular attack of nucleophiles. Inspired by the modular architecture, NRPS engineering deals with the modification of NRPs in order to increase biological activities, circumvent bacterial resistances or create de novo peptides. This can be achieved by mutasynthesis or modification of the substrate binding pocket as well as single and multiple domain substitution. However, the few successful approaches led to impaired enzymes and did not establish a general applicable guideline. In the first publication as part of this work, the development of such a guideline comprising three rules is addressed. First, the A-T-C tridomain named exchange unit (XU) is seen as a catalytic unit instead of a module. When using them as building blocks, the C domain’s specificity for the AA of the following XU has to be considered as second rule. Third, a conserved WNATE motif within the C-A linker depicts the fusion point of the XUs. Upon heterologous expression of the cloned plasmids in E. coli and high performance liquid chromatography coupled mass spectrometry-based analysis of the extracts, the ambactin-producing NRPS from Xenorhabdus was reprogrammed with one and two XUs. This only leads to a moderate loss of production titre or an even higher one when the AA configuration was changed by introducing a dual condensation/epimerization (C/E) domain. The pentamodular GameXPeptide-producing NRPS was reconstructed using up to five XUs of four different NRPSs and even completely de novo synthetases were created. The second publication describes the exchange unit condensation domain (XUC) concept and relies on a fusion point between the two subdomains (N-terminal CDsub and C-terminal CAsub) of the C domain’s V-shaped pseudodimeric structure which generates A-T didomains with flanking CAsub and CDsub. These hybrid C domain-forming building blocks depict an improvement to the XU concept by avoiding the drawback of C domain specificity. This allows a more flexible NRPS engineering that can e.g. enable peptide library design. Furthermore, beside a combination of both concepts within one NRPS and a transfer to Bacillus NRPSs, the use of XUC with relaxed A domain specificity allowed further peptide modifications by introducing non-natural AAs. The third publication deals with aldehyde and alcohol-generating reductase (R) domains which depict an alternative for peptide release in NRPSs. A promoter exchange in X. indica identified a pyrazine-producing NRPS with a minimal architecture of an A, T and R domain and was therefore termed ATRed. R domains were additionally used in engineered NRPSs to produce pyrazinones and derivatives thereof by XU substitution although most constructs failed to show production. Beyond that, an R domain has been shown to replace a TE domain in wild type synthetases leading to slightly modified NRPs and the postulated biosynthesis was incidentally revised. Furthermore, an NRPS with terminal R domain was engineered to produce a free peptide aldehyde, which are known to be potent proteasome inhibitors. For the above mentioned ATReds, the presence of up to three coding regions was further identified in 20 different Xenorhabdus strains but only six of them were verified to produce pyrazines. All ATReds share variable sequence similarities among each other and were subsequently divided into three subtypes. One subtype is supposed to perform the pyrazine biosynthesis via a non-canonical catalytic triad.
Das Vorkommen von Kunststoffmaterialien <5 mm, sogenanntem Mikroplastik
(MP), in marinen Ökosystemen wurde bereits eingehend untersucht. Im Gegensatz dazu existieren erhebliche Wissenslücken hinsichtlich der Abundanz und der Auswirkung von MP in limnischen Ökosystemen. Vor diesem Hintergrund steht das Umweltvorkommen, mögliche Eintragspfade und die Auswirkungen von MP auf aquatische Invertebraten im Fokus dieser Arbeit. Zur Bestimmung der MP-Abundanz in Fließgewässern sind Sedimente der Elbe untersucht worden. Hierfür wurde zunächst eine Methode zur Extraktion und Identifizierung von MP aus Umweltproben entwickelt, optimiert und validiert. In der anschließenden Analyse konnten in elf Probenahmestellen 55–17400 MP kg-1 in den Sedimenten nachgewiesen werden. Der Einfluss der Gezeitenströmung wurde anhand der abnehmenden MP-Abundanz in der Tideelbe deutlich. Insgesamt weisen die Ergebnisse darauf hin, dass Sedimente von Fließgewässern eine Senke für MP darstellen. Für die Evaluation von Eintragspfaden von MP in Oberflächengewässer wurden die
Einleiter von fünf Kläranlagen beprobt und 240–897 MP m-3 in den Einleitern detektiert. Die Detailuntersuchung einer Kläranlage zeigte, dass >99% der MP-Fracht im Verlauf der Abwasseraufbereitung entfernt wird. Hierbei erfolgte die Hauptentfernung
bereits in der Vorklärung. Somit stellen Kläranlagen effektive Barrieren für den Eintrag von MP dar.
Insgesamt wird ersichtlich, dass die getesteten Arten C. riparius und G. pulex relativ insensitiv gegenüber einer MP-Exposition sind. So konnten bei G. pulex keine und bei C. riparius erst bei sehr hohen MP-Konzentrationen adverse Effekte detektiert werden. Hierbei ist die Autökologie der Spezies eine mögliche Erklärung für die Toleranz gegenüber partikulären Stressoren. Auf Basis dieser Daten sowie der ermittelten MPAbundanz kann das Umweltrisiko von MP in limnischen Ökosystemen vorläufig als
gering eingeschätzt werden. Hierbei gilt es jedoch zu beachten, dass eine abschließende
Bewertung aufgrund der nach wie vor existierenden Unsicherheiten nicht möglich ist. Diese Unsicherheiten betreffen die Umweltkonzentration von MP <80 μm, das Verhaltensowie das Wirkpotential dieser heterogenen und dynamischen Stressorenklasse
in umweltrelevanten Szenarien.
Monoterpenes and their monoterpenoid derivatives form a subclass of terpene(oid)s. They are widely used in medicines/pharmaceuticals, as flavor and fragrance compounds, or in agriculture and are also considered as future biofuels. However, for many of these substances, the extraction from natural sources poses challenges such as occurring at low concentrations in their raw material or because the natural sources are diminishing. Furthermore, many of the structurally more complex terpenoids cannot be chemically synthesized in an economic way. Therefore, microbial production provides an attractive alternative, taking advantage of the often distinct regio- and stereoselectivity of enzymatic reactions. However, monoterpenes and monoterpenoids are challenging products for industrial biotechnology processes due to their pronounced cytotoxicity, which complicates the production in microorganisms compared to longer-chain terpenes (sesquiterpenes, diterpenes, etc.).
The aim of this thesis was to generate a biotechnological complement to fossil-resources-based chemical processes for industrial monoterpenoid production. Therefore, a starting point for the further development of a microbial cell factory based on the microbe Pseudomonas putida KT2440 was aimed to be created. This production organism should be able to conduct a whole- cell biocatalysis to selectively oxyfunctionalize monoterpene hydrocarbons using renewable industrial by-products and waste streams as raw material for monoterpenoid production (Figure 1). As a model substance, the production of (-)-menthol should be addressed due to its industrial significance. (-)-Menthol is one of the world’s most widely-used flavor and fragrance compounds by volume as well as a medical component, having an annual production volume of over 30,000 tons. An approach for (-)-menthol production from renewable resources could be a biotechnological(-chemical) two-step conversion (Figure 1), starting from (+)-limonene, a by-product of the citrus fruit processing industry.
The thesis project was divided into three parts. In the first part, enzymes (limonene-3- hydroxylases) were to be identified that can convert (+)-limonene into the precursor of (-)-menthol, (+)-trans-isopiperitenol. To counteract product toxicity, in the second part, the tolerance of the intended production organism P. putida KT2440 towards monoterpenes and their monoterpenoid derivatives should be increased. Finally, in the third part, the identified hydroxylase enzymes would be expressed in the improved P. putida KT2440 strain to create a whole-cell biocatalyst for the first reaction step of a two-step (-)-menthol production, starting from (+)-limonene.
To achieve these objectives, different genetic/molecular biology and analytical methods were applied. In this way, two cytochrome P450 monooxygenase enzymes from the fungi Aureobasidium pullulans and Hormonema carpetanum could be identified and functionally expressed in Pichia pastoris, which can catalyze the intended hydroxylation reaction on (+) limonene with high stereo- and regioselectivity. A further characterization of the enzyme from A. pullulans showed that apart from (+) limonene the protein can also hydroxylate ( ) limonene, - and -pinene, as well as 3-carene.
Furthermore, within this thesis, mechanisms of microbial monoterpenoid resistance of P. putida could be identified. It was shown that the different monoterpenes and monoterpenoids tested have very different toxicity levels and that mainly the Ttg efflux pumps of P. putida GS1 are responsible for the tolerance to many of these compounds. Based on these results, a P. putida KT2440 strain with increased resistance to various monoterpenoids, including isopiperitenol, could then be generated, which can be used as a host organism for the further development of monoterpenoid-producing cell factories.
While within the scope of this work the heterologous expression of the fungal gene in prokaryotic cells in a functional form could not be realized despite different approaches, the identified enzymes, the monoterpenoid-tolerant P. putida strain and a plasmid developed for heterologous gene expression in P. putida provide a starting point for the further design of a microbial cell factory for biotechnological monoterpenoid production.
Das Gehirn weist in mehreren Bereichen anatomische Asymmetrien zwischen beiden Hemisphären auf, so auch in Bereichen der Hörrinde. Zudem ist bereits langjährig bekannt, dass menschliche Sprache vorrangig in der linken Gehirnhälfte, d.h. linksseitig lateralisiert, verarbeitet wird. Daraus folgend stellt sich die Frage, ob dies eine besondere Spezialisierung ist, oder ob es noch weitere lateralisierte Hirnfunktionen gibt. Viele akustische Signale haben dabei frequenzmodulierte (FM) Komponenten, die im Hörsystem für die Erkennung nach Parametern wie Richtung und Dauer der Modulation analysiert werden müssen. Ob die Analyse von FM-Komponenten oder einzelner Reizparameter im Gehirn lateralisiert stattfindet, wurde in der Literatur meist mit bildgebenden Verfahren untersucht.
Für das Erkennen und Unterscheiden der Modulationsrichtung weist eine Vielzahl von Studien auf eine erhöhte Aktivität in der rechten Hörrinde hin. Für die Analyse von Stimulusdauern ist es bisher allerdings noch unklar bzw. umstritten, ob diese lateralisiert erfolgt. Für die Untersuchung der Lateralisierung einfacher Sprachkomponenten werden häufig Konsonant-Vokal-Silben (CV-Silben) verwendet. In einer Vielzahl von Studien konnte eine linkslastige Lateralisierung, wie bei der Spracherkennung, gezeigt werden.
In der vorliegenden Arbeit wurde nun untersucht, ob ein eindeutigeres Muster von Lateralisierung zu finden ist, wenn diese in Wahrnehmungsexperimenten, untersucht wird. Dabei wurde ein zu untersuchender Teststimulus (FM-/CV-Stimulus) auf einem Ohr mit einem kontralateralen breitbandigen Rauschen auf dem anderen Ohr gleichzeitig präsentiert. Durch die Struktur der Hörbahn kann dabei davon ausgegangen werden, dass in einer Hemisphäre des Vorderhirns vorrangig Informationen aus dem kontralateralen Ohr verarbeitet und Informationen aus dem ipsilateralen Ohr unterdrückt werden und sich somit Rückschlüsse auf die Funktion/Beteiligung einer Hemishpäre ziehen lassen. Das Rauschen diente dabei zur unspezifischen Aktivierung der gegenüberliegenden Hemisphäre.
Die Lateralisierung wurde systematisch für unterschiedlich komplexe Reize untersucht. Dazu wurden in zwei Versuchsreihen Unterscheidungsexperimente durchgeführt, die sich in mehrere Messungen (mit mehreren Durchläufen) mit unterschiedlichen Parametereinstellungen gliederten. Pro Durchlauf musste sich die Versuchsperson immer zwischen zwei Antwortmöglichkeiten entscheiden (2-AFC-Verfahren). Der Schalldruckpegel des Rauschens war dabei für alle Messungen konstant. Der Schalldruckpegel der Teststimuli blieb zwar während einer Messung konstant, wurde jedoch innerhalb eines Experimentes von Messung zu Messung reduziert.
In einer gemeinsamen Analyse wurden jeweils die Fehlerraten und Reaktionszeiten beider Ohren, getrennt nach Seite und FM-/ CV-Stimulus, miteinander verglichen, um so auf eine mögliche Lateralisierung schließen zu können. Damit die Daten der Versuchspersonen bei vergleichbarer Schwierigkeit analysiert werden konnten, wurde als Vergleichswert zwischen allen Versuchspersonen der Schalldruckpegel der ersten Messung mit einer Fehlerrate von mindestens 15,0 % gewählt (15 %-Kriterium). Um auszuschließen, dass das Hörvermögen der Versuchspersonen Unterschiede zwischen beiden Ohren aufweist, wurde vor jeder Messung der „Punkt subjektiver Gleichheit“ für die Lautstärke-wahrnehmung zwischen linkem und rechten Ohr bestimmt.
In der ersten Versuchsreihe wurde dabei die Verarbeitung der Modulationsrichtung und der Stimulusdauer von FM-Stimuli untersucht. Es zeigte sich für beide Experimente, dass ein sinkender Schalldruckpegel des FM-Stimulus zu einer steigenden Fehlerrate führte. Unter Anwendung des 15 %-Kriteriums waren die Fehlerraten für die Unterscheidung der Modulationsrichtung signifikant geringer, wenn der FM-Stimulus auf dem linken Ohr präsentiert wurde. Dies ist ein deutlicher Hinweis für eine rechtslastige Lateralisierung.
Für die Unterscheidung der Stimulusdauer gab es dagegen keinen signifikanten Unterschied zwischen den Fehlerraten beider Ohren. Somit muss davon ausgegangen werden, dass beide Hemisphären für diese Aufgabe benötigt werden und eine bilaterale Verarbeitung stattfindet. In den Reaktionszeiten konnten in beiden Experimente keine signifikanten Unterschiede gezeigt werden. Die Unterscheidung der Modulationsrichtung wurde dabei von allen Versuchspersonen als einfacher eingestuft als die Unterscheidung der Stimulusdauer, was sich auch in niedrigeren Antwortschnelligkeit und Fehlerraten bei vergleichbaren Schalldruckpegeln zeigte.
In der zweiten Versuchsreihe wurde als Referenzmessung nochmals die Unterscheidung der Modulationsrichtungen von FM-Stimuli durchgeführt. Anschließend wurde die Unterscheidung von „da“ und „ga“ untersucht. Diese CV-Silben differieren ausschließlich in der FM-Komponente. Die Untercheidung von CV-Silben ohne Unterschied in der FM-Komponente wurde mittels „ta“ und „ka“ getestet. Für alle drei Experimente zeigte sich, dass ein geringerer Schalldruckpegel des FM- oder CV-Stimulus zu einer steigenden Fehlerrate führte. Unter Anwendung des 15 %-Kriteriums zeigte sich für die Unterscheidung der Modulationsrichtung ein Trend zu niedrigeren Fehlerraten bei der Präsentation des FM-Stimulus auf dem linken im Vergleich mit dem rechten Ohr. In den Reaktionszeiten konnten keine signifikanten Unterschiede gezeigt werden.
Für die Unterscheidung von „da“ und „ga“ ließ sich unter Anwendung des 15 %-Kriteriums in den Fehlerraten und Reaktionszeiten kein Vorteil eines Ohres nachweisen. Dagegen zeigten sich klare Unterschiede bei einzelnen Versuchspersonen. So waren die Fehlerraten für Versuchspersonen, die vorwiegend „da“ erkannt bzw. gehört hatten signifikant höher, wenn der CV-Stimulus auf dem rechten Ohr präsentiert wurde, für „ga“-Hörer war das Gegenteil der Fall. In den Reaktionszeiten konnte kein signifikanter Zusammenhang nachgewiesen werden. Somit ließ sich zeigen, dass je nach Strategie der Versuchsperson bzw. deren individueller Wahrnehmung der CV-Silben, Unterschiede in der Lateralisierung erreicht werden können.
Für die Unterscheidung von „ta“ und „ka“ zeigten sich unter Anwendung des 15 %-Kriteriums signifikant niedrigere Fehlerraten und Reaktionszeiten, wenn der CV-Stimulus auf dem linken Ohr präsentiert wurde. Dies weist deutlich auf eine rechtslastige Lateralisierung hin. Vergleicht man alle drei Experimente ließ sich zudem zeigen, dass die Unterscheidung der Modulationsrichtung einfacher war als die Unterscheidung verschiedener CV-Stimuli. Dabei war die Unterscheidung von „da“ und „ga“ für die Versuchspersonen schwieriger als die Unterscheidung von „ta“ und „ka“. Allerdings konnte in den Lateralisierungsdaten kein direkter Zusammenhang zwischen den FM- und „da“-/„ga“-Stimuli gezeigt werden.
Zusammenfassend konnte in allen fünf Experimenten eine verschieden stark lateralisierte Verarbeitung von akustischen Stimuli bei gleichzeitigem kontralateralen Rauschen gezeigt werden. Der Vorteil eines Ohres (bzw. einer Hemisphäre) war sowohl von der Aufgabe als auch vom Stimulustyp abhängig. Dabei gab es zum Teil starke Unterschiede in der Effektstärke und dem Grad der Lateralisierung zwischen den einzelnen Versuchspersonen. Insgesamt konnte gezeigt werden, dass sich die hier angewendete psychophysische Methode gut eignet, um Ergebnisse zur Lateralisierung von akustischen Stimuli zu gewinnen und somit die Verhaltensrelevanz von Ergebnissen aus Studien mit bildgebenden Verfahren zu überprüfen.
Derzeit breiten sich gebietsfremde Stechmücken (Diptera: Culicidae) aufgrund von Globalisierung und Klimawandel auf der ganzen Welt aus und bilden neue, stabile Populationen. Wegen ihrer hämatophagen Ernährungsweise sind sie Überträger von Pathogenen, die teilweise schwere bis tödliche Krankheiten beim Menschen, seinen Haustieren oder auch Wildtieren auslösen können. Mit den Stechmücken treten daher auch Infektionskrankheiten vermehrt in Gebieten auf, in denen sie vorher nicht vorkamen oder als bereits ausgerottet galten. Da die meisten im Menschen wirksamen Pathogene nicht durch Impfungen kontrolliert werden können, bleibt als eine der wenigen Möglichkeit der Krankheitsprävention die Dezimierung der Stechmückenpopulation. Daher sind Stechmücken momentan im Fokus von biologischer und epidemiologischer Forschung. Diese hat zum Ziel epidemische Krankheitsausbrüche vektorübertragener Krankheiten in der menschlichen Population zu verhindern. Eine Verringerung der lokalen Stechmückenpopulation bis hin zum Aussterben kann durch die Verwendung von Insektiziden, die Vernichtung von Bruthabitaten oder anderen Kontrollmaßnahmen erreicht werden. Jedoch sind diese Maßnahmen unterschiedlich effektiv, haben zum Teil unerwünsch-te ökologische und gesundheitsschädigende Folgen und sind unterschiedlich aufwendig und kostenintensiv in der Anwendung. Für die Entwicklung eines integrierten, effektiven, zielgerichteten und kostengünstigen Vektormanagements fehlen bislang jedoch die populationsbiologischen Grundlagen.
Ziel dieser Arbeit ist daher die Schaffung der Datengrundlage eines Integrierten Stechmückenmanagements für die Asiatische Buschmücke (Aedes japonicus japonicus THEOBALD 1901), die am weitesten verbreitete exotische Stechmücke in Deutschland. Schwerpunkte dafür wurden auf das zeitliche und räumliche Vorkommen, die Temperaturabhängigkeit des Lebenszyklus, sowie die Wirksamkeit von Kontrollmethoden gelegt.
Die Kenntnis der räumlichen Verbreitung und saisonalen Häufigkeit der Stechmücken ist notwendig, um befallene Standorte und Zeitpunkte des größten Populationszuwachses definieren zu können. Die Verbreitung und die Häufigkeit der endothermen Stechmücken sind stark von der Umgebungstemperatur abhängig, die beispielsweise deren Entwicklungsdauer und Sterblichkeit beeinflusst. Dabei entwickeln sich die verschiedenen Stadien (Ei, Larven, Puppe, Imago), die eine Stechmücke während ihres Lebens durchläuft, in Abhängigkeit von der Umgebungstemperatur unterschiedlich und haben jeweils andere Temperaturpräferenzen. Lebenszyklustabellen geben die Entwicklungsdauer und Mortalität pro Stadium in Abhängigkeit von der Temperatur an. Mit ihrer Hilfe können somit die räumlichen und zeitlichen Vorkommen und Häufigkeiten einer Stechmückenart berechnet werden. Dies ist insbesondere für Stechmücken in Gebieten mit jahreszeitlichen Temperaturveränderungen wichtig. Um Daten für eine solche Lebenszyklustabelle aufnehmen zu können, ist es notwendig Laborexperimente bei festgelegten Temperaturen durchzuführen. Die Voraussetzung dafür ist, dass die Stechmückenart im Labor optimale Bedingungen erhält, um ihren Lebenszyklus abschließen zu können. In dieser Arbeit wurde daher ein Laborprotokoll entwickelt, mithilfe dessen der Lebenszyklus der Asiatischen Buschmücke im Labor untersucht werden kann. Dazu wurden systematisch die Fütterung, die innerartliche Konkurrenz und das Wasservolumen des Brutge-fäßes für die aquatischen Stadien erprobt. Auf Basis dieses Protokolls wurden anschließend die Temperatureinflüsse auf die Entwicklung aller Stadien aufgenommen. Diese Daten dienten der Parametrisierung eines populationsdynamischen Modells. Dieses wurde verwendet, um Standorte mehrjähriger Populationen zu definieren, saisonale Häufigkeiten für Deutschland zu berechnen, durch Temperaturveränderungen hervorgerufene zukünftige Verbreitungsgebiete vorherzusagen, sowie Effekte von Kontrollmaßnahmen auf die Häufigkeit der Asiatischen Buschmücke zu modellieren.
Um eine dauerhafte Kontrolle der Stechmückenvektoren zu gewährleisten, ist weiterhin die permanente Neuentwicklung von wirksamen Kontrollmethoden notwendig. Dazu gehört die präventive Vermeidung von Bruthabitaten der aquatischen Stadien von Stechmücken. Die exotischen Stechmücken, die in Deutschland etabliert sind, gehören mehrheitlich der Gattung Aedes an und sind sogenannte Gefäßbrüter. Ihre bevorzugten Bruthabitate sind kleine Was-seransammlungen wie sie in Baumhöhlen, Gesteinsauswaschungen, Gießkannen, Regentonnen und Blumenuntersetzern vorkommen. In dieser Arbeit wurde untersucht, welche Farben und Volumina von Plastikbechern die Asiatische Buschmücke zur Eiablage bevorzugt, um präferierte Bruthabitate gezielt zu identifizieren und verringern zu können. Auch die Bereitstellung von Insektiziden wird durch in Stechmücken auftretende Insektizidresistenzen erschwert. Insektizide sollen dabei umweltfreundlich, spezifisch für den Zielorganismus und nicht gesundheitsschädlich für den Menschen sein. Weiterhin sind eine gute Anwendbarkeit, geringe Kosten und eine hohe Effizienz wünschenswert. Eine Quelle für potentielle Insektizide sind pflanzliche Stoffe, zum Beispiel ätherische Öle. Diese sind leicht erhältlich, natürlichen Ursprungs und wirksame Vergrämungsmittel gegen stechbereite Stechmückenweibchen. In dieser Arbeit wurde nach einer Literaturrecherche Nelkenöl ausgewählt und als Insektizid gegen Larven der Asiatischen Buschmücke getestet. Dafür wurden die akute toxische Wirkung von Nelkenöl bei drei Temperaturen untersucht und zusätzlich die Wirkung von Nelkenöl auf die Eiablage im Freiland. Nelkenöl zeigte dabei sowohl eine larvizide als auch eine eiablagehemmende Wirkung. Weiterhin wurde Kupfer in Form von kupferhaltigen Euromünzen als Larvizid untersucht. Kupfer ist ein wirksamer Stoff gegen die aquatischen Stadien von Stechmücken. Allerdings wurde der Stoff noch nicht in Form der einfach zu handhabenden, leicht erhältlichen Kupfermünzen getestet. Dazu wurden Vorexperimente durchgeführt, um herauszufinden, wieviel Kupferionen sich aus den Münzen lösen lassen. Anschließend wurde der akut toxische Effekt auf Larven der Asiatischen Buschmücke untersucht.
Ein Integriertes Stechmückenmanagement hat zum Ziel, die lokale Stechmückenpopulation zu kontrollieren, um so Stichen und daraus resultierender Krankheitsübertragung vorzubeugen. Dies erfolgt über die Aufklärung von Betroffenen, der Überwachung der Stechmückenpopulation, dem Testen auf Pathogenbefall und der direkten Kontrolle von Stechmücken. Diese Arbeit leistet einen Beitrag zu den Kenntnissen über die Laborhaltung einer exotischen Stechmückenart, zur Identifizierung von Bruthabitaten, zur zeitlichen und räumlichen Festlegung von Kontrollmaßnahmen und zur Anwendung von Larviziden und eines Vergrämungsmittels. Mit dieser Arbeit wurde die Grundlage eines faktenbasierten Integrativen Stechmückenmanagements für die Asiatische Buschmücke entwickelt, das eventuell auch auf weitere Aedes-Arten übertragbar ist, und als Handlungsempfehlung für politische Entscheidungstragende dienen kann.
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.
A large number of chemicals are constantly introduced to surface water from anthropogenic and natural sources. Although substantial efforts have been made to identify these chemicals (e.g potentially anthropogenic contaminants) in surface waters using liquid chromatography coupled to high resolution mass spectrometry (LC-HRMS), a large number of LC-HRMS chemical signals often with high peak intensity are left unidentified. In addition to synthetic chemicals and transformation products, these signals may also represent plant secondary metabolites (PSMs) released from vegetation through various pathways such as leaching, surface run-off and rain sewers or input of litter from vegetation. While this may be considered as a confounding factor in screening of water contaminants, it could also contribute to the cumulative toxic risk of water contamination. However, it is hardly known to what extent these metabolites contribute to the chemical mixture of surface waters. Thus, reducing the number of unknowns in water samples by identifying also PSMs in significant concentrations in surface waters will help to improve monitoring and assessment of water quality potentially impacted by complex mixtures of natural and synthetic compounds. Therefore, the main focus of the present study was to identify the occurrence of PSMs in river waters and explore the link between the presence of vegetation along rivers and detection of their corresponding PSMs in river
water.
In order to achieve the goals of the present thesis, two chemical screening approaches, namely, non-target and target screening using LC-HRMS were implemented. (1) Non-target analysis involving a novel approach has been applied to associate unknown peaks of high intensity in LC-HRMS to PSMs from surrounding vegetation by focusing on peaks overlapping between river water and aqueous plant extracts (Annex A1). (2) LC–HRMS target screening in river waters were performed for about 160 PSMs, which were selected from a large phytotoxin database (Annex A2 and A3) considering their expected abundance in the vegetation, their potential mobility, persistence and toxicity in the water cycle and commercial availability of standards.
In non-target screening (Annex A1), a high number of overlapping peaks has been found in between aqueous plant extracts and water from adjacent location, suggesting a significant impact of vegetation on chemical mixtures detectable in river waters. The chemical structures were assigned for 12 pairs of peaks while several pairs of peaks
whose MS/MS spectra matched but no structure suggestion were made by the implemented software tools for retrieving possible chemical structure. Nevertheless, the pairs of peaks with matching spectra represented the same chemical structure. The identified compound belonged to different compound classes such as coumarins, flavonoids besides others. For the identified PSMs individual concentration up to 5 µg/L were measured. The concentration and the number of detected PSMs per sample were correlated with the rain event and vegetation coverage.
Target screening unraveled the occurrence of 33 out of 160 target compounds in river waters (Annex A2 and A3). The identified compounds belonged to different classes such as alkaloids, coumarins, flavonoids, and other compounds. Individual compound concentrations were up to several thousand ng/L with the toxic alkaloids narciclasine and
lycorine recording highest maximum concentrations. The neurotoxic alkaloid coniine from poison hemlock was detected at concentrations up to 0.4 µg/L while simple coumarins
esculetin and fraxidin occurred at concentrations above 1 µg/L. The occurrence of some PSMs in river water were correlated to the specific vegetation growing along the rivers while the others were linked to a wide range of vegetation. As an example, narciclasine and lycorine was emitted by the dominant plant species from Amaryllidaceae family (e.g. Galanthus nivalis (snow drop), Leucojum vernum and Anemone nemorosa) while intermedine and echimidine were from Symphytum officinale. The ubiquitous occurrence of simple coumarins fraxidin, scopoletin and aesculetin could be linked to their presence in a wide range of vegetation.
Due to lack of aquatic toxicity data for the identified PSMs (in both target and non-target) and extremely scarce exposure data, no reliable risk assessment was possible.
Alternatively, risk estimation was performed using the threshold for toxicological concern (TTC) concept developed for drinking water contaminants. Many of the identified PSMs
exceeded the TTC value (0.1 µg/L) thus caution should be taken when using such surface waters for drinking water abstraction or recreational use.
This thesis provides an overview of the occurrence of PSMs in river water impacted by the massive presence of vegetation. Concentration for many of the identified PSMs are well within the range of those of synthetic environmental contaminants. Thus, this study adds to a series of recent results suggesting that possibly toxic PSMs occur in relevant concentrations in European surface waters and should be considered in monitoring and risk assessment of water resources. Aquatic toxicity data for PSMs are extensively lacking but are required to include these compounds in the assessment of risks to aquatic organisms and for eliminating risks to human health during drinking water production.
Diese Arbeit behandelt die Rolle der Proteinkinasen IKKe und TBK1 in der Progression von humanen malignene Melanomen und die Rolle von alpha-Synuclein in der Schmerzwahrnehmung von Mäusen.
Nature and its constituents are known to affect human well-being in positive and negative ways. Nature can be beneficial for humans by providing, for instance, food, recreation or inspiration. Natural disasters or transmitted diseases are, on the other hand, examples of nature’s detrimental or harmful contributions to human well-being. Such positive as well as negative effects have been termed Nature’s Contributions to People (NCP) by the Intergovernmental Science-Policy Platform for Biodiversity and Ecosystem Services (IPBES) and can be categorized into three different types of contributions: regulating, material and non-material NCP. While regulating and material NCP have been studied extensively, research on the non-material NCP is less common in comparison, especially regarding non-material NCP of biodiversity and wildlife. This dissertation therefore aims at shedding light on the non-material links between biodiversity, wildlife and human well-being. The thesis presents the results of three individual research studies in three separate chapters (CH1, 2 & 3).
In the first chapter (CH1) I conduct a systematic literature review on the non-material contributions of wildlife. Several previous reviews have published overviews on the non-material contributions of wildlife. However, only a few of these reviews examine both the positive and negative effects of wildlife in combination. These reviews usually cover few aspects of human well-being (e.g. recreation, health, psychological well-being) or just focus on a specific group of wildlife species (e.g. carnivores, scavengers). In addition, the pathways determining how wildlife affects human well-being are yet little understood. The aim of this review is therefore to create a holistic overview of the current knowledge on non-material contributions of wildlife (WCP), by summarising research on positive and negative effects and disentangling potential channels of human-wildlife experiences.
My results show that most studies in scientific literature report negative WCP. However, over the last decade the number of publications on positive WCP has increased, mainly in the Global North. This change in research focus, at the turn of the century, may be related to the newly emerging ideas and perspectives on nature during that time (e.g. Ecosystem Services and NCP). The results may also indicate different research interests across global regions and a focus on positive WCP (especially in the Global North). Surprisingly, the review identifies a lack of joint systematic assessments of positive and negative WCP across taxa, human well-being dimensions and ways (channels) of wildlife experiences. Studies show taxon-specific differences, with predominantly positive WCP reported for birds and predominantly negative WCP published for mammals and reptiles. Physical health was the most examined human well-being dimension, while many others, such as subjective well-being, social well-being, learning, identity or sense of place were rarely studied in comparison. The two channels of wildlife experiences that have been mainly studied or reported are Interaction and Knowing. While Interaction describes multisensory experiences in which people physically interact with wildlife. Knowing describes the metaphysical connection between humans and wildlife that arises through thinking or remembering experiences from wildlife encounters (including knowledge about wildlife).
To date, only few published studies examine the relationship between biodiversity and human well-being across larger spatial scales. For instance, little is known about how biodiversity is related to human well-being on the national or continental level. The second and third chapter (CH2 & 3) are thus comprised of two empirical case studies which examine the relationship between biodiversity and human well-being across Germany and Europe, respectively. As indicator for biodiversity, I use different species diversity measures including species richness and abundance. In the second chapter (CH2) I analyse the association between species richness and human health across Germany. The results demonstrate a significant positive relationship between plant and bird species richness and mental health while controlling for a multitude of socio-economic and demographic factors as well as other nature characteristics. In the third chapter (CH3) I conduct the first study on the relationship between species diversity and subjective well-being on the continental level. The results show that bird species richness (unlike mammal, megafauna and tree richness) is positively associated with life-satisfaction, a measure for subjective well-being across Europe. These results are robust while accounting for socio-economic and macro-economic factors. The results of both empirical studies are in correspondence with previous research, conducted on the local and national level.
Overall, my dissertation shows that wildlife and biodiversity greatly affect human well-being and provide substantial non-material NCP.
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This manuscript-based thesis is divided into four chapters. Chapter one is an introduction to lichens and the Antarctic. It introduces the goal of the thesis and the problems related with lichen systematics and the lack of knowledge about Antarctic lichens. The Antarctic is one of the last wildernesses, isolated from the other continents by the Antarctic Circumpolar Current, the Subantarctic Front, the Antarctic Polar Front, and the Drake Passage. Terrestrial life in Antarctica is restricted to widely separated and small ice-free areas that cover only 0.3% of the continent. Colonization of the Antarctic is a challenge for many taxa and is related to their ability for long-range dispersal and their adaptation to the harsh climate. Antarctic terrestrial ecosystems are significantly threatened by climate change, invasive species, and their interactions. Glacial retreat caused by higher than average temperatures exposes new habitats that can be easily colonized from local biota, but non-native species can also be favored by the new climatic conditions. In addition, propagule movement mediated by humans can introduce new species or change the population structure of many taxa. The terrestrial biota is comprised almost exclusively by “lower organisms” (invertebrates, bryophytes, algae, lichenized fungi, and microorganisms). Lichens are the dominant component, and the most important primary producers. Lichens are symbiotic associations consisting of a fungus (mycobiont) and one or more photosynthetic (photobiont) partners. They can disperse sexually or vegetatively. There are several problems related to the symbiotic nature of lichens that do not facilitate easy identification; although molecular data offers additional evidence, species delimitation in lichens is still not straightforward. The true number of species is underestimated due to the presence of cryptic species and species pairs. Recommended universal fungal barcode sequences (e. g. ITS) sometimes fail to delimit species pairs. Thus, it is necessary to identify fast-evolving markers that allow for the delimitation of closely related species before proceeding with the analysis of lichen populations. The goal of this thesis is to elucidate the so far unknown genetic structure among Antarctic lichen populations because of the immediate consequences for conservation strategies. The thesis focuses not only on patterns of differentiation and gene flow, but also investigates the question of human-mediated propagule transfer into Antarctica and among Antarctic sites. This project provides data on the genetic structure of Antarctic lichens that is urgently needed to develop conservation strategies in the face of global warming and increased human activities in the region. Due to the fact that it is not possible to apply all of the unspecific fingerprinting methods to lichens, microsatellites or simple sequence repeats (SSRs) are one of the best tools to investigate the genetic structure of lichen populations. SSRs offer the possibility to discriminate the lichen partners, but species-specific microsatellites have been developed for only a few species. Regarding the Antarctic, only one species has been studied with SSRs.
The second chapter describes new methods and tools to delimit closely related species of lichens and provides fast evolving markers to characterize their genetic structure. The chapter introduces the lichen species analysed in this thesis and the problems related to their correct identification by morphological methods and molecular data. Chapter two explains the sampling methods for lichen populations and the localities from small areas in which the species pairs occur together. Then the methods used to generate and validate fungal specific microsatellites that cross-amplify species pairs are described. This chapter focuses on the species pair Usnea antarctica and U. aurantiacoatra because they are the most common lichens in the Maritime Antarctic. An internal transcribed spacer (ITS) marker do not discriminate between these species, and some authors have suggested to synonymize them. Unpublished results from another Antarctic species pair, Placopsis antarctica and P. contortuplicata, are included to confirm the capability of SSRs to discriminate closely related lichen species. This thesis is the first study to generate SSRs that cross amplify species pairs, using BLAST to compare one genome against the other to obtain markers with the same length in flanking regions. The de novo developed SSRs are able to discriminate the two closely related species, and can detect variability at the population level. In the end of the chapter, ITS sequences, microsatellites, and SNPs are used to delimit the species of Usnea antarctica and U. aurantiacoatra. The chapter exposes the importance of a correct species delimitation and the ability of SSRs and SNPs to delimit the Antarctic Usnea species pair compared with the recommended universal fungal barcode sequence ITS. ...
Droughts impair plant growth, limit global net primary production and are predicted to increase in the course of climate change. Knowledge of the plant drought response on a molecular level can facilitate the selection of drought resistant genotypes and genetic engineering and thereby can help to implement strategies, such as assisted migration projects or crop improvement, in order to preserve natural and agricultural vegetation against droughts.
Studies on gene expression under drought stress were conducted in three species each of the genera Quercus and Panicum, to shed light on the molecular drought response in these species and identify drought responsive genes as a basis for technical applications.
In the genus Quercus, gene expression studies were conducted in the three major European forest trees Q. ilex, Q. pubescens and Q. robur, for which a distributional shift caused by climate change is predicted for the 21st century. RNA-Seq experiments were conducted in the three Quercus species for the first time, ortholog groups were assigned and unregulated genes, as well as drought responsive genes, were identified (Madritsch et al. 2019). For a set of the unregulated genes, a stable expression over the course of long-term drought periods was evaluated in order to enable an application as reference genes for normalizing qRT-PCR experiments (Kotrade 2019a). The reference genes were used in subsequent experiments to generate gene expression profiles over the course of a two-year drought experiment with consecutive drought periods for a set of twelve drought responsive genes and revealed a highly variable gene regulation under long-term drought stress in the Quercus species (Kotrade et al. 2019b).
In the genus Panicum, the gene expression in response to drought was examined in the two wild crop species, P. laetum and P. turgidum, and in the less drought tolerant species P. bisulcatum via RNA-Seq experiments (Kotrade et al. 2020 (in revision). The transcriptomes of the species were sequenced for the first time, ortholog groups were assigned and the gene regulation was compared across the species. The common grounds of the drought response in Panicum were determined by identifying similarities across the species, while the identification of differences between the species led to genes that might contribute to the higher drought tolerance of P. laetum and P. turgidum
A comparison across the two genera showed large differences in the gene regulation upon drought. This might be largely explained by different experimental setups that resulted in different drought conditions in the genera, such as drought intensity, drought duration and velocity of drought development.
The sequence information and the drought responsive genes identified in the Quercus and Panicum species can be used to develop marker assays for marker-assisted selection. The genes that putatively contribute to the higher drought tolerance of the two wild crop Panicum species should be considered as candidate targets in genetic engineering studies. Marker-assisted selection and genetic engineering can be applied, for example, in assisted migration projects to support natural vegetation in the course of climate change or to breed more drought tolerant crop strains to mitigate crop failure rates caused by droughts.
Connectomic analysis of apical dendrite innervation in pyramidal neurons of mouse cerebral cortex
(2020)
The central goal of this study was to generate synapse-resolution maps of local and long-range innervation on apical dendrites (AD) in mouse cerebral cortex. We used three-dimensional electron microscopy (3D-EM) to first measure the cell-type specific balance in the excitatory and inhibitory input on ADs. Further, we found two inhibitory axon populations with preference for apical dendrites originating from layer 2 and 3/5. Additionally, we used a combination of large-scale volumetric light and electron microscopy to investigate the innervation preference of long-range cortical projections onto ADs. To generate such large-scale 3D-EM datasets, we also developed a software package to automate aberration adjustment.
The balance of excitation and inhibition defines the computational properties of neurons. We, therefore, generated 6 datasets and annotated 26,548 excitatory and inhibitory synapses to map the relative inhibitory strength on the AD of pyramidal neurons in layers 1 and 2 (L1 and 2) of the cortex. We found consistent and cell-type specific patterns of inhibitory strength along the apical dendrite of L2-5 pyramidal neurons in primary somatosensory (S1), secondary visual (V2), posterior parietal (PPC) and anterior cingulate (ACC) cortices. L2 and L5 pyramidal neurons had inhibitory hot-zones at their main bifurcation and distal apical dendrite tuft, respectively. In contrast, L3 neurons had a baseline (~10%) level of inhibition along their apical dendrite. As controls, we quantified the effect of synapse strength (size), dendrite diameter, AD classification and synapse identification methods on the cell-type specific synapse densities. To classify L5 pyramidal subtypes, we performed hierarchical clustering using morphological properties that were described to differentiate slender- and thick-tufted L5 neurons.
We also investigated the distance to soma as a predictor of fractional inhibition around the main bifurcation of apical dendrites. Interestingly, we found a strong exponential relationship that was absent in density of either synapse type. This suggests a distance dependent control mechanism designed specifically for the balance (in synapse numbers) of excitation and inhibition.
Next, we focused on the inhibitory innervation preference for apical dendrite of pyramidal neuron. We, therefore, annotated 5,448 output synapses of AD-targeting inhibitory axons and found two populations specific for either L2 or L3/5 apical dendrites. Together with previous findings on preferential innervation of sub-cellular structures by inhibitory axons, this suggests two distinct inhibitory circuits for control of AD activity in L2 vs. deep-layer pyramidal neurons. This innervation preference was surprisingly consistent across S1, V2, PPC and ACC cortices.
3D-EM data acquisition is a laborious process that is made easier and more popular everyday by technical progress in the laboratory and industrial settings. To make data acquisition robust using our custom-built 3D-EM microscopes, an automatic aberration software was implemented to adjust the objective lens and the stigmators of the electron microscope. This method was used in multiple month-long experiments across 2 microscopes and 10 datasets. The aberration adjustment used the reduction in image details (high-frequency elements) to estimate the level of deviation from optimal focus and stigmator parameters. However, large objects in EM micrographs such as blood vessel and nuclei cross-sections generated anomalous results. We, therefore, added image processing routines based on edge detection combined with morphological operations to exclude such large objects.
Finally, we performed a correlative three-dimensional (3D) light (LM) and electron (EM) microscopy experiment to map the long-range primary visual (V1) and secondary motor (M2) cortical input to ADs in layer 1 of PPC using the “FluoEM” approach. This method allows for identification of the long-range source of projection axons in EM volumes without the need for EM-dense label conversion or heat-induced markings. The long-range source of an axon in EM is identified based on the fluorescent protein that is expressed in its LM counterpart. In comparison to M2 input, Long-range axons from V1 had a higher tendency to target L3 pyramidal neurons in PPC according to our preliminary analysis. In combination with the difference observed in the synapse composition of L2 and L3 apical dendrites, this suggests the need for separate functional and structural analysis of L2 and 3 pyramidal neurons.