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Die vorliegende, publikationsbasierte Dissertation, bestehend aus den drei Einzelpublikationen Bayer (2011, 2012) und Bayer und Schönhofer (2012), verfolgte das Ziel, die Spinnenfamilie Psechridae zu revidieren. Weiterhin sollten die phylogenetische Position dieser Familie im System der höheren Webspinnen (Araneomorphae) sowie die phylogenetischen Beziehungen der einzelnen Arten innerhalb der beiden Gattungen der Psechridae untersucht werden. In Form von morphologisch-taxonomischen Bearbeitungen wurden die beiden die Psechridae bildenden Gattungen Psechrus und Fecenia revidiert, wobei sämtliches Typus-Material sowie reichhaltiges, weiteres Material eingehend beschrieben, illustriert und diagnostiziert wurde. Hierbei wurden auch intraspezifische Variabilität sowie die Prä-Epigynen subadulter Weibchen, die in taxonomischen Arbeiten bislang nur eine unwesentliche Rolle gespielt haben, beschrieben, illustriert und taxonomisch ausgewertet. Zudem wurden im Rahmen dieser Untersuchungen bereits Überlegungen über mögliche Verwandtschaftsbeziehungen innerhalb der beiden Gattungen angestellt. ...
DNA translocators of natural transformation systems are complex systems critical for the uptake of free DNA and provide a powerful mechanism for adaptation to changing environmental conditions. In natural transformation machineries, outer membrane secretins are suggested to form a multimeric pore for the uptake of external DNA. Recently, we reported on a novel structure of the DNA translocator secretin complex, PilQ, in Thermus thermophilus HB27 comprising a stable cone and cup structure and six ring structures with a large central channel. Here, we report on structural and functional analyses of a set of N-terminal PilQ deletion derivatives in T. thermophilus HB27. We identified 136 N-terminal residues exhibiting an unusual ααβαββα fold as a ring-building domain. Deletion of this domain had a dramatic effect on twitching motility, adhesion, and piliation but did not abolish natural transformation. These findings provide clear evidence that the pilus structures of T. thermophilus are not essential for natural transformation. The truncated complex was not affected in inner and outer membrane association, indicating that the 136 N-terminal residues are not essential for membrane targeting. Analyses of complex formation of the truncated PilQ monomers revealed that the region downstream of residue 136 is required for multimerization, and the region downstream of residue 207 is essential for monomer stability. Possible implications of our findings for the mechanism of DNA uptake are discussed.
Lantibiotics are peptide-derived antibiotics that inhibit the growth of Gram-positive bacteria via interactions with lipid II and lipid II-dependent pore formation in the bacterial membrane. Due to their general mode of action the Gram-positive producer strains need to express immunity proteins (LanI proteins) for protection against their own lantibiotics. Little is known about the immunity mechanism protecting the producer strain against its own lantibiotic on the molecular level. So far, no structures have been reported for any LanI protein. We solved the structure of SpaI, a LanI protein from the subtilin producing strain Bacillus subtilis ATCC 6633. SpaI is a 16.8-kDa lipoprotein that is attached to the outside of the cytoplasmic membrane via a covalent diacylglycerol anchor. SpaI together with the ABC transporter SpaFEG protects the B. subtilis membrane from subtilin insertion. The solution-NMR structure of a 15-kDa biologically active C-terminal fragment reveals a novel fold. We also demonstrate that the first 20 N-terminal amino acids not present in this C-terminal fragment are unstructured in solution and are required for interactions with lipid membranes. Additionally, growth tests reveal that these 20 N-terminal residues are important for the immunity mediated by SpaI but most likely are not part of a possible subtilin binding site. Our findings are the first step on the way of understanding the immunity mechanism of B. subtilis in particular and of other lantibiotic producing strains in general.
Die soziale Arbeitsteilung bei Honigbienen ist ein komplexes selbstorganisatorisches System, welches auf zwei Ebenen der biologischen Organisation zu verorten ist: dem Individuum und der Kolonie. Die Regulation der Bruttemperatur ist ebenfalls diesen Gesetzmäßigkeiten unterworfen. Die Arbeits-bereitschaft einzelner Bienen bildet die Grundlage für die Temperaturregulierung des kolonialen Brutnestes.
In dieser Arbeit wird dieses Zusammenspiel aus individuellen Beteiligungen der Arbeiterinnen sowie der erbrachten Gesamtleistung der Kolonie während des Brutwärmens untersucht. Dazu wird eine kleine Bienengruppe auf einer Brutwabe einer thermischen Belastung ausgesetzt. Ein speziell für diese Untersuchungen entwickelter Versuchsaufbau integriert erstmals die Infrarot-Thermografie mit den Temperaturmessungen einer Brutfläche. Somit ist es möglich, die Thoraxtemperaturen der einzelnen, am Brutwärmen beteiligten Arbeiterinnen störungsfrei zu messen und gleichzeitig das erzeugte räumliche und zeitliche Temperaturmuster der Brutwabe zu ermitteln. Zusätzlich wird der Temperaturverlauf der Außentemperatur sowie der zellumgebenden Luft untersucht.
Es kann gezeigt werden, dass die Lufttemperatur im Innenraum eines Bienenstocks ein wichtiger Faktor in der Temperaturregulierung des Brutnestes ist, da sie die untere Temperaturgrenze im Bienenstock bildet. Weiterhin wird der Einfluss der brutwärmenden Arbeiterinnen auf die Temperaturentwicklung einer Brutfläche sichtbar. Durch das flexible Verhalten der Arbeiterinnen kann einer Brutfläche bei thermischer Belastung durch lokal wechselndes Brutwärmen optimal Wärme zugeführt werden. Es gibt es Hinweise auf eine zyklische Periodizität im zeitlichen Temperaturverlauf der Brutzellen, welche auf einen Brutwärmrhythmus durch die Bienen schließen lässt. Durch den Einsatz zweier Unterarten (Apis mellifera carnica & Apis mellifera mellifera) wird sichtbar, dass es zwischen den Gruppen Unterschiede in der Aufrechterhaltung der Lufttemperatur über der Wabe gibt.
The role of TolC has largely been explored in proteobacteria, where it functions as a metabolite and protein exporter. In contrast, little research has been carried out on the function of cyanobacterial homologues, and as a consequence, not much is known about the mechanism of cyanobacterial antibiotic uptake and metabolite secretion in general. It has been suggested that the TolC-like homologue of the filamentous, heterocyst-forming cyanobacterium Anabaena sp. PCC 7120, termed heterocyst glycolipid deposition protein D (HgdD), is involved in both protein and lipid secretion. To describe its function in secondary metabolite secretion, we established a system to measure the uptake of antibiotics based on the fluorescent molecule ethidium bromide. We analyzed the rate of porin-dependent metabolite uptake and confirmed the functional relation between detoxification and the action of HgdD. Moreover, we identified two major facilitator superfamily proteins that are involved in this process. It appears that anaOmp85 (Alr2269) is not required for insertion or assembly of HgdD, because an alr2269 mutant does not exhibit a phenotype similar to the hgdD mutant. Thus, we could assign components of the metabolite efflux system and describe parameters of detoxification by Anabaena sp. PCC 7120.
For millennia, rural West African communities living in or adjacent of savanna ecosystems have been collecting components of local plant species (e.g. fruits, leaves, bark) in order to fulfil essential household subsistence needs (alimentation, medical care, energy demand etc.), to generate cash income and to overcome times of (financial) crisis. Thus, these non-timber forest products (NTFPs) make a considerable contribution to the well-being of local households. However, climate and land use change severely impact West African savanna ecosystems and, consequently, the safe-guarding of dependent rural livelihoods. The conversion of savanna area into cultivated land for subsistence farming owing to the ongoing population growth, as well as the progressive promotion of cash crops (e.g. cotton) is ever-increasing. As a consequence, present land-use management in West Africa has to cope with serious trade-offs. Within this decision-making NTFPs have been constantly understated due to a lack of appropriate economic figures to use within common cost-benefit analysis, and, thus, have been frequently outcompeted by seemingly more profitable land-use options. Therefore, it is crucial to provide appropriate economic data for NTFPs in order to create positive incentives for both decision-makers and NTFP beneficiaries to conserve NTFP-providing trees. The key finding of this analysis is that income from NTFPs accounts for 39 % on average of an annual total household income in Northern Benin, representing the second largest income share next to crop income and proving the respective households to be economically heavily dependent on NTFPs. Thereby, socio-economic characteristics of NTFP users tremendously shape their preferences for woody species. Particularly ethnicity has a major impact on the species used and the economic return obtained by them. Moreover, the study investigated the impacts of climate and land use change on the economic benefits derived from the three economically most important tree species in the region Vitellaria paradoxa, Parkia biglobosa and Adansonia digitata in 2050: Environmental changes will have primarily negative effects on the economic returns from all the three species. At large, the study underpins the economic relevance of NTFPs for rural communities in West African savannas and, consequently, the necessity to appropriately sustain them in order to safe-guard local livelihoods. Providing key figures on the current and future economic benefits obtained from NTFPs can augment common cost-benefit analysis, and, delivering detailed information about peoples’ use preferences for local species, this study clearly contributes to improve the basis of decision-making with reference to local land-use policies.
Diatoms contribute largely to the total primary production of the ecosphere and are key players in global biogeochemical cycles. Their chloroplasts are surrounded by four membranes owing to their secondary endosymbiotic origin. Their thylakoids are arranged into three parallel bands and differentiation of thylakoid membranes into grana or stroma is not observed. The fucoxanthin chlorophyll a/c binding proteins act as the light harvesting proteins and play a role in photoprotection during excess light as well. The diatom genome encodes three different families of antenna proteins. Family I are the classical light harvesting proteins called "Lhcf". Family II are the red algae related Lhca-R1/2 proteins called "Lhcr" and family III are the photoprotective LI818 related proteins called "Lhcx".
All known Fcps have a molecular weight in the range of 17-23 kDa. They are membrane proteins and have shorter loops and termini compared to LHCs of higher plants and are therefore extremely hydrophobic. This makes the isolation of single specific Fcps using routine protein purification techniques difficult.
The purification of a specific Fcp containing complex has not been achieved so far and until this is done several questions concerning light harvesting antenna systems of diatoms cannot be answered. For e.g. Which proteins interact specifically? Are various Fcps differently pigmented? Which pigments interact with each other and how? Which proteins contribute to photosystem specific antenna systems? Can pure Fcps be reconstituted into crystals like LHCII proteins? In order to answer these questions specific Fcp containing complexes have to be purified. ...
Climate and subsequent environmental changes are regarded as one driver of species evolution. Against this background the present study investigates the evolutionary history of the mammalian family Bovidae (Cetartiodactyla, Mammalia), today the most species-rich family of large herbivores on the African continent. Temporal and spatial patterns in that group’s evolution are the focus of the present study and were investigated using methods and data deriving from multiple disciplines (palaeontology, genetics, climatology, conservation biology). The results serve as a validation of macroevolutionary hypotheses of species evolution.
A major proportion of African mammalian fossils can be assigned to that family. Due to their morphological adaptations, bovid species are highly indicative of their habitats. Hence, bovids are of great importance for paleontology. However, a strong taphonomic bias is present in the fossil record of bovids, favoring large and arid- adapted species. Molecular phylogenies of extant species and species distribution modelling combined with climate reconstructions can help to overcome these limitations.
A molecular phylogeny, based on the cytochrome b gene of 136 bovid species served as basis for analysis of temporal patterns. Divergence events were dated using the relaxed molecular clock approach. The tree was time calibrated at 30 nodes using information inferred from the fossil record. Lineage-Through-Time plots and the respective statistical analyses reveal detailed temporal patterns in the evolutionary history of tribes and groups combining arid- and humid-adapted tribes. The resulting pattern shows three distinct phases. Phase 1 (P1) is dominated by speciation events within the humid group, while the second phase (P2) is marked by a dominance of speciation within the arid group. The switch in diversification rates (BDS) from P1 to P2 is dated to 2.8 million years ago. The third phase (P3) shows low diversification rates for all groups, starting around 1.4 million year ago and culminates in a significantly reduced diversification rate for the complete family at 0.8 million years ago. Both transitions are contemporaneous with global climate changes and turnover events in fossil faunal communities.
To investigate the impact of climate changes onto the habitat availability within the last 3 million years and its putative influence on diversification rates, the species distribution modeling method was applied. For 85 African species and subspecies the climate niches were established and grouped into 5 climate-groups based on their climate preferences. For each group the available habitat for the period before and after the BDS was calculated on continental scale using reconstructed climate scenarios. To evaluate the modeled habitat distributions, regional analyses were performed in test areas surrounding well studied fossil sites (Laetoli, Olduvai, Chiwondo Beds, Lothagam, Koobi Fora, West Turkana, Swartkrans, Sterkfontain und Toros-Menalla). Habitat profiles (HP) permitted the comparison of the model based habitat reconstruction with the interpretations of classic paleontological reconstruction. The validity of the habitat modeling has been shown in particular for East African test areas. The reconstructions for the northern and southern fossil sites does not support the modeled habitats in these areas. Yet, the method of habitat- profiling may serve as suitable tool for environmental reconstruction of areas lacking sufficient paleontological material. A comparison of habitat availability before and after the BDS on continental scale identified a significant loss of habitat for humid adapted groups (7-22%) and habitat gain for arid adapted groups (19-173%). The climatically intermediate group experiences a tremendous gain of habitat (3366%). The greatest environmental change was modeled for East Africa, initiated by a progressive regional aridification.
In addition to the distribution modeling for past climate conditions, the geographical distribution was modeled for the future, i.e. for climate scenarios representing the years 2050 and 2080 under a putative climate change scenario (global surface warming). It was shown that in particular the arid groups have to expect a remarkable loss of habitat (41-76%), while a gain of available habitat can be expected for the humid adapted groups (114-577%). The climatically intermediate group suffers the strongest habitat loss (85%). Regions with locally stable climate conditions were detected and may serve as potential refugia and are already today known as Africa’s hot spots of biodiversity.
The results show a positive correlation of high diversification rates and increasing habitat availability. None of the tested speciation hypotheses taken alone explains the observations (e.g., Turnover-pulse Hypothesis, Relay Model). A major element in these hypotheses is the passive fragmentation of populations induced by unfavorable climate changes. In contrast, the Periodic Model (Grubb 1999) considers natural, periodically recurring climate changes and moreover, the active dispersal of individuals and resulting founder events. I added the effect of a superimposed directed climate trend – like the progressive aridification since the late Pliocene in Africa – which leads to a bias in the proportion and probability towards leading edge effects. This Directed Periodic Model explains the patterns found in the evolution of Bovidae.
The combination of a molecular phylogeny and species distribution modeling, together with information inferred from the fossil record, reveals remarkable temporal and spatial patterns in the evolution of bovids, and helps overcome the limitations of the fossil record. The present study highlights the importance of active dispersal and founder populations in speciation processes. A point widely unattended in speciation hypotheses. The fully dated molecular phylogeny is the most densely sampled tree for the family Bovidae to date and may serve as a framework for a connection of present and future population studies, permitting the connection of medium-scale with long- term effects induced by climate and environmental changes.
Die nicht-konventionelle Hefe P. ciferrii produziert große Mengen der tetra-acetylierten Sphingoidbase Phytosphingosin (TAPS). Sphingoidbasen sind essentielle Komponenten des stratum corneums, der multilamellaren Barriere der menschlichen Haut, und daher in der Kosmetik-Industrie von großem Interesse. Im Rahmen dieser Arbeit sollte die biotechnologische Produktion der Sphingoidbasen Phytosphingosin, Sphinganin und Sphingosin auf molekularbiologischer Ebene in P. ciferrii charakterisiert und optimiert werden. Die Hefe P. ciferrii konnte durch Etablierung einer einfachen und hoch-effizienten Transformations-Methode auf genetischer Ebene leicht zugänglich gemacht werden. Durch Inaktivierung des für NHEJ essentiellen PcLIG4 Gens konnte die Effizienz zielgerichteter genomischer Integrationen von transformierten DNA-Konstrukten von 1 % auf 87 % erhöht werden. Die Etablierung des Cre-loxP Systems erlaubte das mehrfache Verwenden eines Selektions-Markers wodurch sukzessiv mehrere genomische Integrationen in einem Stamm ermöglicht wurden. Durch diese Errungenschaften konnte das Ziel „Optimierung der Sphingoidbasen-Produktion der nicht-konventionellen Hefe P. ciferrii“ im Folgenden erfolgreich verfolgt werden. Der initiale Schritt der Sphingoidbasen-Biosynthese ist die von der Serin-Palmitoyl-Transferase katalysierte Kondensation von L-Serin und Palmitoyl-CoA. Durch die Deletion von Genen, die am L-Serin-Katabolismus von P. ciferrii beteiligt sind (PcSHM1, PcSHM2und PcCHA1), konnte die de novo Sphingoidbasen-Biosynthese optimiert werden und führte in einem lig4? Stamm zu einer etwa dreifachen Erhöhung der TAPS-Produktion. Weitere Ansätze den (vermutlich durch L-Serin feed back regulierten) L-Serin-Biosyntheseweg bzw. die in vivo L-Serin-Verfügbarkeit zu optimieren, führten nicht zu einer gesteigerten TAPS-Produktion. Durch weitere Deletion und Überexpression von Genen des Sphingolipid-Stoffwechsels konnte die TAPS-Produktion jedoch um ein Vielfaches verbessert werden. So konnte ein Stamm konstruiert werden, der die Gene PcLCB1, PcLCB2 und PcSYR2 überexprimiert und Deletionen der Gene PcSHM1, PcSHM2, PcCHA1, PcLCB4 und PcORM12 trägt. Dieser Stamm (CSS.L4.O.L2.L1.S2) wies eine mehr als fünffach erhöhte maximale spezifische TAPS-Produktbildungsrate (q Pmax ) auf und produzierte mit 2 g * L rund siebenmal mehr TAPS als der lig4? Ausgangsstamm, weshalb ein Einsatz dieses Stammes für die industrielle TAPS-Produktion denkbar wäre. Ausgehend von einem für die TAPS- (und somit Sphingoidbasen-) Produktion optimierten Stamm sollten Stämme mit optimierter TriASa- oder TriASo-Produktion für industrielle Zwecke generiert werden. Es stellte sich allerding heraus, dass erhöhte Mengen dieser Sphingoidbasen wahrscheinlich wachstumshemmend für P. ciferrii sind, weshalb eine weitere Produktions-Optimierung nicht ohne Weiteres möglich ist. In einem Laborstamm gelang es jedoch, durch Konstruktion und anschließende Transformation eines optimierten integrativen Plasmids (trägt die Gene, die für die Produktion von Sphingosin bzw. TriASo nötig sind) eine TriASo-Produktion von bis zu 30 mg * g (BTM) zu erzielen, wobei gleichzeitig die Bildung des Nebenprodukts TriASa auf weniger als 4 mg * g (BTM)reduziert wurde. Weiterhin konnte durch Deletion von PcSCS7 in einem TriASo-Produktionsstamm die TriASa-Produktion mehr als vierfach reduziert werden. Die Bildung eines weiteren von P. ciferrii gebildeten Nebenproduktes [Tri-Acetyl-Sphingadienin (TriASd)] konnte durch Deletion des PcSLD1 Gens unterbunden werden. Nach Inaktivierung von PcSCH9 konnte eine fast 20 %ige Verbesserung der TriASo-Produktion erreicht werden. Es konnten zwei putative Acetyl-Transferasen identifiziert werden (PcAft2 und PcSli1), die an der Acetylierung von Phytosphingosin (zu TAPS), Sphinganin (zu TriASa) und Sphingosin (zu TriASo) beteiligt sind. Die Aufklärung und Optimierung dieser von PcAtf2 und PcSli1 katalysierten Schritte sind vielversprechende Ansatzpunkte die Sphingoidbasen-Produktion in P. ciferrii weiter zu optimieren.
The Wood-Ljungdahl pathway of anaerobic CO(2) fixation with hydrogen as reductant is considered a candidate for the first life-sustaining pathway on earth because it combines carbon dioxide fixation with the synthesis of ATP via a chemiosmotic mechanism. The acetogenic bacterium Acetobacterium woodii uses an ancient version of the pathway that has only one site to generate the electrochemical ion potential used to drive ATP synthesis, the ferredoxin-fueled, sodium-motive Rnf complex. However, hydrogen-based ferredoxin reduction is endergonic, and how the steep energy barrier is overcome has been an enigma for a long time. We have purified a multimeric [FeFe]-hydrogenase from A. woodii containing four subunits (HydABCD) which is predicted to have one [H]-cluster, three [2Fe2S]-, and six [4Fe4S]-clusters consistent with the experimental determination of 32 mol of Fe and 30 mol of acid-labile sulfur. The enzyme indeed catalyzed hydrogen-based ferredoxin reduction, but required NAD(+) for this reaction. NAD(+) was also reduced but only in the presence of ferredoxin. NAD(+) and ferredoxin reduction both required flavin. Spectroscopic analyses revealed that NAD(+) and ferredoxin reduction are strictly coupled and that they are reduced in a 1:1 stoichiometry. Apparently, the multimeric hydrogenase of A. woodii is a soluble energy-converting hydrogenase that uses electron bifurcation to drive the endergonic ferredoxin reduction by coupling it to the exergonic NAD(+) reduction.