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Institute
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There is increasing evidence that climate change will have a severe impact on species’ distributions by altering the climatic conditions within their present ranges. Especially species inhabiting stream ecosystems are expected to be strongly affected due to warming temperatures and changes in precipitation patterns. The aim of this thesis was to
investigate how distributions of aquatic insects, i.e., benthic stream macroinvertebrates would be impacted by warming climates. The methods comprised of an ensemble forecasting technique based on species distribution models (SDMs) and climate change scenarios of the Intergovernmental Panel on Climate Change of the year 2080. Future model projections were generated for a wide variety of species from a number of taxonomic orders for two spatial scales: a stream network within the lower mountain ranges of Germany, and the entire territory across Europe. In addition, the effect of the modelling technique on habitat suitability projections was investigated by modifying the choice of study area (continuous area vs. stream network) and the choice of predictors (standard vs. corrected set).
Projections of future habitat suitability showed that potential climate-change impacts would be dependent on species’ thermal preferences, and with a similar pattern for both spatial scales. Future habitat suitability was projected to remain for most or all of the modelled species, and species were projected to track their climatically suitable conditions by shifting uphill along the river continuum within the lower mountain ranges, and into a north-easterly direction across Europe. Cold-adapted headwater and high-latitude species were projected to lose suitable habitats, whereas gains would be expected for warm-adapted river and low-latitude species along the river continuum and across Europe, respectively. Additionally, habitat specialist species in terms of endemics of the Iberian Peninsula were identified as potential climate-change losers, highlighting their restricted habitat availability and therefore vulnerability to warming climates.
The main findings of this thesis underline the high susceptibility of stream macroinvertebrates to ongoing climate change, and give insights into patterns of possible consequences due to changes in species’ habitat suitability. Concerning the methodology, a clear recommendation can be given for future modelling approaches of stream macroinvertebrates by building models within a stream network and with a careful choice of environmental predictors, to reduce uncertainties and thus to improve model projections.
In dieser Arbeit wurden potentielle Mitglieder des Proteinnetzwerks um Ataxin-2 untersucht, um Rückschlüsse auf die bisher unbekannte Funktion von Ataxin-2 machen zu können. Ataxin-2 ist das Krankheitsprotein der Spinozerebellären Ataxie Typ 2, einer Polyglutaminerkrankung, bei der die Expansion eines Polyglutamintraktes zur Degeneration von Purkinje-Neuronen führt. Da die Funktion von Ataxin-2 bisher nicht ermittelt werden konnte, sollte die Charakterisierung seiner Protein-Interaktoren es ermöglichen, Einblicke in seine Funktion zu gewinnen. Dazu wurden die drei Kandidaten „Similar to golgin-like“, TRAP und alpha-Actinin-1 untersucht, die alle drei mit Hilfe von Hefe-2-Hybrid Screens identifiziert worden waren. Im Fall von „Similar to golgin-like“, einem aus Genom und cDNA-Fragmenten hervorgesagten Protein unbewiesener Existenz, konnte eine mutationsabhängige Modulation der Bindungsstärke an Ataxin-2 im Hefe-2-Hybrid-System gezeigt werden, die sich allerdings mit rekombinanten Proteinen in Koimmunpräzipitationen in Säuger-Zellen nicht reproduzieren ließ. Beide Proteine kolokalisierten am ER, unabhängig von der Länge des pathogenen Polyglutamintraktes-2 in Ataxin. Gegen ein SIM-Peptid hergestellte Antikörper zeigten eine exklusive Expression im menschlichen Gehirn und wurden erfolgreich zum Nachweis eines endogenen Komplexes aus Ataxin-2 und SIM-IR im krankheitsrelevanten Gewebe eingesetzt. Allerdings war es nicht möglich, mittels 5’-RACE und 2D-Gel Massenspektrometrie die potentiellen Isoformen von SIM näher zu charakterisieren. Zur funktionellen Analyse von SIM wurden intrazelluläre Transportvorgänge am Golgi-Apparat untersucht, aber ein Einfluss von SIM / Ataxin-2 ließ sich nicht belegen. Im Fall des Interaktions-Kandidaten TRAP wurden Antikörper hergestellt und mit einem bereits publizierten polyklonalen Antikörper, der TRAP in rattus norvegicus erkennt, verglichen. Die Expressionsmuster zeigten eine identische Expression im Hirn und der Testis. Eine Kolokalisations-Studie wies sowohl TRAP als auch Ataxin-2 am ER nach. Allerdings erwiesen sich alle verwendeten Antikörper als ungeeignet für Immunpräzipitationen, so dass die physiologische Existenz des endogenen TRAP-Ataxin-2 Komplexes nicht bewiesen werden kann. Im Fall des Interaktor-Kandidaten alpha-Actinin-1 ließ sich die Interaktion mit Ataxin-2 sowohl für die endogenen Proteine in der zytosolischen Fraktion von Mausgehirnen als auch für die rekombinanten Proteine in Säuger-Zellen belegen. Beide Proteine konnten im Zytosol und zu kleineren Anteilen an der Plasmamembran kolokalisiert werden. Als verantwortliche Subdomänen im Fall von Ataxin-2 wurde der N-terminale Bereich des Proteins in der Nähe der pathogenen Expansion, im Fall von alpha-Actinin-1 die Aktin-bindende Domäne durch GST-pulldown Analysen identifiziert. Darauf aufbauend wurde in Patienten-Fibroblasten das Aktinzytoskelett und die Dynamik von alpha-Actinin-1 in Anwesenheit der Ataxin-2-Polyglutamin-Expansion untersucht, wobei allerdings kein Unterschied zu erkennen war. Anschließend an die Analyse des Zytoskeletts wurde ein möglicher Einfluss von Ataxin-2 und seiner Polyglutamin-Expansion auf die EGF-Rezeptorinternalisierung studiert, da eine Rolle von Ataxin-2 auf die Endozytose in parallelen Analysen der Arbeitsgruppe wahrscheinlich wurde. Hierzu wurden Säuger-Zellen mit alpha-Actinin-1 transfiziert und die Internalisierung mikroskopisch und mittels Analyse der ERK1/2 Aktivierung verfolgt. Ergänzt wurden die Experimente durch Analysen zur ERK1/2 Aktivierung in Patienten- und Kontroll-Fibroblasten. Entgegen den Erwartungen hatte die Überexpression von alpha-Actinin-1 keinen Einfluss auf die Internalisierung, und bei keinem der Ansätze zeigte sich eine signifikante Veränderung der ERK1/2 Aktivierung. Auch Transkriptombefunde aus SCA2-KO Gewebe, nach denen einzelne Gene des Zytoskeletts oder der Rezeptor-Endozytose ihre Expression ändern, ließen sich nicht mit Konsistenz validieren. Abschließend wurden Experimente zur subzellulären Lokalisation von Ataxin-2 durchgeführt, die eine Lokalisation am ER und nicht wie bisher berichtet am Golgi-Apparat sicherten und Ergebnisse zur Assoziation mit Polyribosomen bekräftigten. Obwohl somit bei allen drei Proteininteraktor-Kandidaten glaubwürdige Befunde für eine Ataxin-2 Bindung sprechen, ist derzeit eine funktionelle Analyse der Assoziationen nicht möglich und eine klare Definition der physiologischen Rolle von Ataxin-2 lässt sich aus diesen Daten nicht ableiten, wenn auch die prominente Lokalisation von Ataxin-2 am rauen endoplasmatischen Retikulum mit einem Einfluss von Ataxin-2 auf die ribosomale Translation und die Sekretion in Cisternen kompatibel ist.
Das Ziel dieser Arbeit war, Unterschiede bezüglich der Körperbautypen an Elitekarateka zu eruieren. Hierzu wurden die Konstitutionstypologien nach Conrad, Knußmann, Parnell sowie Heath und Carter, Proportionsfiguren, und das Phantom stratagem verwendet, ebenso wie die Hautfettfalten-Dickenmessungen, die Bioelektrische-Impedanz-Analyse (BIA) und der Body-Mass-Index (BMI). Unter der Annahme Großmeisters Funakoshis, dass es durch ständiges Karatetraining zu körperbaulichen Konstitutionstypusänderungen kommt, wurde diese sportanthropologische Studie durchgeführt. Es sollte geklärt werden, ob innerhalb der Karatewettkampfdisziplinen Kata und Kumite unterschiedliche Körperbautypen, unter Einbeziehung des Sexualdimorphismus, zu finden sind. Die 80 untersuchten männlichen und weiblichen Karateka kamen aus den Disziplinen Kata (Schattenboxen) und Kumite (Freikampf). Im Vergleich dazu wurden 62 und 66 Breitensportkarateka als Kontrollgruppe gegenübergestellt. Das Vergleichskollektiv wurde aus zwei Fitnessstudios rekrutiert, in denen die Probanden 2 - 4 mal pro Woche trainierten. Die Messungen wurden unter standardisierten Bedingungen vom Verfasser dieser Arbeit (und einer Kollegin) durchgeführt. Die Ergebnisse wurden statistisch geprüft. Die Konstitutionstypognosen von Conrad, die durch die Betrachtungen der Somatocharts von Parnell bzw. Heath und Carter bestätigt wurden, zeigten Unterschiede der Leistungssportler gegenüber den Kontrollgruppen. Demnach ist der typische Kata- und Kumiteathlet kleiner und wiegt weniger als die Sportler des Vergleichskollektivs der Fitnessprobanden. Er ist athletischer gebaut und weist ein günstiges Verhältnis von aktiver und passiver Körpermasse auf. Des Weiteren sind innerhalb der Karatedisziplinen die Katasportler endomorpher als ihre Kollegen. Die Kumiteathleten nehmen mehr ektomorphe Positionen in den Somatocharts (Parnell, Heath und Carter) ein. Anhand der Ergebnisse lässt sich die ursprüngliche Vermutung Funakoshis nach differenzierten Konstitutionstypen sowohl für die beiden Untersuchungskollektive als auch innerhalb des Karate für die Wettkampfdisziplinen Kata und Kumite bestätigen. Die vorliegende Studie lässt den Schluss zu, dass es sowohl den Kata- als auch den Kumite-Konstitutionstypus im Karate gibt. Weiterer Forschungsbedarf besteht hinsichtlich longitudinaler Datenerhebungen des Konstitutionswandels jugendlicher Karateka im Laufe ihrer Wettkampfkarriere. Die Karriere beeinflussende Faktoren wie Trainingshäufigkeit, „Trainingsalter“ und Verletzungshäufigkeit, bezogen auf das Leistungsniveau, lassen Spielraum für weiterführende Untersuchungen. Dies gilt auch für eventuelle ethnische Körperbauunterschiede und das Leistungsniveau der Athleten.
The prefrontal cortex (PFC) is considered the cognitive center of the mammalian brain. It is involved in a variety of cognitive functions such as decision making, working memory, goal-directed behavior, processing of emotions, flexible action selection, attention, and others (Fuster, 2015). In rodents, these functions are associated with the medial prefrontal cortex (mPFC). Experiments in mice and rats have shown that neurons in the mPFC are necessary for successful performance of many cognitive tasks. Moreover, measurements of neural activity in the mPFC show excitation or inhibition in different cells in relation to specific aspects of the tasks to be solved. To date, however, it is largely unknown whether prefrontal neurons are stably activated during the same behaviors within a task and whether similar aspects are represented by the same neurons in different tasks. In addition, it is unclear how specifically neurons are activated, for example, whether cells that are activated in response to reward are activated in a different task without reward in a different situation or remain inactive. To address these questions, we recorded the same neurons in the mPFC of mice over the course of several weeks while the animals performed various behaviors.
To do this, we expressed GCaMP6 in pyramidal neurons in the mPFC of mice. A small lens was implanted in the same location and a miniature microscope ("miniscope") was used to record neural activity. Later the extracted neurons got aligned based on their shape and position across multiple days and sessions. The mice performed five different behavioral tests while neural activity was measured: A spatial working memory test in a T-maze, exploration of the elevated plus maze (EPM), a novel object recognition (NO) test including free open field (OF) exploration, a social interaction (SI) test and discriminatory auditory fear conditioning (FC). Each task was repeated at least twice to check for stable task encoding across sessions. Behavioral performance and neural correlates to specific task events were similar to earlier studies across all tasks. We utilized generalized linear models (GLM) to determine which behavioral variables most strongly influence neural activity in the mPFC. The position of the mouse in the environment was found to explain most of the variance in neural activity, together with movement speed they were the strongest predictors of neural activity across all tasks. Reward time points in the working memory test, the conditioned stimulus after fear conditioning, or head direction in general were also strongly encoded in the mPFC.
Many of the recorded neurons showed a stable spatial activity profile across multiple sessions of the same task. Similarly, cells that coded for position in one task tended to code for position in other tasks. Not only did the same cells code for position across multiple tasks, but cells also coded for movement speed and head direction. This indicates that at least these general behavioral variables are each represented by the same neurons in the mPFC. Interestingly, the stability of position or speed coding did not depend on the time between two sessions, but only on whether it was within the same or across different tasks. Within the same task, stability was slightly higher than across different tasks.
To find out whether task-specific behavioral aspects were also stably encoded in the mPFC, difference scores as the difference in neural activity between two task aspects like left- and right-choice trials or exposed and enclosed locations were calculated. Many cells encoded these aspects stably across different sessions of each task. Both the left-right differences in the different phases of the working memory test, the open-closed-arm differences in the elevated plus maze, the different activity between center and corners in the open field, the social target-object differences in the social interaction test, and the differences between the two tones during fear conditioning were all stably encoded across the population of mPFC cells. Only the distinction between the novel and the familiar object during object recognition was not stably encoded, but also the preference for the novel object was not present in the second session of novel object exploration.
There was also an overlap in coding for different aspects within a task across multiple sessions. For example, cells stably encoded left-right differences in the T-maze between different sessions as a function of walking direction across different phases of working memory, an aspect that we could already show within one session (Vogel, Hahn et al., 2022). During fear conditioning, the same cells showed a discrimination between CS+ and CS- that also responded to the start of CS+.
Consistency in the neurons activity across different tasks was also found, but only between tasks with similar demands, the elevated plus-maze and free exploration of the open field. Cells that were more active in the open arms also showed more activity in the center of the open field and vice versa. This could be an indicator that the cells were coding for anxiety or exposure across those tasks, indicating that neurons in the mPFC also stably encode general task aspects independent of the specific environment. However, it remains unclear what exactly these neurons encode; in the case of a general fear signal, one would also expect activation during fear conditioning which could not be found.
Overall, we found that neurons in the mPFC of mice encoded multiple general behavioral variables across multiple tasks and task-specific variables were encoded stably within each of the tested tasks. However, we found little task-specific variables that were systematically encoded by the same neurons with the exception being the elevated plus-maze and open field exploration, two tasks with similar features.
The single unit doctrine proposes that each one of our percepts and sensations is represented by the activity of specialized high-level cells in the brain. A common criticism applied to this proposal is the one referred to as the "combinatorial problem". We are constantly confronted with unlimited combinations of elements and features, and yet we face no problem in recognizing patterns and objects present in visual scenes. Are there enough neurons in the brain to singly code for each one of our percepts? Or is it the case that perceptions are represented by the distributed activity of different neuronal ensembles? We lack a general theory capable of explaining how distributed information can be efficiently integrated into single percepts. The working hypothesis here is that distributed neuronal ensembles signal relations present in the stimulus by selectively synchronizing their spiking responses. Synchronization is generally associated with oscillatory activity in the brain. Gamma oscillations in particular have been linked to various integrative processes in the visual system. Studies in anesthetized animals have shown a conspicuous increase in power for the gamma frequency band (30 to 60 Hz) in response to visual stimuli. Recently, these observations have been extended to behavioral studies which addressed the role of gamma activity in cognitive processes demanding selective attention. The initial motivation for carrying out this work was to test if the binding-by-synchronization (BBS) hypothesis serves as a neuronal mechanism for perceptual grouping in the visual system. To this aim we used single and superimposed grating stimuli. Superimposed gratings (plaids) are bi-stable stimuli capable of eliciting different percepts depending on their physical characteristics. In this way, plaids can be perceived either as a single moving surface (pattern plaids), or as two segregated surfaces drifting in different directions (component plaids). While testing the BBS hypothesis, we performed various experiments which addressed the role of both stimulus and cortical architecture on the properties of gamma oscillations in the primary visual cortex (V1) of monkeys. Additionally, we investigated whether gamma activity could also be modulated by allocating attention in time. Finally, we report on gamma-phase shifts in area V1, and how they depend on the level of neuronal activation. ...
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.
Stressorinduzierte ökotoxikologische Effekte und Genexpressionsveränderungen bei Chironomus riparius
(2008)
Die Effekte von Stressoren auf Chironomus riparius wurden im Lebenszyklustest und auf genomischer Ebene mit dem Ziel untersucht, ein auf einem DNA-Mikroarray („ChiroChip“) basierendes Screeningverfahren zu entwickeln. Die empfindlichsten Endpunkte der Lebenszyklustests waren die Mortalität, der Anteil fruchtbarer Eigelege, der mittlere Schlupfzeitpunkt der Weibchen sowie das Gewicht der Männchen. Temperaturveränderungen um ± 6°C gegenüber einer normalen Hälterungstemperatur von 20°C führten in allen Endpunkten zu hochsignifikanten Effekten. Eine LC10 konnte nur für die Salinität berechnet werden (0,66‰, KI: 0,26 − 1,68‰). Aufgrund der nicht-linearen Konzentrations-Wirkungs-Beziehungen konnte nur für den mittleren Schlupfzeitpunkt der Weibchen nach einer Exposition gegenüber Cadmium eine EC50 (0,53 mg/kg, KI: 0,29 − 0,97 mg/kg) bestimmt werden. In den Versuchen mit Methyltestosteron, Ethinylöstradiol, Carbamazepin, Fluoxetin, Blei und Tributylzinn (mit denen auch molekularbiologische Untersuchungen durchgeführt wurden) waren die empfindlichsten Endpunkte die Mortalität, der Anteil fruchtbarer Eigelege, der mittlere Schlupfzeitpunkt der Weibchen sowie die Populationswachstumsrate. Carbamazepin (CBZ) wirkte schlupfverzögernd bei den Weibchen. 10 mg CBZ/kg führte zu einer höheren Mortalität, weniger Eigelegen, die vermehrt unfruchtbar waren, sowie zu einer geringeren Populationswachstumsrate. Fluoxetin (FX) wirkte bei beiden Geschlechtern schlupfverzögernd. 0,9 mg FX/kg führte zu einer erhöhten Mortalität, weniger und vermehrt unfruchtbaren Eigelegen und einer geringeren Populationswachstumsrate. In der höchsten Konzentration (5,9 mg/kg) waren die Weibchen leichter als die Kontrolltiere. Tributylzinn (in µg Sn/kg angegeben) bewirkte eine höhere Mortalität und geringere Populationswachstumsrate bei 100 µg Sn/kg und führte zu einer Verzögerung im Schlupfverlauf bei den Weibchen. Bei 160 µg Sn/kg gab es weniger Eigelege, die vermehrt unfruchtbar waren. Die Männchen, die gegenüber Konzentrationen von 120 und 160 µg Sn/kg exponiert wurden, waren leichter als die Kontrolle. Expositionen gegenüber Blei (Pb) in Konzentrationen von 0,65 − 65 mg/kg führten bei 6,5 mg Pb/kg zu einer erhöhten Mortalität und zu mehr unfruchtbaren Gelegen. Bei 0,65 mg Pb/kg waren die Männchen leichter und bei 6,5 mg Pb/kg schwerer. Die Anzahl der fruchtbaren Gelege pro Weibchen war bei 3,25 und 6,5 mg Pb/kg geringer als in der Kontrolle. Die gegenüber 17alpha-Methyltestosteron (MET) exponierten Mücken hatten geringere Mortalitäten als in der Kontrolle und zeigten einen verfrühten Schlupf beider Geschlechter. Ab 27 µg MET/kg gab es weniger unfruchtbare Gelege, leichtere Männchen sowie erhöhte Populationswachstumsraten. 17alpha-Ethinylöstradiol (EE2) führte zu einem verfrühten Schlupf bei beiden Geschlechtern sowie zu erhöhten Populationswachstumsraten. Bei 9 µg EE2/kg gab es weniger unfruchtbare Gelege. Die Exposition von Chironomus-Larven gegenüber Methyltestosteron, Ethinylöstradiol, Fluoxetin, Carbamazepin, Tributylzinn und Blei führte zur differenziellen Expression von neun (Methyltestosteron) bis 49 (Carbamazepin) Genen. Bei der Untersuchung der exprimierten Proteine fällt auf, dass kaum bekannte Stressproteine (z.B. Glutathion-S-Transferase oder Cytochrom P450) differentiell reguliert wurden. Bei der Exposition wurden verschiedene Prozesse durch eine veränderte Genexpression beeinflusst. Eine Exposition gegenüber Methyltestosteron führte zu einer Beeinträchtigung von drei identifizierten biologischen Prozessen, während bei den anderen Substanzen sieben bis acht Prozesse beeinflusst waren. Die am häufigsten beeinflussten Prozesse waren der Protein- und der Energiemetabolismus. Der Sauerstofftransport ist ein Prozess, der bei allen Substanzen beeinflusst wurde, jedoch mit unterschiedlichen Anteilen. Bei einer Exposition gegenüber Methyltestosteron war der Anteil des Sauerstofftransports an den beteiligten Prozessen mit 84,6% am größten und mit 10,5% bei Fluoxetin am geringsten. Die veränderte Genexpression der Globine kann möglicherweise aufgrund der schadstoffspezifischen Veränderungen als Biomarker für das Monitoring von Freilandgewässern angewendet werden. Da Tubulin und Aktin häufig nach einer Exposition gegenüber Stressoren differenziell exprimiert wird (bei Tributylzinn und CBZ in der vorliegenden Arbeit und bei Antidepressiva und Östrogenen in anderen Studien) wären die beiden Proteine möglicherweise ebenfalls als Biomarker für Chemikalienstress geeignet. Vor der Verwendung des ChiroChips als Screeninginstrument für die Chemikalienuntersuchung und das Biomonitoring müssen noch Untersuchungen zur konzentrationsabhängigen Genexpression und zur Expression in unbehandelten Larven und weiteren Lebensstadien erfolgen. Des Weiteren müssen die vorliegenden Daten verifiziert und die Funktion der differentiell regulierten Gene vertieft untersucht werden.
Photosystem II (PSII) is a polypeptide-cofactor complex organised as a homodimeric multisubunit protein embedded in the thylakoid membrane. PSII monomers are heterooligomers related to each other by a pseudo-twofold axis perpendicular to the membrane plane (Loll et al. 2005). PSII acts as a photochemical enzyme that through the chlorophylls and the other cofactors catalyses photon capture and electron transfer from water to the plastoquinone pool with concomitant evolution of oxygen. Photon capture and charge separation take place in the PSII core which consists of the D1 and D2 proteins, the cytochrome b559 alpha- and beta-chains (PsbE and F subunits) and the chlorophyll a-binding antenna proteins CP43 and CP47 (Loll et al. 2005). The remaining polypeptides are low molecular mass proteins with not clearly understood fuctions; they include chloroplast-encoded (PsbH, I, J, K, L, M, N, T and Z) and nucleus-encoded (PsbR, S, W and X) proteins consisting of one to four transmembrane helices (Barber et al. 1997). The oxygen-evolving part of PSII consists of a Mn-Ca transition complex called Mn cluster or oxygen evolving complex that is situated on the luminal side of PSII. In higher plants it is stabilised by the PsbO (33 kDa), PsbP (23 kDa) and PsbQ (17 kDa) extrinsic subunits (Soursa et al. 2006; Ifuku et al. 2005). The structure and mechanisms related to the oxygen evolving complex of PSII are not completely clarified. Currently two high resolution structures from the cyanobacteria S. elongatus are available (Loll et al. 2005; Ferreira et al. 2004) Nevertheless structural information is not as well defined in green algae and higher plants as in cyanobacteria. In fact the 8Å structure available from spinach has too low resolution for addressing questions such as the structural and functional differences in respect to PSII from cyanobateria (Rhee et al. 1997).. Therefore it is obvious that for PSII from higher plants the main general questions are still open: is the structure of PSII from higher plants equivalent to the structures observed in cyanobacteria? Is the typical higher plants subunit PsbS stably or transiently bound to PSII? Finding an answer to these questions was the main focus of this work. In this work a simple and rapid protocol to isolate the oxygen-evolving photosystem II (PSII) core complex from Nicotiana tabacum was developed. A PSII having a His-tag extension made of six or ten consecutive histidine residues at the N-terminus of the PsbE subunit was purified by a single-step Ni2+ NTA-affinity column chromatography after solubilisation of the thylakoid membranes using different mild detergents. Characterization of the oxygen evolution and the subunit composition by immunoblotting and mass spectroscopy revealed that the His-tagging did not affect the functional integrity of the PSII reaction center. The final PSII core complex was purified in a single step from solubilised thylakoids in less than 14 hours getting a very pure sample in high amount. The isolated core complex was in a dimeric form as demonstrated by Blue Native PAGE, analytical gel filtration and single particles analysis; with a molecular mass of about 500 kDa, consisting of D1, D2, CP43, CP47, 33 kDa and low molecular weight proteins. The preparation retains a high rate of oxygen-evolving activity but showed different stabilities of the binding of the three extrinsic proteins. The subunit of 33 kDa was always present in the preparations with a constant amount, whereas the 23 and 17 kDa subunits were always in less and unconstant amounts. Nevertheless the oxygen evolution was not depending on the amount of the 23 and 17 kDa subunits. Furthermore the preparation showed a high oxygen-evolving activity of 1390 micromol/mg Chl·h-1 in presence of betaine, while its activity was 440-680 micromol/mg Chl·h-1 in its absence. The presence of 1.0 mol/L betaine during the isolation of PSII increased the preservation of the photochemical activity hence the oxygen evolution. It was inferred from these results that His-tagging does not affect the functional and structural integrity of the PSII core complex and that the “Histag strategy” is highly useful for biochemical, physicochemical and structural studies of higher plant PSII. PSII is directly involved in two essential processes, the efficient capture and funnelling of light energy to the reaction centre and the controlled dissipation of excess excitation energy. Those functions require structural and functional flexibility in order to be performed with high efficiency. Moreover light-harvesting proteins respond to an external signal, the thylakoid pH, to induce feedback control regulating those activities in every moment. This process called non-photochemical quenching (NPQ) is mainly depending on the xanthophyll cycle and the PsbS protein (Szabo et al. 2005). In this work several new evidences related with those two processes were found. The subunit PsbS is a polypeptide whose involvement in the NPQ processes is debated. Nevertheless, its position in the PSII complex and the mechanisms by which this subunit contributes to carry out the NPQ functions are not definitely known. In addition it is not sure if it is a pigment binding protein or not. Currently several lines of evidence indicate that this subunit is able to bind two molecules of zeaxanthin, one of the pigments involved in the xanthophyll cycle. In this work immunolabelling indicated that PsbS is tightly bound to the PSII core dimer, monomer and incomplete PSII particles as Reaction Centre-CP47 (RC-CP47). Furthermore qualitative HPLC indicates a complete absence of zeaxanthin in the sample and the presence of violaxanthin, another pigment involved in the xanthophyll cycle. The absence of zeaxanthin was expected considering that the plants were harvested after the dark period and that the particles were purified in complete dark (or in green light), whereas the presence of violaxanthin was unexpected considering that so far no evidence of violaxanthin bound to PSII cores devoid of LHC proteins was reported. Furthermore the amount of chlorophyll b was not relevant for suspecting this pigment bound to PsbS. Therefore we conclude that if PsbS is able to bind chlorophyll it has to be a chlorophyll a. The results indicate that PsbS could be able to bind not only zeaxanthin but also violaxanthin. The extrinsic subunit Psb27 was also found in this preparation. The presence and the amount of this subunit, reported to be involved in the repair of damaged PSII, was not constant and therefore behaving as the other two extrinsic proteins 23kDa (PsbP) and 17kDa (PsbQ). Electron crystallography studies on spinach PSII particles purified by differential solubilisation resulted in crystalline tubes with new unit cell constants. From data analysis a density map at 15Å resolution was obtained with a P22121 symmetry. However, at this resolution it cannot be said if the internal symmetry axis is related with the two-fold axis of the dimer or the pseudo two-fold axis of the monomer. In conclusion a method to isolate functional, pure PSII core complexes was developped. These samples, together with the improved 2d crystallisation protocol could lead to crystals with higher quality hence better resolution density maps in the future.
In the dentate gyrus (DG) of the mammalian hippocampus, neurogenesis continues to take place throughout an organism’s life. Adult neurogenesis includes proliferation and differentiation of neural stem cells into dentate granule cells (GCs) that mature and integrate into the existing cellular network. This thesis work presents a novel approach that enables longitudinal examination of living postnatally generated GCs in their endogenous niche by using retroviral (RV) labeling in organotypic entorhino-hippocampal slice cultures (OTCs). Older GCs were fluorescence-labeled with an adeno-associated virus controlled by the synapsin 1 promoter (AAV-Syn). The combination of time-lapse imaging and 3-D reconstruction of newborn developing GCs and older, more mature GCs enabled comparative analyses of dendritic growth and cellular dynamics as well as investigations of spine formation and the establishment of synaptic contacts.
Postnatal neurogenesis was studied in the mouse and rat DG in vivo by analysis of the distribution of chemical neuronal maturation markers doublecortin (DCX) and calbindin in combination with the GC marker Prox1 between P7 and P42. The marker expression patterns at different time points indicated that the number of mature GCs increased gradually over time and that young, immature GCs were added to the inner layers of the granule cell layer (GCL), as is the case in the adult brain. The most substantial shift in GC maturation took place between P7 and P14, though GCs in the rat DG matured faster (i.e. by ~5 days) than GCs in the mouse. Immunocytochemical in vitro analysis in OTCs at DIV 7, 14, and 28 exhibited a distribution of marker expression over time that was comparable to in vivo, though the number of DCX-expressing GCs was low at DIV 28, indicating a considerable decrease in neurogenesis rate over time in the OTC. Nevertheless, RV-labeling of newborn GCs at DIV 0 yielded successful visualization and enabled time-lapse imaging of complete developing GCs up to 4 weeks after mitosis. During the second week of development, newborn GCs exhibited a high level of structural dynamics, including extension and retraction of dendritic segments. In the third week, newborn GCs displayed high dendritic complexity which was followed by pronounced dendritic pruning. Finally, a phase of structural stabilization and local refinement could be observed during the fourth week. Older AAV-Syn-labeled GCs did not exhibit such dynamic structural remodeling. Anterograde tracing of entorhinal projection fibers using the biotinylated dextran amine Mini Ruby showed innervation of the outer molecular layer (OML) by entorhinal axons at early time points, i.e. DIV 8 when newborn GCs started to extend dendrites into the ML, as well as at DIV 20 when RV-labeled GCs exhibited elaborate dendritic trees with processes in the OML intermingling with entorhinal fibers. This shows that newborn GCs in the OTC grow into an area of existing entorhinal axon terminals, which is highly similar to the situation in the adult brain. Hence, the results show that postnatal neurogenesis can be studied effectively in the OTC system as a model of adult neurogenesis. The first appearance of spine-like protrusions in newborn GCs was observed two weeks post RV injection. Ultrastructural electron-microscopic images revealed that spines established synaptic contacts with axonal boutons. These findings suggest that newborn GCs are successfully integrated into the existing cellular circuitry in the OTC system. The high level of structural flexibility found in this study might be a necessary requisite of new neurons for successful dendritic maturation and functional integration into a neuronal network. Thus, live imaging of postnatally born GCs in the OTC appears as a useful novel approach to elucidate the mechanisms that affect cellular dynamics of neurogenesis.
The main aim of this thesis work was to elucidate the catalytic mechanism of several enzyme complexes on the basis of their three-dimensional structure. All investigated enzyme complexes occur in the anaerobic energy metabolism and have an essential function by the challenging degradation of aromatic compounds and the flavin-based electron bifurcation (FBEB)/confurcation, an energy-coupling mechanism. More specifically, I studied the phthaloyl-CoA decarboxylase of Thauera chlorobenzoica (Pcd) involved in phthalate ester decomposition, the FBEB protein complexes lactate dehydrogenase/electron-transfer flavoprotein (Ldh/EtfAB) of Acetobacterium woodii, the heterodisulfide-related subunit HdrA of the sulfur- oxidizing bacteria Hyphomicrobium denitrificans (sHdrA). In addition, I contributed to the structure determination of the caffeyl-CoA reductase- EtfAB complex of A. woodii and the naphthoyl-CoA reductase of the sulfate-respiring enrichment culture N47 (mentioned in the Appendix E and F).
Structured illumination microscopy (SIM) is part of the super-resolution methods developed at the beginning of this century. To produce a super-resolution image SIM requires three things: 1) illumination of the sample with a periodic pattern, 2) acquisition of multiple images per plane under different pattern’s phases and orientations and 3) the processing of these images has to be carried with a reconstruction algorithm. The result of the reconstruction is an image with a resolution gain that is proportional to the frequency of the pattern (po). The typical SIM set-up uses an epi-fluorescence configuration, thus the interference angle of the beams that create the pattern is restricted by the angular aperture of the objective. Under this restriction the maximum value of po is given by the cut-off frequency of the objective lens and sets at 2 the maximum resolution gain of SIM under linear illumination.
In the first part of this thesis we present the implementation and characterization of the 2D-SIM set-up designed by Dr. Bo-Jui Chang (B-J. Chang et al., PNAS 2017), this design exploits the concept introduced by light-sheet microscopy, i.e. separation of illumination and detection paths to obtain resolution gains larger than the usual two-fold (Chapter 3). The set-up is named coherent structured illumination light-sheet based fluorescence microscopy (csiLSFM) and it consists of a triangular array of three objectives, such that two are used for illumination and one for detection. With the independent illumination arms is possible to interfere two coherent light-sheets at angles beyond the angular aperture of the detection lens, attaining the maximum interference angle of 180° when the light-sheets counter-propagate. This condition delivers a pattern with a po 1.4 times larger than the cut-off frequency (ωo), hence our set-up provides generic resolution gains of 2.4.
The extraction of the high spatial frequencies that produce the resolution gain in the csiLSFM is a challenge due to a low pattern modulation. The low modulation inherently arises because the frequency associated to the pattern period lies beyond the cut-off frequency of the detection lens. To overcome this challenge we developed a filtering strategy that facilitates the withdrawal of information from a SIM data set, simultaneously the proposed filtering process optimizes the reconstruction algorithm by reducing the periodic artifacts that are recurrent in SIM images. In this same chapter we also performed an spectral analysis of the artifacts and determined that they originate from irregularities in the power spectrum that occur due to the partial or total lack of certain spatial frequencies (fig.4.2 and 4.3), our reconstruction reduces this information drops and diminishes the artifact occurrence. The relevance of our reconstruction pipeline is that it delivers a standardized process to enhance the SIM image in a current context in which the commonly used reconstruction algorithms employ empirical tuning to improve it (fig.4.13). Moreover, the pipeline is applicable to the csiLSFM data and also to images acquired with any other 2D-/3D-SIM set-up (fig.4.10 and 4.11).
The processing of various image data sets acquired with the csiLSFM exposed us to the question of how low the modulation of the illumination pattern can be before no super-resolution frequencies can be extracted. Answering this question is important to guarantee that the SIM data contains enough spatial frequencies to provide significant resolution gains. Thus in chapter 5 we developed a quantitative metric to indirectly determine the pattern modulation from the SIM data and find its critical value to use it as evaluation criterion. We called this metric the quality factor (Q-factor) and it represents the normalized strength (amplitude) of the extracted frequencies respect to the Gaussian noise contained in the images. Through simulations we estimated that Q=0.11 is a critical value and a SIM data set requires this as minimum value is to deliver a significant resolution gain. Q works then as an assessment tool for classifying SIM data as optimal or sub-optimal, i.e. Q≥0.11 or Q<0.11. We demonstrated such application with data acquired in various SIM commercial set-ups to prove its feasibility in the field (fig.5.6-5.11)
As mentioned at the beginning of this abstract SIM requires a specialized set-up and a processing algorithm to produce super-resolution images. This thesis contributes to these two areas in the following aspects: first, in its linear version a structured illumination microscope is highly associated to a 2-fold resolution gain. Here we demonstrated the possibility of extending this gain to 2.4 using our custom set-up the csiLSFM. Second, a reconstructed SIM image is prone to artifacts due to the mathematical process it undergoes, here we analyzed the artifact sources and identified them with drops of spatial information in the reconstructed spectrum, based on these conclusions we designed a processing pipeline to facilitate the extraction of spatial frequencies and directly reduce artifacts. A third and final outcome of this thesis is the development and practical implementation of a quantitative index to evaluate the quality of SIM data in terms of its relevant information content (Q-factor). Accordingly, the overall contributions of this work were done in the areas of SIM set-up, SIM reconstruction procedure and SIM data evaluation.
One of the most species-rich ant-plant mutualisms worldwide is the palaeotropical Crematogaster-Macaranga system. The pioneer-tree genus Macaranga (Euphorbiaceae) is mainly inhabited by at least nine specific species of Crematogaster (Myrmicinae), of which eight belong to the subgenus Decacrema, as well as several species of Camponotus (Formicinae). Ant species are not randomly distributed among the Macaranga host plants but distinct patterns of associations have been found (Fiala et al., 1999 and references cited therein). The specificity of the associations is maintained in spite of common sympatric distribution of several host-plant species. Associations are, however, usually not species-specific and especially the Decacrema ants, that are the focus of this study, usually colonize several host plant species each. In this study I used a combined approach of ecological data as well as phylogenetic data based on mitochondrial DNA sequences in order to elucidate the factors determining the patterns found in the associations and the evolution of this mutualistic system between the specific Decacrema ant partners and their Macaranga host plants. Life history traits of seven different morphospecies found on the most common Macaranga host plants were compared and colony development was followed from colony founding on saplings to adult trees. Temporal variability of the associations between Decacrema ants and their respective host plants was also examined. Associations between Crematogaster ants of the subgenus Decacrema and their Macaranga host plants were found to be stable over periods of time, long enough to enable reproduction of the ant colony and (in most cases) the host plants, too. Life-expectancy of the ant colony seems to be shorter than that of the host plant in general. All adult trees still provide nesting space as well as food for the ants. Colonies from different morphospecies differed in longevity, the onset of alate production, queen number and mode of colony founding. The examined Decacrema species could be placed into two groups according to their life-history traits as well as on morphological grounds: The decamera-group and the captiosa-group, each named after one species that could be synonymized with one morphospecies included in the group. Members of the captiosa-group have larger colonies, presumably with a longer life-span, and a later onset of reproduction compared to the decamera-group. Additionally, queens of the captiosa-group found colonies on saplings as well as in the crown region of bigger trees, whereas queens of the decamera-group found colonies on saplings and small treelets only. Queens belonging to the captiosa-group are brown with relatively large eyes (= 1/3 of the head length), whereas queens from the decamera-group are smaller in size, are dark brown to black in colour and have smaller eyes (< 1/3 of the head length). On some of the host plants examined in this study lifespan of the host plant and their specific ant partners seemed to be well matched whereas on others an ontogenetic succession of specific Decacrema partner ants was found, when host plants were abandoned due to the death of comparatively short-lived ant colonies, usually from species belonging to the decamera-group. Ant-partners of saplings or young plants often differed from specific partner ants found on bigger trees. Only species belonging to the captiosa-group were found to re-colonize the crown region of adult trees, thus facilitating a change of ant species, when longlived host plant species were colonized by relatively short-lived species from the decamera-group first. When long -lived host plants were colonized by long-lived species from the captiosa-group associations were stabler: I did not find any temporal variation in ant-inhabitants then. Life-span of the ant colony as well colony founding behaviour of the different partner ant species therefore play an important role for these ontogenetic changes and the specificity of the associations over time. For the host plant the ontogenetic changes have a strong impact as uninhabited host plants that are not patrolled by workers of specific ant partners suffer higher herbivore damage. Uninhabited host plants may also be colonized by unspecific arboreal ants that only make use of the nesting space and/ or food offered by the plant but do not confer protection against herbivores. Stable associations with a specific ant partner are therefore most beneficial for the host plants. Usually ant colonies are monogynous, but changes in the colony structure were found locally in two Decacrema species. I found colonies that turned secondarily polygynous, possibly after the death of the original founding queen. Secondary polygyny therefore can prolong the life-span of the antcolony on its host plant, leading to a parallel life-history and stable association as it was the case in Macaranga bancana-Crematogaster captiosa. However, in the other association (Macaranga hypoleuca-Crematogaster cf. decamera) life-expectancy of the ant-colony is still much shorter than that of its host plant species, leading to a change in the specific ant partner at a later stage. Pleometrotic foundress associations that directly led to polygynous colonies in one species were also found locally, a phenomenon hardly ever reported from ants in general. Foundress associations were found to be more successful in establishing colonies than single queens. I found indications that this change in colony founding behaviour might be due to interspecific competition for the same host plant species with another Decacrema species specific to Macaranga. For the phylogenetic analysis partial mitochondrial cytochrome oxidase I and II were sequenced and Neighbor-Joining, Maximum Parsimony, Maximum Likelihood as well as Bayesian analyses were performed. The four different analyses yielded phenetic as well as phylogenetic trees that all had a similar topology. Ants of the subgenus Decacrema formed a monophyletic clade, indicating a single colonization event at the beginning of the Macaranga-Decacrema symbiotic system. In the phylogenetic analysis the decamera-group as well as the captiosa-group were confirmed and clearly separated from each other. However, two species that would have been placed into the decamera-group, due to morphological as well as life-history traits, formed a third separate clade within the Decacrema. These two species (msp. 7- group) as well as the decamera-group came out as the basal groups in the phylogenetic analysis. Thus, life -history traits of these two groups (relatively small colonies, early onset of alate production, colony founding in ground region only) would be the ancestral state for Macarangaassociated ants of the subgenus Decacrema. Changes in colony structure, like secondary polygyny, were found in the captiosa- as well as the decamera-group and are therefore independent of the affiliation within the phylogeny. I did not find evidence for strict cocladogenesis between the subgenus Decacrema and their Macaranga host-plants, although ecological interactions between the two partner groups are close and associations can be rather specific. The phylogenies presented here, along with the known association patterns indicate that host-shifting of the ants is common in some of the species, opening the possibility of sympatric speciation as a result of increased host usage. Additionally, the considerable geographic substructuring found in the phylogenetic trees suggests that allopatric speciation has played a major role in diversification of the Decacrema ants.
Es gibt viele Theorien, die sich mit der Auswirkung einer zunehmenden carnivoren Ernährung von Homininen auf Carnivorengilden beschäftigen. Aussterbeereignisse in der Carnivorengilde werden oft mit carnivoren Homininen in Verbindung gebracht. Um zu prüfen, ob solche Theorien überhaupt zutreffen, benötigt man zunächst ein Modell, das Effekte von Konkurrenzbeziehungen innerhalb von Carnivorengilden quantifiziert darstellt.
In dieser Arbeit ist daher ein Modell entwickelt worden, das die Konkurrenz um Beute innerhalb einer Carnivorengilde darstellt und ermöglicht Veränderungen durch das Eintreten neuer Mitglieder in die Gilde zu modellieren. Dieses Modell wurde zur Analyse der rezenten Großcarnivorengilden der Serengeti, des Krüger-National-Parks und des Bandipur-Biosphärenreservat verwendet. Ebenso ist es zur Analyse pleistozäner Großcarnivorengilden Javas eingesetzt worden.
In dem Modell wird die verfügbare Beutemasse als limitierende Ressource für die Carnivorengilde betrachtet. Im ersten Schritt wird die Beute kategorisiert – in dieser Arbeit nach ihrer Körpermasse – und geprüft, welche Mitglieder dieselben Beutekategorien nutzen und welche für sie essentiell sind. Im zweiten Schritt wird die konkurrenzfreie Kapazität der Gildenmitglieder berechnet. Hierzu wird die für die gesamte Gilde verfügbare Beutemasse unter der Annahme verwendet, sie stehe einem Gildenmitglied allein zur Verfügung. Die konkurrenzfreie Kapazität ist daher die Populationsgröße, die ein Gildenmitglied mit dieser Beutemasse erreichen kann und stellt einen Referenzwert dar. Basierend auf diesem Referenzwert und der tatsächlichen Populationsgröße kann nun berechnet werden, zu welchem Anteil ein Mitglied diese Kapazität ausschöpft. Ist der Konsum an Beutemasse der übrigen Mitglieder in den essentiellen Beutekategorien bekannt, kann berechnet werden, zu welchem Anteil ein Mitglied durch ein anderes Mitglied von dieser Kapazität verliert. Dieser Verlust an Kapazität wird als Konkurrenzeffekt bezeichnet.
Dieses Modell ist sowohl auf rezente als auch fossile Gilden anwendbar. Um mit dem Modell die Konkurrenzeffekte zu berechnen, werden die Häufigkeit bzw. Populationsgröße, das Beutemassenspektrum sowie der tägliche Bedarf an Beutemasse benötigt.
Diese Größen können bei der Strukturanalyse von rezenten Gilden aus Freilandstudien entnommen werden. Im Falle fossiler Gilden müssen diese Größen erst rekonstruiert werden. Dafür sind in dieser Arbeit vorhandene Rekonstruktionsmethoden ergänzt, aber auch entwickelt worden, mit denen man basierend auf der Körpermasse fossiler Carnivora die benötigten Parameter rekonstruieren kann. Hierzu sind verschiedene Regressionen berechnet worden, die einen Zusammenhang zwischen verschiedenen Zahnparametern und der Körpermasse darstellen. Weiterhin sind Muster der Beutemassenspektren rezenter Carnivora untersucht worden und Regressionen berechnet worden, die zur Rekonstruktion der mittleren Beutemasse eines Carnivoren verwendet werden.
Die benötigten Daten der javanischen Gilden werden mit den eben genannten Regressionen rekonstruiert. Anschließend wird eine Strukturanalyse der genannten rezenten und fossilen Großcarnivorengilden durchgeführt.
Bei den drei rezenten Gilden ist eine generelle sich wiederholende Struktur erkennbar. Die erfolgreichsten Mitglieder schöpfen ihre Kapazität zu ca. 60 % aus und verfolgen eine soziale Lebensweise.
Dennoch werden die erfolgreichsten Mitglieder der Gilden von unterschiedlichen Arten repräsentiert. So sind dies der Löwe im Krüger-Nationalpark, die Tüpfelhyäne in der Serengeti oder der Rothund in Bandipur.
Bei den fossilen Gilden war diese Struktur allerdings nicht erkennbar. Hier schöpft der Tiger seine Kapazität in allen Gilden am stärksten aus und hat extrem hohe Konkurrenzeffekte (bis zu ca. 98 %) auf die übrigen Gildenmitglieder.
Diese Unterschiede können mit Isolationsbedingungen Javas als Insel zusammenhängen, die sich grundsätzlich auf Strukturen der Säugergemeinschaften auswirken.
Vermutlich konnte der Tiger durch Veränderungen der Körpermasse seine konkurrenzstarke Position in der Großcarnivorengilde Javas halten.
Das entwickelte Modell ermöglicht auch eine Modellierung von Szenarien, die verschiedene Möglichkeiten berücksichtigt. Diese sind vor allem Veränderungen der Populationsgrößen, aber auch Veränderungen der Körpermasse und daraus resultierende Verschiebungen der Beutemassenspektren.
In Beispielen der Trinil-Gilde wird gezeigt, dass die Rolle eines hyper- bzw. hypocarnivoren Homo erectus in der Gilde mit dem entwickelten Modell dargestellt werden kann. Auch lassen sich Szenarien modellieren, in denen ein hyper- bzw. hypocarnivorer Homo erectus in die Gilde eindringt und so die übrigen Mitglieder von bei ihrer Kapazitätsausschöpfung Einbuße hinnehmen müssen.
In dem Szenarium von Trinil wird erkennbar, dass nur ein hypercarnivorer Homo erectus einen starken Effekt auf die Gildenmitglieder hatte. Geht man von einem omnivoren Homo erectus aus, ist der Konkurrenzeffekt geringer und es sind keine Aussterbeereignisse zu erwarten.
Das Modell kann in weiteren Studien zur Testung von Hypothesen zu Aussterbeereignissen Aufklärung bieten. Durch Einbeziehung weiterer Faktoren wie Kleptoparasitismus und interspezifische Tötungen kann es noch erweitert werden. Auch eine Dynamisierung des Modells, die eine kontinuierlich zeitliche Veränderung der Gilden modellieren kann, ist in zukünftigen Studien möglich.
Die G/F-Transition zytoskelettärer Elemente bildet die molekulare Basis zur Kontrolle der Zellform, Motilität, Migration und Invasivität von Zellen. Die Änderungen der Filamentlängen werden durch bindende Proteine kontrolliert, wodurch sich die viskoelastischen Eigenschaften des Zytoplasmas ändern. Die Kenntnis der mechanischen Eigenschaften der einzelnen Zytoskelettelemente in vitro (mit und ohne bindende Proteine) ist die Grundlage zum Verständnis der Zellmechanik. Daher wurde eine nicht destruktive Methode zur Bestimmung viskoelastischer Eigenschaften von Gelen und Flüssigkeiten entwickelt. Als Viskositätssensor dient ein kleines Glasstäbchen, welches in der zu untersuchenden Flüssigkeit in seiner Resonanzfrequenz schwingt. Aufgrund der Zähigkeit der Flüssigkeiten kommt es zur Mitbewegung angrenzender Flüssigkeitsschichten. Die Eindringtiefe der erzeugten Scherwellen ist eine Funktion der Viskosität und der Dichte der Flüssigkeit. Die extrem kleinen Auslenkungen (1100 nm) des Sensors werden von einem phasensensitiven akustischen Mikroskop detektiert, welches gleichzeitig die Detektion des Elastizitätsmoduls der Flüssigkeit ermöglicht. Nach Aufbau und Weiterentwicklung des Gerätes wurde die Viskoelastizität während der Polymerisation von Aktin, Tubulin und Neurofilamentprotein gemessen sowie während der Interaktion der Polymere mit einer Reihe spezifisch bindender Proteine, wie z.B. aAktinin, Profilin, Glykolyseenzyme, MAPs bzw. Zellgiften wie Cytochalasin D, Phalloidin, Colchizin und Taxol. Im Vergleich zu FAktinlösungen ist die dynamische Viskosität von Mikrotubulilösungen um eine Zehnerpotenz und die Schallgeschwindigkeit um etwa 100 m/s höher. Die Viskoelastizität von Nicht-Muskelaktin ist im Vergleich zu Muskelaktin etwa dreimal höher. Die steadystate-Viskositäten von F-Aktin und Mikrotubulilösungen nähern sich mit steigender Proteinkonzentration einem Maximalwert an, wohingegen die Elastizitäten sich einem Minimalwert annähern, was auf eine nematische Phasentransition zurückzuführen ist. Der Schallgeschwindigkeitsverlauf während der Polymerisation von Aktin und Tubulin ist biphasisch: er nimmt zunächst vor messbaren Viskositätsänderungen zu, was hinsichtlich des Aktins auf eine Zunahme steifer Aktinprimer und hinsichtlich des Tubulins auf die Bildung oligomerer Strukturen mit hoher intrinsischer Steifigkeit zurückzuführen ist. Für Proteinkonzentrationen >20 µM fällt dann die Schallgeschwindigkeit nach dem Erreichen des Viskositätsmaximums ab, was durch eine erhöhte Volumenkompressibilität infolge zunehmender Hydratation der Polymere begründet ist. Versuche mit polymerisationsfördernden bzw. depolymerisierenden Agenzien wie Taxol bzw. Colchizin und Kalzium zeigen, dass die hohe Elastizität von Mikrotubulilösungen durch die intrinsische Elastizität der Tubulinoligomere dominiert wird. Die Viskosität von Mikrotubuli mit assoziierten MAPs (MTP) ist im Vergleich zu FAktin ungefähr doppelt so hoch und im Vergleich zu PC-Tubulin ungefähr dreimal niedriger. Die Elastizität von MTP ist im Vergleich zu FAktin durchschnittlich 4 % höher und 3 % niedriger im Vergleich zu MAP-freien Mikrotubuli. Die Assoziationen von Neurofilamenten an Mikrotubuli induzierte einen Viskositätsanstieg, während die Elastizität fiel, was auf eine Destabilisation der Mikrotubuli während der Interaktion zurückzuführen ist. Die Destabilisation ist möglicherweise eine Folge einer GTP-Hydrolyse durch die an den Neurofilamenten assoziierte GTPase. Neben den zeitlich voneinander unabhängigen Verläufen der Schallgeschwindigkeit und der Viskosität konnte mit Hilfe der Detektion der Schalldämpfung während der Polymerisation von Aktin eine weitere zeitlich unabhängig verlaufende Kinetik bestimmt werden, welche mit der Quervernetzung und der Filamentlänge zusammenhängt. Die Schalldämpfung von Neurofilamenten ist im Vergleich zu F-Aktin etwa 10mal höher. Während der Polymerisation von Tubulin, mit und ohne MAPs, konnte aufgrund hoher Schallreflektionen, bedingt durch die festkörperähnlichen Strukturen, keine klar definierte Schalldämpfungskinetik bestimmt werden. Die Elastizität von Aktingelen (1 mg/ml) hängt nicht mit der Deformationsfrequenz (0,0533 kHz) zusammen. Nach der Zugabe von a-Aktinin steigt jedoch die Elastizität mit der Frequenz gemäß dem Verhalten eines elastischen Körpers an. Auch durch die Zugabe hoher ATP-Konzentrationen (2 mM) kann die Elastizität von Aktin erhöht werden. Impulsartige Modulationen der Schwingungsamplitude von ± 30 nm senkten die Viskosität von Aktingelen (< 25 µM) um 50 %, was auf ein Zerschlagen und Umorientieren von Filamenten zurückzuführen ist. Durch die Zugabe von aAktinin waren diese Viskositätsänderungen siebenmal niedriger. Die Viskosität von Aktingelen > 50 µM konnte durch impulsartige Erhöhungen der Schwingungsamplitude (> 40 nm) nicht verringert werden. Ebenso wurden die Viskositäten von Tubulingelen (15100 µM) und Neurofilamentlösungen (> 0,5 µM) durch impulsartige Deformationen im Nanometerbereich (10100 nm) nicht beeinflusst. Niedrige Profilinkonzentrationen (Aktin:Profilin 1) fördern die Polymerisation von Mg 2 bgGAktin. Ebenso führt die Zugabe von Profilin (Aktin:Profilin = 1:1) zu bereits polymerisiertem Aktin zu einer Viskositätszunahme. Profilin im Überschuss (Aktin:Profilin = 1:5) hemmt die Polymerisation von Mg 2 bgG Aktin. Im Gegensatz zu Muskelaktin verliert NichtMuskelaktin nach einiger Zeit (> 40 Minuten) seine Elastizität. Dieser Elastizitätsverlust kann durch die Zugabe von Profilin verzögert werden. Nach der Zugabe geringer Profilinkonzentrationen zu bgAktin wurde anhand von EM-Aufnahmen vermehrt nicht filamentöse Aktin-Aggregate gezeigt, welches besonders hohe Elastizitätswerte aufwies. Zusammen mit den rheologischen Befunden für Aktin und Mikrotubulilösungen kann geschlossen werden, dass nicht filamentöse Formen zytoskelettärer Elemente (Tubulinoligomere, Aktintrimere, GAktincluster) in hohem Maße zur Elastizität von Zellen beitragen. Hexokinase fördert die Polymerisation von Aktin. In Gegenwart hoher ATP-Konzentrationen wirkt sie durch Fragmentierung von Aktinfilamenten elastizitätsmindernd. In Gegenwart von Glukose wird dieser Effekt aufgehoben. LDHH 4 fördert in Gegenwart ihres Coenzyms NADH die Polymerisation von Aktin. Gibt man zusätzlich Pyruvat hinzu, so wird dieser Effekt nahezu umgekehrt. Unter diesen Bedingungen ist ferner die Enzymaktivität der LDHH 4 eingeschränkt. Umgekehrt fördert die LDHH 4 in Gegenwart von Laktat und NAD die Polymerisation von Aktin, wobei gleichzeitig die Enzymaktivität der LDHH 4 erhöht ist. Diese Befunde sprechen für eine deutliche Reziprozität zwischen LDHH 4 und Aktin. Aldolase reduziert deutlich die Viskoelastizität von F-Aktin, was in der Bildung von F-Aktin-Aldolase Parakristallen begründet ist. Die Zugabe des Substrates FBP erhöht hingegen die Viskoelastizität von F Aktin. Der Effekt hängt jedoch davon ab, ob Magnesium-Ionen an den Aldolase-G-Aktin-Komplex binden. Wird Aldolase zu polymerisierendem Aktin zugegeben, so bleibt die Viskosität der Lösung unverändert, während die Elastizität zunimmt. In diesem Falle wird die Steifigkeit der Filamente durch die Anla gerung der Aldolase erhöht. Zytosolische, nichtmembrangebundene Enzyme, wie die Aldolase, Hexokinase und LDH binden demnach an F-Aktin und modulieren seine Mechanik. Das Ausmaß der Modulation hängt von der Konzentration der Enzyme sowie der Gegenwart der jeweiligen Substrate ab. Ferner moduliert Aktin reziprok die Aktivität der Enzyme.
Es ist wohl unumstritten, dass das Leben, wie wir es kennen, ohne die sauerstoffproduzierenden Organismen unserer Erde nicht möglich wäre. Zu ihnen gehören nicht nur die Landpflanzen, deren mannigfaltige Nutzung wichtiger Bestandteil unseres Alltags ist. Auch mikroskopisch kleine Algenarten leisten einen entscheidenden Beitrag zu den Stoffwechselkreisläufen dieser Welt. Unter ihnen befinden sich die Kieselalgen (Diatomeen), die mit einer Varietät von bis zu 10000 Spezies etwa 40 % der marinen Primärproduktion verantworten. Der Ursprung der heutigen zur oxygenen Photosynthese befähigten Eukaryoten geht auf Endosymbioseereignisse zurück, von denen aus sich diese Organismen ausgesprochen vielfältig entwickelt haben. Diese Vielfalt wird dabei nicht nur anhand ihrer äußeren Morphologie, sondern auch auf subzellulärer Ebene, deutlich. So zum Beispiel durch die unterschiedlichen Strukturen der Thyakoidmembranen, die sich in Kieselalgen wie Cyclotella meneghiniana in dreilagigen Bändern arrangieren. In Pflanzen wie Nicotiana tabacum (Tabak) hingegen bilden sie große, stapelartige Bereich aus, die zur räumlichen Separation der in den Thylakoiden eingebetteten Photosystemen beitragen. Auch die an die Photosysteme (PS) gebundenen Lichtsammelproteine (Lhcs) haben sich in Tabak und Cyclotella unterschiedlich entwickelt. Gemäß ihrem Namen zeichnen sie sich zwar allesamt durch die Sammlung und Weiterleitung der Lichtenergie an die Photosysteme aus, grenzen sich aber in Hinblick auf Proteingröße und Pigmentierung voneinander ab.
Die Lhcs der höheren Pflanzen werden entsprechend ihrer Zuordnung zu den Photosystemen in den aus zwei Heterodimeren bestehenden LHCI des PSI und die Lhcb-Antennenproteine des PSII unterschieden. Zu letzteren gehören der trimere Hauptantennenkomplex LHCII und die monomeren, minoren Antennenproteine. Die Lhcs binden die zur Lichtsammlung benötigten Pigmente, vor allem Chlorophyll a und Chlorophyll b, aber auch primäre Carotinoide wie Violaxanthin, Lutein und Neoxanthin, in unterschiedlichen Stöchiometrien. Es ist bereits bekannt, dass die Pigmentierung entscheidend zur Stabilität der Lichtsammelproteine beiträgt, wenngleich zum Teil auch eine gewisse Flexibilität in Bezug auf die Art der gebundenen Pigmente an den entsprechenden Bindestellen der Proteine besteht.
Im Rahmen dieser Arbeit liegt der Fokus auf der Fragestellung inwieweit die in der Regel nicht in Pflanzen vorkommenden Ketocarotinoide die Struktur und Funktion des LHCII aus einer Ketocarotinoide produzierenden N. tabacum - Transformante (bkt-Linie) beeinflussen und welche Auswirkungen sie auf dessen Photosyntheseapparat im Allgemeinen haben. Die bkt-Linie bildet dabei zum Teil auf Kosten ihrer primären Carotinoide sowohl das als antioxidativ und als anti-kanzerogen beschriebene Astaxanthin, als auch dessen Vorstufe Canthaxanthin und einige Derivate dieser Pigmente, die, nach vergleichenden HPLC-Analysen von Blättern und Thylakoidfraktionen, zu einem großen Teil mit der Thylakoidmembran assoziiert sind. Durch spektroskopische Untersuchungen konnte gezeigt werden, dass diese Ketocarotinoide in Hinblick auf die Energieweiterleitung zum Chlorophyll a nicht funktionell an den LHCII binden, ihre Produktion aber die Trimerisierung dieses Lichtsammelkomplexes in N. tabacum nachhaltig beeinträchtigt. Auch die Assemblierung der PSII-LHCII-Superkomplexe wird dadurch maßgeblich gestört. Elektronenmikroskopische Aufnahmen von Chloroplasten der bkt-Linie verdeutlichten zudem die Beeinträchtigung der Granathylakoid-Stapelung: Sie fällt ungeordneter aus als im Wildtyp, was durch den Mangel an intakten LHCII-Trimeren begründet sein kann.
In funktioneller Hinsicht stören die Ketocarotinoide die Energieweiterleitung innerhalb des PSII und bewirken die Reduktion der photoprotektorischen, nicht-photochemischen Fluoreszenzlöschung des Wirtsorganismus nachhaltig. Zeitgleich reduzieren sie durch einen abschirmenden Effekt auf Grund ihrer Assoziation mit der Thylakoidmembran und/oder durch einen eventuellen S1-S1-Energietransfer von Chl a auf die Ketocarotinoide aber auch die Menge der Lichtenergie, die über die Lhcs an die Photosysteme weitergeleitet wird. Dadurch kommt ihnen neben dem nachhaltig störenden Einfluss auf die Intaktheit des Photosyntheseapparats zugleich auch eine schützende Wirkung vor einem Übermaß an Lichtenergie zu.
Aus Cyclotella meneghiniana sind zwei Hauptantennenkomplexe bekannt: FCPa und FCPb. Im Gegensatz zu den Lhcs der Chl a/b-haltigen Organismen binden die Lichtsammelproteine der Diatomeen das Xanthophyll Fucoxanthin anstelle des Luteins, und Chlorophyll c anstelle des Chlorophyll b. Im Gegensatz zu der bereits sehr detailliert aufgeklärten Struktur des trimeren LHCII in höheren Pflanzen, existieren für den Aufbau des FCPb in C. meneghiniana bisher nur fundierte Modellvorschläge. Diese postulieren eine homotrimere Grundstruktur für den FCPb, die zu höheren Oligomeren assembliert.
In der vorliegenden Arbeit konnte anhand elektronenmikroskopischer Aufnahmen und der anschließenden Einzelpartikelanalyse nun erstmalig die Struktur des etwa 6-7 nm großen, trimeren FCPb gezeigt und die Richtigkeit der bisher postulierten Modellvorschläge in Hinblick auf die Struktur des Trimers bewiesen werden. Nach den hier dargelegten Erkenntnissen gleicht die Anordnung der Untereinheiten des FCPb-Trimers der des LHCII. Zudem ergibt sich aus dem Zusammenhang der hier erhobenen Daten und den in der Fachliteratur veröffentlichten Ergebnissen zum Thema FCPb ein klares Bild über die Anordnung der höheren Oligomere in Form von Nonameren. Auch diese Erkenntnisse unterstützen das ursprünglich von C. Büchel vorgeschlagene Modell für die oligomere Struktur des FCPb in C. meneghiniana.
Riboswitche sind hoch strukturierte RNA‐Elemente, die durch direkte Bindung von kleinen Metaboliten die Expression vieler bakterieller Gene kontrollieren. Sie bestehen aus einer Ligand‐bindenden Aptamerdomäne und einer so genannten Expressionsplattform. Im Zuge der Metabolitbindung an die Aptamerdomäne ändert sich die Konformation der Expressionsplattform. Diese Konformationsänderung führt zu einem vorzeitigen Abbruch der mRNA‐Transkription oder zu einer Inhibierung der Translationsinitiation. In Bacillus subtilis wurden zwei Klassen von Riboswitchen gefunden, die trotz einer sehr hohen Homologie in ihrer Primär‐ und Sekundärstruktur spezifisch zwischen den Purinen Guanin und Adenin unterscheiden.
Durch den direkten NMR‐spektroskopischen Nachweis von Wasserstoffbrückenbindungen konnte der Bindungsmodus von Adenin, Guanin und von weiteren Purinliganden an diese beiden Klassen von Riboswitch‐RNAs beschrieben werden. Für beide Purin‐Riboswitche wurde ein gemeinsamer Bindungsmechanismus des Purinliganden an die RNA beobachtet. Hierbei bildet der Purinligand ein intermolekulares Basentripel mit der Riboswitch‐RNA aus. Die Spezifität der Metabolitbindung ist das Resultat eines intermolekularen Watson‐Crick Basenpaars zwischen dem gebundenen Liganden Guanin und einem Cytidin bzw. zwischen dem Liganden Adenin und einem Uridin der jeweiligen Riboswitch‐RNA. Zusätzlich wurde eine zweite Basenpaarung zwischen der Riboswitch‐RNA und dem gebundenen Liganden entdeckt, die in beiden Riboswitch‐Klassen identisch ist und ein weiteres Uridin der RNA und die N3/N9 Seite des Purinliganden einschließt. Diese Basenpaarung entsteht durch ein bislang unbeschriebenes Wasserstoffbrückenbindungsmuster, das zur Affinität der RNA‐Ligand‐ Wechselwirkung beiträgt. Die beobachteten intermolekularen Wasserstoffbrückenbindungen zwischen der RNA und dem gebundenen Purinliganden erklären die beobachtete Spezifitätsumkehrung einer C zu U Mutation in der Ligandbindungstasche der Riboswitch‐ RNA und die Unterschiede der Bindungsaffinitäten von verschiedenen Purinanaloga.
Weiterhin wurden die Ligand‐ und Kation‐induzierten konformationellen Änderungen der isolierten Aptamerdomänen beider Purin‐bindenden Riboswitche und des gesamten Guanin‐ Riboswitches mittels NMR‐Spektroskopie untersucht. Demnach ist die Ligandbindungstasche in der Ligand‐ungebundenen Form unstrukturiert und Ligandbindung verläuft nach einem induced fit‐Mechanismus. Die Untersuchung der freien und Mg2+‐gebundenen Form der Ligand‐ungebundenen Aptamerdomäne zeigte Unterschiede zwischen den beiden eng verwandten Purin‐bindenden Riboswitchen. Während die Wechselwirkung zwischen den hoch konservierten Sequenzen der apikalen Schlaufen der Helix II und III in der Mg2+‐freien Form des Guanin‐Riboswitches vorgeformt ist, ist sie in der Mg2+‐freien Form des Adenin‐ Riboswitches nicht ausgebildet, wird jedoch in Gegenwart von Mg2+ ausgebildet. Es konnte gezeigt werden, dass dieser konformationelle Unterschied zwischen den Ligand‐ ungebundenen Purin‐Riboswitchen durch die Stabilität der apikalen Basenpaare in Helix II festgelegt wird. Die im Guanin‐Riboswitch gefundene stabile Schlaufen‐Schlaufen‐ Wechselwirkung kann auch außerhalb der Riboswitchsequenz existieren. Durch Mg2+, Mn2+ und Co(NH3)63+ Titrationen der Ligand‐gebundenen Purin‐Riboswitch Aptamerdomänen konnten spezifische Kationbindungsstellen lokalisiert werden, die in beiden Komplexen übereinstimmen und eine Rolle in der Stabilisierung der RNA‐Struktur spielen.
Um die Sekundärstruktur des gesamten Guanin‐Riboswitches in seiner freien und Ligand‐ gebundenen Form zu untersuchen, wurden die NMR‐Spektren dieser RNA mit denen der freien und Ligand‐gebundenen isolierten Aptamerdomäne und der isolierten Terminator‐ und Antiterminatorelemente verglichen. Überaschenderweise bildet bereits die freie Form des gesamten Guanin‐Riboswitches das Terminatorelement und die Aptamerdomäne aus. Somit finden konformationelle Änderungen im Zuge der Ligandbindung einzig in der Aptamerdomäne statt. Weiterhin wurde die Struktur der freien und Ligand‐gebundenen Form einer verkürzten Guanin‐Riboswitch‐RNA untersucht. Diese RNA ist ein Modell für ein Transkriptionsintermediat, das durch eine der drei RNA‐Polymerase‐Ruhestellen induziert wird, die in der Riboswitch‐Sequenz aufzufinden sind. Interessanterweis schließen sich die Ligandbindung an die Aptamerdomäne und die Ausbildung des Antiterminators nicht gegenseitig aus, wie bisher angenommen. Die verkürzte RNA kann in Abhaengigkeit von verschiedenen experimentellen Bedingungen unterschiedliche Sekundärstrukturen annehmen. Das hat interessante Auswirkungen auf die Rolle der im Terminatorelement lokalisierten Transkriptionsruhestelle für den genregulatorischen Prozess und führt zu einem neuen Modell der Funktionsweise des Guanin‐Riboswitches.
Sympathetic influences on articular cartilage regeneration capacity and osteoarthritis manifestation
(2021)
The pathogenesis of osteoarthritis (OA) involves articular cartilage, synovial tissue and subchondral bone and is therefore a disease of the whole joint. OA is characterized by progressive degradation of cartilage, synovial inflammation, osteophyte formation and subchondral bone sclerosis. Cartilage-surrounding tissues are innervated by tyrosine hydroxylase (TH)-positive sympathetic nerve fibers with the most important sympathetic neurotransmitter norepinephrine (NE) detected in the synovial fluid of OA patients. Furthermore, adrenergic receptors are expressed in different knee joint tissues. Most in vitro studies indicate a potential role of the β2-adrenergic receptor, which has been not investigated during OA pathogenesis in vivo. The role of the sympathetic nervous system (SNS) in OA progression has not yet been studied. Therefore, the objective of this study was to analyze how the SNS and NE influence the MSC dependent cartilage regeneration in vitro and the OA pathogenesis and manifestation in vivo.
In the first part of this study, the effect of NE on the chondrogenesis of sASC, which are known to play an important role in cartilage regeneration was analyzed in vitro. In the second part of this study, the role of the SNS was studied in vivo in mice that were sympathectomized chemically followed by surgically induced OA. The specific focus was on the β2-adrenergic receptor effects on OA pathogenesis, which were analyzed in β2-adrenergic receptor-deficient mice.
The in vitro experiments have shown that NE reduced the chondrogenic potential of sASCs by decreasing the expression of type II collagen and sGAG. NE mediated these effects mainly by the α2-AR signalling. Furthermore, NE treatment led to activation of the ERK1/2 signal pathway. These findings suggested that the sympathetic neurotransmitter NE might suppress the chondrogenic capacity of MSC and their dependent cartilage regeneration and may also play a role in OA progression and manifestation.
The in vivo study has shown that sympathectomy reduced synovial TH-positive nerve fibers in the synovium and the NE concentration in the spleen significantly. In WT mice, DMM leads to increased NE concentrations in the spleen compared to sham mice indicating an increased SNS activity after mechanical stress or inflammation due to DMM. Sympathectomy leads to less pronounced cartilage degeneration (OARSI score) after DMM compared to DMM in WT mice. Furthermore, the release of the type II collagen degradation fragment CTX-II was abolished in Syx DMM mice compared to WT DMM mice, suggesting that less SNS activity due to sympathectomy reduced the cartilage degeneration during OA pathogenesis. Similarly, sympathectomy decreased the synovitis score significantly after DMM compared to DMM in
WT mice. Synovitis in WT mice was accompanied by increased MMP-13 expression in the synovium after DMM, compared to Syx mice. Cartilage degeneration seemed to be driven mainly by the increased synovial inflammation accompanied by an increased MMP13 expression in synoviocytes and not in chondrocytes. The pathological changes in synovium and cartilage might also be linked to each other, as indicated by the moderate correlation between the synovial inflammation (synovitis score) and cartilage degeneration (OARSI score). Subchondral bone volume as well the thickness of the subchondral bone plate (SCBP) and calcified cartilage (CC) were increased in Syx mice compared to WT after DMM. The data on DMM induction in β2-AR deficient mice revealed that the β2-AR signaling is involved in cartilage degeneration and the aggravated subchondral bone changes as these mice had less pronounced cartilage degeneration compared to WT mice. While the cartilage degeneration was similar, the subchondral bone changes were more pronounced in β2-AR deficient mice compared to the Syx mice.
Overall, the SNS had differential effects in cartilage, synovium and subchondral bone. A reduced SNS activity by sympathectomy attenuated cartilage degeneration and synovitis but aggravated the OA specific subchondral bone changes. These findings provide new insights into the development of novel therapeutic strategies for OA by targeting the SNS in a tissue- specific manner.
Capoeta damascina (Teleostei: Cyprinidae) is one of the most common freshwater fish species, found throughout the Levant, Mesopotamia, Turkey and Iran. According to the state of knowledge prior to this study, C. damascina, which is distributed over a wide range of isolated water bodies, was not a well-defined species. It was questionable whether it represents a single species or a complex of closely related species with high intraspecific and comparatively low interspecific variability. The goal of this study was to investigate the taxonomy, systematic position of the C. damascina species complex and the phylogenetic relationships among its members, based on morphological features as well as molecular phylogeny. Samples obtained from throughout the geographic range of this species complex were subjected to comparative morphological analyses in order to define, properly diagnose and separate species within the C. damascina complex. To elucidate phylogenetic relationships among members of the C. damascina species complex, samples were subjected to genetic analyses, using two molecular markers targeting the mitochondrial cytochrome oxidase I (COI, n = 103) and the two adjacent divergence regions (D1-D2) of the nuclear 28S rRNA genes (LSU, n = 65). Based on morphological and molecular genetic data, six closely related species were recognized within the C. damascina complex: C. buhsei, C. caelestis, C. damascina, C. saadii, C. umbla and an undescribed species, Capoeta sp.1. Analyses of the morphometric and meristic data obtained in this study revealed phenotypic variability among the various populations within a species and among the different species. Such differences in morphological characters reflect genetic differences, environmentally induced phenotypic variation or both, as the meristic phenotype of fish is sometimes a consequence of environmental parameters acting on the genotype. Based on phylogenetic analyses, two main lineages were identified within the C. damascina species complex: a western lineage represented by C. caelestis, C. damascina and C. umbla and an eastern lineage represented by C. buhsei, C. saadii and Capoeta sp.1. The close phylogenetic relationships between C. damascina and C. umbla and the sharing of same haplotypes between one specimen of C. damascina from Euphrates and another of C. umbla from Tigris reflect one of three possibilites: recent speciation, mitochondrial introgression or a combination of both. The results obtained in this study indicate that speciation of the above-mentioned six taxa is quite recent and that their dispersal and present-day distribution can be related to Pleistocene events. The drying out of the Persian Gulf, probably during one of the first glacials of the Pleistocene, led the ancestor of the C. damascina species complex in Mesopotamia to reach the rivers of the Gulf and of Hormuz basins and differentiate there, giving rise to the eastern lineage (ancestor of C. buhsei, C. saadii and Capoeta sp.1). As connections presumably existed among the different river drainages and basins in Iran during the wet periods of the Pleistocene, the ancestor of C. buhsei, C. saadii and Capoeta sp.1 was subsequently able to colonize the various Iranian drainages and differentiate there, giving rise to C. buhsei, C. saadii and Capoeta sp.1. After the separation from the eastern lineage, the western lineage, represented by the ancestor of C. damascina, C. umbla and C. caelestis, most likely reached the Levant from the Tigris-Euphrates system during the Pleistocene glacials, when river connections existed in the regions of the upper courses of Ceyhan Nehri (southern Turkey) and some western affluents to the Euphrates. From Ceyhan Nehri, it dispersed into other rivers in southern Turkey during Pleistocene periods of low sea levels until it reached Göksu Nehri and evolved into C. caelestis. The sister population differentiated into C. damascina and C. umbla. Based on the results obtained in this study, it is likely that C. damascina colonized the Levant and southern Turkey during the Pleistocene glacials. This is well supported by the low genetic variability among the C. damascina populations. Direct connections existed among the river drainages in the Levant during the Pleistocene periods of low sea level, thus serving as a pathway for the dispersal of C. damascina. The results of this study provide a coherent picture of the taxonomic position, phylogenetic relationships and evolutionary history of the C. damascina species complex and explain present patterns of distribution considering paleogeographic events.
The fungal genus Pestalotiopsis s.l. contains approximately 300 described species and is globally distributed. The monotypic genus Pestalotia is considered the closest relative of Pestalotiopsis s.l. This study aims to investigate the diversity and systematics within Pestalotiopsis s.l. and its relation to Pestalotia. Therefore, an integrative approach is used considering molecular phylogeny methods as well as examination of morphological characters.
Recently, Pestalotiopsis s.l. was split into three genera with the addition of the newly erected Neopestalotiopsis and Pseudopestalotiopsis. The species of these genera are usually saprotrophic, phytoparasitic, or endophytic, and have been isolated from soil, air, and many kinds of anorganic material. The asexual fruiting bodies appear on infected plant material as black acervuli that release conidia. The conidia are important to examine for morphological taxon recognition. The number of conidial cells is the feature that distinguishes Pestalotiopsis s.l. spp. with five celled conidia, from Pestalotia pezizoides with six celled conidia. However, the significance of morphological characters is controversially discussed among mycologists. In recent years, 55 new species were described based on minor genetic distances and marginal or no morphological differences. Thus, the value of certain morphological characters and genetic markers need to be reconsidered.
In this study, 102 herbarium specimens of 26 described species, with an emphasis on plant pathogenic species from North America, have been morphologically examined and documented through drawings and photographs. Morphological examination was complemented with a comprehensive molecular dataset obtained from 191 cultures representing the genera Neopestalotiopsis, Pestalotia, Pestalotiopsis, Pseudopestalotiopsis, and Truncatella. One novelty of this work is that, besides the well-established markers ITS, TEF1, and ß-tubulin, the protein-coding genes MCM7 and TSR1 were successfully sequenced and included in the analyses. Phylogenies using Maximum Likelihood and Bayesian inference methods of single loci and the combined dataset were calculated. By comparison of these phylogenies, MCM7 was identified as the most powerful one in terms of phylogenetic resolution and statistical support of nodes and is proposed as an additional barcoding marker in Pestalotiopsis s.l.
In Pestalotiopsis, species delimitation was tested using the Baysian Phylogenetics and Phylogeography (BP&P) program that tests an existing species scenario against Bayesian inference methods under a multispecies coalescent model. The program supported only ten species out of the predetermined 19 species scenario. Measurements of conidia for species detected by BP&P were explored using a TukeyHSD-Test in the program R to find means that are significantly different from each other. This test revealed that combinations of morphological characters are required to distinguish between the ten species found by BP&P.
Another purpose of this work was to clarify the status of Pestalotia with regard to Pestalotiopsis s.l. Therefore, fresh epitypic material of Pestalotia pezizoides, was collected, isolated, and cultivated. The molecular analysis of a combined dataset of the gene regions ITS and LSU for species of Amphisphaeriales nested P. pezizoides in the genus Seiridium. Thus, synonymy of Pestalotia with Seiridium is proposed here. This is supported by morphology of the conidia. Further, an epitype is proposed for the type species of Pestalotiopsis, P. maculans. On the other hand, the recently proposed epitype of P. adusta is rejected here as it conflicts with the taxonomic hypothesis obtained in this study and its introduction is inconsistent with the formal requirements for epitypification. A new topotypic specimen is proposed instead. Additionally, several nomenclatural changes become necessary in many species examined. These include three new combinations and six synonyms of species of Pestalotiopsis s.l.
The conclusion of this work is that morphological data have potential as a valuable, inexpensive and easy way to recognize species. However, it is not the best method for species discovery and delimitation bearing in mind that in microfungi and many other organisms, individual plasticity and analogous structures are inadequately investigated. By phylogenetic analyses of molecular sequence data, it is possible to compare a great amount of equivalent characters and to delimit species that are morphologically cryptic. This is especially important since species of Pestalotiopsis s.l. mostly lack sexual structures that are helpful for morphological species delimitation in other groups of fungi. Thus, the Genealogical Concordance Species Concept (GCSC) finds its application in many fungal taxa. Conflicts in the genealogy between phylogenetic trees of different markers are interpreted as recombination of the genetic material within a linage. Accordingly, the change from conflict to congruence in a set of different phylogenetic trees can be seen as the species limit. It can be expected that increased application of the GCSC will lead to further approximation of described species numbers to the real number of species, especially in complicated groups like asexual microfungi.
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.
With 5-10 newly diagnosed patients per 100,000 people every year, glioblastoma is the most common malignant primary brain tumor. Despite extensive research activity in the last decades, clinical effectiveness of the currently available therapy standard of surgery, radiochemotherapy and tumor-treating fields is still limited and mean survival rates in unselected collectives are only about one year. Accordingly, there is an urgent need to explore new therapeutic options. The current standard of care includes surgery followed by radiation therapy in combination with the alkylating chemotherapeutic agent Temozolomide. Even with successful initial therapy, tumor recurrence is still inevitable. Currently, there are no defined recommendations for clinical management of the disease in the event of tumor recurrence. Only 20-30% of patients qualify for a second surgical resection, while other options include retreatment with Temozolomide, CCNU (Lomustine) or Regorafenib and enrollment in a clinical trial.
The development of immunotherapies for glioblastoma, in particular, has been the focus of intense preclinical and clinical efforts. However, low numbers of mutations and a highly immunosuppressive tumor microenvironment result in glioblastoma being considered an immunologically “cold” tumor. Strategies successfully established in mutagen-induced tumors with antibodies directed against the PD-1, PD-L1 or CTLA-A4 immune checkpoints have therefore failed in glioblastoma.
Cellular immunotherapies based on chimeric antigen receptor (CAR)-technology have emerged as an alternative powerful option to tackle immunologically “cold” tumors. Several CAR-T cell products targeting glioma antigens have been developed and some evidence of clinical activity has been demonstrated. Natural killer (NK) cells as carriers of CAR constructs have several advantages over T cells, including a much lower risk of neurotoxicity and better interaction with immune cells in the microenvironment. Based on the human NK cell line NK-92, a clinical-grade product, suitable as an off-the-shelf therapeutic, has been developed. The NK-92/5.28.z clone (CAR-NK) expresses a CAR based on the HER2-specific antibody FRP5 in addition to signal-enhancing CD28 and CD3ζ domains. Similar to several other tumor entities, overexpression of the growth factor receptor HER2 is often found in glioblastoma patients. Because of its substantial role in the regulation of cell proliferation, survival, differentiation, angiogenesis and invasion, this receptor is classified as an oncogene. HER2 overexpression plays a major role in the malignant transformation of cells and its oncogenic potential has been studied in detail in breast cancer. However, HER2 expression was also found in up to 80% of glioblastomas, which correlates with an impaired probability of survival. Under physiological conditions, HER2 is not expressed in the adult central nervous system, making it a promising target antigen for glioblastoma immunotherapy.
In previous projects, it has already been shown that these CAR-NK cells exhibit a high and specific lytic activity towards HER2+ glioblastoma cells. While repetitive intratumoral injections of CAR-NK cells already significantly extended symptom-free survival in murine orthotopic xenograft models, CAR-NK cell therapy in immunocompetent mice promotes an endogenous anti-tumor immune response which improves tumor control and provides persisting anti-tumor immunity after therapy of early-stage tumors. However, in more advanced tumor models, efficacy is limited and induction of the checkpoint-molecule PD-L1 in response to CAR-NK-cell therapy was identified as a key mechanism of therapy resistance.
Immunotherapy employing the intravenous administration of checkpoint inhibitors has already revolutionized the treatment of various malignant diseases such as melanoma or lung cancer. In particular, the approach of cancer immunotherapy has focused on the systemic administration of antibodies directed against immune checkpoints such as PD-1, PD-L1 and CTLA-4. In glioblastoma, both tumor cells and microglia, the brain-resident macrophages, express PD-L1, which hinders the activation of CD8+ and CD4+ T cells. Therefore, immunotherapy directed against the PD-1/PD-L1 axis represents a promising approach for the treatment of glioblastoma. One problem, however, is the severe toxicity caused by the systemic effects of checkpoint inhibitors, since the immune response is stimulated not only in tumor tissue but also in healthy organs. Serious side effects such as colitis, hepatitis, pancreatitis or hypophysitis, including numerous deaths, have been reported.
This study aimed to improve the efficacy of CAR-NK cell therapy by combining it with adeno-associated virus (AAV)-mediated transfer of anti-PD-1 antibodies as a strategy to enable local combination therapy to control intracranial tumors.
AAVs carrying a payload coding for an anti-PD-1 immunoadhesin (aPD-1) retargeted to HER2-expressing cells by fusion of so-called Designed Ankyrin Repeat Proteins (DARPins) with a viral capsid protein were employed for this to focus checkpoint inhibitor therapy to the tumor area, resulting in high intratumoral and low systemic drug concentrations. ...
The spider genus Eusparassus Simon, 1903 (Araneae: Sparassidae: Eusparassinae; stone huntsman spider) is revised worldwide to include 30 valid species distributed exclusively in Africa and Eurasia. The type species E. dufouri Simon, 1932 is redescribed and a neotype is designated from Portugal. An extended diagnosis for the genus is presented. Eight new species are described: Eusparassus arabicus Moradmand, 2013 (male, female) from Arabian Peninsula, E. educatus Moradmand, 2013 (male, female) from Namibia, E. reverentia Moradmand, 2013 (male, female) from Burkina Faso and Nigeria, E. jaegeri Moradmand, 2013 (male, female) from South Africa and Botswana, E. jocquei Moradmand, 2013 (male, female) from Zimbabwe, E. borakalalo Moradmand, 2013 (female) from South Africa, E. schoemanae Moradmand, 2013 (male, female) from South Africa and Namibia and E. mesopotamicus Moradmand and Jäger, 2012 (male and female) from Iraq, Iran and Turkey. 22 species are re-described six of them are transferred from the genus Olios Walckenaer, 1837. Six species-groups are proposed: the dufouri-group [8 species: E. dufouri, E. levantinus Urones, 2006, E. barbarus (Lucas, 1846), E. atlanticus Simon, 1909, E. syrticus Simon, 1909, E. oraniensis (Lucas, 1846), E. letourneuxi (Simon, 1874), E. fritschi (Koch, 1873); Iberian Peninsula to parts of north-western Africa], walckenaeri-group [3 species: E. walckenaeri (Audouin, 1826), E. laevatus (Simon, 1897), E. arabicus; eastern Mediterranean to Arabia and parts of north-eastern Africa], doriae-group [7 species: E. doriae (Simon, 1874), E. kronebergi Denis, 1958, E. maynardi (Pocock, 1901), E. potanini (Simon, 1895), E. fuscimanus Denis, 1958, E. oculatus (Kroneberg, 1846) and E. mesopotamicus; Middle East to Central and South Asia], vestigator-group (3 species: E. vestigator (Simon, 1897), E. reverentia, E. pearsoni (Pocock, 1901); central to eastern Africa and an isolated area in NW India], jaegeri-group [4 species: E. jaegeri, E. jocquei, E. borakalalo, E. schoemanae; southern and south-eastern Africa], tuckeri-group [2 species: E. tuckeri (Lawrence, 1927), E. educatus; south-western Africa). Two species, E. pontii Caporiacco, 1935 and E. xerxes (Pocock, 1901) cannot be placed in any of the above groups. Two species are transferred from Eusparassus to Olios: O. flavovittatus (Caporiacco, 1935) and O. quesitio Moradmand, 2013. 14 species are recognized as misplaced in Eusparassus, thus nearly half of the described species prior to this revision were placed mistakenly in this genus. Neotypes are designated for E. walckenaeri from Egypt, E. barbarus, E. oraniensis and E. letourneuxi (all three from Algeria) to establish their identity. The male and female of Cercetius perezi Simon, 1902, which was known only from the immature holotype, are described for the first time. It is recognized that the monotypic and little used generic name Cercetius Simon, 1902 — a species, which had been known only from the immature holotype — as a synonym of the widely used name Eusparassus. The case proposal 3596 (conservation of name Eusparassus) is under consideration by ICZN.
The first comprehensive molecular phylogeny of the family Sparassidae with focus on the genus Eusparassus is investigated using four molecular markers (mitochondrial COI and 16S; nuclear H3 and 28S). The monophyly of Eusparassus and the dufouri, walckenaeri and doriae species-groups are recovered with the latter two groups more closely related. The monophyly of the tuckeri-group is not supported and the position of E. jaegeri as the only available member of the jaegeri-group is not resolved within the Eusparassus clade. DNA samples of the vestigator-group were not accessible for this study. The origination of the genus Eusparassus around 70 million years ago (MA) is estimated according to molecular clock analyses. Using this recent result in combination with some biogeographic and geological data, the Namib Desert is proposed as the place of ancestral origin for Eusparassus and putative Eusparassinae genera.
Further analyses are done on the phylogenetic relationships of Sparassidae and its subfamilies. The Eusparassinae are not confirmed as monophyletic, with the two original genera Eusparassus and Pseudomicrommata in separate clades and only the latter clusters with most other assumed Eusparassinae, here termed the "African clade". Monophyly of the subfamilies Sparianthinae, Heteropodinae sensu stricto, Palystinae and Deleninae is recovered. The Sparianthinae are supported as the most basal clade, diverging considerably early (143 MA) from all other Sparassidae. The Sparassinae and genus Olios are found to be polyphyletic. The Sparassidae are confirmed as monophyletic and as most basal group within the RTA-clade. The divergence time of Sparassidae from the RTA-clade is estimated with 186 MA in the Jurassic. No affiliation of Sparassidae to other members of the "Laterigradae" (Philodromidae, Selenopidae and Thomisidae) is observed, thus the crab-like posture of this group was proposed a result of convergent evolution. Only the families Philodromidae and Selenopidae are found members of a supported clade. Including a considerable amount of RTA-clade representatives, the higher-level clade Dionycha is not but monophyly of the RTA-clade itself is supported.
Ziel der vorliegenden Arbeit war es, ausgewählte Gruppen der Dekapoden (brachyure Krabben, Einsiedler und Porzellankrebse) des PersischArabischen Golfes und des Golfes von Oman taxo nomischfaunistisch zu erfassen, eine Abschätzung des Artenreichtums und der Faunenzusam mensetzung vorzunehmen und die zoogeographischen Beziehungen innerhalb der Golfregion und zu anderen Teilen des westlichen Indischen Ozeans zu analysieren. Die Dekapodenfauna der Golfregion war -- im Gegensatz zur sehr viel besser untersuchten des Roten Meeres -- bislang Gegenstand vergleichsweise weniger wissenschaftlicher Arbeiten, und der faunistischtaxonomische Kenntnisstand stellte sich als entsprechend lückenhaft dar. Dies erwies sich einerseits als Problem bei der Beurteilung des Zustands von Lebensgemeinschaften und Folgeschäden nach der Ölkatastrophe von 1991, andererseits als Hindernis für Faunen vergleiche und zoogeographische Studien. Um vor allem die bislang wenig bearbeiteten eulitoralen Lebensräume wie Watten und Man groven, aber auch Korallenriffe, intensiv zu beproben, wurden Sammelreisen in verschiedene Teile des PersischArabischen Golfes und den Golf von Oman durchgeführt. Daneben wurde umfangreiches Museumsmaterial der bedeutenden Sammlungen aus der Golfregion taxonomisch untersucht, mit Material aus anderen Regionen verglichen und neu bewertet. Insgesamt konnte für den PersischArabischen Golf das Vorkommen von 188 Arten brachy urer Krabben, 20 Pagurideen (Einsiedlerkrebse) und 18 Porcellaniden (Porzellankrebse) eindeutig belegt werden; 43 Arten (37 Brachyuren, 4 Pagurideen und 2 Porcellaniden) wurden erstmals für den Golf nachgewiesen. Bei 11 dieser Neunachweise handelt es sich um bislang unbeschriebene Arten. Ein faunistischer Vergleich zu anderen Teilen des Indischen Ozeans zeigt, daß der Golf für die untersuchten Taxa insgesamt deutlich artenärmer als das Rote Meer oder die ostafrikanische Küste ist. Dies ist vor allem auf die geringere Ausdehnung und schlechtere Entwicklung von Korallenriffen sowie das Fehlen von Tiefwasserhabitaten, aber auch auf das Vorherrschen extre mer ökologischer Bedingungen in weiten Teilen des Golfes zurückzuführen. Zwischen verschie denen systematischen und ökologischen Gruppen bestehen allerdings große Unterschiede hinsichtlich des Artenreichtums. Während hartboden und korallenassoziierte Gruppen im Golf deutlich unterrepräsentiert sind, findet sich bei weichbodenbewohnenden Taxa eine vergleichs weise artenreiche Fauna. Besonders auffallend ist dabei der Artenreichtum der eulitoralen Ocypodidae, die mit 23 Arten im Golf eine weitaus höhere Artendiversität erreichen als im Roten Meer oder an der ostafrikanischen Küste und gemeinsam mit den ebenfalls vorwiegend in der Gezeitenzone leben den Grapsiden einen Schwerpunkt der Arbeit bildeten. Innerhalb der Golfregion zeigten sich für diese Familien große Unterschiede hinsichtlich des Artenreichtums und der Faunenzusammen setzung. Die Wattgebiete und Mangroven des nördlichen und des südöstlichen PersischArabi schen Golfes sowie des Golfes von Oman fallen dabei durch ihre sehr diverse Fauna auf. Stark verarmt ist dagegen die eulitorale Fauna des südwestlichen und westlichen Teils des Persisch Arabischen Golfes. Der Grund für diese Verarmung ist dabei vor allem im hohen Salzgehalt des küstennahen Wasserkörpers zu sehen. Die Ergebnisse der faunistischtaxonomischen Auswertungen ermöglichten eine zoogeogra phische Analyse, bei der die Dekapodenfauna sowohl auf ihre Homogenität innerhalb der Golf region, als auch auf ihre Beziehungen zu der aus anderen Teilen des Indischen Ozeans untersucht wurde. Hierzu wurden Endemismusraten und Verbreitungsmuster der aus dem Golf nachgewie senen Arten betrachtet sowie Faunenähnlichkeiten mit Hilfe multivariater statistischer Methoden analysiert. Zoogeographisch stellt sich die Dekapodenfauna der Golfregion als Mischung unterschied licher zoogeographischer Elemente dar. Dies reflektiert die Lage des Golfes am Übergang zwischen westlichem Indischen Ozean und indischer bzw. indomalaiischer Region. Die Endemis musraten liegen bei 6 % für Porcellaniden, 7 % für Brachyuren und rund 10 % für Pagurideen. Für keine der Gruppen läßt sich daraus eine Begründung für eine eigene Faunenprovinz oder ein Endemismuszentrum ableiten. Neben den Endemiten beinhaltet die Fauna Arten unterschied licher geographischer Beziehungen. Den größten Anteil stellen weit verbreitete Arten, die je nach Gruppe zwischen der Hälfte und zwei Dritteln der im Golf vorkommenden Arten ausmachen. Für die Einsiedlerkrebse sind daneben vor allem Arten aus dem Roten Meer und dem Golf von Aden von Bedeutung, was auf eine enge Beziehung der Pagurideenfauna zu diesen Gebieten hin weist. Dagegen sind für die Brachyuren indopakistanische und indomalaiische Arten von weit aus größerer Bedeutung, was eine größere Ähnlichkeit der Krabbenfauna zu der Pakistans und Indiens andeutet. Innerhalb der Golfregion ergaben sich für die Brachyurenfauna, insbesondere für Ocypodi den, deutliche Unterschiede hinsichtlich der zoogeographischen Beziehungen. Während der von östlichen Faunenelementen dominierte nördliche und östliche Golf kaum westliche Faunen elemente aufweist, stellen diese im südlichen Golf und vor allem im westlichen Teil des Golfes von Oman einen erheblichen Anteil an der Gesamtfauna. Getrennt werden diese beiden Gebiete durch die Bereiche des südlichen und westlichen Golfes, in denen die extrem hohen Salzgehalte eine wirksame Verbreitungsbarriere darstellen. Zumindest für einige Taxa ist demnach die Golf region nicht als einheitliche faunistischzoogeographische Region zu betrachten. Während der nördliche und östliche Teil des PersischArabischen Golfes zoogeographisch eng mit Pakistan verbunden sind, zeigen sein südlicher Teil und der westliche Golf von Oman engere Beziehungen zum Golf von Aden und dem Roten Meer. Aufgrund der vergleichsweise guten Dokumentation der Faunenzusammensetzung in ver schiedenen Teilen des Indischen Ozeans ließ sich für Ocypodiden und Grapsiden ein überregio naler Faunenvergleich mit Hilfe multivariater Analysenmethoden durchführen und eine zoogeo graphische Unterteilung des Indischen Ozeans vornehmen. Innerhalb des westlichen Teils des Indischen Ozeans lassen sich dabei drei Regionen aufgrund ihrer Faunenähnlichkeit voneinander abgrenzen. Dies sind -- eine ost/südostafrikanische Region, die von der Nordostküste Südafrikas bis nach Somalia reicht -- eine west/südarabische Region bestehend aus Rotem Meer, Golf von Aden, der südarabi schen Küste und dem westlichen Golf von Oman, die auch in den südöstlichen Persisch Arabischen Golf hineinzieht -- eine ostarabischpakistanische oder iranischpakistanische Region, die den nördlichen und östlichen Teil des PersischArabischen Golfes, den östlichen Golf von Oman sowie Pakistan und Nordwestindien umfaßt Hinsichtlich der Besiedlungsgeschichte des PersischArabischen Golfes zeigen die Ergebnisse, daß eine Besiedlung durch eulitorale Krabben zum größten Teil von der indischen Seite aus entlang der iranischen Küste stattgefunden haben muß, während später eingewanderte westliche Elemente aufgrund der massiven Salinitätsbarriere und der Strömungsverhältnisse auf den süd östlichsten Teil beschränkt blieben. Vor allem die Gezeitenzonen des PersischArabischen Golfes weisen teilweise sehr diverse Lebensgemeinschaften auf, deren Artenzusammensetzung in ihrer Mischung unterschiedlicher zoogeographischer Elemente einzigartig ist und den Einfluß verschiedener Wasserkörper auf den Golf anzeigt. Für die Ocypodiden führt dies zu einer hohen regionalen oder gammaDiversität sowie einer über reine Artendiversität hinausgehenden Diversität der Lebensgemeinschaften. Während sich die Folgen des Golfkriegs als weniger gravierend als ursprünglich befürchtet erwiesen haben, könnten Habitatzerstörung und schleichende Verschmutzung die Lebensgemein schaften des PersischArabischen Golfes irreparabel schädigen.
Panama, a small country between the major continents of North and South America, is one of the lesser studied regions in Central America, but is recognized for its mega-biodiversity. This is particularly true for Eastern Panama, which I am considering as the easternmost portion of the country, covering the area from the Chepo, which is also the beginning of the San Blas mountain range, towards east, up to the Darien Mountain range on the border with its neighboring country Colombia. In the lowland region I visited two physiographic areas: the Isthmian-Atlantic Moist Forests (IAMF) and the Chocó-Darién Moist Forests (CDMF). In the IAMF I worked at the localities of Río Mono, Wacuco, La Moneda, Arretí, Metetí, Filo del Tallo, and Laguna de Matusagaratí. In the CDMF I visited the localities of Cruce de Mono, Cana, Garachiné, Sambú, and Pavarandó. And I have worked in the highlands of Darién (DM), Majé (MM), Jingurudó-Sapo (JSM), Pirre (PM) and San Blas (SSM) in the highlands.
Before my research, 138 reptile and 104 amphibian species had been reported for EP. From 2008 to 2013, I collected specimens to evaluate the diversity of amphibians and reptiles for this region. I applied an integrative approach to evaluate the taxonomy, diversity, biogeography, and conservation of the herpetofauna of EP. I included analyses of morphometrics, molecular genetics (e.g. barcoding), biogeography, bioacoustics (in anurans), hemipenial morphology (in squamates), and ecology. This is the first regional evaluation of the biodiversity in EP applying integrative taxonomy. Aside from morphological and bioacoustic data, my work is based on the barcoding of 608 specimens, from which I obtained 16S mtDNA for 486 specimens and COI mtDNA for 455. In total I have got sequences for 69.2 %of the amphibian and 48.6 % of the reptile species present in EP. For the morphological analyses, I compared 1597 specimens, including my samples complemented by specimens obtained from various museums. The bioacoustic data were obtained from the analysis of 1504 calls of 27 species of frogs. Based on specimens collected in EP and according to external morphology, I could identify 65 species of amphibians and 72 reptiles, but after applying an integrative approach these numbers increased to 79 amphibians and 88 reptiles described species within my collected specimens. Additionally, I uncovered 33 taxonomic units that could not be assigned to any described species until now, 22 of them represent confirmed candidate species (CCS), and 11 were classified as Unconfirmed candidate species (UCS). Thus, increasing the known species of amphibian by 19.4 % and of reptiles by 4.8 %. Currently, there are 145 reptiles and 129 amphibians known to occur in EP. Based on my results, I have initiated several projects to solve taxonomic uncertanties, including the species of the genera Bolitoglossa, Diasporus, Dactyloa, Ecnomiohyla, Lepidoblepharis, and the taxonomic status of the species Pristimantis caryophyllaceus and Norops tropidogaster.
Out of the 22 CCS I found, I described nine species new to science with type locality in EP, six amphibians and four reptiles. Among these is a new species of Bolitoglossa described from Cerro Chucantí, Cordillera de Majé, Provincia de Darién, Panama. Additionally, I include comments on the other species of congeneric salamanders known to occur in the region. Among the tink frogs, only Diasporus quidditus was known to occur in EP. During my field work I collected six additional species of this genus, four of which are new to science, plus two species new for this region.
I also described one new species of Dactyloa (giant anole lizards) related to the former D. chocorum. I synonymized D. chocorum with D. purpurescens, and included information about the other species of the group from EP. The new species of Dactyloa resembles D. ibanezi, D. limon, and D. purpurescens in external morphology but differs from these species in dewlap coloration, dorsal color pattern, morphometrics, and scalation. I discovered one species of the genus Ecnomiohyla, which exhibits significant genetic distances (16S mtDNA gene) and morphological differences to all known Ecnomiohyla species. Along with the description of the new Ecnomiohyla species, I provide detailed comparisons of morphological and molecular characters of almost all members of the genus in Lower Central America, as well as an identification key for the entire genus. Two new species of the genus Lepidoblepharis from EP were described. In the corresponding work, I include an analysis of Lepidoblepharis spp. in the region, including phylogeography and taxonomy. One of the new species, Lepidoblepharis emberawoundule, can be differentiated from most species in the genus by its small size and its low number of lamellae under the fourth toe and finger. The other species described from EP, Lepidoblepharis rufigularis, can be differentiated from all species in the genus by its small size and the reddish throat in males.
Taxonomy, phylogeny and zoogeography of the hexaploid Torini of the Middle East and North Africa
(2017)
Fishes of the tribe Torini Karaman, 1971 (Teleostei: Cyprinidae) are a diverse group of primary freshwater fishes, distributed in Africa, the Middle East, and Indomalaya. They are an important component of the native freshwater-fish fauna of the Middle East and North Africa, and occur in most large river systems of the Levant, Arabia, Mesopotamia, southern Iran, and Morocco. They belong to the subfamily Cyprininae, are characterised by being tetraploid or hexaploid, having large scales, and a smooth and ossified last unbranched ray in the dorsal fin. As primary freshwater fishes they are not able to tolerate marine conditions and depend on direct freshwater connections for their dispersal. This makes them an ideal model for zoogeographic studies.
Prior to this study, the diversity of the Torini species in the Middle East and North Africa was not well understood. The validity of several genera and species was unclear, and the generic assignment of several species changed frequently.
In this PhD project the taxonomy, phylogeny, and zoogeography of the Torini of the Middle East and North Africa were investigated with morphological, as well as molecular methods. More than 1550 fish specimens were examined morphologically. Some of the specimens, including the types of most nominal species, were already available from museum collections. The remaining specimens were collected during expeditions to Ethiopia, Iran, Jordan, Morocco and Syria. Tissue samples were collected for molecular genetic analyses. The mitochondrial genes for cytochrome b, NADH dehydrogenase subunit 4 and the tRNAs for serine and histidine were sequenced from more than 120 specimens, representing 20 species of Torini and two small, diploid African barbs (Cyprinidae, tribe Smiliogastrini). Molecular data were analysed with Bayesian inference and other methods.
The analyses confirmed that the hexaploid Torini of Africa and the Middle East form a monophyletic group. In the Middle East and North Africa the Torini are represented by the genera Arabibarbus, Carasobarbus, Mesopotamichthys, and Pterocapoeta. These genera are each morphologically diagnosable, monophyletic, and genetically distinct. The species 'Labeobarbus' reinii cannot be assigned to any of these genera, because it is morphologically dissimilar and genetically clearly separated from each of them. A generic name for this species is presently not available and until the description of a new genus it is preliminarily assigned to the genus 'Labeobarbus'.
Out of the 28 species-group taxa described from the Middle East and North Africa until now, 15 are valid: Arabibarbus arabicus, A. grypus, A. hadhrami, Carasobarbus apoensis, C. canis, C. chantrei, C. exulatus, C. fritschii, C. harterti, C. kosswigi, C. luteus, C. sublimus, Mesopotamichthys sharpeyi, Pterocapoeta maroccana, and 'Labeobarbus' reinii.
The phylogenetic relationships between the Middle Eastern and North African Torini are well resolved, based on the analysis of mitochondrial DNA sequences from nearly all relevant species.
The interspecific and intraspecific morphological and genetic diversity is shaped by the zoogeographic history. Conclusions can be drawn about the events that shaped the evolution of this group. The Torini originated in the Indomalayan biogeographical realm and colonised the Middle East and Africa during the Miocene via the Gomphotherium landbridge. The Indomalayan Torini are tetraploid, whereas those of the Middle East and Africa are hexaploid. Molecular phylogenetic analyses showed that the hexaploid Torini cluster within the tetraploid Torini. This makes the tetraploid Torini a paraphyletic group with respect to the hexaploid Torini. Morocco was colonised in two independent waves. The first came from sub-Saharan Africa and is represented by Pterocapoeta maroccana. The second originated in the Middle East and gave rise to C. fritschii, C. harterti, and probably 'L.' reinii. The Tigris-Euphrates system is the largest freshwater system in the Middle East. Its central position between the Orontes River and Jordan River in the West, the Iranian tributaries to the Persian Gulf in the East, and the Arabian Peninsula in the South made it an important crossroad for the colonisation of the Middle East by Torini and other freshwater biota. During the Miocene the predecessors of the Jordan and Orontes rivers were connected to the Tigris-Euphrates system. The Jordan River was separated from the Euphrates before the Orontes. Arabia was colonised in two waves. The first (A. arabicus, A. hadhrami, C. exulatus) dates to the Pliocene, whereas the second (C. apoensis) ended as recently as the late Pleistocene or early Holocene.
Central America is one of the world’s most herpetological diverse areas in relation to its size. Nicaragua is the largest country in this region and separates Nuclear from Lower Central America. It is one of the least herpetological explored countries in Central America and few studies dealing with the herpetofauna of a potion or the entire country have been published. I here update the checklist of the Nicaraguan herpetofauna, present taxonomic revisions of some difficult species complexes, compare the similarities of the composition of the herpetofaunal communities in the major forest formations present in the country within a zoogeographical context, and identify those species with a greater vulnerability risk in Nicaragua. Taxonomy The herpetofauna of Nicaragua currently consists of 244 species representing 134 genera and 42 families with 78 amphibian species representing 35 genera and 15 families, and 166 reptile species representing 99 genera and 27 families, which includes six marine species. Sixteen species (12 amphibians and four reptiles) are endemic to the country. Of the 12 endemic amphibian species, three are here described. In addition, five genera (Anotheca, Cerrophidion, Duellmanohyla, Isthmohyla, and Rhinobothryum) and two species (Rhadinea godmani and Urotheca decipiens) are known to occur both north and south of Nicaragua although there are no voucher specimens of these taxa to confirm their presence in country. I complete a bibliographic research updating the nomenclature changes and provide a brief herpetological history of Nicaragua, a recompilation of all species described upon Nicaraguan material and their current synonymy, the first time each species was recorded from the country, and a list of all recognized subspecies occurring in Nicaragua. I discuss the taxonomic uncertainties among the Nicaraguan populations of amphibians and reptiles and take further detailed taxonomic revisions on selected Nicaraguan species groups from the genera Anolis, Bolitoglossa, and Craugastor along their known distributional range. I describe five new species of herpetofauna (three of which are based on Nicaraguan material), redescribe five species of Anolis (three of which occur in Nicaragua), and provide voucher specimens of five other species for the first time in Nicaragua. In detail: • I studied the pholidosis, morphometrics as well as hemipenis and dewlap morphology in Anolis wermuthi, an anole endemic to the highlands of northern Nicaragua. I examine patterns of geographic variation using discriminant function analysis and discuss the characters that vary both individually and among populations. The results indicate that A. wermuthi is a single species with several disjunct, slightly divergent populations. I provide a standardized description, illustrations of the everted hemipenis of an adult topotype, the male and female dewlap, and a distribution map. I also provide brief descriptions of the localities where this species occurs and some ecological notes. • I studied the pholidosis, morphometrics as well as hemipenis morphology in the Central American anole species Anolis humilis, A. quaggulus, and A. uniformis. The three taxa are distinct in hemipenis morphology. However, very little differentiation in pholidotic and morphometric characters is documented. I document interspecific variation in several characters but with overlap of the documented ranges. A discriminant function analysis based on five pholidotic characters yielded a scatter diagram that showed large overlap between the clusters of the three taxa. I provide head scalation illustrations, an identification key, a distribution map, and standardized descriptions of the commonly distributed in Nicaragua A. quaggulus as well as of the other two species. • I describe two new species of anoles (genus Anolis) from Panama formerly referred to as Anolis limifrons. The two new species, Anolis apletophallus and Anolis cryptolimifrons, differ from A. limifrons by having a large bilobed hemipenis (small and unilobed in A. limifrons). The new species differ from each other in male dewlap size and coloration. I provide illustrations of the head scalation, everted hemipenis, and dewlap, an identification key, a distribution map, and standardized descriptions of the commonly distributed in Nicaragua A. limifrons and the two new species described herein. • I describe two new species of salamanders of Bolitoglossa from southern Nicaragua. Bolitoglossa indio is known from Río Indio in the lowlands of the Río San Juan area and Bolitoglossa insularis from the premontane slopes of Volcán Maderas on Ometepe Island. The two new species are of unknown affinities but both differ from their congeners in coloration. Bolitoglossa indio is most similar to B. mexicana and B. odonnelli from which differ by having both broad dorsolateral pale brown stripes not clearly delimited in outline. Bolitoglossa insularis is most similar to B. mombachoensis and B. striatula from which differ by the absence of dark or light defined stripes on dorsum and venter. • I describe a new species of frog of the genus Craugastor from Río San Juan, Nicaragua. The new species, Craugastor chingopetaca, is assigned to the fitzingeri group and differs from most Central American species of that group by the absence of a midgular pale stripe. Within the fitzingeri group it is most similar to C. crassidigitus and C. talamancae from which it differs in several morphological characteristics such as more extensive webbing, retuse disk covers on some digits, and relative toe length. • I provide voucher specimens of Cochranella spinosa, Kinosternon angustipons, Mesaspis moreletii, Cnemidophorus lemniscatus and Adelphicos quadrivirgatum for the first time in Nicaragua. I include descriptions, illustrations, and brief ecological notes for the five new country records. Zoogeography Based on the concept of ecological formations proposed by HOLDRIDGE (1967), nine forest formations are found in Nicaragua. Of the total number of terrestrial species of herpetofauna found in Nicaragua, 131 species (55.0%) occur in Lowland Wet Forest, 21 of which (8.8%) are restricted to this forest formation, 168 species (70.6%) occur in Lowland Moist Forest, 15 of which (6.3%) are restricted to this forest formation, 84 species (35.3%) occur in Lowland Dry Forest, four of which (1.7%) are restricted to this forest formation, 47 species (19.7%) occur in Lowland Arid Forest, with no species restricted to this forest formation, 59 species (24.8%) occur in Premontane Wet Forest, three of which (1.3%) are restricted to this forest formation, 116 species (48.7%) occur in Premontane Moist Forest, 10 of which (4.2%) are restricted to this forest formation, 51 (21.4%) species occur in Premontane Dry Forest, with no species restricted to this forest formation, 13 species (5.5%) occur in Lower Montane Wet Forest, two of which (0.8%) are restricted to this forest formation, and 50 species (21.0%) occur Lower Montane Moist Forest, seven of which (2.9%) are restricted to this forest formation. The Coefficient of Biogeographic Resemblance algorithm show a distinct composition of the herpetofauna from the isolated highlands of northeastern Nicaragua, which is characterized by a high proportion of endemic species. Two other clusters are evident when analyzing the herpetofaunal similarities among Nicaragua, the Pacific versant and the central mountains and the Atlantic lowlands. In addition, the Pacific lowlands are characterized by a relatively homogeneous composition of the herpetofauna. In contrast, many species have their northern limit of distribution in the Atlantic lowlands with the ranges of most of these species ending in southern Nicaragua. The central mountains constitute the southern limit of distribution of several highland species. In general, there is a greater contribution of reptile than amphibian species to the total herpetofauna present in each forest formation. This unbalance is slightly higher in the dry than in the moist parts of the country. The similarities in the composition of the reptiles between the different forests formations seem to be relatively distinct on an elevation factor, whereas in amphibians similarities might be better explained in correlation with humidity. The total amount of amphibian and reptile species in Nicaragua has a Middle American Element dominance and varies between amphibians and reptiles, with and a greater South American Element influence in anurans and a greater Old Northern Element influence in reptiles. In general, there is a greater percentage of species with a South American Element in extreme southeastern Nicaragua with a decreasing tendency towards northern Nicaragua. Taking in account the geography and geologic history of Nicaragua as well as the known Central American dispersal routes, I identify species of probable occurrence in Nicaragua as well as those places with a greater potential to hold undescribed endemic species. Conservation In Nicaragua, no amphibian or reptile populations are entirely free from anthropogenic impact. I determine the endangerment level of all Nicaraguan amphibian and reptile species using the IUCN categorizations and the Environmental Vulnerability Scores. Seventy-six species (31.9%) of Nicaraguan amphibians and terrestrial reptiles have high vulnerability, 118 (49.6%) medium vulnerability, and 44 (18.5%) low vulnerability. Eighteen species (7.4% of the total herpetofauna) are unknown from protected areas, including 13 high vulnerability species (three are endemic), four medium vulnerability species, and one low vulnerability species. To preserve the future of Nicaragua’s amphibians and reptiles, every species should reside in at least one protected area, the protected areas must be guarded, and monitoring programs are needed to detect changes in amphibian and reptile populations, prioritizing highly vulnerable species.
Eine Einschränkung des Hörvermögens durch Schäden der Sinnesrezeptoren im Innenohr gilt beim Menschen sowie bei allen anderen Säugetieren als irreversibel. Die Hörforschung ist an der Frage interessiert, ob durch Plastizität in zentralen Teilen des auditorischen Systems Kompensationsmechanismen die Folgen mildern können. Die vorliegende Arbeit befasst sich mit der Frage, ob und in welchem Umfang nach peripheren Hörschäden durch zentrale Kompensationsmechanismen eine Erholung des Hörvermögens auftritt auf der Basis von plastischen Änderungen der neuronalen Verarbeitung der Eingangssignale aus dem geschädigten Hörorgan. Schäden des Sinnesepithels im Innenohr, z.B. durch überlaute Beschallung oder ototoxische Substanzen, betreffen in der Regel zunächst die äußeren Haarzellen und führen zu einem Verlust der Empfindlichkeit und Frequenzspezifität des Hörvermögens. Eine primäre selektive Schädigung der inneren Haarzellen (IHZ) tritt im Tiermodell, aus unbekannten Gründen nur bei einer Spezies auf, dem Chinchilla (Chinchilla laniger) und zwar nach Gabe des antineoplastischen Medikament Carboplatin. Das gute Tieffrequenzhören der Chinchillas (0.1-20 kHz) ermöglicht außerdem Aussagen zur akustischen Signalverarbeitung in einem für das menschliche Gehör relevanten Frequenzbereich (0.02-16 kHz). Dieses Tiermodell bietet somit die Gelegenheit, die Veränderungen in zentralen Teilen des auditorischen Systems nach einer definierten sensorischen Schädigung zu untersuchen. Hierfür kommt u.a. das auditorische Mittelhirn, der Colliculus Inferior (IC) in Frage. Der IC wird als Hauptintegrationszentrum der Hörbahn angesehen weil er Eingänge von fast allen vor ihm liegenden auditorischen Kernen (z.B. Nucleus cochlearis, Nucleus olivaris und Leminscus lateralis) bekommt. Ein weiterer Grund für die Wahl des IC als Untersuchungsgebiet der vorliegenden Arbeit ist, die Frage zu beantworten, ob die auf der Ebene des auditorischen Kortex bereits nachgewiesene funktionelle Plastizität auch auf der Ebene des IC schon realisiert oder vorbereitet wird. Die vorliegende Arbeit untersucht das Antwortverhalten der Neurone im ICc an wachen Tieren vor und nach einem selektiven Teilverlust der IHZ bei Erhalt der äußeren Haarzellen. Die Arbeitshypothese ist, dass es nach einem abgeschwächten sensorischen Eingang zu Veränderungen der exzitatorischen und inhibitorischen Antwortfelder kommt, die als funktionelle Plastizität bzw. als Kompensation verstanden werden können. Anhand elektrophysiologischer Ableitungen im ICc von wachen, chronisch implantierten Tieren wurden die exzitatorischen und die inhibitorischen Antwortfelder der Neurone durch Einton- und Zweiton- Stimulation getrennt gemessen und bestimmt. Die Resultate zeigen, dass die exzitatorischen und inhibitorischen Antworteigenschaften im IC bei wachen und narkotisierten Tieren unterschiedlich sind. In wachen Tieren weist die Inhibition generell höhere Variation auf als in narkotisierten Tieren und ist unabhängiger von der Art der Exzitation. Eine Carboplatinbehandlung führte bei allen Tieren nach 3-7 Tagen zu einer Abnahme der Amplituden und einer Erhöhung der Schwellen der akustisch evozierten Hirnstammpotentiale (ABRs). Die histologische Untersuchung des Innenohres (10 Wochen nach Carboplatinbehandlung), zeigte bei allen Tieren Verluste der IHZ (zwischen 20 und 60%) entlang der gesamten Basilarmembran. Es wurden aber keine Verluste von ÄHZ festgestellt. Die Gehirn-Schnitte zeigten, dass die Registrierungen aus dem zentralen Teil des Colliculus Inferior stammen. Die physiologische Untersuchung der Antworteigenschaften der Neurone im IC 4-6 Wochen nach der carboplatinbedingten Schädigung der IHZ zeigte eine Reduktion der Inhibition, die u.a. deutlich an dem Verlauf der Intensitätskennlinien zu beobachten war. Nach dem Teilverlust der IHZ wurden viel weniger nichtmonotone Kennlinien gefunden als vor der Innenohrschädigung. Darüber hinaus beobachteten wir eine Reduzierung der inhibitorischen Regionen und eine signifikante Ausweitung der exzitatorischen Antwortfelder nach dem Teilverlust der IHZ. Die Resultate der vorliegenden Arbeit führen zu der Schlussfolgerung, dass nach einer Teilschädigung der inneren Haarzellen, unter Erhalt der ÄHZ nur ein geringer Sensitivitätsverlust in der zentralen Hörbahn auftritt. Der Verlust von 20-60% der IHZ und der damit einhergehende reduzierte afferente Informationsfluss führt zu physiologischen Veränderungen in der Hörbahn, die im IC von wachen Tieren vor allem durch eine Reduktion der Inhibition hervortritt. Dies deutet daraufhin, dass zentrale Kompensationsmechanismen bei peripheren Hörschäden nicht, wie bisher vermutet, erst in kortikalen sondern zum Teil bereits in subkortikalen Arealen (im Mittelhirn) stattfinden.
Termites are important ecosystem engineers of the savanna biome, with the large mounds of fungus-cultivating termites being sources of habitat heterogeneity and structural complexity in African savanna landscapes. Studies from different localities throughout Africa have shown that termite mounds have a strong influence of diversity and composition of plant communities. However, most research has been conducted only at the local scale, and integrating knowledge across Africa is hampered by different methodology of studies and differing environmental context. Little is known about the variation in vegetation composition on termite mounds compared to the surrounding savanna at the regional scale and at the landscape scale, and the main determinants of plant communities on mounds are yet to be ascertained.
This thesis aimes at better understanding the influence of termite mounds on vegetation compared to the surrounding savanna across spatial scales. Three research projects analyse vegetation data and soil data from paired mound and savanna plots in West Africa. The first project examines the influence of termite-induced heterogeneity on plant diversity and vegetation composition at a regional scale, following a bioclimatic gradient from the Sahel of Burkina Faso to the Sudanian vegetation zone in North Benin. The second Project analysed variation of vegetation on and off mounds at the landscape scale in Pendjari National Park, North Benin. The third is a monitoring study over the course of two years, exploring dynamics of juvenile woody plant communities on mounds and in the surrounding savanna at a local scale. The thesis thus provides the first comparative quantitative analysis across scales of mound and savanna vegetation and the drivers of the mound–savanna difference in vegetation.
Synthesizing across scales, its results confirm that termite mounds strongly contribute to savanna plant diversity, even though mounds are not generally more species rich than the surrounding savanna. Variation in mound vegetation is much higher along climatic and soil gradients than previously acknowledged. Mound vegetation differs from the surrounding savanna in the whole study area and in each sampled savanna type, with the strongest differences occurring at the most humid study sites. A large proportion of the differences between mound and savanna vegetation is explained by clay enrichment and related soil factors, such as cation concentrations. Plants on mounds thus benefit from favourable soil conditions, including higher fertility and higher water availability, which is also mirrored by the higher abundance and basal area of juvenile woody plants found on mounds. The variation in mound vegetation between study sites across scales results in part from local differences in soil composition and from climatic differences that influence the regional distribution of species. Different sets of characteristic mound species are identified in each project. Specific plant families and traits like succulency, lianescence, and adaptations to zoochory are found to be overrepresented in mound communities.
In addition to the findings in this thesis, remaining parts of the variation in mound vegetation between study sites could likely be explained by investigating further factors. Specifically, mound vegetation depends on habitat context, which includes available species pools, spatial distribution of mounds, biotic interactions with dispersers and herbivores, fire, and also anthropogenic influence. The high proportion of species with adaptations to zoochory found on mounds, for example, indicates that animal dispersers should be of particular importance for vegetation on termite mounds. Herbivory and fire regime, which are known to contribute to the diversity and community composition of the mound–savanna system, also show strong local variation, not least because of anthropogenic influence.
In conclusion, termite mounds play a crucial role in maintaining heterogeneity and plant diversity in the savanna across scales. Ecosystem services provided by termites, especially considering long-term effects on soil fertility and ecosystem resilience, are most likely undervalued. Mounds should be considered in management plans from local to regional, transnational scales as a matter of course, accompanied by further research on the role of termite mounds in savanna ecology on a longer temporal scale. The research presented here thus provides a basis for future studies on termite mound vegetation that should specifically consider the biotic and abiotic context of the mound–savanna system.
This work investigated the applicability of global pairwise sequence alignment to the detection of functional analogues in virtual screening. This variant of sequence comparison was developed for the identification of homologue proteins based on amino acid or nucleotide sequences. Because of the significant differences between biopolymers and small molecules several aspects of this approach for sequence comparison had to be adapted. All proposed concepts were implemented as the ‘Pharmacophore Alignment Search Tool’ (PhAST) and evaluated in retrospective experiments on the COBRA dataset in version 6.1. The aim to identify functional analogues raised the necessity for identification and classification of functional properties in molecular structures. This was realized by fragment-based atom-typing, where one out of nine functional properties was assigned to each non-hydrogen atom in a structure. These properties were pre-assigned to atoms in the fragments. Whenever a fragment matched a substructure in a molecule, the assigned properties were transferred from fragment atoms to structure atoms. Each functional property was represented by exactly one symbol. Unlike amino acid or nucleotide sequences, small drug-like molecules contain branches and cycles. This was a major obstacle in the application of sequence alignment to virtual screening, since this technique can only be applied to linear sequences of symbols. The best linearization technique was shown to be Minimum Volume Embedding. To the best of knowledge, this work represents the first application of dimensionality reduction to graph linearization. Sequence alignment relies on a scoring system that rates symbol equivalences (matches) and differences (mismatches) based on functional properties that correspond to rated symbols. Existing scoring schemes are applicable only to amino acids and nucleotides. In this work, scoring schemes for functional properties in drug-like molecules were developed based on property frequencies and isofunctionality judged from chemical experience, pairwise sequence alignments, pairwise kernel-based assignments and stochastic optimization. The scoring system based on property frequencies and isofunctionality proved to be the most powerful (measured in enrichment capability). All developed scoring systems performed superior compared to simple scoring approaches that rate matches and mismatches uniformly. The frameworks proposed for score calculations can be used to guide modifications to the atom-typing in promising directions. The scoring system was further modified to allow for emphasis on particular symbols in a sequence. It was proven that the application of weights to symbols that correspond to key interaction points important to receptor-ligand-interaction significantly improves screening capabilities of PhAST. It was demonstrated that the systematic application of weights to all sequence positions in retrospective experiments can be used for pharmacophore elucidation. A scoring system based on structural instead of functional similarity was investigated and found to be suitable for similarity searches in shape-constrained datasets. Three methods for similarity assessment based on alignments were evaluated: Sequence identity, alignment score and significance. PhAST achieved significantly higher enrichment with alignment scores compared to sequence identity. p-values as significance estimates were calculated in a combination of Marcov Chain Monte Carlo Simulation and Importance Sampling. p-values were adapted to library size in a Bonferroni correction, yielding E-values. A significance threshold of an E-value of 1*10-5 was proposed for the application in prospective screenings. PhAST was compared to state-of-the-art methods for virtual screening. The unweighted version was shown to exhibit comparable enrichment capabilities. Compound rankings obtained with PhAST were proven to be complementary to those of other methods. The application to three-dimensional instead of two-dimensional molecular representations resulted in altered compound rankings without increased enrichment. PhAST was employed in two prospective applications. A screening for non-nucleoside analogue inhibitors of bacterial thymidin kinase yielded a hit with a distinct structural framework but only weak activity. The search for drugs not member of the NSAID (non-steroidal anti-inflammatory drug) class as modulators of gamma-secretase resulted in a potent modulator with clear structural distiction from the reference compound. The calculation of significance estimates, emphasizing on key interactions, the pharmacophore elucidation capabilities and the unique compound rannkings set PhAST apart from other screening techniques.
Rhythms, i.e. periodic sequences of events or states, are a ubiquitous feature of physiological systems such as the heart, the lungs or the brain. For the brain in particular, the diversity of rhythms is remarkable, ranging from low frequency rhythms in the slow/delta band (0.5-4 Hz) during sleep to gamma band oscillations (30-120 Hz) rhythms during alert behavior, all expressed in various brain areas and at various spatial scales. To understand whether these rhythms subserve a function for the organism it is important to also understand the underlying mechanisms that generate them. While the generation of some rhythms appear to be well-understood, e.g. sleep spindles, others such as the cortical beta rhythm (13-30 Hz) have remained elusive.
Understanding the generation of a brain rhythm involves multiple spatial scales, from identifying intracellular mechanisms such as the contribution of individual transmembrane currents to studying how specific neuronal populations or areas affect the full physiological rhythm present in the intact, highly interconnected brain. The aim of this work has been to delineate the mechanistic contributions of individual brain areas to the in vivo generation of two particular rhythms present in efferent areas: (1) The first part of this work studies the influence of thalamocortical neurons on cortical slow/delta waves (0.5-4 Hz) of sleep that are sometimes also present in awake animals. (2) The second part is about the contribution of primary visual cortex to the beta rhythm (13-30 Hz) in extrastriate cortex of awake behaving animals.
Synaptopodin is the founding member of a family of actin-associated proline-rich proteins. It is present in a subset of telencephalic dendritic spines, where it is tightly associated with the dendritic spine apparatus, a putative calcium store. Synaptopodin-deficient mice lack the spine apparatus and show deficits in long-term potentiation and spatial memory. Thus, synaptopodin appears to play a role in synaptic plasticity. In the present thesis, three major questions were addressed: (1) What is the distribution of synaptopodin and the spine apparatus in identified hippocampal neurons? (2) Is the distribution of synaptopodin affected by denervation? (3) Is synaptopodin involved in the regulation of denervation-induced spine loss? The major findings of this thesis are: (1) Immunohistochemistry in the hippocampus of wildtype and EGFP-transgenic mice revealed significant layer-specific differences in the prevalence of synaptopodin at the level of individual neurons. (2) Light and electron microscopic analysis also revealed the presence of synaptopodin in axon initial segments of cortical and hippocampal principal neurons. There, it was found to be an essential component of the cisternal organelle, a putative axonal homologue of the dendritic spine apparatus. (3) Immunohistochemistry in the rat fascia dentata before and following entorhinal deafferentation revealed changes in synaptopodin expression in denervated and non-denervated layers of the hippocampus, suggesting that the distribution of synaptopodin in hippocampal neurons is regulated by presynaptic signals. (4) The dynamics of denervation-induced spine plasticity were studied in vitro using confocal live imaging of organotypic entorhino-hippocampal slice cultures. Whereas spines were remarkably stable under control conditions, spine loss and spine formation were seen following denervation. No significant differences were observed between cultures from wildtype and synaptopodin-deficient mice, suggesting that synaptopodin is not involved in lesion-induced spine plasticity. (5) Finally, a set of transgenic mice expressing fluorescently tagged synaptopodin were generated to facilitate future experiments on the dynamics and function of synaptopodin. In summary, this thesis presents novel findings on (1) the subcellular distribution of synaptopodin in spines and the axon initial segment, (2) the molecular composition of the cisternal organelle, and (3) the dynamics of spines and the spine apparatus organelle following deafferentation in vivo and in vitro.
Baleen whales (Mysticeti) are a clade of highly adapted carnivorous marine mammals that can reach extremely large body sizes and feature characteristic keratinaceous baleen plates used for obligate filter feeding. From a conservation perspective, nearly all baleen whale species were hunted extensively over a roughly 100 years lasting time period that depleted many of the respective whale stocks with so far unknown consequences for e.g. their molecular viability. From an evolutionary perspective, the lack of fossil records together with conflicting molecular patterns resulted in a still unclear and debated phylogeny of modern baleen whales, particularly in rorquals (Balaenopteridae). In this dissertation, I will demonstrate the application of baleen whale genomes to tackle these open questions by using modern approaches of conservation and evolutionary genomics.
Conservation genomic aspects of baleen whales were addressed in two projects, both using whole genome data of either an Icelandic fin whale (Balaenoptera physalus) population or multiple blue whale (Balaenoptera musculus) populations to evaluate the impact of the industrial whaling era on their molecular viability. The results suggest a substantial drop in effective population size of both species but also a lack of manifestation in genotypes of the fin whale population when compared to the blue whale populations. Especially the rare and short runs of homozygosity (ROH), usually indicative for inbreeding, suggest frequent outcrossing in fin whales while all analyzed blue whale populations featured long and frequent ROH. In addition to these analyses, genome data of blue whale populations was further used to evaluate if northern hemisphere blue whales diverged into different subspecies. Population genetic and gene flow analyses showed clearly separated and well isolated populations in accordance with their assumed geographical distance. In contrast, the genome-wide divergence between all blue whale populations was low compared to other cetacean populations and to the next closely related sei whale species. Because this includes the morphologically different and well recognized pygmy blue whale subspecies, a proposal was made to equally categorize the two northern-hemisphere blue whale populations as subspecies.
Evolutionary aspects were addressed in a third project, by constructing the genome of the pygmy right whale (Caperea marginata) and testing its potential in phylogenetics and cancer research. Phylogenomic analyses using fragments of a whole-genome alignment featuring nearly all extant baleen whales, allowed the revision of the complex evolutionary relationships of rorquals by quantifying and characterizing the amounts of conflicts in early diverging branches. These relationships were further used to identify phylogenetically independent pairs of baleen whales with a maximum of diverging body size differences to compare rates of positive selection between their genomes. The results suggest nearly evenly distributed frequencies of alternative topologies which supports the representation of the early divergence of rorquals as a hard polytomy with high amounts of introgression and incomplete lineage sorting. Within the set of available genomic data, three independent pairs of baleen whales with diverging body sizes were found and comparisons of positive selection rates resulted in many potentially body size and cancer related genes. The lack of conserved selection patterns, however, suggest a more convergent evolution of size and cancer resistance like previously discussed in paleontology.
In conclusion, the application of whole genome data using methods of conservation genetics allowed for a comprehensive estimation about the molecular viability of blue and fin whales as well as an assessment of the taxonomic status of northern-hemisphere blue whale populations. The rather different results between blue and fin whales underlines the importance of genomic monitoring of baleen whales because different species show rather different molecular consequences of their potentially varying depletions. Furthermore, as showcased for the northern-hemisphere blue whale, many important isolated populations of baleen whales may still be unknown to conservation management and genome-wide comparisons will most likely contribute to overcome this under-classification problem. The application of whole genome data in evolutionary research allowed the characterization of the complex patterns of molecular conflicts within baleen whales and especially rorquals that will contribute to the still rather unclear understanding of their evolution. The here found molecular support for the idea of convergent evolution of gigantism in whales will further guide the search for molecular patterns responsible for Peto’s paradox.
Bei Autismus-Spektrum-Störungen (ASS) handelt es sich um genetisch komplexe Störungen mit hoher Erblichkeit. Als zugrundeliegender Pathomechanismus von ASS werden unter anderem Veränderungen der neuronalen Entwicklung diskutiert. Der Phänotyp von ASS ist definiert durch Einschränkungen in der sozialen Interaktion und Kommunikation sowie repetitives und stereotypes Verhalten. Genkopiepolymorphismen (englisch „copy number variations“/CNVs), also Deletionen oder Duplikationen einer chromosomalen Region, wurden wiederholt in Probanden mit ASS identifiziert. Hierbei ist in ASS die Region 16p11.2 mit am häufigsten von CNVs betroffen. Einige Gene aus diesem chromosomalen Abschnitt wurden bereits funktionell charakterisiert. Dennoch können die Befunde der bisherigen Einzelgenstudien nicht alle Aspekte erklären, die durch 16p11.2 CNVs hervorgerufen werden. Ziel dieser Studie war es daher, ein weiteres neuronal assoziiertes Kandidatengen dieser Region zu identifizieren und im Anschluss funktionell im Kontext der neuronalen Differenzierung zu charakterisieren.
Das SH-SY5Y Neuroblastom-Zellmodell wurde auf Transkriptom- und morphologischer Ebene auf seine Eignung als Modell für neuronale Differenzierung untersucht und bestätigt. Eine Analyse der Expressionen aller Gene der 16p11.2-Region zeigte, dass das Gen Quinolinat-Phosphoribosyltransferase (QPRT) eine vergleichsweise hohe Expression mit der stärksten und robustesten Regulierung über die Zeit aufwies. Eine de novo Deletion der 16p11.2-Region wurde in einem Patienten im Vergleich zu seinen Eltern validiert. In Patienten-spezifischen lymphoblastoiden Zelllinien derselben Familie konnten wir eine Gendosis-abhängige Expression von QPRT auf RNA-Ebene bestätigen. In SH-SY5Y-Zellen korrelierte die Expression von QPRT signifikant mit der Entwicklung von Neuriten während der Differenzierung. Um QPRT funktionell zu charakterisieren, benutzten wir drei verschiedene Methoden zur Reduktion der QPRT-Gendosis: (i) knock down (KD) durch siRNA, (ii) chemische Inhibition durch Phthalsäure und (iii) knock out (KO) über CRISPR/Cas9-Geneditierung. Eine Reduktion von QPRT durch siRNA führte zu einer schwachen Veränderung der neuronalen Morphologie differenzierter SH-SY5Y-Zellen. Die chemische Inhibition sowie der genetische KO von QPRT waren letal für differenzierende aber nicht für proliferierende Zellen. Eine Metabolitenanalyse zeigte keine Veränderungen des QPRT-assoziierten Tryptophanstoffwechsels. Gene, welche auf Transkriptomebene im Vergleich zwischen KO- und Kontrollzellen differenziell reguliert vorlagen, waren häufig an Prozessen der neuronalen Entwicklung sowie an der Bildung, Stabilität und Funktion synaptischer Strukturen beteiligt. Die Liste differenziell regulierter Gene enthielt außerdem überdurchschnittlich viele ASS-Risikogene und ko-regulierte Gengruppen waren assoziiert mit der Entwicklung des dorsolateralen präfrontalen Cortex, des Hippocampus sowie der Amygdala.
In dieser Studie zeigten wir einen kausalen Zusammenhang zwischen QPRT und der neuronalen Differenzierung in vitro sowie einen Einfluss von QPRT auf die Regulation von ASS-assoziierten Genen und Gen-Netzwerken. Funktionell standen diese Gene im Kontext mit synaptischen Vorgängen, welche durch Veränderungen zu einem Exzitations-Inhibitions-Ungleichgewicht und letztendlich zum Zelltod von Neuronen führen können. Unsere Ergebnisse heben in Summe die wichtige Rolle von QPRT in der Krankheitsentstehung von ASS, insbesondere in Trägern einer 16p11.2 Deletion, hervor.
Carotinoide sind Pigmente, die in Pflanzen, Algen, einigen Pilzen und Bakterien vorkommen. Sie spielen eine wichtige Rolle bei der Photosynthese durch Absorption von Licht und beim Lichtschutz. Sie sind verantwortlich für die braunen, roten, orangen und gelben Farben von Obst, Gemüse, Herbstblättern und die Farbe einiger Blumen und Algen. Tiere können keine Carotinoide synthetisieren, daher ist ihre Anwesenheit auf die Nahrungsaufnahme zurückzuführen. Carotinoide sind Tetraterpenoide (40C), die aus Isoprenoidmolekülen (5C) synthetisiert werden. Der Methylerythritol-phosphatweg ist der Carotinoid-Vorläuferweg, der die Isoprenoideinheiten bildet. Carotinoide haben aufgrund ihrer gesundheitlichen Vorteile das Interesse der Nutrazeutika-Industrie geweckt.
Fucoxanthin ist ein Carotinoid, das nur in Kieselalgen, Braunalgen, Haptophyten und einigen Dinoflagellaten vorkommt. Aufgrund seiner Vorteile zur Vorbeugung von Krebs, kognitiven Erkrankungen und Fettleibigkeit sowie seiner antioxidativen Eigenschaften ist Fucoxanthin ein sehr interessantes Molekül fur die Nutrazeutikabranche.
Fucoxanthin hat eine komplexe chemische Struktur mit einer Allenbindung und einer Epoxyketogruppe. Daher wäre seine chemische Synthese kompliziert, da es auch eine stereokontrollierte Synthese erfordert86. Aus diesem Grund ist die Extraktion aus Makroalgen oder Mikroalgen die Methode der Wahl für die kommerzielle Herstellung von Fucoxanthin.
In dieser Arbeit bestand das Ziel darin, die Fucoxanthin-Produktivität in Kieselalgen mit gentechnischen Methoden zu steigern, damit die Zellen mehr Fucoxanthin produzieren. Zu diesem Zweck wurde der Effekt der Insertion zusätzlicher Kopien von Genen in das Genom untersucht, die für geschwindigkeitsbestimmende oder Schlüsselenzyme im Carotinoid- und MEP-Weg kodieren.
Zu Beginn wurden diese Effekte bei einzelnen Mutanten beobachtet. Letztendlich ist es jedoch das Ziel, eine Mutante zu erzeugen, die mehrere geschwindigkeitsbestimmende Enzyme überexprimiert, um auf diese Weise Engpässe zu vermeiden. In früheren Studien erreichten Eilers et al.54 durch die einmalige Überexpression der psy- und dxs-Gene in der Kieselalge P. tricornutum einen 2.4- und 1.8-fachen Anstieg der Fucoxanthin-Spiegel.
In dieser Arbeit führte die Insertion zusätzlicher Kopien der Gene idi und pds2 nicht dazu, dass die Zellen mehr Fucoxanthin produzieren. Im Gegensatz dazu erreichten die Mutanten mit zusätzlichen Kopien der Gen ggpps und mit zusätzlichen Kopien sowohl von psy als auch von dxs seine um 28% bzw. 10% höhere Fucoxanthin-Produktivität pro Million Zellen. Bei diesen Mutanten ist die Gesamtproduktivität jedoch geringer als beim Wildtyp, da ihr Wachstum langsamer als beim Wildtyp ist.
Unter Berücksichtigung der besten Zielgene wurden Mutanten erzeugt, die gleichzeitig zusätzliche Kopien von psy, dxs und ggpps enthielten. Die Mutanten hatten unter sehr niedriegen Lichtbedingungen eine um bis zu 61% höhere Produktivität pro Million Zellen als der Wildtyp. Ausnahmsweise wurden diese Mutanten bei sehr schwachem Licht (10 µE m-2 s-1) gezüchtet, da sie sehr gestresst waren und als Zellklumpen wuchsen. Obwohl die Gesamt-Fucoxanthin-Spiegel in diesen Mutanten unter diesen Bedingungen höher sind als im Wildtyp, sind sie daher niedriger als die Fucoxanthin-Spiegel bei den in anderen Experimenten verwendeten Lichtbedingungen (50 µE m-2 s-1). Als Ergebnis dieser Experimente kann gesagt werden, dass die Belastung der Zellen nach den genetischen Veränderungen untersucht werden muss, da dies zu einer Abnahme der Biomasse und folglich zu einer Abnahme der Fucoxanthinproduktion führt. Alternativ könnte auch eine 2-Stufen-Kultur etabliert werden, in der in einem ersten Schritt eine hohe Biomasse erreicht wird und im zweiten Schritt die Expression der interessierenden Gene induziert wird.
Aufgrund der antioxidativen Eigenschaften von Carotinoiden besteht eine übliche Strategie zur Akkumulation von Carotinoiden darin, die Zellen unter oxidative Stressbedingungen zu setzen. Diese Strategie ist jedoch nicht wirksam für die Anreicherung von Fucoxanthin unter hohen Salzkonzentrationen oder hohen Lichtbedingungen. Bessere Versuchspläne könnten jedoch eine 2-Stufen-Kultur oder adaptive Laborbedingungen gewesen sein.
Eine andere mögliche Strategie zur Erhöhung des Fucoxanthinspiegels wäre die Durchführung einer zufälligen Mutagenese der Zellen. Auf diese Weise sind keine Vorkenntnisse über den Carotinoidsyntheseweg und seine Regulation erforderlich und es kann zu Veränderungen in Genen führen, die keine offensichtlichen Ziele sind.
Experimente mit zufälliger Mutagenese erfordern ein Hochdurchsatz-Screeningsystem, da Hunderte oder sogar Tausende von Mutanten erhalten werden. Eine mögliche Strategie, um die Kultivierung der hohen Anzahl von Mutanten zu vereinfachen, ist die Einkapselung dieser Mutanten in Alginatkügelchen. Auf diese Weise können alle Mutanten in demselben Gefäß kultiviert werden. Die eingekapselten Zellen können dann beispielsweise mit einem Durchflusszytometer auf große Partikel durch Fluoreszenz- oder Absorptionsmessungen gescreent werden.
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Bei den meisten erwachsenen Säugetieren führt ein Herzinfarkt zu Fibrose und Verlust von funktionellem Herzgewebe. Einige Wirbeltiere, wie der Zebrabärbling, besitzen jedoch die bemerkenswerte Fähigkeit, nach einer Schädigung ihres Herzgewebes verlorenes Gewebe zu regenerieren und so schädliche Folgen zu verhindern. Die lokale Immunantwort auf eine Verletzung wird zunehmend als eine wichtige Determinante für das regenerative Potential eines Gewebes gesehen. Das Komplementsystem ist Teil des humoralen Immunsystems. Historisch ist es als eine Sammlung von Protein bekannt, den Komplementkomponenten, die in der Leber synthetisiert werden und im Blutkreislauf zirkulieren. Bei Exposition gegenüber einem Auslöser, wie z. B. einem Pathogen, wird eine Komplementkomponentproteinspaltungskaskade initiiert, die dazu führen kann, dass Immunzellen rekrutiert werden, und, dass die Phagozytose erleichtert, ggf. die Zielzelle lysiert wird. Studien legen nahe, dass das Komplementsystem an zellulären Prozessen beteiligt sei, die für Entwicklungs- und Krankheitsprozesse entscheidend sind, wie etwa Proliferation und Dedifferenzierung. Es gibt Hinweise, dass das Komplementsystem eine Rolle bei Krebserkrankungen und bei regenerativen Prozessen spielen könnte. In verschiedenen Arten wurde eine lokale verletzungsinduzierte Expression von komplementkomponentkodierenden Genen in regenerierendem Gewebe beobachtet.
Einzelne Studien legen nahe, dass Funktionsverlust einzelner Komplementkomponenten regenerative Prozesse beeinträchtigt.
Offene Fragen bleiben jedoch: Ist die lokale Expression von mehreren komplementkomponentkodierenden Genen ein Merkmal von regenerierendem Gewebe, das sie von Geweben unterscheidet, welchem die Fähigkeit zur Regeneration fehlt? Und welche Rolle könnte das Komplementsystem und seine Komponenten während des regenerativen Prozesses spielen? Um diesen Fragen nachzugehen, wurde eine Expressionsanalyse von Zebrabärblingsgewebe nach Verletzung mittels RT-qPCR und in situ Hybridisierung durchgeführt: kardiale Kryoverletzung, Larvenrumpfamputation und Schwanzflossenamputation. Ich beobachtete, dass mehrere komplementkomponentkodierende Gene in diesen Geweben nach Verletzung induziert wurden. Die Interpretation veröffentlichter single cell RNAseq Datensätze legt nahe, dass diese komplementkomponentenkodierenden Gene von verschiedenen Zelltypen exprimiert werden, darunter Immunzellen, Epikardzellen und Fibroblasten. Um transkriptionelle Unterschiede zwischen regenerierendem und nicht regenerierendem Gewebe zu identifizieren, verwendete ich ein nicht regeneratives Zebrabärblingmodell, die il11ra- Mutante. Dieser Mutante fehlt die Fähigkeit, verschiedene Organe zu regenerieren, das ist der Fall beim Herzen, dem larvalen Rumpf, und der Schwanzflosse. Ich stellte fest, dass die Mehrheit der verletzungsinduzierten komplementkomponentkodierenden Gene il11ra nachgeschaltet war. Darüber hinaus zeigten Experimente unter Verwendung chemischer Inhibitoren, dass speziell die Expression der komplementkomponentkodierenden Gene c3a.1,
c4b und c7a im Larvenrumpfamputationsmodell durch den Il11-Stat3-Signalweg moduliert wird.
Zur Klärung der Frage, ob das Komplementsystem und/ oder seine Komponenten eine Rolle während der Regeneration spielen, wurden verschiede Funktionsverlustmodelle generiert und im larvalen Rumpfamputationsmodell auf mögliche Aberrationen getestet. Zum einen generierte ich Überexpressionslinien von endogenen Inhibitoren der Komplementproteinspaltungskaskade. Überexpression eines etablierten Komplementsysteminhibitors rca2.1/ tecrem führte zu einer im Vergleich zu Wildtyp- Geschwistern verringerten Regeneration des larvalen Rumpfs. Zum anderen generierte ich Funktionsverlustmutanten von individuellen Komplementkomponenten durch CRISPR/Cas9 vermittelter Mutagenese, und zwar für masp1, masp2, cfd, c1s, c4b, c5 und c9. Die larvale Rumpfregeneration war in diesen Mutanten unauffällig. Allerdings zeigten c4b Mutanten eine verringerte Kardiomyozytenproliferation und eine differenzielle Expression von einigen Markergenen, einschließlich einer erhöhten Expression von inflammatorischen Zytokinen.
Meine Studien führten zu neuen Einblicken in das Komplementsystem im Kontext der Regeneration. Ich fand heraus, dass mehrere komplementkomponentenkodierenden Gene in regenerierendem Zebrabärblinggewebe exprimiert werden, und zwar im Herzgewebe, im larvalen Rumpf und in der adulten Flosse. Darüber hinaus zeige ich, dass die verletzungsinduzierte Expression von komplementkodierenden Genen in regenerierendem Gewebe dem Regenerationsmasterregulator il11ra nachgeschaltet ist. Speziell c3a.1, c4b und c7a wurden durch il11/ stat3 reguliert...
Tissue integrity is defined by the composition and connection of cells as a structural and functional unit. It is modulated by a magnitude of processes including differentiation, survival, controlled death and adhesion of cells. Besides, external factors such as physical forces are also involved. A suitable model system to study all modalities of tissue integrity is the mammary gland. Postnatally and within the reproductive phase, the mammary gland undergoes morphological and functional modifications that periodically loosen or strengthen tissue integrity. An important point in the development of the mammary gland is the regression during weaning, also termed involution. The transition from lactation to involution is important for a controlled loss of tissue integrity. In this transition, collective cell death is initiated but not yet prominent enabling the mammary gland to fully recover lactation.
In this thesis, modalities of tissue integrity were investigated using three-dimensional cell cultures (i.e. spheroids) and the mammary gland as model systems. In the context of this thesis, I established (1) an immunofluorescence staining protocol and its detailed evaluation. Furthermore, I studied (2) the role of cell survival during mammary gland development, (3) the effect of physical forces that modulate tissue integrity and (4) the contribution of proteins to cell adhesion and growth.
Since a homogeneous fluorescence stain of the specimen is necessary for quantitative analysis, an immunofluorescence staining protocol was established to stain large spheroids in toto. The evaluation contributes qualitative and quantitative criteria that judge the specificity, intensity and homogeneity of the stain. Based on this approach, it was possible to demonstrate the morphological and functional characteristics that spheroids share with the mammary gland in vivo. These characteristics included the synthesis of extracellular matrix, the development of polarized acinar structures and lactogenic differentiation.
The role of cell survival during mammary gland development was analyzed by means of the expression profile of the pro-survival protein BAG3. The expression of BAG3 differed in the progress of mammary gland development. While the expression was low during pregnancy, it rose in the lactation phase and peaked within the first days of involution, indicating that BAG3 is associated with early involution in the mammary gland. In vitro experiments related the expression of BAG3 to cell survival in mammary epithelial cells.
Physical forces naturally occur during developmental processes influence tissue integrity during the initiation of mammary gland involution. The influence of physical force applied as compression on mammary epithelial spheroids was investigated. A morphological analysis showed that following a lag, the cell nuclei volume changed upon compression. A short-term compression induced the activation of caspases. A prolonged compression reduced the activity of caspases. This suggests the induction of a process that allows cells the adaption to changing environmental conditions. BAG3 is known to be involved in mechanical stress-induced autophagy, also known as chaperone assisted selective autophagy (CASA). Compression of spheroids did not induce CASA. The experimentally applied strain was not comparable to the strain found in the alveolar cells during involution in vivo. Thus, whether or not CASA is activated during mammary gland involution remains elusive. Nevertheless, the methodical approach to apply compression on spheroids in vitro is a model to study the influence of physical forces on cell aggregates.
Apart from cell survival and physical forces, growth and adhesion of cells affect tissue integrity. A spheroid formation assay and subsequent data analysis and computational modeling enabled the investigation of these processes in a non-adhesive environment. The analysis suggested that spheroid formation follows a reaction-controlled process, in which cells do not necessarily form a connection when they collide. The loss of function of either E-cadherin or actin strongly inhibited the formation of a spheroid. The analysis further revealed that neither E-cadherin nor actin influence the chance of the cells to form a connection when they collide. Both molecules are more important in stabilizing established connections. Depolymerization of microtubules still allowed spheroids to form, but the formation was decelerated and growth of the final spheroids was inhibited. The results from computational modeling suggested that microtubules act on cell adhesion through different mechanisms, which also vary among different cell types. The inhibition of FAK phosphorylation at Y397, a downstream target of integrin signaling, and the analysis of FAK protein levels in spheroids showed that integrin-mediated signaling is not prominent in three-dimensional spheroids formed from non-invasive cells. A deletion of BAG3 gene expression increased the number of dead cells in forming spheroids suggesting that BAG3 predominantly affects cell survival.
The results of this thesis identified and characterized adhesion- and survival-associated proteins that are important for tissue integrity. This thesis suggests that a BAG3-dependent cell survival mechanism is prominent at the beginning of mammary gland involution. Future studies will have to identify the related factors and inducers of tissue integrity loss in the mammary gland. This will shed light on the physiology of the organ and could explain the disorders that destroy its integrity. In addition, this thesis contributes to a better understanding of spontaneous cell aggregation, the aggregate organization and implies a role of cell migration in these processes. Future studies that focus on three-dimensional cell migration could explain, how cell migration is promoted and to which extent it supports tissue integrity.
Die Parkinson Erkrankung ist die zweithäufigste neurodegenerative Erkrankung in industrialisierten Ländern. Die charakteristischen Symptome sind schwere Beeinträchtigungen des Bewegungsablaufes welche auf den Verlust dopaminerger Neurone der Substantia nigra und der damit einhergehenden Reduktion des striatalen Dopamin Gehaltes zurückzuführen sind. Alpha-Synuklein (SNCA) ist ein Protein welches zum einen mit sporadischen aber auch mit idiopathischen Erkrankungen assoziiert ist. Mutationen welche einen Funktionsgewinn von SNCA zur Folge haben konnten mit autosomal dominanten Varianten der Parkinson Erkrankung assoziiert werden und genetische Veränderungen an beiden Genenden agieren als Risikofaktor für sporadische Formen der Erkrankung. Des Weiteren wird SNCA als Hauptbestandteil der Lewy Körperchen gefunden, einem pathologischen Kennzeichen der parkinsonschen Erkrankung. Die charakteristischen Bewegungsstörungen können mittels L-DOPA, einer metabolischen Vorstufe von Dopamin, behandelt werden. Neben dem enorm positiven Effekt auf die Bewegungsstörungen, geht die Behandlung mit L-DOPA jedoch auch mit ernsten Nebenwirkungen einher, welche als Levodopa induzierte Dyskinesien (LID) beschrieben werden.
Ziel der Arbeit war die Analyse von Effekten eines SNCA Funktionsgewinns sowie des Pink1 Funktionsverlustes auf molekulare Signalwege der synaptischen Plastizität unter Verwendung dreier PD Mausmodelle (A53T-SNCA überexprimierendes Modell (PrPmtA), Pink1KO Modell sowie A53T-SNCA + Pink1KO Doppelmutante (DM)). Es wurden Kandidatengene welche eine Rolle für synaptische Plastizität spielen in 6 Monate alten Mäusen aller drei PD Mauslinien untersucht. Die Analyse von PrPmtA zeigte erhöhte mRNA Spiegel von Glutamatrezeptor-Untereinheiten und von Kandidatengenen welche eine Rolle bei der synaptischen Signalweiterleitung spielen, sowie reduzierte mRNA Spiegel von IEGs und Transkriptionsfaktoren. Die Analyse der DM zeigte nur geringe Expressionsänderungen der Glutamatrezeptor-Untereinheiten und die Analyse von IEGs und Transkriptionsfaktoren zeigte erneut reduziert mRNA Spiege. In Pink1KO Tieren konnten nur minimale Expressionsveränderungen der Kandidatengene gefunden werden, was den Schluss zulässt, dass die zuvor beschriebenen Expressionsveränderungen in PrPmtA und DM Mäusen eindeutig auf den SNCA Funktionsgewinn zurückzuführen sind. Um frühe Effekte des SNCA Funktionsgewinns zu studieren wurde die Analyse auf 3 Monate alte PrPmtA Mäuse ausgeweitet. Diese ergab, Expressionsveränderungen für Homer1, cFos, NOR1, Nurr1 und Nur77.
In einem weiteren Versuchsansatz wurde die Auswirkung des SNCA Funktionsgewinns auf das Verhalten sowie auf molekulare Parameter nach Apomorphin Behandlung analysiert. Die Analyse ergab ein erhöhtes Niveau an unwillkürlichen Bewegungsmustern mit stereotypen und dystonischen Eigenschaften in PrPmtA im Vergleich zu Wildtypen (wt). Die molekulare Analyse von striatalem Gewebe wurde zu zwei Zeitpunkten durchgeführt, 30 min nach Apomorphin Injektion und 100 min nach Injektion. Die Analyse von striatalem Gewebe welches zum Zeitpunkt 30 min nach Injektion entnommen wurde ergab eine erhöhte Apomorphin abhängige Phosphorylierung von ERK1/2, sowie eine erhöhte Apomorphin abhängige Expression von Dusp1, Dusp6 und cFos in transgenen und wt Tieren. Genotyp abhängige Unterschiede ergaben sich für cFos, welches signifikant höher in PrPmtA induziert wurde. 100 min nach Apomorphin Injektion ergab die gleiche Analyse eine erhöhte Apomorphin abhängige Phosphorylierung von ERK1 und eine erhöhte Apomorphin abhängige Expression von Dusp1, Dusp6, cFos und Nur77 in PrPmtA im Vergleich zu wt. Die Daten unterstreichen die fundamentale Rolle von SNCA auf die Neurotransmission und synaptische Plastizität und zeigen auf, dass PrPmtA ein zuverlässiges Modell für die Analyse von präsynaptischer Dysfunktion in Frühstadien der Parkinson Erkrankung darstellt.
Der letzte Versuchsansatz stellt die Charakterisierung des DM-Mausmodells welches sich durch einen starken Phänotyp auszeichnet, sowie die Analyse des Pink1 Effektes auf die SNCA induzierte Neurotoxizität dar. DM-Tiere zeigen deutlich reduzierte Spontanmotorik im Alter von 3 Monaten sowie einer progressiven Lähmung der Hinterläufe, was Anlass zu einer immunhistologischen Charakterisierung mittels Schnitten des Gehirns und Rückenmarks gab. Die histologische Analyse zeigte pSer129-SNCA, p62/SQSTM1 und Ubiquitin positive Aggregate innerhalb der grauen Substanz des Rückenmarks sowie innerhalb einer neuronalen Zellpopulation welche dorsal der Substantia nigra angeordnet ist. Das histologische Erscheinungsbild wurde spezifisch in gelähmten DM-Tieren gefunden und nicht in Einzelmutanten oder DM-Tieren ohne Lähmung. Dieses Modell stellt ein wertvolles Instrument für die Identifizierung von pathologischen Mechanismen und Signalkaskaden welche beiden Parkinson relevanten Genen gemeinsam sind, dar.
The estimation model PhytoCalc allows a non-destructive quantification of dry weight and nutrient pools of understorey plants in forests by using the relationship between species biomass, cover and mean shoot length. The model has been validated with independent samples in several German forest types and can be a useful tool in forest monitoring. However, in open areas within forests (e.g. clearcuts), the current model version underestimates biomass and produces unreliable nutrient pool estimations. Thus, tissue density, as approximated by leaf dry matter content (LDMC), is systematically higher under high light compared to low light conditions. We demonstrate that the ratio of LDMC under clearcut conditions to LDMC under forest conditions can be used to adjust the PhytoCalc model to clearcut conditions. We investigated the LDMC ratio of five exemplary species commonly occurring on clearcuts. Integrating the square of the ratio as a correction factor improved estimates of biomass to more than 70% fit between observations and predictions. Results also suggest this ratio can be used to correct nutrient concentrations modelled in PhytoCalc, which tend to be overestimated in clearcuts. As morphological groups of plant species exhibit significantly different ratios, we advise using group-specific correction factors for clearcut adjustments in the future.
The term cephalic sensory organ (CSO) is used for specialised structures in the head region of adult Opisthobranchia. These sensory organs show a high diversity in form and function, and the gross morphology of these organs differs considerably among taxa. They can be identified as cephalic shields, oral veils, Hancocks organs, lip organs, rhinophores or oral tentacles. Because of this extremely high diversity, the homology and the evolution of these organs have not been clarified yet. My intention was to use neuroanatomical data sets in order to find putative homologous CSOs. In this study, I will show data about immunohistochemical neurotransmitter content and cellular innervation patterns and their applicability as morphological characters for the homologisation of structures. I support earlier investigations that neurotransmitter content is often related to function. In contrast, axonal tracing patterns can be used to homologise nerves. Overall the aim of this study was to reconstruct the evolution of the CSOs of the Opisthobranchia, by projecting our neuroanatomical data sets onto a molecular phylogeny.
The functional and molecular role of transglutaminase 2 in hematopoietic stem and progenitor cells
(2023)
Long-term repopulating hematopoietic stem cells (LT-HSCs) that reside in the bone marrow (BM) give rise to all blood cell types including erythrocytes, leukocytes and platelets. LT-HSCs are mainly quiescent during steady state hematopoiesis. LT-HSCs can process self-renewal to expand and maintain stemness, or commit to differentiation into short-term (ST) repopulating HSC and multipotent progenitors (MPPs). MPPs differentiate into oligopotent lineagerestricted progenitors which eventually produce all mature blood cell lineages, and thereby regenerate hematopoietic system.
Previous studies have shown in transcription profiles and quantitative PCR (qPCR) analysis that transglutaminase 2 (Tgm2) is one of the most upregulated genes in quiescent LT-HSCs in comparison to active HSCs, mobilized HSCs, ST-HSCs, MPPs, as well as leukemic stem cells (LSC). However, the reason why Tgm2 is strongly upregulated in dormant mouse LTHSCs and what the role of Tgm2 is in LT-HSCs has not been investigated yet.
Tgm2, encoded by the Tgm2 gene, is a multi-functional protein within the transglutaminase family. It has been found to be widely expressed inside and outside the cells. It consists of four domains and two functionally exclusive forms that are regulated by the Ca2+ and GTP concentration. Besides the most well-known transglutaminase enzymatic activity for transamidation, deamidation and crosslinking, Tgm2 acts also as a GTPase/ATPase, kinase, adhesion/scaffold protein, as well as disulfide isomerase. The role of Tgm2 in hematopoiesis remains elusive. Accordingly, the aim of this dissertation is to investigate the role of Tgm2 in murine hematopoiesis, especially in murine LT-HSCs.
Firstly, the expression of Tgm2 was analyzed in highly purified murine hematopoietic stem and progenitor cell (HSPC) populations. Low input label-free mass spectrometric proteomics and WES protein analysis confirmed the highly specific expression of Tgm2 in LT-HSCs at protein level. Already at the state of MPPs, Tgm2 protein was almost absent with further decline towards oligopotent progenitors. These results indicated Tgm2 as a specific protein marker for LT-HSCs, justifying the future generation of a fluorescent reporter mouse line based on endogenous Tgm2 tagging.
To delineate the functional and molecular role of Tgm2 in LT-HSCs, a conditional Tgm2 knockout mouse model was generated using the Mx1-Cre/loxP system, with the loxP sites flanking the coding exons of the catalytic domain of Tgm2. After PolyIC-mediated induction, a more than 95% knockout efficiency was observed in purified LT-HSCs and the protein expression of Tgm2 was confirmed to be vanished in the purified LT-HSCs from conditional Tgm2-KO mice. Conditional knockout mice are viable and show no aberrant organ functions.
In steady state condition, the distribution of mature blood cell lineages and immunophenotypically-defined HSPC populations within the BM, the mitochondrial potential of HSPCs reflected by the non-invasive cationic dye JC-1, as well as the cell cycle status of HSPCs mirrored by the intracellular Ki67 staining did not show any significant variations upon loss of Tgm2. However, the in vitro continuous observation of prospectivly isolated LT-HSCs by time-lapse microscopy-based cell tracking revealed a delayed entry into cell cycle with a two fold increased apoptosis rate after knocking out Tgm2, indicating Tgm2 expression might be essential for survival of LT-HSCs. Moreover, while the absence of Tgm2 in LT-HSCs did not influence differentiation and lineage choice in vitro, overexpression of Tgm2 in LT-HSCs resulted in an increase of the most immature subpopulation upon cultivation. All these features were not observed in Tgm2-deleted MPPs, suggesting Tgm2 playing a specific function at the level of LT-HSCs. Upon stress hematopoiesis, induced by the administration of 5-fluorouracil (5-FU), there was a trend towards delayed recovery of LT-HSCs lacking Tgm2. Although Tgm2 express specificly in LT-HSCs, two rounds of competitive BM serial transplantation displayed an equal overall engraftment and multi-lineage reconstitution of LT-HSCs from Tgm2-WT and Tgm2-KO mice in peripheral blood (PB), BM and spleens. Interestingly, LT-HSCs from Tgm2-KO mice reconstituted to more myeloid cells and fewer B cells in the first four weeks after primary transplantation, which disappeared at later time points.
Gene expression profiling and simultaneous single cell proteo-genomic profiling indicated that HSPCs and LT-HSCs from Tgm2-KO mice were transcriptionally more active. A heterogeneity of Tgm2 expression within Tgm2-WT LT-HSCs was revealed by single cell data. Commonly up-regulated genes in Tgm2-KO LT-HSCs and MPPs were significantly involved in regulation of transcription from RNA polymerase II promoter in response to stress, positive regulation of cell death as well as negative regulation of mitogen-activated protein kinase (MAPK) signaling pathways. In Tgm2-KO LT-HSCs, 136 up-regulated genes demonstrated an enrichment of genes involved in apoptosis, as well as negative regulation of MAPK signaling pathway.
Taken together, this dissertation shows that Tgm2 protein is highly specifically expressed in LT-HSCs, but not in subsequent progenitor populations. However, Tgm2 is not essential for differentiation and maturation of myeloid lineages, the proliferation and the long-term multilineage reconstitution potential of LT-HSCs after transplantation. Tgm2 might be involved in accurate stress response of LT-HSCs and the transition from LT-HSCs into MPPs, meaning that the absence of Tgm2 results in poor survival, myeloid bias upon transplantation, as well as slower recovery upon chemotherapeutic treatment.
Brain development is a complex and highly organized process that relies on the coordinated interaction between neurons and vessels. These cell systems form a neurovascular link that involves the exchange of oxygen, ions, and other physiological components necessary for proper neuronal and vascular function. This physiologically coupled process is executed through analogous structural and molecular signaling mechanisms shared by both cell types. At the neurovascular interface, the cellular crosstalk via these shared signaling mechanisms allows for the synchronized expansion and integration of neurons and vessels into complex cellular networks. This study investigated the role of VEGFR2, a receptor for vascular endothelial growth factor (VEGF), during postnatal neuronal development in the mouse hippocampus. Prior studies have revealed physiological roles of VEGF, a pro-angiogenic morphogen, in nervous system development. However, it was unclear if VEGF signaling had a direct effect on neuronal physiology and function through neuronal-expressing receptors. In this investigative work, we identified a previously unknown function of VEGFR2, whereby VEGF-induced signaling coordinates the development and circuitry integration of CA3 pyramidal neurons in the early postnatal mouse hippocampus. Mechanistically, we found that VEGFR2 signaling requires receptor endocytosis, a process mediated by ephrinB2. We also found that VEGF-induced cooperative signaling between VEGFR2 and ephrinB2 is functionally required for the dendritic arborization and spine maturation of developing CA3 neurons during the first few postnatal weeks. Moreover, in a collaborative effort with the research group of Carmen Ruiz de Almodovar, formerly at the University of Heidelberg, we simultaneously studied VEGF-induced VEGFR2 signaling in CA3 axonal development. Together, we aimed to gain a comprehensive understanding of the complex interplay between VEGF and VEGFR2 signaling during the early postnatal development of CA3 neurons. Ruiz de Almodovar’s research group found that, unlike the branch and spine development of CA3 dendrites, VEGF-VEGFR2 signaling promotes axonal development through mechanisms that are independent of ephrinB2 function. Our findings on CA3 dendritic development are reported in the published manuscript, Harde et al. (2019), and the complementary work on CA3 axonal development from Ruiz de Almodovar's group is presented in the co-published manuscript, Luck et al. (2019). Although the totality of Ruiz de Almodovar's group's work on CA3 axons is not fully discussed here, it is referenced where noted to provide biological context for our findings on CA3 dendritic development.
VEGFR2 signaling within neurovascular niches is known to play a role in the neurogenesis of neural progenitor cells during embryonic development and within the adult brain. However, the precise localization of neuronal VEGFR2 expression and functional role within the nervous system during postnatal brain development was unknown. To investigate this, we used immunohistochemistry to identify the spatial expression of VEGFR2 within the mouse hippocampus during the first few weeks after birth. Our results showed that VEGFR2 was predominantly expressed within the hippocampal vasculature, consistent with prior studies. However, we also observed localized VEGFR2 expression in pyramidal cell neurons of the hippocampal CA3 region by postnatal day 10 (P10). This spatially restricted postnatal expression of VEGFR2 in CA3 neurons suggested a potential role in the development of these neurons during this developmental stage.
The first two weeks after birth in the mouse hippocampus is a critical period for the development of neuronal circuits, as neurons undergo extensive dendritic arborization and spine formation. To explore the role of VEGFR2 in the postnatal nervous system, we used a Nes-cre VEGFR2lox/- mouse line to target the deletion of VEGFR2 expression within the nervous system while preserving normal receptor expression in all other cell types. We also generated corresponding control mice that were negative for Nes-cre. By breeding these mice with Thy1-GFP reporter mice, we could analyze the functional consequences of VEGFR2 by assessing the morphologies of CA3 dendritic trees and spine density and maturation at P10 and P15, respectively. Our analysis showed that CA3 neurons in Nes-cre VEGFR2lox/- mice had less complex dendritic arbors compared to control mice. There were significant reductions in total length and branch points, particularly in areas located 100-250 μm from the cell soma within the stratum radiatum layer. Additionally, Nes-cre VEGFR2lox/- mice exhibited a significant decrease in spine density accompanied by an increased proportion of immature spines. These findings suggest that VEGFR2 plays a crucial role in the proper development of CA3 dendrites and spines during the early postnatal weeks.
Tissue size regulation is critical for the normal functioning of the organ as well as to prevent unwanted pathogenesis such as cancer. The Hippo signaling pathway is well known for its robust regulation of tissue growth by the negative regulation of its nuclear effectors YAP1 and WWTR1. In this study, I have described the role of Yap1/Wwtr1 in zebrafish development, with a primary emphasis on the cardiovascular system.
I have generated zebrafish yap1 and wwtr1 mutants by CRISPR/CAS9. The mutant alleles are likely to be nonfunctional due to a premature stop codon and they show evidence of nonsense-mediated decay. Given that Yap1 and Wwtr1 are closely related proteins and have overlapping functions, I am given the opportunity to perform combinatorial analysis of the mutations on zebrafish development. Together with molecular probing tools, high-throughput sequencing and high-resolution imaging, I showed that
1. Double yap1;wwtr1 mutants exhibit severe posterior elongation phenotype, but somitogenesis appears to proceed as usual.
2. Yap1 and Wwtr1 may play an important role in PCV development and secondary angiogenic sprouting. However, key experiments will be needed to elucidate the direct role of Yap1 and Wwtr1 on these processes.
3. wwtr1-/- larvae hearts have a reduction in trabeculation, but in mosaic WT hearts, mutant cardiomyocytes prefer to populate the trabecular layer. My studies revealed that the mutant compact wall could not support trabeculation, which explains the hypotrabeculation phenotype of wwtr1-/- hearts. Additionally, Wwtr1 is required for myocardial Notch activity and can inhibit compact wall cardiomyocytes from entering the trabecular layer.
In summary, the Hippo signaling pathway, through Yap1/Wwtr1 has important regulatory functions in growth control. My work has revealed a surprising role for Yap1/Wwtr1 in tissue morphogenesis such as posterior tail morphogenesis and specific developmental processes of the cardiovascular system. It will be of interest to elucidate the regulation of Yap1/Wwtr1 in individual cells that translates into the complex cellular behaviors that drives morphogenesis.
In Zeiten der globalen Klimaerwärmung und des Klimawandels werden Strategien zur Vermeidung, Reduzierung oder Wiederverwertung von CO2-Emissionen sowie die Abkehr von fossilen Energieträgern immer wichtiger. Aus diesem Grund finden Technologien zur Bindung, Speicherung und Wiederverwertung von CO2 immer größere Aufmerksamkeit und diverse chemische als auch biologische Ansätze werden verfolgt. Eine dieser Möglichkeiten umfasst die Reduktion von CO2 mit Hilfe von molekularem Wasserstoff. Im Prozess der direkten Hydrogenierung von CO2 zu Ameisensäure bzw. Formiat wird nicht nur CO2 gebunden, sondern ebenfalls H2 in flüssiger Form gespeichert. Die Ameisensäure weist gegenüber dem hochflüchtigen Wasserstoffgas verschiedene Vorteile auf und zählt zu der Gruppe der flüssigen, organischen Wasserstoffspeicherverbindungen. Daneben ist das Einsatzgebiet von Ameisensäure als Ausgangstoff für Chemikalien oder als mikrobielle Kohlenstoffquelle sehr vielseitig und die Verbindung erfreut sich zunehmenden Interesses.
Die Natur hält biologische Katalysatoren (Enzyme) für die Reduktion von CO2 bereit. Die Gruppe der obligat anaeroben, acetogenen Bakterien verwendet so genannte Formiatdehydrogenasen als CO2-Reduktasen, um CO2 im Wood-Ljungdahl-Weg (WLP) der Bakterien fixieren zu können. Diese Enzyme katalysieren die reversible 2-Elektronen Reduktion von CO2 zu Ameisensäure. Kürzlich konnte aus den beiden Vertretern A. woodii (mesophil) und T. kivui (thermophil) ein neuartiger, cytoplasmatischer Enzymkomplex isoliert werden. Dieser Enzymkomplex koppelt die Reduktion von CO2 direkt an die Oxidation von H2 und wird deshalb als Wasserstoff-abhängige CO2-Reduktase bezeichnet (engl. hydrogen-dependent CO2 reductase, HDCR). Die HDCR katalysiert dabei die reversible Hydrogenierung von CO2 zu Formiat mit annähernd gleicher Kinetik und gleichen Umsatzraten. Die bei der CO2 Reduktion erreichten Umsatzraten übertrafen dabei bisherige chemische als auch biologische Katalysatoren um mehre Größenordnungen.
Im Hinblick auf die besonderen katalytischen Eigenschaften der HDCRs wurde in dieser Arbeit die biotechnologische Anwendbarkeit der Enzyme als Biokatalysatoren zur Speicherung und Sequestrierung von H2 und CO2 in Form von Ameisensäure untersucht. Im Speziellen wurde ein HDCR-basiertes Ganz-Zell-System für das thermophile Bakterium T. kivui entwickelt. Um eine Ganz-Zell basierte Umwandlung von H2 und CO2 zu Formiat zu gewährleisten, wurde zuvor die Weiterverwertung des Formiats zu Acetat im WLP gestoppt. Durch eine Reduktion des zellulären ATP-Gehalts konnte eine weitere Prozessierung des aus der HDCR-Reaktion gebildeten Formiats im Zellstoffwechsel des Bakteriums unterbunden werden. Die Formiatbildung aus H2 und CO2 wurde in Zellsuspensionen von T. kivui untersucht und charakterisiert. Hier zeigten T. kivui Zellen die höchste spezifische Formiatbildungsrate, die bis dato in der Literatur genannt wurde. Ebenfalls wurde in dieser Arbeit die Umwandlung von Synthesegas (H2 + CO2 und CO) und CO zu Formiat geprüft. Bioenergetisch entkoppelte und auf CO-adaptierte T. kivui Zellen konnten in der Tat Synthesegas exklusiv zu Formiat umsetzen. Um die CO-Verwertung zu Acetat und Formiat im Stoffwechsel der Rnf- (A. woodii) und Ech-Acetogenen (T. kivui) verstehen zu können, wurden Mutanten von Δhdcr, ΔcooS, ΔhydBA, Δrnf and Δech2 von A. woodii und T. kivui zur Hilfe genommen. In beiden Organismen war die CO-basierte Formiatbildung vom Vorhandensein eines funktionalen HDCR-Enzymkomplexes abhängig.
Für eine mögliche biotechnologische Anwendung wurde die Maßstabsvergrößerung des Ganz-Zell-Systems angestrebt und hin zum Bioreaktormaßstab mit kontrollierten Prozessbedingungen skaliert. Diese Arbeit demonstriert die effiziente Umwandlung von H2 und CO2 zu Formiat und vice versa unter Verwendung eines Rührkesselreaktors. Der Prozess zeigte eine Effizienz von 100% für die Umwandlung von CO2 zu Formiat und spezifische Raten von 48.3 mmol g-1 h-1 wurden von A. woodii Zellen erreicht. Die spezifische H2-Produktionsrate (qH2) aus der Ameisensäureoxidation betrug 27.6 mmol g-1 h-1 und mehr als 2.12 M Ameisensäure konnte über einen Zeitraum von 195 h oxidiert werden. Wichtige Parameter der Enzymkatalyse wie Wechselzahl (engl. turnover frequency, TOF) und katalytische Produktivität (engl. turnover number, TON) wurden ebenfalls im Versuch bestimmt. Basierend auf dem generierten Prozessverständnis und der effizienten Reversibilität der katalysierten Reaktionen wurde abschließend ein Ganz-Zell-basierter Bioreaktoraufbau gewählt, der die vielfache Speicherung und Freisetzung von H2 in einem einzigen Rührkesselreaktor und unter Verwendung des gleichen Katalysators ermöglicht. Über eine Prozesszeit von 2 Wochen und 15 CO2 Reduktions-/Formiat Oxidations-Zyklen konnte so im Mittel 330 mM Formiat produziert und oxidiert werden.
Zusammenfassend thematisiert diese Arbeit die biotechnologische Anwendbarkeit eines Ganz-Zell-Systems zur Speicherung und Sequestrierung von H2 und CO2 in Form von Formiat und vice versa. Die katalytische Aktivität der betrachteten Organismen fußt dabei auf der Aktivität eines neuartigen Enzymkomplexes, der erstmals in der Gruppe der acetogenen Bakterien entdeckt wurde. Der als Wasserstoff-abhängige CO2-Reduktase bezeichnete Enzymkomplex könnte die zukünftige Konzipierung Enzym-inspirierter und effizienter chemischer Katalysatoren vorantreiben. Auch der Einsatz des Enzyms/der Zellen in so genannten Hydrogelen oder die Etablierung elektrochemischer Prozesse sind vorstellbar. Diese Arbeit stellt somit eine Basis für mögliche zukünftige Anwendungen des etablierten Ganz-Zell-Systems von A. woodii und T. kivui im Bereich der Wasserstoffökonomie dar.
Due to their sessile nature, plants are constantly exposed to an everchanging environment. When these changes exceed certain limits, they can significantly impact plant growth and development, which, in case of crop plants, has consequences on food security. Exposure to high temperatures causes heat stress (HS), one of the most devastating stresses that plants can face. The survival and recovery from HS are dependent on the activation of the HS response (HSR), a collection of molecular mechanisms conferring HS tolerance by maintaining the cellular homeostasis. Stress responses follow a strictly orchestrated network of signal perception and -transduction, ultimately resulting in an adaptive cellular output. Thereby, the massive reshaping of the transcriptome plays a major part, in which heat stress transcription factors (HSFs) play the key role by inducing the expression of HS-responsive genes, including heat shock proteins and other transcription factors. Additionally, alternative splicing (AS), the selective usage of splice sites, contributes to the rapid adjustment of the transcriptome landscape by producing different mRNA variants from a single gene. Consequently, this results in the reduction of translatable transcripts by nonsense-mediated mRNA-decay or nuclear retention, but also enhances the proteome diversity by allowing the synthesis of protein isoforms with distinct functions. AS thereby modulates the activity of important regulatory factors like HSFA2 in Solanum lycopersicum (tomato). HSFA2 is the key factor of acquired thermotolerance (ATT), which enables the ability to survive a potentially lethal HS through pre-exposure to a preceding mild HS. Temperature-dependent AS leads to the synthesis of two HSFA2 protein variants, whereby inhibition of splicing ensures the synthesis of the stable isoform HSFA2-I that is required for ATT.
Transcriptome analysis of several plant species exposed to HS has highlighted the strong impact of high temperatures on the regulation of pre-mRNA splicing. Despite its importance, little is known about the molecular basis of the AS regulation in plants. Particularly for an economically important crop like tomato, understanding the regulation of HS-sensitive AS will contribute to the description of such an important regulatory mechanism but also might offer new insights for increasing HS resilience. Serine/arginine-rich proteins (SR proteins) are central regulators of constitutive and AS by modulating the splice site selection by the spliceosome. This study describes two members of the RS2Z subfamily of SR proteins in tomato, namely RS2Z35 and RS2Z36, which act as core regulators of AS under HS and consequently as central factors for thermotolerance. This study investigates the interaction of the two RS2Z proteins with the HSFA2 pre-mRNA and provides evidence for their function as splicing repressors in this particular AS event. Thereby, RS2Z proteins play an important role in the HSR by modulating the AS of the key factor of the ATT. Furthermore, based on global transcriptome analysis of knockout mutants of single or both RS2Z genes, it is demonstrated that RS2Z proteins are involved in the splicing of pre-mRNAs of almost 2000 genes. Moreover, RS2Z proteins act as splicing regulators and take part in a large portion of HS-induced AS events, thus playing a broader role in AS regulation. Furthermore, the HS-induced RS2Z36 is involved in basal thermotolerance (BTT), highlighting its importance for the basic HS resilience capacity of tomato. In addition, RNA sequencing demonstrates that RS2Z proteins–especially RS2Z36–regulate the expression of proteins involved in plant immunity. The study thereby provides experimental evidence for the important and essential role of SR proteins for plant thermotolerance and suggests the existence of RS2Z-mediated crossroads of different stress responses.
Cardiovascular disease is the leading cause of death worldwide. Aging is among the greatest risk factors for cardiovascular disease. Cardiovascular disease comprises several diseases, for example myocardial infarction, elevated blood pressure and stroke. Many processes are known to promote or worsen cardiovascular disease and in the present study, cellular senescence and inflammatory activation were of special interest, as they have a strong association to aging and can be seen as hallmarks of cellular aging.
Long noncoding RNAs (lncRNAs) are noncoding RNAs with a length of more than 200 nucleotides. In recent years, numerous regulatory functions were shown for these transcripts and lncRNAs were shown to directly interact with DNA, RNA and proteins. The long noncoding RNA H19 was among the first described noncoding RNAs and was initially shown to act as a tumor suppressor. More recently, several studies showed oncogenic roles for H19. In regards to the cardiovascular system, H19 was not analyzed before.
We show that H19 is the most profoundly downregulated lncRNA in endothelial cells of aged mice compared to young littermates. Microarray analysis of human primary endothelial cells upon pharmacological H19 depletion revealed an involvement of H19 in cell cycle regulation. Loss of H19 in human endothelial cells in vitro led to reduced proliferation and to increased senescence. H19 depletion was shown to counteract proliferation before, but none of the described mechanisms applied to endothelial cells. We show that the reduction in proliferative capacity and the pro-senescent function of H19 is most probably mediated by an upregulation of p16ink4A and p21 upon H19 depletion.
When we compared the angiogenic capacity of aortic endothelial cells from young and aged mice in an aortic ring assay, rings from aged mice showed a reduced cumulative sprout length. Interestingly, pharmacological inhibition of H19 in aortic rings of young animals, where H19 is highly expressed, was sufficient to reduce the cumulative sprout length to levels we observed from aged animals. Furthermore, overexpression of human H19 in aortic rings of aged mice, where H19 is poorly expressed, rescued the impaired angiogenic capacity of aged endothelial cells.
We generated inducible endothelial-specific H19 knockout mice (H19iEC-KO) and subjected these animals to hind limb ischemia surgery followed by perfusion analysis in the hind limbs by laser-doppler velocimetry and histological analysis. Perfusion in the operated hind limb was increased in H19iEC-KO compared to Ctrl littermates, which was in contrast to a reduction in capillary density in the operated hind limbs of H19iEC-KO animals compared to Ctrl littermates and to our previous results. Analysis of arteriogenesis revealed an increase in collateral growth upon EC-specific H19 depletion in the ischemic hind limbs, which explains the increase in perfusion despite the reduction in capillary density. Further characterization of the animals revealed an increase in leukocyte infiltration into the tissue in the ischemic hind limbs upon endothelial-specific H19 depletion, indicating a potential role of H19 in inflammatory tissue activation.
Reanalysis of the microarray data from human primary endothelial cells upon H19 depletion revealed an association of H19 with inflammatory signaling and more specifically with IL-6/JAK2/STAT3 signaling. Analysis of cell surface adhesion molecule expression revealed an upregulation of ICAM-1 and VCAM-1 on mRNA level and an increase of the abundance of the two proteins on the cell surface of human primary endothelial cells. Consequently, adhesion of isolated human monocytes to human primary endothelial cells was increased upon H19 depletion in vitro. Interestingly, TNF-α mediated inflammatory activation of primary human endothelial cells repressed H19 expression. H19 did not function via previously described mechanisms. We excluded a competitive endogenous RNA (ceRNA) function for H19 in endothelial cells and showed that miR-675, which is processed from H19, does not play a role in the endothelium. Furthermore, H19 did not regulate previously described genes or pathways.
Analysis of transcription factor activity upon H19 depletion and overexpression revealed a differential activity of STAT3. STAT3 phosphorylation at TYR705 and thus activation was increased upon H19 depletion. Inhibition of STAT3 activation using a small compound inhibitor abolished the effects of H19 depletion on mRNA expression of p21, ICAM-1 and VCAM-1 and on proliferation, indicating that the effects of H19 are at least partially mediated via STAT3. STAT3 was shown to have positive effects on the cardiovascular system before, most likely due to upregulation of VEGF in a STAT3-dependent manner. We were not able to confirm previously described mechanisms for STAT3 in the present study and propose a new mechanism of action for the H19-dependent regulation of STAT3. Taken together, these results identify the long noncoding RNA H19 as a pivotal regulator of endothelial cell function. Figure 38 summarizes the described functions of H19 in endothelial cells.
Vasculogenesis as well as angiogenesis are important for postnatal development of blood vessels. Peripheral blood or bone marrow-derived endothelial precursor cells are used in clinical trials for therapeutic enhancement of postnatal neovascularization in patients suffering from coronary artery diseases. The vasculogenic potential of the precursor cell population depends on the appropriate retention of the infused cells to the ischemic tissue. However, cell-autonomous mechanisms regulating the attraction and retention of circulating cells in inflammatory tissue are not well understood. Caspases belong to a family of pro-apoptotic enzymes. Beyond cell death signals, caspase proteases additionally regulate non-apoptotic processes like cell morphology and migration in many cell types. The isoform Caspase-8 is essential for embryonal vasculogenesis in conditional knockout mice. In this study, we identified a novel apoptosis-unrelated role of Caspase-8 in circulating and bone marrow-derived cells for vascular repair. Caspase-8-specific inhibition abrogated the ex vivo formation of EPC from human peripheral blood. Moreover, Caspase-8 inhibition disables EPC migration and adhesion to different matrices and decreases the cell surface expression of the fibronectin receptor subunit integrin alpha 5 and the chemokine receptor CXCR4. In vitro and in vivo studies using bone marrow mononuclear cells derived from inducible Caspase-8- deficient mice revealed an essential role of Caspase-8 for EPC formation and neovascularization enhancing capacities of progenitor cells. Caspase-8 activity appears to be required for maintaining responses to matrix interaction and chemoattractants of EPC. Additional studies showed that the E3 ubiquitin ligase Cbl-b, a negative regulator of cell adhesion molecules including integrin alpha 5, is present in EPC at low protein levels under basal conditions, but markedly increases upon Caspase-8 inhibition. In vitro assays and overexpression studies in intact cells confirmed Caspase-8-dependent degradation of Cbl-b, providing a potential requirement for Caspase-8-regulated adhesion. Indeed, neovascularization of matrigel plugs was enhanced in mice lacking Cbl-b. Moreover, Cbl-b degradation in the presence of active Caspase-8 prevents the down-regulation of integrin alpha 5 and is associated with an enhanced vasculogenic activity of progenitor cells in hind limb ischemia. The identified upstream regulation of caspase-8 by cytokine IL-6 is only one possibility for fine-tuning the non-apoptotic enzymatic activity. In summary, this study shows a novel essential role of Caspase-8 for proper EPC adhesion-related signaling. Caspase-8 is involved in the function of adhesion molecules by regulation the E3 ubiquitin ligase Cbl-b. Strategies to improve survival of therapeutic injected progenitor cells by using caspase inhibitors should be addressed with caution. Because of the broad spectrum of activity of caspase-8, downstream targets of this caspase isoform and Cbl-b should be in more focus for therapeutic pretreatment to improve neovascularization of myocardial and ischemic tissue.
The nucleus reuniens drives hippocampal goal‑directed trajectory sequences for route planning
(2023)
Goal-directed spatial navigation requires accurate estimates of one’s position and destination, as well as careful planning of a route between them to avoid known obstacles in the environment. Despite its general importance across species, the neural circuitry supporting the ability for route planning remains largely unclear. Previous studies described that place cells in the hippocampal CA1 encode the animal's next movement direction (Wood et al., 2000; Ito et al., 2015) and upcoming navigational routes (Pfeiffer & Foster, 2013). However, it has been shown that part of the CA1 activity representing the animal’s future behaviors is not necessarily generated in the hippocampus, but is derived from the medial prefrontal cortex (PFC) via the nucleus reuniens of the thalamus (RE) (Ito et al., 2015). Notably, the importance of the PFC in navigation has been demonstrated in several studies, including the recent finding of a goal map in the orbitofrontal cortex (Basu et al., 2021). Therefore, I hypothesized that information flow from the PFC to CA1 via the RE plays a key role in route planning.
To assess the animals' route planning ability, I designed a new navigation task in which a rat has to navigate to a fixed target location from various starting positions in an arena. Furthermore, by adding an L-shaped wall in the maze and removing all light sources in the experimental room, this task forced the animals to plan a wall-avoiding route without relying on direct sensory perceptions. I confirmed that rats could learn this task successfully, memorizing the wall location and taking a smooth wall-avoidance route. To test the role of the RE, I inactivated RE neurons by expressing the inhibitory opsin SwiChR++, which resulted in a significant deficit in the animal’s route planning ability, taking a longer non-smooth path to the destination. By contrast, this manipulation did not affect navigation performance when a straight goal-directed route was available, suggesting a specific role of the RE in route planning. I further found that DREADDs-mediated inactivation of neurons in the bilateral hippocampi resulted in a similar deficit in route planning ability, implying cooperation between the RE and the hippocampus.
I finally examined the activity of hippocampal CA1 neurons with and without RE inactivation. While neurons in the hippocampus exhibited brief trajectory sequences corresponding to the animal’s subsequent goal-directed journey, I found that this goal-directed bias of trajectory events was significantly reduced by RE inactivation, likely associated with route-planning deficits in these animals.
Altogether, this dissertation demonstrates the role of the RE from both behavioral and neural coding perspectives, identifying a pivotal circuit element supporting the animal’s route-planning ability.
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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The phylogeny of the genus Gazella and the phylogeography and population genetics of arabian species
(2014)
Biodiversity is caused by a fundamental evolutionary process: speciation. When species can spread into new habitats and are allowed to colonize new ecological niches, speciation can become accelerated and is then called radiation. This can happen, e.g., when formerly separated land masses become connected. A prime example of such a scenario is the Arabian Peninsula that connects Africa and Asia since the Oligocene (approx. 30 Ma ago). Since then, the peninsula promoted several faunal exchanges between both continents. The mammalian genus Gazella is an excellent candidate for investigating this faunal exchange. Species are distributed on both, the African and Asian continent as well as on the Arabian Peninsula that is located in between. The aim of my thesis was to cast new light on the evolution and speciation of the genus and, furthermore, to evaluate the currently problematic taxonomy to infer suggestions for improved conservation actions for threatened gazelle species. Therefore, I investigated the taxon Gazella genetically and identified factors that promoted the speciation of this diverse genus. I assessed intraspecific genetic variability for species that inhabited the Arabian Peninsula to infer the past demography of those species and to estimate the history of species divergence and past population parameters.
In the first part of my thesis I inferred a mitochondrial phylogeny based on cytochrome b gene sequences using samples of all nine extant species of Gazella and also of closely related taxa (chapter 2). Besides the monophyly of the genus Gazella two reciprocally monophyletic clades were detected that evolved in allopatry: one predominantly African and one predominantly Asian clade. Within both clades species pairs could be inferred with species being ecologically adapted to different habitats: one species is a desert-dweller (probably the ancestral character state combination), while the other one is adapted to rather mountainous and humid habitats. These adaptations also correlate with the behavior of the species with the mountainous forms being sedentary, territorial and living in small groups and the desert forms being migratory, non-territorial and living in larger herds.
The second part of my thesis focuses on the Arabian gazelle species. In a study about G. subgutturosa I could show that the Arabian form G. marica (sand gazelle)—previously recognized as a subspecies of G. subgutturosa—is genetically distinct from the nominate form (chapter 3). Moreover, a phylogenetic tree based on cytochrome b gene sequences revealed a polyphyly of G. subgutturosa and G. marica with sand gazelles being more closely related to G. leptoceros and G. cuvieri of North Africa. Consequently, I suggested the restoration to full species level for G. marica corroborating earlier conservation practices of breeding both taxa separately in captivity.
In case of G. dorcas such a genetic differentiation could not be detected (chapter 4). Despite the large distribution range from Mali in the west to Saudi Arabia in the east only low genetic variation was detectable in mitochondrial sequence data. Statistically parsimony network analyses revealed pronounced haplotype sharing across regions. Using a coalescence approach I observed a steep population decline that started about 25,000 years ago and which is still ongoing. The decline could be correlated with human hunting activities in the Sahara. Hence, hunting of G. dorcas (already in ancient times) had a much larger impact on gazelle populations than previously thought and even led to the extinction of the Arabian form of G. dorcas.
In chapter 5 of my thesis I provided a rigorous test to genetically distinguish between the potential species G. gazella and G. arabica. Previously recognized as a single species mitochondrial sequence analyses provided first hints for the separation of both taxa. But without the investigation of nuclear loci the observed pattern could also be the result of male biased dispersal combined with female philopatry. Therefore, I amplified mitochondrial sequence markers and nuclear microsatellite loci for both taxa and found support for the earlier view of two separate species. No signs of recurrent gene flow could be detected between neighboring populations of G. arabica and G. gazella. The split of both species could be estimated one million years ago and the recommendation of breeding both taxa separately in captivity for conservation purposes is fully justified.
Several populations of G. arabica suffer from a severe decline. In chapter 6 I asked whether the population occurring on the Farasan archipelago—being at stable individual numbers for decades—may serve as potential source for future reintroduction on the Arabian mainland, although the gazelles show a reduced body size. Analyzing the genetic differentiation of Farasan gazelles, a genetic cluster could be inferred being endemic to the archipelago. However, only approx. 70% of Farasan individuals were assigned to this specific cluster, while the others showed at least intermediate or even complete assignment to the mainland cluster. This indicates ongoing introgression that is probably mediated by human translocations of gazelles from and onto the islands. Considering the uniform dwarfism of Farasan gazelles, reasons for the smaller body size might be direct consequences of resource limitations, i.e., phenotypic plasticity. If the population decline on the mainland will hold on Farasan gazelles could serve as stocks for future reintroductions.
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.