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Cyanobacteria belong to the most widely distributed microorganisms in the biosphere and contribute significantly to global primary production. Their metabolism is based on oxygenic photosynthesis and some cyanobacteria can fix elemental nitrogen. Obligate photosynthetic diazotrophs have a particularly high iron demand in comparison to heterotrophic bacteria. Nevertheless the understanding of iron acquisition in cyanobacteria is just beginning to emerge. Iron acquisition in bacteria comprises highly specific transport of siderophore-iron complexes over the outer membrane by TonB-dependent transporter (TBDT). The transport itself is active and energized by a multi-complex localized to the inner membrane termed the TonB-system (TonB-ExbB-ExbD). The siderophore-iron complexes are further transported into the cytosol by a binding protein dependent ABC-transporter. Cyanobacterial iron acquisition response has most extensively been studied in unicellular, non-siderophore synthesizing cyanobacteria in the genus Synechococcus and Synechocystis. Anabaena sp. PCC 7120, however, is a different model organism as it is a freshwater living, siderophore synthesizing and, truly multicellular microorganism. It can be assumed that siderophore synthesis and siderophore-dependent iron uptake are tightly coordinated processes, therefore Anabaena represents a different model organism as compared to non-siderophore producing cyanobacteria. Moreover the surprisingly abundant protein family of 22 putative TBDTs in Anabaena indicates a high complexity of TonB-dependent uptake systems. Sequence similarity analysis revealed 4 putative tonB encoding genes (alr0248, all3585, all5036, alr5329), 2 putative exbB-exbD encoding gene cluster (alr0643-alr0644, all5047-all5046), one single standing putative exbB encoding gene (alr4587) and several hypothetical binding-protein-dependent ATP binding cassette (ABC)-type transporter encoding genes (fhu-, fec- and fut-type transporter).
In this study the respond of the predeicted systems to iron-limiting conditions was analysed by qRT-PCR. The expression analysis revealed on the one hand an enhanced transcription of all5036 (tonB3), all5047-all5046 (exbB3-exbD3) and the fhu-like encoding genes (all0387-all0389) under iron-limitation and at the same time down-regulation of expression under enhanced iron concentrations. Summerizing the transcription profile of the tonB3- and the fhu-system showed an expression regulated by iron-availability. To further characterize the role of TonB3-, ExbB3- and the Fhu-system, mutants thereof were generated. None of the generated mutants, except for the exbB3 mutant, could be fully segregated, suggesting an essential character of the genes. Characterization of the mutants revealed enhanced expression of iron-starvatrion indicator genes (isiA, fhuA) and altered growth of the tonB3 mutant under iron-limiting conditions. The iron starvation phenotype was further strengthened by enhanced siderophore secretion in the tonB3, exbB3 and fhuC mutants. Taken as a whole the results strongly indicate involvement of the tonB3- and the fhu-system in siderophore-dependnet iron uptake in Anabaena.
Investigation of the tonB2 (all3585) mutant under iron and citric acid limitation resultated in altered growth of the mutant. However, growth could be restored by addition of iron chlorid. Therefore a connection of the TonB2 protein to iron uptake is implied and further supported by ressitance to toxic iron concentrations. Lastly, mutation of tonB1 (alr0248) reuslted in insensibility to toxic manganese and copper concentrations and macrolid antibiotics. The altered permeability of the outer membrane may be a result of decreased expression of seven putative porin encoding genes in the mutant. A possible role in transcriptional regulation of porin expression is discussed.
Reading is an essential ability to master everyday life in our society. The ability to read is based on specific connections between brain regions involved in the reading process – so-called cortical networks for reading. These cortical networks for reading allow us to learn the correct identification of visual words. The use of visual words is based on knowledge about the orthography (lexical) and the meaning of words (semantic). This knowledge must be acquired by beginning readers (first grader), i.e. beginning readers learn in a first step to link letters to a whole word and in a second step associate this whole word with meaning. To retrieve this knowledge during visual word recognition (VWR) a cortical network for lexical-semantic process must be activated. However, it is currently unclear whether beginning readers and reading experts activate the same neuronal network during VWR. Therefore, the aim of this thesis was to investigate the question whether beginning readers (first grader, children) and reading experts (adults) use different cortical networks for the lexical-semantic processing in VWR.
To address this question we recorded electroencephalographic (EEG) activity during VWR in children and adults. Children and adults were instructed to read a visualizable word to compare this word with a following picture stimulus. The first part of this thesis is concerned with the analysis of ERPs for visual word recognition in children and adults at sensor level. For both groups we observed the typical ERP components P100 and N170 for visual word recognition. These components differed in amplitude and time course between both groups. The second part of this thesis investigated the neuronal generators (brain areas) of ERPs during VWR and possible differences between children and adults at source level. We observed a high overlap in brain areas involved during VWR in children and adults. However, the brain areas differed in activation and time course between children and adults. Finally, the third and most important part of the thesis investigated the question whether children and adults use different cortical networks for the lexical-semantic processing in VWR over time. To address this question Dynamic Causal Modeling (DCM) and Bayesian model comparison were used. We compared nine biologically plausible cortical network models underlying the ventral lexical-semantic path in VWR. In addition, increasing time intervals were used to consider possible changes of network structure during VWR. The network models included eight brain regions (four bilateral pairs) involved in the lexical-semantic processing in VWR: occipital cortex (OC), temporo-occipital part of inferior temporal gyrus (ITG), temporal pole (TP), and inferior frontal gyrus (IFG). In almost all time intervals we found evidence that children and adults use the same cortical networks for the lexical-semantic processing in VWR. However, we found differences between adults and children in the connection strengths of the favoured model. Interestingly, we found a stronger direct connection from OC to IFG in adults compared to children.
In conclusion, our results suggest that children and adults activate largely the same lexical-semantic networks during VWR over time. This supports the notion that children and adults use the same biological fiber connections for VWR. However in contrast to children, adults showed increased use of the shortcut pathway from OC to IFG. The increased use of the shortcut pathway from OC to IFG in adults can be interpreted as consequence of learning. Learning causes in accordance with the Hebbian learning rule (“neurons that fire together, wire together” (Hebb, 1949)) synaptic change. Consequently the frequent coactivation of the input and output stage of OC and IFG during the lexical-semantic process facilitates the stronger direct connection between both brain areas. The stronger direct connection from OC to IFG most likely allows adult reading experts to speed up the lexical-semantic process during VWR. Accordingly, we conclude that the stronger direct connections from OC to IFG in adults compared to children underlay the different reading capabilities in both groups.
The metabolome of any live cell consists of several hundred, if not thousands of different molecules at any given moment, be it a relatively small bacterial cell or a whole multicellular organism. Although there are continuous attempts to differentiate between primary and secondary metabolites, the borders often blur in the eye of almost perfect interconvertability of all such matter. With chemistry and physics dominating this domain of biology it is an interdisciplinary endeavor to tackle the questions surrounding the workings of the metabolic pathways involved, searching for answers that ultimately help us to better understand life and find solutions to problems that affect us humans. One area of biochemistry that serves as a formidable example of the intertwined primary and secondary metabolic pathways are fatty acids, essential components of bacterial membranes, sources of energy and carbon but also important building blocks of several natural products. The second area to be mentioned is the metabolism of amino acids, the basic components of proteins and enzymes, which also serve as precursors to a diverse set of metabolites with many biological purposes.
This work focuses on these two areas of biochemistry, as several intermediates of their metabolism serve as building blocks for complex secondary metabolites whence many interesting and bioactive natural products are derived. The powerful and relatively novel tool of click-chemistry is employed to track azide-labeled precursors of primary and secondary metabolism in various bacterial strains to observe biochemistry at work and adds to the knowledge gained through other methods. The methods presented in this work serve the observation of fatty acid biosynthesis, degradation, modification and transport through direct ligation of azido fatty acids with cyclooctynes on one hand, leading to a revision of fatty acid transport in general. On the other hand a cleavable azide-reactive resin is devised to generally track the fate of azidated compounds through the myriads of metabolic pathways offered by entomopathogenic bacteria possessing a rich secondary metabolism. The resulting findings led to the identification of several antimicrobial peptides, amides and other compounds of which many had remained so far undetected in the strains that underwent investigation, underlining the worth of this method for future metabolomic research and beyond.
Snake bite envenoming often results in disability or death of breadwinners of poor families in the rural tropics and the subtropics of Nepal. Identification of the medically relevant snake species, circumstances of venomous snake bites, prehospital care of their bites and human responses to snakes and snake bite is, therefore, crucial to enable victims or first aider to select the appropriate first aid measures, physicians to anticipate complications and to use appropriate treatment protocols as well as the local community to implement prevention strategies. Inadequate educational gaps exist in Nepal and hinder identification of snakes involved in bites. To fill this gap, I aim to provide an evidence-based list of medically relevant snake species. Snake specimens brought by patients bitten or their attendants from the tropical and subtropical regions in southeastern, southcentral, and southwestern Nepal to snake bite treatment centres over a period from 2010 through 2014, were taxonomically identified and medical records of envenoming were evaluated.
In Nepal, the epidemiology of snake bite is poorly known. Here I describe the ecological circumstances of proven krait (Bungarus spp.) and Russell´s Viper (Daboia russelii) bites to elucidate and examine, whether environmental circumstances or human behaviour contributed to envenoming. In a cross-sectional study, data about prehospital care, environmental circumstances of 46 krait and 10 Russell´s Viper bites were evaluated. Patients were interviewed using structured interview forms. Snake bite prone communities were surveyed to test people´s knowledge on snakes and their attitude towards venomous snakes in general.
Of 349 snakes involved in bites, 199 (57%) specimens were found to be medically relevant venomous snakes that included 11 species belonging to six genera and two families. Among them, Naja naja (n = 76, 22%), Bungarus caeruleus (n = 65, 19%) and Trimeresusurs albolabris (n = 10, 3%) were the most widely distributed snakes. Daboia russelii (n = 10, 3%) was found to be restricted to the southwestern part of Nepal. For B. walli, a previously poorly known species, 13 voucher specimens represent the first country records of this species as well as the first documented cases of involvement in snake bite envenoming by this species in Nepal.
Numerous snake bites (33%) occurred at night, during the rainy season, and are mainly due to Bungarus species, particularly B. caeruleus. Bites of cobras and Russell’s Vipers are a risk at daytime. Evaluation of data regarding the place where the bite happened, indicates that the snake bite risks appear to be as high in residential areas, in and around houses, as in rural areas. In cases of kraits (n = 46), 61% of the bites occurred while the victim was sleeping indoors, those of Russell´s Vipers mainly during agricultural activities in the fields. Analysis of socio-demographic data revealed that both krait and viper bites predominantly affected farmers or their family members. However, snake bites involved also people of higher socio-economic status, which suggests that it is not a health problem of poor people only living in the rural areas of Nepal.
A small number of snake bite victims (n = 7) sought help from traditional healers, but most patients went to hospitals for medical treatment using motorbikes (65%) or were transferred by ambulance cars (22%). As a first aid measure, most patients (78%) had used a tourniquet, which is of doubtful value and has often severe sequelae, instead of applying the WHO recommended pressure immobilisation bandage or local compression pad. The overall case fatality rate was calculated to be 10%, but up to 17% in cases of Bungarus spp. bites.
Rural community people were found to be extremely afraid of snakes, a major reason for indiscriminate killing of even harmless snakes, e.g., Lycodon aulicus, which were wrongly considered to be venomous. This is mainly due to the poor knowledge on snakes in general and on their role in providing ecological services, which may eventually lead to a decline in snake populations and even the extinction of rare species.
The results of the present study strongly emphasize that snake bite is an important public health issue in Nepal. There is an urgent need to improve the knowledge of people on snakes and to try changing their attitudes towards these reptiles, in addition to documenting the biodiversity and distribution of medically relevant snakes, the epidemiology and circumstances of their bites. Avoiding high-risk behaviour (e.g., killing of snakes), using screened doors and windows are some of the suggested measures preventing snake bite. Early and accurate identification of the snakes involved should help physicians to apply timely treatment, eventually referring the patient to the appropriate hospital. This also has important implications in developing public health and conservation strategies, to the benefit of the people of Nepal.
Vascular tumors associated with chronic B. henselae infections are unique examples of infection-associated pathological angiogenesis. The chaotic vascular architecture and prominent myeloid infiltrate of B. henselae induced vascular lesions show many similarities with malignant tumors.
In human cancers infiltrating myeloid cells play a decisive role in tumor progression and vascularization. In particular, tumor associated macrophages (TAMs) transform the tumor microenvironment, drive tumor invasion and vascularization through secretion of pro-angiogenic and immune modulatory cytokines and participation in matrix remodeling processes.
Myeloid angiogenic cells (MACs) are a subset of circulating myeloid progenitors with important roles in regenerative and pathological angiogenesis and a critical involvement in tumor vascularization. The phenotypic plasticity and importance of MACs in pathological angiogenic processes, position these cells as key potential players in B. henselae associated vascular tumor formation.
To investigate the possible role of MACs in B henselae induced pathological angiogenesis, the objective of this study was to examine the interaction of B. henselae with MACs and determine how this may affect their angiogenic capacity.
Building on previous work by Mӓndle (2005) this study has demonstrated that MACs are susceptible to infection with B. henselae and reside in intracellular vacuoles. As in endothelial cells, infection of MACs with B. henselae was associated with inhibition of apoptosis and activation of endogenous angiogenic programs including activation of the angiogenic transcription factor HIF-1.
In addition to angiogenic re-programming on a molecular level B. henselae infection increases MAC functional angiogenic capacity. B. henselae infected MACs were found to integrate into growing endothelium and increase the rate of angiogenic sprouting in a paracrine manner.
When cultured in a Matrigel capillary formation assay, infected MACs were also found to form networks of capillary-like structures that were stable over long periods of time. The B. henselae pathogenicity factor BadA was essential for the induction of this vascular mimicry phenotype as well as the activation of HIF-1 in infected MACs indicating that this factor may play an important role in MAC angiogenic re-programming.
Examination of infected MACs via FACS analysis, cytospin immunohistochemistry and qRT-PCR revealed that endothelial differentiation does not play a role in the B. henselae induced pro-angiogenic phenotype. Instead, MACs were shown to be myeloid in phenotype displaying typical macrophage markers which were upregulated upon B. henselae infection and maintained over long-term culture.
The increased angiogenic activity of B. henselae infected MACs was found to be associated with a broad phenotypic reprogramming in infected cells. In particular, gene expression programs related to angiogenesis, structural organization, apoptosis, sterol metabolism and immune regulation, were upregulated. Further examination of microarray gene expression profiles revealed that B. henselae infected MACs display a predominantly M2 anti-inflammatory macrophage activation status.
Finally, examination of the paracrine microenvironment created by B. henselae infected MACs revealed a diverse cytokine secretion profile dominated by inflammatory-angiogenic cytokines and matrix remodeling elements and lacking expression of some of the most important cytokines involved in the expansion of the inflammatory response. This B. henselae induced activation status was demonstrated to be distinct from the general inflammatory response induced by E. coli LPS treatment.
Comparison of B. henselae infected MACs to TAMs revealed many parallels in functional and phenotypic characteristics. Both TAMs and B. henselae infected MACs demonstrate increased angiogenic capacity, invasive, and immune modulatory phenotypes and the ability to participate in the formation of vascular mimicry phenotypes under angiogenic pressure. Furthermore, the pro-angiogenic paracrine microenvironment created by B. henselae infected MACs shows many similarities to the TAM-created tumor-microenvironment.
In conclusion, these investigations have demonstrated that the infection of MACs with B. henselae results in the phenotypic re-programming towards TAM-like cells with increased pro-angiogenic, invasive and immune-modulatory qualities. The results of this study elucidate new aspects of B. henselae pathogenicity in myeloid cells and highlight the role of these cells as paracrine mediators of B. henselae induced vascular tumor formation. In addition, these findings demonstrate that manipulation of myeloid cells by pathogenic bacteria can contribute to microenvironmental regulation of pathological tissue growth and suggest parallels underlying bacterial infections and cancer.
Die vorliegende Dissertation mit dem Titel: Ecophysiological monitoring of Oaks in Central Europe, introduced in the framework of proactive climate change mitigation beschäftigt sich mit der Anwendung zerstörungsfreier, radiometrischer Methoden zur Bestimmung von Pigment- und Stickstoffkonzentrationen und der photosynthetischen Funktionalität in Blättern von heimischen und gebietsfremden Eichen und ihre Beeinflussung durch Trocken-, Hitze- und Kältestress.
Die Eichenarten Quercus robur L. (Stieleiche), Q. pubescens Willd. (Flaumeiche), Q. frainetto Ten. (Ungarische Eiche), Q. ilex L. (immergrüne Steineiche) und Q. rubra L. (amerikanische Roteiche) wurden im Frühjahr 2011 auf einer Versuchsfläche im Frankfurter Stadtwald gepflanzt, um ihre Nutzung als potentielle Waldbäume in einem sich ändernden Klima zu untersuchen. Über eine Dauer von zwei Jahren wurden diese Arten mit einem hohen Maß an blattspezifischer Merkmalsvariabilität beobachtet und beprobt. Ziel war es, die interspezifischen Unterschiede und die jahreszeitliche Dynamik von morphologischen und chemischen Blattmerkmalen sowie die Beeinflussung der radiometrischen Bestimmung des Chlorophyllgehaltes (und damit assoziierten Komponenten wie z.B. Blattstickstoffgehalt und Karotinoiden) und der photosynthetischen Funktionalität durch klimatische Umweltbelastungen in Eichen zu untersuchen. Die Analyse der Blattproben zielte neben der Bestimmung der Beziehung zwischen absoluten und optisch ermittelten Pigmentgehalten auf die Ermittlung des Einflusses der Blattstruktur auf die Lichttransmission im roten und infrarotem Bereich des Elektromagnetischen Spektrums ab, sowie auf die artspezifische Korrelation von Blattstickstoff zu Blattchlorophyll zu dessen indirekte Quantifizierung. Des Weiteren wurden Versuche zur Trocken- und Hitzestressanpassung durchgeführt, um eine potentiell artspezifische Stressantwort, sowie eine mögliche Beeinflussung der aufgenommenen radiometrischen Messwerte zu ermitteln. Ein zusätzliches Monitoringprogramm im Winter 2012/2013 mit einer Dauer von sechs Monaten ermöglichte die Überprüfung der Anpassungsfähigkeit der immergrünen Steineiche (Q. ilex) an mitteleuropäische Winterbedingungen und die Veränderung der photosynthetischen Funktionalität unter Kältestress. Messungen im Zusammenhang mit der praktischen Anwendbarkeit der zerstörungsfreien, optischen Methode und zur Bereitstellung von Referenzdaten für zukünftige Evaluierungen komplementieren die Untersuchungen.
Signifikante, artspezifische Unterschiede wurden in den blattmorphologischen Schlüsselmerkmalen in den Quercus-Arten ermittelt. Die artspezifischen Unterschiede in den morphologischen Blattmerkmalen beeinflussten auf signifikante Weise die Beziehung zwischen absoluten, massebasierten Pigment- und Stickstoffgehalten und deren radiometrischen Bestimmung. Wurden die Pigmentgehalte hingegen auf die Blattfläche bezogen und die Stickstoffgehalte mittels des Verhältnisses von Blattfläche zu Trockenmasse korrigiert, zeichnete sich eine Beziehung zwischen absoluten und optisch ermittelten Werten ab, der jegliche jahreszeitliche oder artspezifisch morphologische Variabilität fehlte und die somit für alle Quercus-taxa anwendbar ist. Koeffizienten für die Berechnung von flächenbezogenen Gehalten von Gesamtchlorophyll, Chl a, Chl b und Carotinoiden für die jeweiligen Quercus-taxa, wie auch für ein artübergreifendes Modell wurden ermittelt, um die Bestimmung dieser Gehalte während aller Entwicklungsstufen zu ermöglich. Aus der jahreszeitlichen Entwicklung der Pigmentgehalte konnten drei deutliche Phasen abgeleitet werden: Die Phase der Blattentwicklung im Frühling, einer Plateauphase mit geringen Veränderungen (“core vegetation time”) und die Phase des Pigmentabbaus während der Herbstlaubfärbung. Die Übergänge zwischen diesen Phasen variierten zum Teil erheblich zwischen einzelnen Individuen einer Art sowie zwischen den Arten, was Unterschiede in der potentiellen, jährlichen Kohlenstoffaufnahme nach sich zieht. Stressbedingungen, wie Hitze- Kälte- oder Trockenstress, können zu Veränderung von Fluoreszenzparametern ohne gleichzeitige Änderung des Pigmentgehaltes führen, wie auch die indirekte Bestimmung von mit Chl assoziierten Komponenten (Carotinoide, Chl a, Chl b) mittels optischer Bestimmung (durch die Veränderungen von Pigmentverhältnissen) beeinflussen.
Im Rahmen des Forschungsprojektes konnten, Modelle zur Berechnung von Blattpigmenten und Blattstickstoff aus optischem Messdaten, Veränderungen der photosynthetischen Funktionalität, sowie Referenzdaten für die zukünftig nutzbaren Eichenarten hinsichtlich artspezifischer und jahreszeitlicher Variabilität unter mitteleuropäischen Umweltbedingungen ermittelt werden, die eine Nutzung und Einordnung von zerstörungsfreien, optischen Messwerten zur Ermittlung von Vitalitätsunterschieden in Eichen ermöglichen.
Amphibians have existed on the planet for over 300 million years and are today one of the most diverse vertebrate classes in the world with over 7000 known species and still many more to be discovered. However, several studies assume that approximately one third of the world´s known living amphibians are directly threatened with extinction, making it the most endangered vertebrate class. In relation to the relatively small land mass that is occupied by the state of Panama, it supports one of the most diverse amphibian faunas. However, in many cases the ecological role of single species in a wider context and their habitat preferences are still poorly understood and subject to ongoing research. Modern taxonomic approaches in other tropical regions have shown that former assumptions of amphibian diversity were distinct underestimations of the actual species diversity; a situation that is probably also true for Panama. Concurrently, the collection of amphibian diversity data and the description of new species is a race against time. The amphibian fauna of the world and that of Panama in particular, has suffered from an unprecedented loss of diversity over the last 30 years. The reasons are manifold and include destruction, alteration, and fragmentation of their natural habitats as the main causes, but also the deadly amphibian disease chytridiomycosis caused by the fungal pathogen Batrachochytrium dendrobatidis (Bd). In Panama and Costa Rica, this Emerging Infectious Disease (EID) spread in a wave-like manner from west to east causing mass die-offs and reduced amphibian diversity even in well-preserved habitats. The disease has primarily affected stream-associated highland species. The last large-scale evaluation of the conservation status of Panama´s amphibians through the IUCN Red List of Threatened Species in 2004 concluded that approximately 30% of the known species are acutely threatened with extinction. Furthermore, around 17% of the amphibian species that have been known back then lacked adequate data to be assessed. In view of Panama´s already overwhelming amphibian diversity, as well as the variety of habitats and the large number of sites that have not been examined with regard to amphibians before, I started this study with the conviction that the inventory of Panama´s amphibian diversity is far from being completed. Furthermore, when I started this study, it was uncertain if there would be any surviving amphibian species in areas where chytridiomycosis had emerged. The loss of whole amphibian communities in upland western Panama following Bd arrival led to a shift of amphibian research to lowland sites in central and eastern Panama aiming primarily on pathogen arrival and the documentation of epizootic outbreak and subsequent population decline. The situation of amphibian communities in areas post-decline was therefore largely unknown. Accordingly, the main goals of my study were to add to the taxonomic inventory of amphibians in Panama and to assess the situation of amphibian populations in habitats where chytrid-driven declines have been observed. To address these tasks I conducted fieldwork in western Panama with a focus on mountainous elevations between 1000 and 3475 m asl. Additionally, I visited different lowland sites between sea level and 1000 m asl to collect comparative material. In the period between 2008 and 2013, I conducted five collection trips to Panama that add up to a total of approximately 13 months in the field. I have sampled nine regions in western Panama and collected 767 specimens together with student collaborators, 531 of which were collected under my personal field number. Additional data obtained from those specimens include 68 male anuran call recordings, 102 standardized color descriptions of specimens in life, and 259 tissue samples that to date yielded 185 16S mtDNA sequences. This comprises the most comprehensive data set for amphibians of Panama and the first large-scale DNA barcoding approach for western Panama to date. After a preliminary DNA barcoding and subsequent comparative examination of morphological und bioacoustic data of all specimens collected, the number of taxonomic problems that needed to be addressed was higher than I previously anticipated. For most genetic lineages deeper taxonomic analyses were required to reach conclusive results. A selection had to be made with which lineages to proceed in the analyses, in view of the substantial financial and time expenditure that would be needed for a complete taxonomic revision. Therefore, I chose to run deeper analyses on one genus from each of the three amphibian orders in Panama. The genera selection depended largely on the availability of sufficient material and the scientific relevance of the respective genus.
I selected the genus Diasporus from the order Anura. These small frogs are omnipresent in many habitats and thus relatively easy to find. In addition, the genus is underrepresented in taxonomic studies. This is the first taxonomic study on the genus Diasporus to include a molecular phylogeny and the first comparison of advertisement calls between several populations from western Panama. In total, I collected 67 Diasporus specimens throughout western Panama and compared them morphologically with 49 additional specimens from Central America in collections, including the primary types of D. diasporus and D. hylaeformis. Additional comparative data were taken from literature. The DNA barcoding analysis of a fragment of the 16S rRNA gene included 43 own sequences that were complemented with 15 relevant GenBank sequences. In addition, I compared the advertisement calls of 26 male individuals among each other and with call descriptions from the literature. The DNA barcoding approach revealed several unnamed genetic lineages, but in some cases also resulted in the lumping of morphologically and bioacoustically distinct specimens. Generally, the morphological examination of the collected material revealed almost no specific characters that could be used to distinguish between genetic lineages. However, it was possible to identify species using a combination of several morphological characteristics. Which ones are relevant in the individual case depends on the respective species. My extensive collection of call recordings made it possible to test for the first time the intraspecific call variation of D. hylaeformis in dependency of various parameters. This analysis showed that the dominant frequency depends significantly on the body size of the calling male; the smaller the calling male, the higher the frequency of the call. A similar relationship was observed between the call rate and temperature: the lower the temperature during calling, the lower the call rate. I suppose that these general patterns, which have already been observed in other anuran genera, are also true in other Diasporus species that could not be tested in this study. Taking into account the intraspecific variation of Diasporus advertisement calls, I consider comparative call analyses to be the best way to distinguish between species. This is especially true in syntopic species. Integration of the three lines of evidence (i.e., morphology, DNA barcoding, and bioacoustics) led to the identification of four new species, two of which (i.e., D. citrinobapheus and D. igneus) colleagues and I have already formally described.
I conducted an integrative taxonomic analysis of the western Panamanian representatives of the genus Bolitoglossa from the order Caudata, the larger of the two Panamanian salamander genera. Bolitoglossa is very species-rich with a centre of diversification in the high mountains of Costa Rica and western Panama. I collected 53 Bolitoglossa specimens and compared them to twelve specimens in collection, including the holotype and one paratype of B. gomezi. The dataset was complemented with information from the literature. Among the sampled specimens were two species considered to be endangered that have not been collected or observed for several decades; B. magnifica has not been seen for 34 years and B. anthracina has not been seen for 22 years. Further, I collected salamanders at several new locations. To date, my 16S mtDNA barcoding analysis represents the densest taxon sampling for Panamanian Bolitoglossa composed of 21 own sequences that were combined in the final alignment with 47 GenBank sequences. Even though the molecular phylogeny is based only on a single marker, the received trees largely coincide with previous studies and the nodes received high statistical support. In these trees, I retrieve all previously defined subgenera and species groups. On the basis of this molecular phylogeny, I placed B. anthracina, here sequenced for the first time, in the B. subpalmata species group. Due to the fact that B. anthracina is a large and dark colored species it had previously been placed by implication in the B. schizodactyla species group along with other large black salamanders of the B. nigrescens species complex. Moreover, I found deep divergent genetic lineages among geographically separated populations of B. minutula. However, until now there were no additional morphological characteristics detectable to distinguish between these lineages. Additionally, my colleagues and I described a new deep divergent lineage in the B. robinsoni species group as B. jugivagans, a species new to science. In contrast, I found only minor genetic differences between specimens of B. sombra and B. nigrescens. After combining morphometric data and tooth counts from literature of both species with additional data from specimens of B. sombra that I collected near the type locality, the distinguishing features blurred. In particular, including much larger specimens of B. sombra, not yet known at the time of its description, showed that the tooth count difference is dependent on the size and age of the specimen examined. Larger specimens have more maxillary and vomerine teeth. Based on this evidence I regard B. sombra as a junior synonym of B. nigrescens. Further, I revised the Panamanian distribution of the two relatively common lowland salamanders, B. colonnea and B. lignicolor. Besides filling the gaps in the fragmentary known distributions of these species, I assessed the molecular and morphological variation of both species among populations in Panama. While there was little variation in B. lignicolor, I found divergent genetic lineages among geographically distinct populations of B. colonnea that require further taxonomic examination.
Caecilians (order Gymnophiona) are among the least investigated terrestrial vertebrates. After I received a first specimen of the predominantly South American genus Oscaecilia (family Caeciliidae) in western Panama, I started to work more extensively on the taxonomy of Caeciliidae in Central America. The specimens from western Panama were not readily assignable to a single described species, but shared characters with O. elongata and O. osae. While O. osae was only known from the holotype, the type material of O. elongata was destroyed during World War II. On the basis of the original description, the unique feature in O. elongata within Oscaecilia is the absence of subdermal scales in the posterior part of the body. In a referred specimen of O. elongata mentioned in the original description from eastern Panama, this characteristic cannot be examined as it consists of head and neck only. Therefore, I used non-destructive high-resolution, synchrotron-based X-ray micro CT imaging (HRμCT) to examine cranial characters in the specimens in question and took normal radiographs to count vertebrae and to make subdermal scales visible. I found that the fragmented specimen from eastern Panama likely belongs to the well-sampled species O. ochrocephala and has not much in common with O. osae or the specimens from western Panama. Contrarily, O. osae and the specimens from western Panama share many morphological characters, but also show some differences. Genetic barcoding revealed that both species are close relatives, but the genetic distance could not be finally resolved, because 16S sequences obtained from blood samples of living O. osae were of poor quality. Thus, I compare the Oscaecilia from western Panama to O. osae in this study, but postpone a taxonomic decision until further material becomes available. Further, I designate O. elongata a nomen dubium, because the type material is lost, the type locality is not defined in more detail than “Panama”, and the original description does not allow for a definite assignment. Since previous molecular studies only considered O. ochrocephala, the monophyly of Oscaecilia was never tested before. So far, the genus Oscaecilia is based largely on a single cranial character, the eyes covered with bone. Here, I combined two 16S mtDNA sequences of O. osae from Costa Rica and two sequences from O. sp. from western Panama with two sequences of O. ochrocephala and ten sequences of four species of the genus Caecilia, the sister genus of Oscaecilia. The resulted phylogeny contains two well-supported clades, one clade containing two species of Caecilia, one from Panama and one from western Ecuador and all species of Oscaecilia tested. The other clade consists of two species of Caecilia from the Amazon basin. I therefore assume that the split in both clades is due to the rise of the Andes, what led to today’s cis-trans-Andean distribution of the two clades. For now, to restore monophyly, I suggest to place Oscaecilia within the synonymy of Caecilia until more taxa have been tested. When assessing the conservation status of the amphibian species in mountainous western Panama, I first compiled a list of known species that I potentially could have found during my fieldwork. Using the IUCN categories, I analyzed how many of the endangered species I actually found and how these are distributed over families and species groups. Surprisingly, my rediscoveries of lost species were not equally distributed among the four families that comprise most endangered amphibian species (i.e., Bufonidae, Craugastoridae, Hylidae, and Plethodontidae). While I discovered ten of eleven endangered hylids and six of nine endangered plethodontids, I found only one of four endangered bufonids and none of the nine endangered craugastorids. I assume that the secretive living plethodontids, for which no Bd related declines have been documented, were just overlooked in the past decades. In contrast, I propose that hylids, in which Bd related population decline is well documented, developed distinct evolutionary solutions permitting coexistence with the pathogen. The situation is obviously different in bufonids and craugastorids, where I found no signs of population recoveries at present. So far, the only surviving populations of species from these families exist in climatic or physiographic niches that have probably shielded them from Bd. My data confirm the current view that the risk for naïve amphibian populations to decline during Bd epizootics is predicted by ecological traits (e.g., aquatic index, vertical distribution) and not dependent on taxonomic affiliation. However, I propose that only certain amphibian families (e.g., hylids and centrolenids) have the ability to acquire immunity solutions to coexist with the pathogen during enzootic stages. This is a very new perspective on the worst infectious disease in amphibians worldwide, allowing for new research approaches to understand the host-pathogen dynamics. Moreover, I examined where the share of surviving endangered amphibian species is particularly high in mountainous western Panama. As was to be expected, most of the endangered species are found within the boundaries of protected areas. One exception is the unprotected Cerro Colorado region in the Comarca Ngöbe-Buglé that provides habitat for a wide variety of endangered and undiscovered amphibian species. Nonetheless, planned open pit mining would destroy the forests in a large part of the area. This demonstrates once again that human activities are the biggest threat to amphibians in Panama and elsewhere.
Die Spinozerebelläre Ataxie Typ 2 (SCA2) ist eine autosomal dominant vererbte neurodegenerative Krankheit, welche durch die Expansion des Trinukleotids Cytosin-Adenin-Guanin von ~22/23 auf >32 im Ataxin-2 Gen (ATXN2) verursacht wird. Dieses Trinukleotid codiert für die Aminosäure Glutamin weshalb SCA2 auch zu den Polyglutaminerkrankungen zählt. Zu dieser Gruppe zählen außerdem fünf weitere SCA-Subtypen sowie drei weitere neurodegenerative Erkrankungen, darunter die Huntington-Krankheit.
SCA2 wurde 1971 zum ersten Mal von Wadia und Swami beschrieben und unterscheidet sich von den anderen SCAs aufgrund der typischen Störung der sakkadischen Augenbewegungen. Weitere klinische Symptome von SCA2 sind Ataxie, Tremor, Dysmetrie, Dysarthrie, Hyporeflexie und Dysdiadochokinese. Die Symptome gehen auf einen neuronalen Verlust insbesondere im Cerebellum, aber auch in anderen Hirnregionen wie zum Beispiel dem Hirnstamm zurück.
Atxn2 wird in weiten Teilen des Zentralnervensystems aber auch in vielen nicht-neuronalen Geweben exprimiert. Es handelt sich um ein überwiegend cytoplasmatisch lokalisiertes Protein, welches im Gegensatz zu vielen anderen SCA-Proteinen cytoplasmatische und nur selten nukleäre Aggregate bildet. Die exakte Funktion von Atxn2 ist bisher unklar, es wurde allerdings mehrfach gezeigt, dass es in die mRNA Translation involviert ist aufgrund seiner Interaktion mit dem PolyA-bindenden Protein PABPC1.
Eine Expansion des Trinukleotids in Ataxin-2 kann nicht nur zu SCA2 führen, sondern stellt bei Wiederholungen zwischen 27 und 32 CAGs auch ein erhöhtes Risiko für eine Erkrankung an Amyotropher Lateralsklerose (ALS) und anderen neurodegenerativen Krankheiten dar. Eine Interaktion zwischen ATXN2 und dem ALS-verursachenden TDP43 (Tardbp) wurde bereits zahlreich beforscht, da Aggregate von ATXN2 in Motoneuronen des Rückenmarks von ALS-Patienten und aggregiertes TDP43 in SCA2-Neuronen beobachtet wurden.
Generell sind die Mechanismen, die zur Pathologie von SCA2 und ALS führen, noch weitgehend unklar. Ziel dieser Arbeit war es daher auf der einen Seite einen Einblick in den Pathomechanismus von SCA2 zu erhalten, indem mögliche oder bereits bekannte Interaktoren in etablierten Atxn2-Mausmodellen untersucht wurden. Auf der anderen Seite wurden zwei neue Mausmodelle charakterisiert, um ihre Eignung für die Erforschung von ALS und SCA2 zu prüfen.
Für den ersten Teil der Arbeit dienten Daten aus mehreren Transkriptomstudien von Atxn2-Knock-Out (KO) und Atxn2-CAG42-Knock-In (KIN) Mäusen als Grundlage. Konnten die Daten mit einer unabhängigen Methode bestätigt werden, folgten weitere Untersuchungen auf mRNA und Proteinebene sowie unter zusätzlicher Verwendung von Zellkultur und Patientenmaterial. Dadurch konnten neue Interaktionspartner von ATXN2 identifiziert und bereits bekannte in diesen Mausmodellen bestätigt werden.
So wurde zum Beispiel eine Interaktion von ATXN2 mit der E3-Ubiquitin-Protein-Ligasekomponente FBXW8 gezeigt und deren Beteiligung am Abbau von expandiertem ATXN2. Außerdem wurde eine Interaktion von FBXW8 mit dem bereits bekannten ATXN2-degradierenden Protein PARK2 gezeigt. Eine Hochregulierung des Fbxw8 Transkripts wurde sowohl im Atxn2-CAG42-KIN-Mausmodell als auch in SCA2-Patientenfibroblasten gefunden, während Park2 in keinem der Modelle signifikant veränderte Transkriptspiegel aufwies. Diese Daten belegen die Relevanz von Fbxw8 für den Abbau von moderat-expandiertem Atxn2 und begründen weitere Studien zur genauen Funktion dieses Proteins im Pathomechanismus von Atxn2.
Des Weiteren wurden diverse Kalziumhomöostasefaktoren untersucht, welche eine konsistente Herunterregulierung der Transkripte in beiden Mausmodellen aufwiesen. Auf Proteinebene zeigten sich jedoch Unterschiede zwischen den Modellen. Diese Daten belegen, dass zwar ähnliche Transkriptveränderungen im KIN- und KO-Modell auftreten, diesen aber vermutlich verschiedene Mechanismen zugrunde liegen. Welche Mechanismen dies genau sind bleibt zu klären, es ist jedoch wahrscheinlich, dass im KIN-Modell die Aggregatbildung sowie in beiden Modellen die Beteiligung von ATXN2 an der Translationregulation eine Rolle spielen. Die Ergebnisse dieser Studie unterstreichen die Relevanz des Ca2+ Signalwegs für die Entwicklung von SCA2.
Der zweite Teil der Arbeit beinhaltet die Charakterisierung einer ATXN2/TDP43 Doppelmutante auf Verhaltensebene sowie die gründliche Evaluierung des Phänotyps einer vollkommen neuen SCA2 Mausmutante. Während in der Doppelmutante trotz doppelter Genmutation nur ein sehr schwacher Phänotyp auf Verhaltensebene festgestellt werden konnte und bis zu einem Alter von 12 Monaten keine Potenzierung der Mutationen zu beobachten war, zeigte die Atxn2-CAG100-KIN Maus signifikante und früh auftretende Pathologie. Neben einer verminderten Überlebensrate, einem Gewichtsverlust und diversen motorischen Störungen, konnten auch Aggregate des mutierten Proteins in diversen Hirnregionen identifiziert werden. Der Atxn2-CAG100-KIN Phänotyp spiegelt die humanen Symptome daher recht gut wider, weshalb diese Mausmutante ein wertvolles Modell für die weitere SCA2-Forschung darstellt.
Zusammengefasst zeigt diese Arbeit die Bedeutung des ATXN2-Interaktors FBXW8 im SCA2-Mausmodell als auch im Patientenmaterial. Sie betont die Relevanz des Atxn2-KO-Modells in Bezug auf Störungen der Kalziumhomöostase und dokumentiert die Alters- und Gewebespezifität dieser Veränderungen. Außerdem beinhaltet sie die vorläufige Beschreibung eines kombinierten Atxn2/TDP43-Mausmodells und schließlich die ausführliche Charakterisierung eines vollkommen neuen und äußerst wertvollen SCA2-Mausmodells.
The solution structure of the lantibiotic immunity protein NisI and its interactions with nisin
(2015)
Many Gram-positive bacteria produce lantibiotics, genetically encoded and posttranslationally modified peptide antibiotics, which inhibit the growth of other Gram-positive bacteria. To protect themselves against their own lantibiotics these bacteria express a variety of immunity proteins including the LanI lipoproteins. The structural and mechanistic basis for LanI-mediated lantibiotic immunity is not yet understood. Lactococcus lactis produces the lantibiotic nisin, which is widely used as a food preservative. Its LanI protein NisI provides immunity against nisin but not against structurally very similar lantibiotics from other species such as subtilin from Bacillus subtilis. To understand the structural basis for LanI-mediated immunity and their specificity we investigated the structure of NisI. We found that NisI is a two-domain protein. Surprisingly, each of the two NisI domains has the same structure as the LanI protein from B. subtilis, SpaI, despite the lack of significant sequence homology. The two NisI domains and SpaI differ strongly in their surface properties and function. Additionally, SpaI-mediated lantibiotic immunity depends on the presence of a basic unstructured N-terminal region that tethers SpaI to the membrane. Such a region is absent from NisI. Instead, the N-terminal domain of NisI interacts with membranes but not with nisin. In contrast, the C-terminal domain specifically binds nisin and modulates the membrane affinity of the N-terminal domain. Thus, our results reveal an unexpected structural relationship between NisI and SpaI and shed light on the structural basis for LanI mediated lantibiotic immunity.
The brain vascular system is composed of specialized endothelial cells, which regulate the movement of ions, molecules and cells from the blood lumen to the central nervous system (CNS). Endothelial cells in the brain form the blood-brain barrier (BBB) that is essential to maintain the brain homeostasis and protect the CNS from pathogens and toxins for a proper neurological function. Endothelium together with other cellular components such as pericytes, astrocytes and the basement membrane, forms the neurovascular unit (NVU), the structural unit of the BBB. Breakdown of the BBB occurs in various neurological disorders, leading to edema and neuronal damage. Therapeutic strategies focusing on factors that regulate the permeability of the BBB may help to improve neurological disorders and facilitate drug delivery to the brain.
Angiopoietins (Ang) are potential candidates for therapeutic targeting the BBB due to their role in regulating the vascular permeability in periphery. They are key growth factors that control angiogenesis and vessel maturation. Ang-1 and Ang-2 possess similar binding affinities to the Tie2 receptor tyrosine kinase, which is almost exclusively expressed on endothelial cells. Ang-1 is expressed in smooth muscle cells and pericytes, and binds in a paracrine manner to Tie2. This results in phosphorylation of the receptor and induction of downstream signaling pathways leading to vessel maturation via pericyte recruitment and blood vessel stabilization. Ang-2, on the other hand, is stored in Weibel Palade bodies in endothelial cells and is released upon inflammatory or angiogenic stimuli. Therefore, in mature, stabilized blood vessels, Ang-2 expression is low. Increased level of Ang-2 is only observed during development or in pathology such as ischemia, cancer and inflammation. When Ang-2 is released, it acts in an autocrine manner and interferes with Tie2 phosphorylation in a context-dependent way. Antagonizing the receptor results in de-stabilization of the vessels, often accompanied by reduced numbers of pericytes leading to myeloid cell infiltration. In conjunction with the vascular endothelial growth factor (VEGF), Ang-2 contributes to blood vessel sprouting, whereupon in absence of VEGF it promotes vessel regression. ...