@phdthesis{Zhou2005,
  author    = {Zhou, Qingchun},
  title     = {Molecular analysis of the sex-determining region of the Y chromosome in the platyfish Xiphophorus maculatus},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-13827},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2005},
  abstract  = {A large variety of sex determination systems have been described in fish. However, almost no information is available about sex determination in the classical fish models, the zebrafish Danio rerio and the pufferfish Takifugu rubripes. A DNA-binding protein gene called dmrt1bY (or DMY) has been recently described as an outstanding candidate for the primary sex-determining gene in the medaka fish Oryzias latipes. But this gene is not the universal master sex-determining gene in teleost fish, since dmrt1bY is not found in most other fishes. Hence, other fish models need to be examined including the platyfish Xiphophorus maculatus. Xiphophorus maculatus has three types of sex chromosomes (X, Y and W; females are XX, WX or WY; males are XY or YY). Its gonosomes are at an early stage of differentiation. The sex-determining locus on the sex chromosomes is flanked by two receptor tyrosine kinase genes, the Xmrk oncogene and its protooncogenic progenitor gene egfrb, which both delimit a region of about 0.6 centiMorgans. This situation should allow the positional cloning of the sex-determining gene (SD) of the platyfish. For this purpose, Bacterial Artificial Chromosome (BAC) contigs were assembled from a BAC library of XY males constructed in our laboratory, using the oncogene Xmrk, egfrb, as well as a Y-specific pseudogene called ps-criptY as starting points. The ps-criptY sequence was found to be closely linked to the SD gene, since no recombination was observed between SD and ps-criptY in more than 400 individuals tested. Two major BAC contigs for the X chromosome (about 2.5 Mb) and three major BAC contigs for the Y chromosome (about 3.5 Mb) were built up and analyzed by strategic sequencing. These are some of the largest contigs ever assembled for the sex chromosomes of a non-mammalian vertebrate species. The molecular analysis of the ps-criptY contig was the major objective of this work. The Y-specific ps-criptY contig has been extended over 1 Mb in this work with 58 identified molecular markers. Approximatively 700 kb of non-redundant sequences has been obtained from this contig by strategic sequencing. Numerous Y-linked markers from the contig including ps-criptY were also detected on the X chromosome. Nevertheless, major structural differences were observed between the X and Y chromosomes. Particularly, a large region, which is present at one copy on the X chromosome and contains several candidate genes, was found to be duplicated on the Y chromosome. Evidence for an inversion in the sex-determining region and for the Y-specific accumulation of a repeated sequence called XIR was also obtained. Such events might correspond to an initiation of differentiation between both types of gonosomes. Accumulation of transposable elements was also observed in the ps-criptY contig. A DNA transposable element, helitron, was isolated from the sex-determining region of X. maculatus. Three copies of helitron are located on the ps-criptY contig and one copy on the X-linked contig (helitron has roughly 15 copies per haploid genome). No in-frame stop codon, truncation or intron was found in these four copies, which present high nucleotide identities to each other. This suggests that helitron elements might be active or have been recently active in X. maculatus. A consensus open reading frame of helitron was also assembled from medaka (Oryzias latipes) genomic sequences. Two candidate genes from the ps-criptY contig are also located on the W chromosome in the X. maculatus Usumacinta strain (heterogamety). These markers show the relationship between the different types of gonosomes and allow to compare the male and female heterogameties in the platyfish. Several gene candidates were identified in the ps-criptY contig. However, some of them such as msh2, cript, igd and acr probably correspond to pseudogenes. Interestingly, a novel gene, called swimy, is exclusively expressed in spermatogonia of the adult testis. Swimy is a gene encoding a DNA-binding protein with several putative DNA-binding domains. The data suggest that swimy is a very promising candidate for the master SD gene. Another novel gene, which is called fredi and encodes a novel helix-turn-helix protein, is predominately expressed in the adult testis and currently under scrutiny. There is no doubt that the master SD gene of X. maculatus will be identified by positional cloning. Further molecular analysis of the contigs built in this work will shed new light on the molecular mechanism of sex determination and the evolution of sex chromosomes in fish.},
  subject      = {Platy},
  language  = {en}
}
@phdthesis{Stojic2005,
  author    = {Stojic, Jelena},
  title     = {Cloning and functional characterization of novel genes expressed preferentially in the human retina},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-13746},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2005},
  abstract  = {The human retina is a multi-layered neuronal tissue specialized for the reception and processing of visual information. The retina is composed of a great diversity of neuronal cell types including rod and cone photoreceptors, bipolar cells, ganglion cells, amacrine cells, horizontal cells and M{\"u}ller glia. In response to light, a coordinated series of molecular events, the so-called phototransduction cascade, is triggered in photoreceptor cells and the signals from the photoreceptors are further processed by the bipolar and ganglion cells to the higher centers of the brain. The retina as highly complex system may be greatly susceptible to genetic defects which can lead to a wide range of disease phenotypes. Therefore, isolation and characterisation of the genes active in the human retina will facilitate our deeper understanding of retinal physiology and mechanisms underlying retinal degeneration and provide novel candidates for the retinal disease genes. To identify novel genes that are specifically or predominantly expressed in the human retina, a cDNA library enriched for retina specific transcripts was generated using suppression subtractive hybridization (SSH) technique. In total, 1113 clones were randomly isolated from the retina SSH cDNA library and partially sequenced. On the basis of BLASTN algorithm analysis these clones were classified into four categories including those with I) significant homology to known human genes (766/1113), II) significant homology to partial transcripts and hypothetical gene predictions (162/1113), III) no homology to known mRNAs (149/1113), and IV) vector sequences and clones derived from mitochondrial genes (36/1113). After correcting for redundancy, category I represented 234 known human genes and category II a total of 92unknown transcripts. Clones from category I, were selected for expression analysis by RT-PCR in a great number of human tissues. This resulted in the identification of 16 genes which were expressed exclusively in the retina, 13 which were highly expressed in the retina compared to other tissues, 12 genes which were specifically expressed in neuronal tissues and 48 ubiquitously expressed genes. Thus, our expression analysis resulted in the identification of 29 genes exclusively or abundantly transcribed in the human retina. Of those, retina specific genes L25,L33, L35, L37, L38 and L40 were selected for further analysis. To characterize the complete mRNA sequences of these transcripts a full-length human retina cDNA library was constructed. The analysis of the L25 gene revealed three splicing variants of the ABCC5 gene, consequently named ABCC5_SV1 (SV1), ABCC5_SV2 (SV2) and ABCC5_SV3 (SV3).These isoforms comprise the first five exons of ABCC5 and additional novel exons named 5a, 5b and 5c, generated by differential exon usage. The determined lengths of the three transcripts are 2039 bp, 1962 bp, and 1887 bp in size, respectively. RT-PCR, real-time PCR and Northern blot analysis of ABCC5 as well as the isoforms SV1, SV2 and SV3demonstrated high levels of expression for all transcripts in the retina compared to other tissues. Analysis of their nucleotide sequences revealed that inclusion of exon 5a in splicing variant SV1 produced a frame shift and premature termination codon (PTC). Our data show that this splice variant is the target of nonsense mediated mRNA decay (NMD). This was shown by inhibition of protein synthesis with antibiotics puromycin and anisomycin in human cell lines A-RPE 19 and Y79. Our analysis resulted in an increase of the PTC containing transcript and a decrease of the ABCC5 transcript. Conversely, the amount of both transcripts (SV1 and ABCC5) returned to pre-treatment levels after removal of the inhibitors. Together, our results suggest that alternative splicing of the ubiquitously expressed ABCC5 gene in addition to NMD is involved in retina-specific transcriptional regulation of the mRNA level of ABCC5. In contrast, additional experiments demonstrated that the levels of expression ofSV2 and SV3 isoforms do not appear to influence ABCC5 transcription. Several of the cloned genes were selected for additional genotyping of single nucleotide polymorphisms (SNPs) in order to construct their SNP maps which are going to be used for future association studies of complex disease AMD. Thus, identification of novel retinal genes and their functional characterization will further our elucidation of retinal physiology in general and in the diseased state in particular, by providing candidate retinal disease genes.},
  subject      = {Netzhaut},
  language  = {en}
}
@phdthesis{Volkmann2004,
  author    = {Volkmann, Thorsten},
  title     = {Lattice gas models and simulations of epitaxial growth},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-13812},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2004},
  abstract  = {In this PhD thesis, we develop models for the numerical simulation of epitaxial crystal growth, as realized, e.g., in molecular beam epitaxy (MBE). The basic idea is to use a discrete lattice gas representation of the crystal structure, and to apply kinetic Monte Carlo (KMC) simulations for the description of the growth dynamics. The main advantage of the KMC approach is the possibility to account for atomistic details and at the same time cover MBE relevant time scales in the simulation. In chapter 1, we describe the principles of MBE, pointing out relevant physical processes and the influence of experimental control parameters. We discuss various methods used in the theoretical description of epitaxial growth. Subsequently, the underlying concepts of the KMC method and the lattice gas approach are presented. Important aspects concerning the design of a lattice gas model are considered, e.g. the solid-on-solid approximation or the choice of an appropriate lattice topology. A key element of any KMC simulation is the selection of allowed events and the evaluation of Arrhenius rates for thermally activated processes. We discuss simplifying schemes that are used to approximate the corresponding energy barriers if detailed knowledge about the barriers is not available. Finally, the efficient implementation of the MC kinetics using a rejection-free algorithm is described. In chapter 2, we present a solid-on-solid lattice gas model which aims at the description of II-VI(001) semiconductor surfaces like CdTe(001). The model accounts for the zincblende structure and the relevant surface reconstructions of Cd- and Te-terminated surfaces. Particles at the surface interact via anisotropic nearest and next nearest neighbor interactions, whereas interactions in the bulk are isotropic. The anisotropic surface interactions reflect known properties of CdTe(001) like the small energy difference between the c(2x2) and (2x1) vacancy structures of Cd-terminated surfaces. A key element of the model is the presence of additional Te atoms in a weakly bound Te* state, which is motivated by experimental observations of Te coverages exceeding one monolayer at low temperatures and high Te fluxes. The true mechanism of binding excess Te to the surface is still unclear. Here, we use a mean-field approach assuming a Te* reservoir with limited occupation. In chapter 3, we perform KMC simulations of atomic layer epitaxy (ALE) of CdTe(001). We study the self-regulation of the ALE growth rate and demonstrate how the interplay of the Te* reservoir occupation with the surface kinetics results in two different regimes: at high temperatures the growth rate is limited to one half layer of CdTe per ALE cycle, whereas at low enough temperatures each cycle adds a complete layer. The temperature where the transition between the two regimes occurs depends mainly on the particle fluxes. The temperature dependence of the growth rate and the flux dependence of the transition temperature are in good qualitative agreement with experimental results. Comparing the macroscopic activation energy for Te* desorption in our model with experimental values we find semiquantitative agreement. In chapter 4, we study the formation of nanostructures with alternating stripes during submonolayer heteroepitaxy of two different adsorbate species on a given substrate. We evaluate the influence of two mechanisms: kinetic segregation due to chemically induced diffusion barriers, and strain relaxation by alternating arrangement of the adsorbate species. KMC simulations of a simple cubic lattice gas with weak inter-species binding energy show that kinetic effects are sufficient to account for stripe formation during growth. The dependence of the stripe width on control parameters is investigated. We find an Arrhenius temperature dependence, in agreement with experimental investigations of phase separation in binary or ternary material systems. Canonical MC simulations show that the observed stripes are not stable under equilibrium conditions: the adsorbate species separate into very large domains. Off-lattice simulations which account for the lattice misfit of the involved particle species show that, under equilibrium conditions, the competition between binding and strain energy results in regular stripe patterns with a well-defined width depending on both misfit and binding energies. In KMC simulations, the stripe-formation and the experimentally reported ramification of adsorbate islands are reproduced. To clarify the origin of the island ramification, we investigate an enhanced lattice gas model whose parameters are fitted to match characteristic off-lattice diffusion barriers. The simulation results show that a satisfactory explanation of experimental observations within the lattice gas framework requires a detailed incorporation of long-range elastic interactions. In the appendix we discuss supplementary topics related to the lattice gas simulations in chapter 4.},
  subject      = {Kristallwachstum},
  language  = {en}
}
@phdthesis{Engelhardt2004,
  author    = {Engelhardt, Catherine Marie},
  title     = {Identification and characterisation of the Spred protein family},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-11456},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2004},
  abstract  = {The subject of this thesis was the cloning and the initial biochemical and functional characterisation of novel human proteins with an N-terminal Ena-VASP homology (EVH)-1 domain and a C-terminal Sprouty homologous region (SPR), which are related to the Drosophila AE33 protein. During the course of this work, three mouse homologues of the AE33 fly protein have been reported and termed Sprouty-related protein with an EVH-1 domain 1, 2 and 3 (Spred-1, -2, -3)(Wakioka et al, 2001; Kato et al, 2003). Spred-1, -2 and -3 are membrane associated substrates of receptor tyrosine kinases and they act as negative regulators of the Ras pathway during growth factor stimulation. As the Spred-family members seem to exert similar functions, the specific function of each member remains enigmatic. Therefore, we investigated the mRNA and protein expression patterns of the two murine protein family members Spred-1 and Spred-2 on the whole organ level. Furthermore, we focussed on the cellular localisation and the role of human and murine Spred-2 in the organism. The expression patterns of Spred-1 and Spred-2 differed markedly among various tissues and cell types. In mouse, Spred-1 is abundantly expressed in adult brain, cerebellum, and fetal tissues, whereas Spred-2 was ubiquitously expressed. In humans, Spred-2 was found to be strongly expressed in glandular epithelia and in invasive cytotrophoblasts, and at the subcellular level its immunoreactivity was associated with secretory vesicles and was found to colocalise with Rab11 GTPase. The new human Spred gene family was investigated in detail. Cloning of the fulllength form of human Spred-2 resulted in an 1254 bp coding sequence, corresponding to a 418 amino-acids protein. Immunoblotting with a set of affinitypurified antibodies confirmed the expression of a 47 kDa protein and suggested the presence of additional differently sized variants. Cloning of various shortened Spred- 2 mRNAs and identification of 2 additional human Spred genes (localised on different chromosomes) with their respective EST (expressed sequence tag) revealed that the new human Spred gene family displays extensive splicing, leading to the generation of short and long Spred proteins. All protein isoforms and splicing variants contain an EVH1-domain located at the N-terminus of the protein. The full-length forms ("a" forms) comprised the SPR, another functional domain localised at the C-terminus whereas the short variants (Spred-1b, 2 c-e, 3 c) lack the entire C-terminal SPR domain or part of it. The existence of short and long splicing variants of Spred-1, -2 and -3 revealed a common principle of organisation and splicing pattern in the Spred family. Functional analyses of the 5 cloned Spred-2 splicing variants revealed differential subcellular localisation and differential regulation of serum- and EGF- mediated ERK activation in HEK-293 cells. Taken together, these results indicate a highly specific expression pattern of Spred-1 and Spred-2 in various tissues suggesting a specific physiological role for the individual Spred isoform in these tissues. For example, Spred-2 appears to be involved in regulating secretory pathways. Furthermore, the human Spred family contains three genes, which are subject to extensive alternative splicing resulting in at least 8 different proteins with differential subcellular localisation and differential regulatory potential of the MAPK pathways during growth factor stimulation.},
  subject      = {Spred Protein},
  language  = {en}
}
@phdthesis{Graefe2005,
  author    = {Gr{\"a}fe, Stefanie},
  title     = {Laser-control of molecular dynamics},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-13388},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2005},
  abstract  = {In this work a new algorithm to determine quantum control fields from the instantaneous response of systems has been developed. The derived fields allow to establish a direct connection between the applied perturbation and the molecular dynamics. The principle is most easily illustrated in regarding a classical forced oscillator. A particle moving inside the respective potential is accelerated if an external field is applied acting in the same direction as its momentum (heating). In contrary, a deceleration is achieved by a field acting in the opposite direction as the momentum (cooling). Furthermore, when the particle reaches a classical turning point and then changes its direction, the sign of the field has to be changed to further drive the system in the desired way. The frequency of the field therefore is in resonance with the oscillator. This intuitively clear picture of a driven classical oscillator can be used for directing (or controlling) quantum mechanical wave packet motion. The efficiency of the instantaneous dynamics algorithm was demonstrated in treating various model problems, the population transfer in double well potentials, excitation and dissociation of selective modes, and the population transfer between electronic states. Although it was not tried to optimize the fields to gain higher yields, the control was found to be very efficient. Driving population transfer in a double well potential could be shown to take place with nearly 100\% efficiency. It was shown that selective dissociation within the electronic ground state of HOD can be performed by either maximizing a selected coordinate's differential momentum change or the energy absorption. Concerning the population transfer into excited electronic states, a direct comparison with common control algorithms as optimal control theory and genetic algorithms was accomplished using a one-dimensional representation of methyl iodide. The fields derived from the various control theories were effective in transferring population into the chosen target state but the underlying physical background of the derived optimal fields was not obvious to explain. The instantaneous dynamics algorithm allowed to establish a direct relation between the derived fields and the underlying molecular dynamics. Bound-to-bound transitions could be handled more effectively. This was demonstrated on the sodium dimer in a representation of 3 electronic states being initially in its vibronic ground state. The objective was to transfer population into a predefined excited state. Choosing the first or the second state as a target, the control fields exhibited quite different features. The pulse-structure is related to the excited state wave packet, moving in, and out of the Franck-Condon region. Changing the control objective, the derived control field performed pure electronic transitions on a fast time-scale via a two-step transition. Futhermore, orientational effects have been investigated. The overall-efficiency of the population transfer for differently oriented molecules was about 70 \% or more if applying a control field derived for a 45° orientation. Spectroscopic methods to gain information about the outcome of the control process have been investigated. It was shown that pump/probe femtosecond ionization spectroscopy is suited to monitor time-dependent molecular probability distributions. In particular, time-dependent photoelectron spectra are able to monitor the population in the various electronic states. In the last chapter a different possibility of controlling molecules was regarded by investigating molecular iodine with a setup similar to the STIRAP ("Stimulated Raman Adiabatic passage") scenario. The possibility to extend this technique to a fs-time scale was examined in theory as well as in experiments, the latter being performed by Dr. Torsten Siebert in the Kiefer group, University of W{\"u}rzburg. It was shown that off-resonant excitation with implementation of the pulses with a higher intensity of the Stokes pulse as compared to the pump pulse - describing a so-called f-STIRAP like configuration - was shown to effectively transfer population into excited ground-state vibrational levels. This was theoretically underlined by comparing the numerically exact coupling case with the adiabatic picture. The process was described to run in the vicinity of adibaticity. A new model explaining the process by the system's vector rotating around the dressed state vector will be adopted in future calculations. Altogether, a new promising algorithm to control dynamical processes based on the instantaneous response has been developed. Because the derived control fields have been shown to be very efficient in selectively influencing molecules, it is to be expected that farther reaching applications can be realized in future investigations.},
  subject      = {Laserstrahlung},
  language  = {en}
}
@phdthesis{Li2004,
  author    = {Li, Jie},
  title     = {Differential effects of neuromelanin and synthetic dopamine melanin on cell lines},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-13588},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2004},
  abstract  = {xxx},
  language  = {en}
}
@phdthesis{Hassel2005,
  author    = {Haßel, Sylke},
  title     = {Signal transduction via multiple BMP receptor complexes},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-13353},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2005},
  abstract  = {BMPs influence a variety of cellular processes. They have been shown to regulate proliferation, differentiation, migration and apoptosis and thus play central roles during developmental processes and tissue homeostasis. Ligand mediated signal transduction is transmitted via BMP type I and BMP type II receptors, both members of the serine/threonine kinase superfamily. The BMP receptor mediated signal transduction is not explored in detail. Therefore our aim was to address different aspects of BMP mediated signal transduction with main focus on BRII and its regulation. Due to the existence of two alternative splice variants, a long and a short form, the function of the two variants and the impact of the C-terminal extension are of general interest. Moreover, mutations in the BMPR2 gene were identified to be responsible for PPH, a autosomal dominant lung disease. In this thesis, BRII phosphorylation and signalling mediated by different receptor oligomers were investigated and multiple BRII associated proteins were identified. We could show that the oligomerization pattern of BMP receptors exhibits a higher degree of flexibility compared to other receptors of that superfamily. In the present work the BMP2 mediated signal transduction should be examined, depending on the receptor oligomerization pattern. Using kinase-deficient mutants, it could be demonstrated, that signalling via preformed BMP receptor complexes is mediated by the well characterized Smad1/5/8 pathway, whereas signalling initiated by BMP2 induced recruitment of the receptors activates the p38 pathway and leads to Alkaline Phosphatase production. To further study signalling events triggered directly from the BRII a proteomics-based screen for BRII associated proteins was performed. 53 associated proteins were found, the majority being signal transducing molecules, but in addition metabolic proteins, transcriptional regulators and others were identified. These proteins enable to gain a deeper insight in BMP mediated signalling. One of the interactors, the receptor tyrosine kinase c-kit, was characterized in more detail. It could be demonstrated, that BRII and c-kit form a complex in vitro and in vivo, and the interaction is enhanced upon BMP2 stimulation. 2D phosphopeptid mapping showed that BRII is phosphorylated at S757 upon activation of c-kit by SCF. Moreover, c-kit and its ligand SCF are modulating BMP2 pathways, by enhancing Smad1/5 phosphorylation, Smad-transcriptional activity, Alkaline Phosphatase production and expression of Cbfa1. All these pathways hint towards modulation of the osteoblast development via c-kit. Thus, we were able to develop a novel paradigm for the BMP2 meditated signalling. One of the initial triggers for BRII is the auto-phosphorylation of BRII. Here we analyze ligand-independent as well as ligand-dependent phosphorylation of BRII. Some phosphorylation sites in BRII were identified. The general phosphorylation occurs mostly on serines. S815, S818 and Y825 are identified targets of phosphorylation whose function is still unclear. However phosphorylation of S336 is demonstrated to be essential for BRII activation. The elucidation of BMP receptor phosphorylation and oligomerization as well as the impact of a number of BRII associated proteins (such as c-kit), demonstrated in this thesis that BMP signalling has to be regulated precisely on multiple levels. This can be useful for the development of selective signalling inhibitors for basic research and therapeutic approaches of PPH and other diseases.},
  subject      = {Knochen-Morphogenese-Proteine},
  language  = {en}
}
@phdthesis{Swiderek2005,
  author    = {Swiderek, Halina},
  title     = {Typing and genome comparison of Neisseria meningitidis by DNA-microarrays},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-13374},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2005},
  abstract  = {In the present thesis, two projects on the use of microarray technology for molecular epidemiology of Neisseria meningitidis have been followed. The first one evaluated microarrays based on polymorphism-directed oligonucleotide design for typing of N. meningitidis adopting the multilocus sequence typing (MLST) concept. The number of oligonucleotides needed to cover all known polymorphisms was much lower compared to the number needed if a tiling strategy would have been chosen. Initial experiments using oligonucleotides 28-32 nucleotides in length, revealed that the applied hybridisation protocols were highly specific. However, despite of several optimisation steps, the rate of misidentification of oligonucleotides remained >1.8\% in consecutive validation experiments using arrays representing the genetic diversity at three MLST loci. This finding led to the assumption that the high density of polymorphic sites and extensive GC-content variations at N. meningitidis MLST loci hindered the successful implementation of MLST microarrays based on polymorphism-directed oligonucleotide design. In the 1980s, the ET-15 clone emerged within the ST-11 complex of N. meningitidis. This new clone was associated with severe meningococcal disease and outbreaks world-wide. Therefore, the goal of the second project was to identify genetic differences between ET-15 strains and other ST-11 strains using whole genome microarray technology. Three genes encoding hypothetical proteins were identified to be present in all ET-15 strains but absent in other ST-11 strains. This finding together with unpublished observation from our group suggested that several genome alterations occurred before the clonal expansion of the ET-15 clone started. The role that these three genes play in the pathogenicity of the ET-15 clone is unclear. The genome comparisons revealed furthermore that studies of the ET-15 clone displayed approximately two-fold less gene content variation than ST-11 strains not belonging to the ET-15 clone. This finding is in accordance with the recent emergence and clonal expansion of the ET-15 variant.},
  subject      = {Neisseria meningitis},
  language  = {en}
}
@phdthesis{Joestingmeier2005,
  author    = {J{\"o}stingmeier, Martin},
  title     = {On the competition of superconductivity, antiferromagnetism and charge order in the high-Tc compounds},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-13036},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2005},
  abstract  = {Diese Arbeit l{\"a}ßt sich in zwei grobe Abschnitte gliedern. Der erste Teil umfaßt die Kapitel 1-3, in denen drei verschiedene Konzepte beschrieben werden, die zum Verst{\"a}ndis stark korrelierter Vielteilchen-Systeme dienen. Dies sind zun{\"a}chst einmal die SO(5)-Theorie in Kapitel 3, die den allgemeinen Rahmen vorgibt und auf der numerischen Seite die Stochastische Reihen Entwicklung (SSE) in Kapitel 1 und der Contractor Renormierungsgruppen Ansatz (CORE), s.Kapitel 2). Die zentrale Idee dieser Dissertationsschrift besteht darin, diese verschiedenen Konzepte zu kombinieren, um ein besseres Verst{\"a}ndnis der Hochtemperatursupraleiter zu erhalten. Im zweiten Teil dieser Arbeit (Kap. 4 und Kap. 5) werden die so gewonnenen Ergebnisse dargestellt. Die zentrale Idee dieser Arbeit, d.h. die Kombination der SO(5)-Theorie mit den F{\"a}higkeiten bosonischer Quanten-Monte-Carlo Verfahren und den {\"u}berlegungen der Renormierungsgruppe, hat sich sich am Beispiel der Physik der Hochtemperatur-Supraleiter als sehr tragf{\"a}hig erwiesen. Die numerischen Simulationen reproduzieren bei den behandelten Modelle eine Reihe wichtiger experimenteller Daten. Die Grundlage f{\"u}r eine k{\"u}nftige weitere schrittweise Erweiterung des Modells wurde so geschaffen. Eine offene Frage ist z.B. die Restaurierung der SO(5)-Symmetrie an einem multi-kritischen Punkt, wenn die l{\"a}ngerreichweitigen Wechselwirkungen mit in das Modell einbezogen sind.},
  subject      = {Hochtemperatursupraleitung},
  language  = {en}
}
@phdthesis{Patra2005,
  author    = {Patra, Amiya Kumar},
  title     = {Modulation of the NFAT signaling pathway by protein kinase B (PKB) ; a perspective study in the context of thymocyte development and T cell function},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-13315},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2005},
  abstract  = {To analyze the role of protein kinase B(PKB)on developmental and functional aspects of T cells, we have generated transgenic mouse lines expressing a constitutively active form of PKB (myrPKB) in early stages of T cell development.Peripheral CD4+ T cells from PKB tg mice are hyperreactive, more efficient in producing th1 and th2 cytokines and show faster and CD28 co-stimulation independent cell cycle progression.Interestingly PKB tg T cells are resistant to CsA treatment in proliferation and cytokine production.Further analysis show PKB tg CD4+ T cells have a drastically reduced nuclear translocation of NFAT proteins and this is due to a direct interaction between PKB and NFAT. To study whether the negative regulatiopn of NFATs by PKB affects T cell development, we analyzed double tg mice expressing both, a constitutively active version of calcineurin (dCam) and myrPKB. dCam tg mice have a severe block in thymocyte development at the DN3 stage.But in the dCam/PKB double tg mice this developmental block is significantly rescued.This rescue of thymocyte development by PKB is due to the expression of RAG1 and subsequent TCRb chain expression. CsA treatment of neonatal thymic lobes from dCam mice restores normal thymocyte development, indicating involvement of NFATs in the severe block in dCam thymocyte development.Confocal studies clearly established that compared to dCam DN cells there is a significant reduction in the nuclear levels of NFATc1 and NFATc3 in dCam/PKB cells.Downregulation of nuclear NFAT levels by myrPKB thus seems to be an essential parameter in dCam cells to proceed with normal differentiation. In summary, the data from PKB tg peripheral CD4+ T cells and dCam/PKB double tg thymocytes clearly establish PKB as an important modulator of T cell development and function and PKB as a novel negative regulator of NFAT activation.},
  subject      = {T-Lymphozyt},
  language  = {en}
}