@phdthesis{Tronci2010,
  author    = {Tronci, Giuseppe},
  title     = {Synthesis, characterization, and biological evaluation of gelatin-based scaffolds},
  url       = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-49727},
  school      = {Universit{\"a}t Potsdam},
  year      = {2010},
  abstract  = {This work presents the development of entropy-elastic gelatin based networks in the form of films or scaffolds. The materials have good prospects for biomedical applications, especially in the context of bone regeneration. Entropy-elastic gelatin based hydrogel films with varying crosslinking densities were prepared with tailored mechanical properties. Gelatin was covalently crosslinked above its sol gel transition, which suppressed the gelatin chain helicity. Hexamethylene diisocyanate (HDI) or ethyl ester lysine diisocyanate (LDI) were applied as chemical crosslinkers, and the reaction was conducted either in dimethyl sulfoxide (DMSO) or water. Amorphous films were prepared as measured by Wide Angle X-ray Scattering (WAXS), with tailorable degrees of swelling (Q: 300-800 vol. \%) and wet state Young's modulus (E: 70 740 kPa). Model reactions showed that the crosslinking reaction resulted in a combination of direct crosslinks (3-13 mol.-\%), grafting (5-40 mol.-\%), and blending of oligoureas (16-67 mol.-\%). The knowledge gained with this bulk material was transferred to the integrated process of foaming and crosslinking to obtain porous 3-D gelatin-based scaffolds. For this purpose, a gelatin solution was foamed in the presence of a surfactant, Saponin, and the resulting foam was fixed by chemical crosslinking with a diisocyanate. The amorphous crosslinked scaffolds were synthesized with varied gelatin and HDI concentrations, and analyzed in the dry state by micro computed tomography (µCT, porosity: 65±11-73±14 vol.-\%), and scanning electron microscopy (SEM, pore size: 117±28-166±32 µm). Subsequently, the work focused on the characterization of the gelatin scaffolds in conditions relevant to biomedical applications. Scaffolds showed high water uptake (H: 630-1680 wt.-\%) with minimal changes in outer dimension. Since a decreased scaffold pore size (115±47-130±49 µm) was revealed using confocal laser scanning microscopy (CLSM) upon wetting, the form stability could be explained. Shape recoverability was observed after removal of stress when compressing wet scaffolds, while dry scaffolds maintained the compressed shape. This was explained by a reduction of the glass transition temperature upon equilibration with water (dynamic mechanical analysis at varied temperature (DMTA)). The composition dependent compression moduli (Ec: 10 50 kPa) were comparable to the bulk micromechanical Young's moduli, which were measured by atomic force microscopy (AFM). The hydrolytic degradation profile could be adjusted, and a controlled decrease of mechanical properties was observed. Partially-degraded scaffolds displayed an increase of pore size. This was likely due to the pore wall disintegration during degradation, which caused the pores to merge. The scaffold cytotoxicity and immunologic responses were analyzed. The porous scaffolds enabled proliferation of human dermal fibroblasts within the implants (up to 90 µm depth). Furthermore, indirect eluate tests were carried out with L929 cells to quantify the material cytotoxic response. Here, the effect of the sterilization method (Ethylene oxide sterilization), crosslinker, and surfactant were analyzed. Fully cytocompatible scaffolds were obtained by using LDI as crosslinker and PEO40 PPO20-PEO40 as surfactant. These investigations were accompanied by a study of the endotoxin material contamination. The formation of medical-grade materials was successfully obtained (<0.5 EU/mL) by using low-endotoxin gelatin and performing all synthetic steps in a laminar flow hood.},
  language  = {en}
}
@phdthesis{Zrenner2010,
  author    = {Zrenner, Rita},
  title     = {Molekularphysiologische Untersuchung prim{\"a}rer Stoffwechselwege : der Einfluss des Kohlenhydrat- und Nukleotidstoffwechsels auf das Pflanzenwachstum},
  pages     = {getr. Z{\"a}hlung},
  year      = {2010},
  language  = {de}
}
@phdthesis{Strehmel2010,
  author    = {Strehmel, Nadine},
  title     = {GC-TOF-MS basierte Analyse von niedermolekularen Prim{\"a}r- und Sekund{\"a}rmetaboliten agrarwirtschaftlich bedeutsamer Nutzpflanzen},
  url       = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-51238},
  school      = {Universit{\"a}t Potsdam},
  year      = {2010},
  abstract  = {Die Qualit{\"a}t von Nutzpflanzen ist von zahlreichen Einflussfaktoren wie beispielsweise Lagerbedingungen und Sorteneigenschaften abh{\"a}ngig. Um Qualit{\"a}tsm{\"a}ngel zu minimieren und Absatzchancen von Nutzpflanzen zu steigern sind umfangreiche Analysen hinsichtlich ihrer stofflichen Zusammensetzung notwendig. Chromatographische Techniken gekoppelt an ein Massenspektrometer und die Kernspinresonanzspektroskopie wurden daf{\"u}r bislang verwendet. In der vorliegenden Arbeit wurde ein Gaschromatograph an ein Flugzeitmassenspektrometer (GC-TOF-MS) gekoppelt, um physiologische Prozesse bzw. Eigenschaften (die Schwarzfleckigkeit, die Chipsbr{\"a}unung, das Physiologische Alter und die Keimhemmung) von Nutzpflanzen aufzukl{\"a}ren. Als Pflanzenmodell wurde daf{\"u}r die Kartoffelknolle verwendet. Dazu wurden neue analytische L{\"o}sungsans{\"a}tze entwickelt, die eine zielgerichtete Auswertung einer Vielzahl von Proben, die Etablierung einer umfangreichen Referenzspektrenbibliothek und die sichere Archivierung aller experimentellen Daten umfassen. Das Verfahren der Probenvorbereitung wurde soweit modifiziert, dass gering konzentrierte Substanzen mittels GC-TOF-MS analysiert werden k{\"o}nnen. Dadurch wurde das durch die Probenvorbereitung limitierte Substanzspektrum erweitert. Anhand dieser L{\"o}sungsans{\"a}tze wurden physiologisch relevante Stoffwechselprodukte identifiziert, welche indikativ (klassifizierend) bzw. pr{\"a}diktiv (vorhersagend) f{\"u}r die physiologischen Prozesse sind. F{\"u}r die Schwarzfleckigkeitsneigung und die Chipseignung wurde jeweils ein biochemisches Modell zur Vorhersage dieser Prozesse aufgestellt und auf eine Z{\"u}chtungspopulation {\"u}bertragen. Ferner wurden f{\"u}r die Schwarzfleckigkeit Stoffwechselprodukte des Respirationsstoffwechsels identifiziert sowie Aminos{\"a}uren, Glycerollipide und Phenylpropanoide f{\"u}r das Physiologische Alter als relevant erachtet. Das physiologische Altern konnte durch die Anwendung h{\"o}herer Temperaturen beschleunigt werden. Durch Anwendung von Keimhemmern (K{\"u}mmel{\"o}l, Chlorpropham) wurde eine Verz{\"o}gerung des physiologischen Alterns beobachtet. Die Applikation von K{\"u}mmel{\"o}l erwies sich dabei als besonders vorteilhaft. K{\"u}mmel{\"o}l behandelte Knollen wiesen im Vergleich zu unbehandelten Knollen nur Ver{\"a}nderungen im Aminos{\"a}ure-, Zucker- und Sekund{\"a}rstoffwechsel auf. Chlorpropham behandelte Knollen wiesen einen {\"a}hnlichen Stoffwechsel wie die unbehandelten Knollen auf. F{\"u}r die bislang noch nicht identifizierten Stoffwechselprodukte wurden im Rahmen dieser Arbeit das Verfahren der „gezielten An-/Abreicherung", der „gepaarten NMR/GC-TOF-MS Analyse" und das „Entscheidungsbaumverfahren" entwickelt. Diese erm{\"o}glichen eine Klassifizierung von GC-MS Signalen im Hinblick auf ihre chemische Funktionalit{\"a}t. Das Verfahren der gekoppelten NMR/GC-TOF-MS Analyse erwies sich dabei als besonders erfolgversprechend, da es eine Aufkl{\"a}rung bislang unbekannter gaschromatographischer Signale erm{\"o}glicht. In der vorliegenden Arbeit wurden neue Stoffwechselprodukte in der Kartoffelknolle identifiziert, wodurch ein wertvoller Beitrag zur Analytik der Metabolomik geleistet wurde.},
  language  = {de}
}
@phdthesis{Zaupa2010,
  author    = {Zaupa, Alessandro},
  title     = {Physical crosslinking of gelatin : a supramolecular approach to biomaterials},
  url       = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-52888},
  school      = {Universit{\"a}t Potsdam},
  year      = {2010},
  abstract  = {This work describes the realization of physically crosslinked networks based on gelatin by the introduction of functional groups enabling specific supramolecular interactions. Molecular models were developed in order to predict the material properties and permit to establish a knowledge-based approach to material design. The effect of additional supramolecular interactions with hydroxyapaptite was then studied in composite materials. The calculated properties are compared to experimental results to validate the models. The models are then further used for the study of physically crosslinked networks. Gelatin was functionalized with desaminotyrosine (DAT) and desaminotyrosyl-tyrosine (DATT) side groups, derived from the natural amino acid tyrosine. These group can potentially undergo to π-π and hydrogen bonding interactions also under physiological conditions. Molecular dynamics (MD) simulations were performed on models with 0.8 wt.-\% or 25 wt.-\% water content, using the second generation forcefield CFF91. The validation of the models was obtained by the comparison with specific experimental data such as, density, peptide conformational angles and X-ray scattering spectra. The models were then used to predict the supramolecular organization of the polymer chain, analyze the formation of physical netpoints and calculate the mechanical properties. An important finding of simulation was that with the increase of aromatic groups also the number of observed physical netpoints increased. The number of relatively stable physical netpoints, on average zero 0 for natural gelatin, increased to 1 and 6 for DAT and DATT functionalized gelatins respectively. A comparison with the Flory-Rehner model suggested reduced equilibrium swelling by factor 6 of the DATT-functionalized materials in water. The functionalized gelatins could be synthesized by chemoselective coupling of the free carboxylic acid groups of DAT and DATT to the free amino groups of gelatin. At 25 wt.-\% water content, the simulated and experimentally determined elastic mechanical properties (e.g. Young Modulus) were both in the order of GPa and were not influenced by the degree of aromatic modification. The experimental equilibrium degree of swelling in water decreased with increasing the number of inserted aromatic functions (from 2800 vol.-\% for pure gelatin to 300 vol.-\% for the DATT modified gelatin), at the same time, Young's modulus, elongation at break, and maximum tensile strength increased. It could be show that the functionalization with DAT and DATT influences the chain organization of gelatin based materials together with a controlled drying condition. Functionalization with DAT and DATT lead to a drastic reduction of helical renaturation, that could be more finely controlled by the applied drying conditions. The properties of the materials could then be influenced by application of two independent methods. Composite materials of DAT and DATT functionalized gelatins with hydroxyapatite (HAp) show a drastic reduction of swelling degree. In tensile tests and rheological measurements, the composites equilibrated in water had increased Young's moduli (from 200 kPa up to 2 MPa) and tensile strength (from 57 kPa up to 1.1 MPa) compared to the natural polymer matrix without affecting the elongation at break. Furthermore, an increased thermal stability from 40 °C to 85 °C of the networks could be demonstrated. The differences of the behaviour of the functionalized gelatins to pure gelatin as matrix suggested an additional stabilizing bond between the incorporated aromatic groups to the hydroxyapatite.},
  language  = {en}
}
@phdthesis{Huber2010,
  author    = {Huber, Veronika Emilie Charlotte},
  title     = {Climate impact on phytoplankton blooms in shallow lakes},
  url       = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-42346},
  school      = {Universit{\"a}t Potsdam},
  year      = {2010},
  abstract  = {Lake ecosystems across the globe have responded to climate warming of recent decades. However, correctly attributing observed changes to altered climatic conditions is complicated by multiple anthropogenic influences on lakes. This thesis contributes to a better understanding of climate impacts on freshwater phytoplankton, which forms the basis of the food chain and decisively influences water quality. The analyses were, for the most part, based on a long-term data set of physical, chemical and biological variables of a shallow, polymictic lake in north-eastern Germany (M{\"u}ggelsee), which was subject to a simultaneous change in climate and trophic state during the past three decades. Data analysis included constructing a dynamic simulation model, implementing a genetic algorithm to parameterize models, and applying statistical techniques of classification tree and time-series analysis. Model results indicated that climatic factors and trophic state interactively determine the timing of the phytoplankton spring bloom (phenology) in shallow lakes. Under equally mild spring conditions, the phytoplankton spring bloom collapsed earlier under high than under low nutrient availability, due to a switch from a bottom-up driven to a top-down driven collapse. A novel approach to model phenology proved useful to assess the timings of population peaks in an artificially forced zooplankton-phytoplankton system. Mimicking climate warming by lengthening the growing period advanced algal blooms and consequently also peaks in zooplankton abundance. Investigating the reasons for the contrasting development of cyanobacteria during two recent summer heat wave events revealed that anomalously hot weather did not always, as often hypothesized, promote cyanobacteria in the nutrient-rich lake studied. The seasonal timing and duration of heat waves determined whether critical thresholds of thermal stratification, decisive for cyanobacterial bloom formation, were crossed. In addition, the temporal patterns of heat wave events influenced the summer abundance of some zooplankton species, which as predators may serve as a buffer by suppressing phytoplankton bloom formation. This thesis adds to the growing body of evidence that lake ecosystems have strongly responded to climatic changes of recent decades. It reaches beyond many previous studies of climate impacts on lakes by focusing on underlying mechanisms and explicitly considering multiple environmental changes. Key findings show that climate impacts are more severe in nutrient-rich than in nutrient-poor lakes. Hence, to develop lake management plans for the future, limnologists need to seek a comprehensive, mechanistic understanding of overlapping effects of the multi-faceted human footprint on aquatic ecosystems.},
  language  = {en}
}
@phdthesis{Childs2010,
  author    = {Childs, Liam H.},
  title     = {Bioinformatics approaches to analysing RNA mediated regulation of gene expression},
  url       = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-41284},
  school      = {Universit{\"a}t Potsdam},
  year      = {2010},
  abstract  = {The genome can be considered the blueprint for an organism. Composed of DNA, it harbours all organism-specific instructions for the synthesis of all structural components and their associated functions. The role of carriers of actual molecular structure and functions was believed to be exclusively assumed by proteins encoded in particular segments of the genome, the genes. In the process of converting the information stored genes into functional proteins, RNA - a third major molecule class - was discovered early on to act a messenger by copying the genomic information and relaying it to the protein-synthesizing machinery. Furthermore, RNA molecules were identified to assist in the assembly of amino acids into native proteins. For a long time, these - rather passive - roles were thought to be the sole purpose of RNA. However, in recent years, new discoveries have led to a radical revision of this view. First, RNA molecules with catalytic functions - thought to be the exclusive domain of proteins - were discovered. Then, scientists realized that much more of the genomic sequence is transcribed into RNA molecules than there are proteins in cells begging the question what the function of all these molecules are. Furthermore, very short and altogether new types of RNA molecules seemingly playing a critical role in orchestrating cellular processes were discovered. Thus, RNA has become a central research topic in molecular biology, even to the extent that some researcher dub cells as "RNA machines". This thesis aims to contribute towards our understanding of RNA-related phenomena by applying Bioinformatics means. First, we performed a genome-wide screen to identify sites at which the chemical composition of DNA (the genotype) critically influences phenotypic traits (the phenotype) of the model plant Arabidopsis thaliana. Whole genome hybridisation arrays were used and an informatics strategy developed, to identify polymorphic sites from hybridisation to genomic DNA. Following this approach, not only were genotype-phenotype associations discovered across the entire Arabidopsis genome, but also regions not currently known to encode proteins, thus representing candidate sites for novel RNA functional molecules. By statistically associating them with phenotypic traits, clues as to their particular functions were obtained. Furthermore, these candidate regions were subjected to a novel RNA-function classification prediction method developed as part of this thesis. While determining the chemical structure (the sequence) of candidate RNA molecules is relatively straightforward, the elucidation of its structure-function relationship is much more challenging. Towards this end, we devised and implemented a novel algorithmic approach to predict the structural and, thereby, functional class of RNA molecules. In this algorithm, the concept of treating RNA molecule structures as graphs was introduced. We demonstrate that this abstraction of the actual structure leads to meaningful results that may greatly assist in the characterization of novel RNA molecules. Furthermore, by using graph-theoretic properties as descriptors of structure, we indentified particular structural features of RNA molecules that may determine their function, thus providing new insights into the structure-function relationships of RNA. The method (termed Grapple) has been made available to the scientific community as a web-based service. RNA has taken centre stage in molecular biology research and novel discoveries can be expected to further solidify the central role of RNA in the origin and support of life on earth. As illustrated by this thesis, Bioinformatics methods will continue to play an essential role in these discoveries.},
  language  = {en}
}
@phdthesis{Lengefeld2010,
  author    = {Lengefeld, Jan},
  title     = {Zirkulardichroismus-Messungen mit Synchrotronstrahlung am BESSY : M{\"o}glichkeiten und Grenzen bei der Untersuchung biologischer Proben},
  url       = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-44263},
  school      = {Universit{\"a}t Potsdam},
  year      = {2010},
  abstract  = {In dieser Arbeit wurden die M{\"o}glichkeiten und Grenzen f{\"u}r Zirkulardichroismus-Messungen mit Synchrotronstrahlung untersucht. Dazu wurde ein Messaufbau f{\"u}r Zirkulardichroismus-Messungen an zwei Strahlrohren am Berliner Elektronenspeicherring f{\"u}r Synchrotronstrahlung eingesetzt, die f{\"u}r Messungen im Bereich des ultravioletten Lichts geeignet sind. Eigenschaften der Strahlrohre und des Messaufbau wurden in einigen wichtigen Punkten mit kommerziellen Zirkulardichroismus-Spektrometern verglichen. Der Schwerpunkt lag auf der Ausdehnung des zug{\"a}nglichen Wellenl{\"a}ngenbereichs unterhalb von 180 nm zur Untersuchung des Zirkulardichroismus von Proteinen in diesem Bereich. In diesem Bereich ist es nicht nur die Lichtquelle sondern vor allem die Absorption des Lichts durch Wasser, die den Messbereich bei der Messung biologischer Proben in w{\"a}ssriger L{\"o}sung einschr{\"a}nkt. Es wurden Bedingungen gefunden, unter denen der Messbereich auf etwa 160 nm, in einigen F{\"a}llen bis auf 130 nm ausgedehnt werden konnte. Dazu musste die Pfadl{\"a}nge deutlich reduziert werden und verschieden Probenk{\"u}vetten wurden getestet. Der Einfluss der dabei auftretenden Spannungsdoppelbrechung in den Probenk{\"u}vetten auf das Messsignal konnte mit einem alternativen Messaufbau deutlich reduziert werden. Systematische Fehler im Messsignal und auftretende Strahlensch{\"a}den begrenzen jedoch die Zuverl{\"a}ssigkeit der gemessenen Spektren. Bei Proteinfilmen schr{\"a}nkt die Absorption von Wasser den Messbereich kaum ein. Es wurden jedoch meist deutliche Unterschiede zwischen den Spektren von Proteinfilmen und den Spektren von Proteinen in w{\"a}ssriger L{\"o}sung festgestellt. Solange diese Unterschiede nicht minimiert werden k{\"o}nnen, stellen Proteinfilme keine praktikable Alternative zu Messungen in w{\"a}ssriger L{\"o}sung dar.},
  language  = {de}
}
@phdthesis{Fiedler2010,
  author    = {Fiedler, Christian},
  title     = {Die Strukturbildung der beta-Helix in der Pektatlyase Pel-15},
  url       = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-47250},
  school      = {Universit{\"a}t Potsdam},
  year      = {2010},
  abstract  = {Pektatlyase (Pel-15) aus dem alkalophilen Bodenbakterium Bacillus spec. KSM-P15 ist mit 197 Aminos{\"a}uren eines der kleinsten, bekannten β-3-Solenoidproteine. Sie spaltet Polygalakturons{\"a}urederivate in einem Ca2+-abh{\"a}ngigen β-Eliminierungsprozess. Wie bei allen Proteinen dieser Enzymfamilie ist auch die Polypeptidkette von Pel-15 zu einer einstr{\"a}ngigen, rechtsg{\"a}ngigen, parallelen β-Helix aufgewunden. In diesem Strukturmotiv enth{\"a}lt jede Windung drei β-Str{\"a}nge, die jeweils durch flexible Schleifenbereiche miteinander verbunden sind. Insgesamt acht Windungen stapeln sich in Pel-15 {\"u}bereinander und bilden entlang der Helixachse fl{\"a}chige, parallele β-Faltbl{\"a}tter aus. Im Bereich dieser β-Faltbl{\"a}tter existiert ein ausgedehntes Netzwerk von Wasserstoffbr{\"u}ckenbindungen, durch das der hydrophobe Kern, der sich im Inneren der β-Helix befindet, vom umgebenden L{\"o}sungsmittel abgeschirmt wird. Besondere Abschlussstrukturen an beiden Enden der β-Helix, wie sie typischerweise bei anderen Ver-tretern dieser Strukturklasse ausgepr{\"a}gt werden, sind in Pel-15 nicht zu beobachten. Stattdessen sind die terminalen Bereiche der β-Helix {\"u}ber Salzbr{\"u}cken und hydrophobe Seitenkettenkontakte stabilisiert. In der vorliegenden Dissertation wurde die Pektatlyase Pel-15 hinsichtlich ihres Faltungsgleichgewichtes, ihrer enzymatischen Aktivit{\"a}t und der Kinetik ihrer Strukturbildung charakterisiert. In eine evolution{\"a}r konservierte Helixwindung wurden destabilisierende Mutationen eingef{\"u}hrt, und deren Auswirkungen mittels spektroskopischer Methoden analysiert. Die Ergebnisse zeigen, dass Pel-15 in Gegenwart des Denaturierungsmittels Guanidiniumhydrochlorid einen hyperfluoreszenten Gleichgewichtsustand (HF) populiert, der nach Messungen von Faltungs- und Entfaltungskinetiken ein konformationelles Ensemble aus den Zust{\"a}nden HFslow und HFfast darstellt. Diese HF-Zust{\"a}nde sind durch eine hohe Aktivierungsbarriere voneinander getrennt. In R{\"u}ckfaltungsexperimenten populieren nur etwa 80 \% der faltenden Molek{\"u}le den Zwischenzustand HFslow, der mit einer Zeitkonstante von ca. 100 s zu HFfast weiterreagiert. Die Denaturierungsmittelabh{\"a}ngigkeit dieser Reaktion ist sehr gering, was eine trans-/cis-Prolylisomerisierung als geschwindigkeitslimitierenden Schritt nahelegt. Die Existenz eines cis-Peptides in der nativen Struktur macht es erforderlich, den denaturierten Zustand als ein Ensemble kinetisch separierter Konformationen, kurz: DSE, zu betrachten, das durch die Spezies Ufast und Uslow populiert wird. Nach dem in dieser Arbeit aufgestellten „Minimalmodell der Pel-15 Faltung" stehen die HF-Spezies (HFslow, HFfast) mit den Konformationen des DSE in einem thermodynamischen Kreisprozess. Das Modell positioniert HFfast und die native Konformation N auf die „native Seite" der Aktivierungsbarriere und tr{\"a}gt damit der Tatsache Rechnung, dass die Gleichgewichtseinstellung zwischen diesen Spezies zu schnell ist, um mit manuellen Techniken erfasst zu werden. Die hochaffine Bindung von Ca2+ (Kd = 10 μM) verschiebt sich das Faltungsgleichgewicht bereits in Gegenwart von 1 mM CaCl2 soweit auf die Seite des nativen Zustandes, das HFfast nicht l{\"a}nger nachweisbar ist. Entgegen anf{\"a}nglicher Vermutungen kommt einer lokalen, evolution{\"a}r konservierten Disulfidbr{\"u}cke im Zentrum der β-Helix eine wichtige Stabilisierungsfunktion zu. Die Disulfidbr{\"u}cke befindet sich in einem kurzen Schleifenbereich der β-Helix nahe dem aktiven Zentrum. Obwohl ihr Austausch gegen die Reste Val und Ala die freie Stabilisierungsenthalpie des Proteins um ca. 10 kJ/mol reduziert, l{\"a}sst die Struktur im Bereich der Mutationsstelle keine gravierende Ver{\"a}nderung erkennen. Auch die katalytisch relevante Ca2+-Bindungsaffinit{\"a}t bleibt unbeeinflusst; dennoch zeigen Enzymaktivit{\"a}tstests f{\"u}r VA-Mutanten eine Reduktion der enzymatischen Aktivit{\"a}t um fast 50 \% an. Die evolution{\"a}r konservierte Helixwindung im Allgemeinen und die in ihr enthaltene Disulfidbr{\"u}cke im Besonderen m{\"u}ssen nach den vorliegenden Ergebnissen also eine zentrale Funktion sowohl f{\"u}r die Struktur des katalytischen Zentrums als auch f{\"u}r die Strukturbildung der β-Helix w{\"a}hrend der Faltungsreaktion besitzen. Die Ergebnisse dieser Arbeit finden in mehreren Punkten Anklang an Faltungseigenschaften, die f{\"u}r andere β -Helixproteine beschrieben wurden. Vor allem aber pr{\"a}destinieren sie Pel-15 als ein neues, β-helikales Modellprotein. Aufgrund seiner einfachen Topologie, seiner niedrigen Windungszahl und seiner hohen thermodynamischen Stabilit{\"a}t ist Pel-15 sehr gut geeignet, die Determinanten von Stabilit{\"a}t und Strukturbildung des parallelen β-Helix-Motivs in einer Aufl{\"o}sung zu studieren, die aufgrund der Komplexit{\"a}t bestehender β-helikaler Modellsysteme bislang nicht zur Verf{\"u}gung stand.},
  language  = {de}
}
@phdthesis{Esther2010,
  author    = {Esther, Alexandra},
  title     = {Investigating mechanisms maintaining plant species diversity in fire prone Mediterranean-type vegetation using spatially-explicit simulation models},
  url       = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-44632},
  school      = {Universit{\"a}t Potsdam},
  year      = {2010},
  abstract  = {Fire prone Mediterranean-type vegetation systems like those in the Mediterranean Basin and South-Western Australia are global hot spots for plant species diversity. To ensure management programs act to maintain these highly diverse plant communities, it is necessary to get a profound understanding of the crucial mechanisms of coexistence. In the current literature several mechanisms are discussed. The objective of my thesis is to systematically explore the importance of potential mechanisms for maintaining multi-species, fire prone vegetation by modelling. The model I developed is spatially-explicit, stochastic, rule- and individual-based. It is parameterised on data of population dynamics collected over 18 years in the Mediterranean-type shrublands of Eneabba, Western Australia. From 156 woody species of the area seven plant traits have been identified to be relevant for this study: regeneration mode, annual maximum seed production, seed size, maximum crown diameter, drought tolerance, dispersal mode and seed bank type. Trait sets are used for the definition of plant functional types (PFTs). The PFT dynamics are simulated annual by iterating life history processes. In the first part of my thesis I investigate the importance of trade-offs for the maintenance of high diversity in multi-species systems with 288 virtual PFTs. Simulation results show that the trade-off concept can be helpful to identify non-viable combinations of plant traits. However, the Shannon Diversity Index of modelled communities can be high despite of the presence of 'supertypes'. I conclude, that trade-offs between two traits are less important to explain multi-species coexistence and high diversity than it is predicted by more conceptual models. Several studies show, that seed immigration from the regional seed pool is essential for maintaining local species diversity. However, systematical studies on the seed rain composition to multi-species communities are missing. The results of the simulation experiments, as presented in part two of this thesis, show clearly, that without seed immigration the local species community found in Eneabba drifts towards a state with few coexisting PFTs. With increasing immigration rates the number of simulated coexisting PFTs and Shannon diversity quickly approaches values as also observed in the field. Including the regional seed input in the model is suited to explain more aggregated measures of the local plant community structure such as species richness and diversity. Hence, the seed rain composition should be implemented in future studies. In the third part of my thesis I test the sensitivity of Eneabba PFTs to four different climate change scenarios, considering their impact on both local and regional processes. The results show that climate change clearly has the potential to alter the number of dispersed seeds for most of the Eneabba PFTs and therefore the source of the 'immigrants' at the community level. A classification tree analysis shows that, in general, the response to climate change was PFT-specific. In the Eneabba sand plains sensitivity of a PFT to climate change depends on its specific trait combination and on the scenario of environmental change i.e. development of the amount of rainfall and the fire frequency. This result emphasizes that PFT-specific responses and regional process seed immigration should not be ignored in studies dealing with the impact of climate change on future species distribution. The results of the three chapters are finally analysed in a general discussion. The model is discussed and improvements and suggestions are made for future research. My work leads to the following conclusions: i) It is necessary to support modelling with empirical work to explain coexistence in species-rich plant communities. ii) The chosen modelling approach allows considering the complexity of coexistence and improves the understanding of coexistence mechanisms. iii) Field research based assumptions in terms of environmental conditions and plant life histories can relativise the importance of more hypothetic coexistence theories in species-rich systems. In consequence, trade-offs can play a lower role than predicted by conceptual models. iv) Seed immigration is a key process for local coexistence. Its alteration because of climate change should be considered for prognosis of coexistence. Field studies should be carried out to get data on seed rain composition.},
  language  = {en}
}
@phdthesis{Ganzert2010,
  author    = {Ganzert, Lars},
  title     = {Bacterial diverity and adaption in permafrost-affected soils of maritime Antartica and Northeast Greenland},
  address   = {Potsdam},
  pages     = {104 S.},
  year      = {2010},
  language  = {en}
}