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Smut fungi (Ustilaginomycotina) were previously defined as plant parasites that produced blackish or brownish masses of teliospores in or on various organs of plants. Each teliospore germinates to form a single basidium with usually four basidiospores that subsequently grow as a saprobic, yeast-like, haploid stage. The Ustilaginomycotina are a highly diverse group with about 1,700 species in 115 different genera. All of the species were united in a single order, the Ustilaginales, in late 19th century. These teliospore producing fungi are now considered the classic smut fungi. Towards the end of the 20th century, new ideas were brought into this classification system. Most notable was the comparative work regarding the ultrastructure of septal pores and the anatomy of the interaction zones between host and parasite. This work changed the whole concept of smut fungi and their evolutionary relationships. These results were subsequently supported by molecular phylogenetic studies. Both lines of investigation led to the classification of the smut fungi into four different classes, Ustilaginomycetes, Exobasidiomycetes, Malasseziomycetes and Moniliellomycetes (see chapter 1.3).
A reliable taxonomy that reflects phylogenies needed in order to estimate the diversity and the relationships between the diverse groups of smut fungi. In the last 20 years, molecular investigations based mostly on rDNA loci, e.g. ITS (internal transcribed spacer) or LSU (large subunit), have revealed the evolutionary relationships between many taxa of smut fungi. However, there are few phylogenetic studies available for smut fungi (see chapter 1.5.1), and much work is needed to develop backbone phylogenetic trees and to resolve species complexes of many smut fungi.
This thesis reports the results of six different studies that aimed to develop new and improved tools for the phylogenetic analyses of smut fungi, and then apply these methods to selected groups of smut fungi. The first study (Kruse et al. 2017a, Chapter 3) developed a method to improve the amplification of ITS sequences of some smut fungi. Due to its high discrimination value, the ITS gene region is widely used as a barcoding locus for species delimitation of fungi. For this purpose, the general ITS primers ITS1 and ITS4 or more specific modifications, e.g. ITS1F for Ascomycota, ITS4B for Basidiomycota or M-ITS1 for smut fungi, were used. As these primer combinations often yielded unsatisfactory results, due to coamplification of other (contaminant) fungi or the host plant DNA, improvement of the amplification of the ITS region was needed. In order to design new smut specific primers for the ITS region, a representative set of several sequences of the flanking regions of the ITS region (LSU and SSU) of smut fungi, plants and other fungi were downloaded from GenBank. A set of primers was designed on this dataset. These primers were tested on a representative set of about 70 different smut genera under different PCR conditions. Finally, three different primers, one forward primer, smITS-F, and two reverse primers, smITS-R1 and -R2, were selected as the best ones. The following tests with different combinations of these primers, and also under inclusion of the M-ITS1 primer, showed only slight differences in the number of different genera that successfully amplified. But there were some differences regarding the genera that amplified. A broader test on 205 samples in 39 genera showed that the PCR efficiency of the newly designed primers was much better than the primer set ITS4/M-ITS1. With the primers designed in this study almost no non-target ITS was amplified, giving new opportunities especially for amplifying ancient DNA or DNA from older herbarium samples. However, many species groups remain unresolved by only one gene region.
The second study (Kruse et al. 2017c, Chapter 4) found new loci and suitable primers that better resolved multi-locus trees. To date, the most frequently used loci for making multi-locus trees are SSU (small subunit), LSU (large subunit) and ITS (internal transcribed spacer). While the LSU is not always sufficient to distinguish between closely related species, it is highly discriminative above the species level. In an effort to increase the phylogenetic resolution of smut phylogenies, some protein-coding genes were used, including rpb1, rpb2, and atp6 with varying success (see Chapter 2.1.2). As most of these loci are seldom used or sometimes only work on pure cultures because of their low specifity, new protein-coding loci were identified that produced reliable phylogenetic trees. Based on five available genomes, potential gene loci were filtered for possible primers. Initially, 40 different primer combinations for 14 gene loci were tested on a set of twelve different genera of smut fungi. The best candidates were selected and optimized during further tests. Finally, 22 different forward primers and 17 different reverse primers for nine different gene regions were developed, with each differentiating at least one genus of smut fungi (preferably for Ustilaginomycetes). The different primers showed varying discriminative power for different smut genera. They worked best for the Ustilaginaceae, based on the primer designed from Ustilaginomycetes genomes. These new primer sets and loci have the potential to resolve different species groups within the smut fungi and furthermore to produce reliable phylogenetic trees with high resolution. To prove their applicability, three species complexes were investigated in-depth, two from the Ustilaginomycetes and one from the Exobasidiomycetes.
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Feathers are arranged in a precise pattern in avian skin. They first arise during development in a row along the dorsal midline, with rows of new feather buds added sequentially in a spreading wave. We show that the patterning of feathers relies on coupled fibroblast growth factor (FGF) and bone morphogenetic protein (BMP) signalling together with mesenchymal cell movement, acting in a coordinated reaction-diffusion-taxis system. This periodic patterning system is partly mechanochemical, with mechanical-chemical integration occurring through a positive feedback loop centred on FGF20, which induces cell aggregation, mechanically compressing the epidermis to rapidly intensify FGF20 expression. The travelling wave of feather formation is imposed by expanding expression of Ectodysplasin A (EDA), which initiates the expression of FGF20. The EDA wave spreads across a mesenchymal cell density gradient, triggering pattern formation by lowering the threshold of mesenchymal cells required to begin to form a feather bud. These waves, and the precise arrangement of feather primordia, are lost in the flightless emu and ostrich, though via different developmental routes. The ostrich retains the tract arrangement characteristic of birds in general but lays down feather primordia without a wave, akin to the process of hair follicle formation in mammalian embryos. The embryonic emu skin lacks sufficient cells to enact feather formation, causing failure of tract formation, and instead the entire skin gains feather primordia through a later process. This work shows that a reaction-diffusion-taxis system, integrated with mechanical processes, generates the feather array. In flighted birds, the key role of the EDA/Ectodysplasin A receptor (EDAR) pathway in vertebrate skin patterning has been recast to activate this process in a quasi-1-dimensional manner, imposing highly ordered pattern formation.
The objectives of this thesis were to understand how distinct classes of cell types interact to shape oscillatory activity in cortical circuits of the turtle. We chose the turtle cortex as a model system for cortical computations for two reasons. One is that the phylogenetic position of turtles makes their cortex functionally and anatomically particularly interesting. The second is that reptilian brains present several unique experimental advantages. Turtles have a three-layered cortex that forms the dorsalmost part of their pallium and receives direct input from visual thalamus. Thus turtle cortex, while sharing several features with mammalian cortices, constitutes a simpler system for studying cortical computations and dynamics. Freshwater turtles are semiaquatic species, that dive for hours and hibernate for months without breathing. Their brains are adapted to these behaviors so that they can operate under severe anoxia. This property allows for ex vivo wholebrain and whole-cortex (”cortical slab”) preparations in vitro, enabling the use of many sophisticated techniques for monitoring activity in parallel.
I thus set out to utilize the advantages of our model system, by using optogenetic methods to reliably evoke oscillations in an ex vivo whole-cortex preparation while observing activity in parallel with planar multi-electrode arrays (MEA), linear silicon depth-electrodes and patch-clamp recording techniques. This required several technical aspects to be solved. Prior work in turtle cortex (Prechtl, 1994; Prechtl et al., 1997; Senseman and Robbins, 2002) indicated that visual stimuli evoke complex activity patterns (e. g. wave patterns) in dorsal cortex. The goal was to examine these dynamics in detail and to provide mechanistic explanations for them whenever possible. The recent advent of optogenetics, the development of microelectrode arrays, and the possibility to combine these techniques with classical electrophysiological approaches on a resistant, accessible and stable preparation led me to explore a number of technical avenues.
First I had to establish gene delivery methods in reptiles. I settled on recombinant viruses, and show results from several serotypes of adeno-associated virus (AAV), i lentivirus and rabies virus. I report successful gene expression of genes of interest with several subtypes of AAV, including the commonly used AAV2/1 and AAV2/5 serotypes. Second I had to find promoters enabling global and cell-type specific gene expression in reptiles. Ubiquitous high-yield promoters such as CAG/CB7 or CMV drive high levels of expression in turtles; cell-type specific promoters such as hSyn (expression limited to neurons) and CaMKIIa (expression limited exclusively o mostly to excitatory neurons) appear similarly biased in turtles. Other cell-type specific promoters reported in the literature (fNPY, fPV, fSST) failed to express in turtles.
A second major aspect of my work focused on electrophysiological recordings using microelectrode arrays and the interpretation of extracellular signals recorded from cortex in ex vivo preparations. We observed that spike signals produced by pyramidal and inhibitory neurons were very often followed by a slower potential. We identified these slower potentials as reflections of synaptic currents, and thus of the axonal projections of the neurons, at least within the deep layers of cortex. This also resulted in a means to classify neurons as excitatory or inhibitory with much higher reliability than classical methods (e. g. spike width). The final aspect of my work concerns the use of optogenetics to dissect the mechanisms of cortical oscillations and wave propagation. I show that oscillations can be induced by light in turtle cortex after transfection with AAV2/1 carrying the gene for channelrhodopsin 2 (ChR2). By using the CaMKIIa promoter, ChR2 induced currents are limited to LII/III excitatory cells; we can therefore control excitatory drive to cortical networks. If this drive is strong enough, layer III inhibitory interneurons are recruited and fire in a concerted fashion, silencing the excitatory population. The visually evoked 20 Hz oscillations observed in chronically recorded animals (Schneider, 2015) or in anaesthetized animals (Fournier et al., in press) thus appear to result from a feedback loop between E and I cells within layers II & III. Details of these interactions are being investigated but - layer I interneurons, by contrast, do not seem to be involved. By pulsing light I could control the frequency of the oscillations within a range of several Hz around the natural oscillation frequency. Above this range, cortex could only follow the stimulus at a fraction (1/2, 1/3,...) of the light pulse frequency. Using a digital micromirror device, I limited activation of the cortical networks spatially, enabling the study of wave propagation in this system.
Reptilian cortex offers a relatively simple model system for a reductionist and comparative strategy on understanding cortical computations and dynamics. Turtle dorsal cortex could thus give fundamental insights to the primordial organization tional, computational and functional principles of cortical networks. These insights are relevant to our understanding of mammalian brains and may prove valuable to decipher fundamental questions of modern neuroscience.
The trade in bear parts for medicine and for status is a conservation challenge throughout Asia. The Asiatic black bear (Ursus thibetanus) and the sun bear (Helarctos malayanus) are endemic to this region, and populations are estimated to have declined throughout their ranges due to widespread illegal killing of bears and trade in parts, combined with loss of habitat. Previous studies have indicated that legislation alone is insufficient to prevent illegal hunting and trade, indicating instead a need to address demand for bear parts and products. We conducted mixed-method surveys in Cambodia to understand the key motivators for individuals to consume bear parts, and to understand whether specialised questioning techniques are applicable in this context. Bear part use is illegal in Cambodia and may therefore be considered a sensitive behaviour, in that individuals may be reluctant to admit to it. To counteract possible biases, four specialised questioning techniques were used in this study: randomised response technique (RRT), unmatched count technique (UCT), nominative technique (NT), and false consensus bias (FCB). All four methods serve to shield a respondent’s admittance of a sensitive behaviour from the interviewer. The results presented here show that great variability exists in anonymous methods’ efficacy in certain contexts. However, the results overall indicate that individuals in Cambodia are under-reporting their consumption of bear parts when directly asked, and that the prevalence of bear part use in Cambodia may be as high as 15% of the population, representing a significant conservation challenge.
To date, chemicals are used ubiquitous in everyday life and an increasing consumption of pharmaceuticals and personal care products and industrial chemicals results in an increased water pollution. Conventional wastewater treatment plants are not able to completely remove the variety of (polar) organic compounds from today’s wastewater and thus serve as constant key point sources for the unintentional release of (micro-)pollutants into the aquatic environment. Anthropogenic micropollutants are detectable in very low concentrations in almost every aquatic compartment and may cause adverse effects on aquatic organisms. Considering the current situation of water pollution and to enhance water quality with regard to environmental and human health, the implementation of advanced wastewater treatment technologies, such as ozonation and activated carbon filtration was extensively discussed and investigated in recent years. Yet, besides their advantages regarding the efficient removal of a variety of recalcitrant, organic compounds as well as pathogens from the wastewater, it is known that especially the treatment with ozone may lead to the formation of largely unknown ozonation by-products with often unknown toxicity and unknown threats to human and the environment. To address these topics the joint research project TransRisk aimed at the “characterization, communication and minimization of risks originating from emerging contaminants and pathogens in the water cycle”. Within this research project the present thesis focuses on the ecotoxicological investigation of emerging waterborne contaminants, including their potential transformation products (TPs). Additionally, focus was laid on the investigation of combined effects of anthropogenic contaminants and pathogens with effects especially on aquatic invertebrate organisms.
The potential ecotoxicological effects of the antiviral drug acyclovir and two of its structurally identified TPs, were investigated on three aquatic organisms (Raphidocelis subcapitata, Daphnia magna and embryos of Danio rerio). While the parent compound acyclovir caused no acute toxicity up to a tested concentration of 100 mg/l on any of the investigated organisms, both TPs were shown to exhibit an increased aquatic toxicity. Carboxy-acyclovir, the biodegradation product of acyclovir, significantly reduced reproduction of D. magna by 40% at 102 mg/l, and the ozonation product COFA significantly inhibited growth of green algae R. subcapitata (EC10 = 14.1 mg/l). In the present case, advanced wastewater treatment was shown to lead to the formation of TPs, that reveal a higher toxicity towards investigated organisms, than the parent compound. Results highlight the necessity of further research related to the topic of identification and characterization of TPs, formed during advanced wastewater treatment processes.
To investigate the potential reduction or enhancement of toxic effects of nine differently treated wastewater effluents, selected bioassays with Daphnia magna, Lumbriculus variegatus and Lemna minor were conducted in flow-through test systems on a pilot treatment plant. The different treatment processes included ozonation of conventional biological treatment, with subsequent filtration processes as well as membrane bioreactor treatment in combination with ozonation. While exposure to the conventionally treated wastewater did not result in significant impairing effects on D. magna and L. minor, a reduced abundance of L. variegatus (by up to 46%) was observed compared to the medium control. Subsequent ozonation and additional filtration of the wastewater enhanced water quality, visible in an improved performance of L. variegatus. In general, direct evidence for the formation of toxic TPs due to the advanced wastewater treatments was not found, at least not in concentrations high enough to cause measurable effects in the investigated test systems. Additionally, no evidence for immunotoxic effects of the investigated wastewater effluents were observed. Yet, study-site- and species-specific effects hindered the definite interpretation of results. That underline the importance of a suitable test battery consisting of representatives of different taxonomic groups and trophic levels, to ensure a comprehensive evaluation of the complex matrix of wastewater and to avoid false-negative or false-positive results.
With aim to improve knowledge regarding immunotoxicity in invertebrates, the potential immunotoxic effects of the immunosuppressive pharmaceutical cyclosporine A (CsA) were investigated by applying the host-parasite model system Daphnia magna – Pasteuria ramosa in an adapted host resistance assay. Co-exposure to CsA and Pasteuria synergistically affected long-term survival of D. magna. Additionally, the enhanced virulence of the pathogen upon chemical co-exposure was expressed in synergistically increased infection rates and an increased speed of Pasteuria-induced host sterilization. In conclusion, results provide evidence for a suppressed disease resistance in a chemically stressed invertebrate host, highlighting the importance of investigating the conjunction of environmental pollutants and pathogens in the environmental risk assessment of anthropogenic pollutants.
Die Analyse früher Entwicklungsstadien von Säugetierembryonen und daraus gewonnener Stammzelllinien kann entscheidende Erkenntnisse im Bereich der Reproduktionsbiologie und der regenerativen Medizin hervorbringen. Dabei spielt die Maus, als geeignetes Modellsystem für die Übertragbarkeit auf den Menschen eine wichtige Rolle, in erster Linie weil die Blastozysten der Maus verglichen mit menschliche Blastozysten eine morphologische Ähnlichkeit aufweisen. Humane embryonale Stammzelllinien haben großes Potential für die Anwendung in der regenerativen Medizin und vergleichend dazu wurde Gen-Targeting in embryonalen Stammzellen verwendet, um tausende neuer Mausstämme zu generieren. Die Gewinnung embryonaler Stammzellen erfolgt im Blastozystenstadium, diese können dann nach Injektion in eine andere Blastozyste zur Entwicklung aller Gewebearten, einschließlich der Keimbahngewebe, beitragen (Martin, 1981; Evans and Kaufman 1981).
Ursache einer Fehlgeburt können vor allem Defekte in der Entwicklung des Trophoblasten und des primitive Entoderms (PrE) sein, dabei sind ca. 5 % der Paare betroffen die versuchen ein Kind zu bekommen (Stephenson and Kutteh, 2007). Eine Untersuchung dieser Zelllinien im Mausmodell könnte weitere Erkenntnisse für die Gründe einer Fehlentwicklung liefern. Trophoblasten Stammzelllinien können aus den Blastozysten der Maus und dem extraembryonalen Ektoderm von bereits implantieren Embryonen gewonnen werden (Tanaka et al., 1998). Diese Zelllinien geben Aufschluss über die Entwicklung des Trophoblasten, fördern die Entwicklung der Plazenta und sind gleichzeitig ein gutes Modellsystem um die Implantation des Embryos im Uterus näher zu untersuchen. Zellen des primitive Entoderms (PrE) beeinflussen das im Dottersack vorhandene extraembryonale Entoderm, welches dort als “frühe Plazenta” fungiert und für die Versorgung des Embryos mit Nährstoffen zuständig ist (Cross et al., 1994). Des Weiteren besitzt das Entoderm einen induktiven Einfluss auf die Bildung von anterioren Strukturen und die Bildung von Endothelzellen sowie Blutinseln (Byrd et al., 2002).
Extraembryonale Endodermstammzellen (XEN Zellen) können aus Blastozysten gewonnen und in embryonale Stammzellen (ES-Zellen) umgewandelt werden (Fujikura et al., 2002; Kunath et al., 2005). Es war jedoch nicht bekannt, ob XEN-Zellen auch aus Postimplantations-Embryonen gewonnen werden können. XEN-Zellen tragen in vivo zur Entwicklung des Darmendoderms bei (Kwon et al., 2008; Viotti et al., 2014) und könnten als alternative, selbsterneuernde Quelle für extraembryonale Endoderm-abgeleitete Zellen dienen, die zur Herstellung von Geweben für die regenerative Medizin verwendet werden könnten (Niakan et al., 2013).
In der Embryogenese der Maus zeigt sich an Tag E3.0 eine kompakte Morula die sich allmählich in das Trophektoderm (TE) differenziert, welches wiederum den Embryonalknoten (“innere Zellmasse”) umschließt (Johnson and Ziomek, 1981). Ein wichtiger Schritt im Rahmen der Entwicklung findet an Tag E3.5 statt, in diesem Zeitraum gehen aus dem Embryonalknoten der pluripotente Epiblast und das primitive Entoderm hervor. Im späten Blastozystenstadium an Tag E4.5 liegt das PrE als Zellschicht entlang der Oberfläche der Blastocoel-Höhle. Aus dem Epiblast entwickeln sich im weiteren Verlauf der Embryo, das Amnion und das extraembryonale Mesoderm des Dottersacks. Die Zellen des Trophektoderm führen zur Entwicklung der Plazenta. Das PrE differenziert sich im Zuge der Weiterentwicklung in das viszerale Entoderm (VE) und das parietale Entoderm (PE) des Dottersacks (Chazaud et al., 2006; Gardner and Rossant, 1979; Plusa et al., 2008). VE umgibt den Epiblast und extraembryonisches Ektoderm (ExE). PE-Zellen wandern entlang der inneren Oberfläche von TE und sezernieren zusammen mit Trophoblasten-Riesenzellen Basalmembranproteine, um die Reichert-Membran zu bilden (Hogan et al., 1980). Die Reichert-Membran besteht aus Basalmembranproteinen, einschließlich Kollagenen und Lamininen, die zwischen den parietalen Endoderm- und Trophoblastzellen liegen. Diese Membran wirkt als ein Filter, der dem Embryo den Zugang zu Nährstoffen ermöglicht, während er eine Barriere zu den Zellen der Mutter bildet (Gardner, 1983).
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Angesichts heutiger Umweltprobleme ist die Stärkung positiver Mensch-Natur-Beziehungen wichtiger denn je. Zeitgenössische Umweltbildung zielt darauf ab, Motivation und Einstellungen zu fördern sowie eine grundlegende Wissensbasis zu schaffen (IUCN, UNEP, & WWF, 1991; Potter, 2010), um einen selbstbestimmten, verantwortungsvollen Umgang mit der Natur zu ermöglichen. Positiver Naturbezug und Umwelteinstellungen gelten als Basis für aktiven Umweltschutz. Direkte Naturerfahrungen gelten dabei als didaktische Möglichkeit, die Motivation für Umweltschutz zu festigen (Kaiser, Roczen, & Bogner, 2008). Einstellungen verändern sich im Laufe des Lebens und so kann das Alter eine wichtige Rolle bezüglich der Effektivität von Umweltbildungsprogrammen spielen (Ernst & Theimer, 2011). Auch Umweltwissen gilt als Grundlage von Umwelthandeln. Denn sinnliche Erfahrungen allein führen nicht zum Verständnis ökologischer Zusammenhänge (Frick, Kaiser, & Wilson, 2004; Liefländer, Bogner, Kibbe, & Kaiser, 2015). Die biologiedidaktische Forschung sieht Fakten-, Handlungs- und Effektivitäts-wissen als zentral für die Genese von Umwelthandeln (Frick, Kaiser, & Wilson, 2004). Isoliertes Fachwissen wiederum führt nach aktueller Erkenntnis auch nicht zur Entwicklung von Haltungen und Wertvorstellungen, welche unser Handeln beeinflussen (Barr, 2003; Finger, 2010; Leiserowitz, Kates, & Parris, 2005).
Bis heute sind altersbasierte Unterschiede bei Schülerinnen und Schülern bezüglich ihrer Naturverbundenheit und Umwelteinstellungen nicht hinreichend untersucht. Auch ist die nötige Dauer der Naturerfahrungen noch nicht nachgewiesen. Es gibt bislang keine Studie, die Umwelteinstellungen, -wissen und –handeln von Kindern verschiedener Regionen der Erde untersucht und Daten auf internationaler Ebene erhoben und ausgewertet hat. Die gezielte Integration der drei Umweltwissensarten in ein solch globales Umweltbildungsprojekt stellt eine zusätzliche bislang nicht angegangene Aufgabe dar. Die vorliegende Arbeit schließt diese Forschungslücken, indem sie auf internationaler Ebene jene Variablen mit einbezieht, die einen nahezu vollständigen Eindruck der Effektivität von Umweltbildung in verschiedenen Regionen, Sozialisationen und Altersklassen zulässt. So wird der Einfluss eines umfassenden Umweltbildungsprogramms auf Naturverbundenheit, Umwelteinstellungen und -wissen der verschiedenen Typen untersucht und ein Bezug zur eventuellen Veränderung des Umwelthandelns hergestellt. Dabei stehen sowohl traditionelle als noch unerforschte mögliche Einflussfaktoren im Fokus. Die Studie umfasst insgesamt 1454 Schülerinnen und Schüler aus Bangladesch, Malaysia, Deutschland und Singapur, die alle an dem Umweltbildungsprojekt „Global denken, lokal handeln – wir schützen unsere Umwelt!“ bzw. “Think global, act local – we protect our environment!“ teilgenommen haben.
Zur Messung der Naturverbundenheit diente Schulz’ INS-Skala (Inclusion of Nature in Self) (2002). Umwelteinstellungen wurden mit dem 2-MEV-Modell (Two Major Environmental Values) gemessen (Johnson & Manoli, 2011). Eine Skala zur Erhebung von Umweltwissen wurde eigens erstellt und hinsichtlich der drei Wissenstypen nochmals modelliert. Eine Skala zur Ermittlung von Umwelthandeln wurde auf Grundlage von Bögeholz (1999) erstellt. Alle Skalen waren Teil eines Fragebogens, welcher in Form eines Pre-, Post- und Follow-up-Test eingesetzt wurde. Kinder aus Parallelklassen, die nicht am Projekt teilnahmen, aber Klassenunterricht zu den jeweiligen Themen erhielten, dienten als Kontrollgruppen.
Die Ergebnisse bestätigen einen positiven Effekt außerschulischer Umweltbildung bezüglich der Entwicklung der untersuchten Variablen. So wurde nach der Teilnahme am eintägigen und auch nach dem fünftägigen Umweltbildungsprogramm eine signifikante Verstärkung des Naturbezugs gemessen, wohingegen die Kontrollgruppen keine messbare Veränderung zeigten. Jedoch nur die fünftägige Intervention führte auch zu nachhaltigen Veränderungen. Hierbei am stärksten beeinflusst wurden Kinder zwischen sieben und neun Jahren.
Bei der Untersuchung demographischer Einflussfaktoren auf Umwelteinstellung, -wissen und –handeln stellten sich das Wohnsitzland sowie die städtische bzw. ländliche Prägung der Wohngegend als entscheidend heraus. So waren dies die einflussreichsten Determinanten zur Vorhersage des Grundvorhandenseins sowie Veränderungen der untersuchten Variablen in Folge der Bildungsmaßnahme. Einzig bei der Entwicklung des Umwelthandelns schien die direkte Naturerfahrung unwesentlich, zeigten die Kontrollgruppen ähnlichen Wandel in ihrem aktiven Einsatz für die Umwelt. Im internationalen Vergleich scheint die komplexe Verkettung diverser einflussnehmender Faktoren, wie der Wohlstand des jeweiligen Staates, das generelle politische System sowie spezifische bildungspolitische Begebenheiten, den Erfolg von Umweltbildungsprogrammen mit zu bestimmen.
Die Daten zeigen, dass Faktenwissen Grundlage für Handlungs- und Effektivitätswissen ist. Alle Dimensionen wurden durch die Intervention signifikant gesteigert. Effektivitätswissen wuchs am stärksten. Auch das Umweltverhalten wurde positiv verstärkt. Jedoch ließen sich nur schwache Korrelationen zwischen den einzelnen Wissenstypen und Handeln feststellen. Zusammenfassend war das durchgeführte Bildungsprojekt erfolgreich in der Förderung von Naturverbundenheit sowie Umwelteinstellungen, -wissen und- handeln. Die Ergebnisse werden im Rahmen dieser Arbeit im Hinblick auf ihre Bedeutung für die schulische Umweltbildung sowie die didaktische Forschung erörtert.
A major driving force for the adaptation of bacteria to changing environments is the uptake of naked DNA from the environment by natural transformation, which allows the acquisition of new capabilities. Uptake of the high molecular weight DNA is mediated by a complex transport machinery that spans the entire cell periphery. This DNA translocator catalyzes the binding and splitting of double‐stranded DNA and translocation of single‐stranded DNA into the cytoplasm, where it is recombined with the chromosome. The thermophilic bacterium Thermus thermophilus exhibits the highest transformation frequencies reported and is a model system to analyze the structure and function of this macromolecular transport machinery. Transport activity is powered by the traffic ATPase PilF, a soluble protein that forms hexameric complexes. Here, we demonstrate that PilF physically binds to an inner membrane assembly platform of the DNA translocator, comprising PilMNO, via the ATP‐binding protein PilM. Binding to PilMNO or PilMN stimulates the ATPase activity of PilF ~ 2‐fold, whereas there is no stimulation when binding to PilM or PilN alone. A PilMK26A variant defective in ATP binding still binds PilF and, together with PilN, stimulates PilF‐mediated ATPase activity. PilF is unique in having three conserved GSPII (general secretory pathway II) domains (A–C) at its N terminus. Deletion analyses revealed that none of the GSPII domains is essential for binding PilMN, but GSPIIC is essential for PilMN‐mediated stimulation of ATP hydrolysis by PilF. Our data suggest that PilM is a coupling protein that physically and functionally connects the soluble motor ATPase PilF to the DNA translocator via the PilMNO assembly platform.
Bakterien sind wahre Überlebenskünstler. Im Laufe der Evolution haben sie zahlreiche Strategien entwickelt, sich an schnell veränderliche, unsichere Umweltbedingungen anzupassen. So ist ihr Stoffwechsel wesentlich ausgeklügelter als derjenige des Menschen. Sie können innerhalb von Minuten ihre Genexpression anpassen und zur Not auch jahrzehntelang in Sporenform auf bessere Zeiten warten.