5 resultados para scrolls, roundels, palmette, interlocking S-motifs

em Universitätsbibliothek Kassel, Universität Kassel, Germany


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DNA methyltransferases of type Dnmt2 are a highly conserved protein family with enigmatic function. The aim of this work was to characterize DnmA, the Dnmt2 methyltransferase in Dictyostelium discoideum, and further to investigate its implication in DNA methylation and transcriptional gene silencing. The genome of the social amoeba Dictyostelium encodes DnmA as the sole DNA methyltransferase. The enzyme bears all ten characteristic DNA methyltransferase motifs in its catalytic domain. The DnmA mRNA was found by RT-PCR to be expressed during vegetative growth and down regulated during development. Investigations using fluorescence microscopy showed that both DnmA-myc and DnmA-GFP fusions predominantly localised to the nucleus. The function of DnmA remained initially unclear, but later experiment revealed that the enzyme is an active DNA methyltransferase responsible for all DNA (cytosine) methylation in Dictyostelium. Neither in gel retardation assays, nor by the yeast two hybrid system, clues on the functionality of DnmA could be obtained. However, immunological detection of the methylation mark with an α - 5mC antibody gave initial evidence that the DNA of Dictyostelium was methylated. Furthermore, addition of 5-aza-cytidine as demethylating agent to the Dictyostelium medium and subsequent in vitro incubation of the DNA isolated from these cells with recombinant DnmA showed that the enzyme binds slightly better to this target DNA. In order to investigate further the function of the protein, a gene knock-out for dnmA was generated. The gene was successfully disrupted by homologous recombination, the knock-out strain, however, did not show any obvious phenotype under normal laboratory conditions. To identify specific target sequences for DNA methylation, a microarray analysis was carried out. Setting a threshold of at least 1.5 fold for differences in the strength of gene expression, several such genes in the knock-out strain were chosen for further investigation. Among the up-regulated genes were the ESTs representing the gag and the RT genes respectively of the retrotransposon skipper. In addition Northern blot analysis confirmed the up-regulation of skipper in the DnmA knock-out strain. Bisufite treatment and sequencing of specific DNA stretches from skipper revealed that DnmA is responsible for methylation of mostly asymmetric cytosines. Together with skipper, DIRS-1 retrotransposon was found later also to be methylated but was not present on the microarray. Furthermore, skipper transcription was also up-regulated in strains that had genes disrupted encoding components of the RNA interference pathway. In contrast, DIRS 1 expression was not affected by a loss of DnmA but was strongly increased in the strain that had the RNA directed RNA polymerase gene rrpC disrupted. Strains generated by propagating the usual wild type Ax2 and the DnmA knock-out cells over 16 rounds in development were analyzed for transposon activity. Northern blot analysis revealed activation for skipper expression, but not for DIRS-1. A large number of siRNAs were found to be correspondent to the DIRS-1 sequence, suggesting concerted regulation of DIRS-1 expression by RNAi and DNA methylation. In contrast, no siRNAs corresponding to the standard skipper element were found. The data show that DNA methylation plays a crucial role in epigenetic gene regulation in Dictyostelium and that different, partially overlapping mechanisms control transposon silencing for skipper and DIRS-1. To elucidate the mechanism of targeting the protein to particular genes in the Dictyostelium genome, some more genes which were up-regulated in the DnmA knock-out strain were analyzed by bisulfite sequencing. The chosen genes are involved in the multidrug response in other species, but their function in Dictyostelium is uncertain. Bisulfite data showed that two of these genes were methylated at asymmetrical C-residues in the wild type, but not in DnmA knock-out cells. This suggested that DNA methylation in Dictyostelium is involved not only in transposon regulation but also in transcriptional silencing of specific genes.

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Self-assembled monolayers (SAMs) on solid surfaces are of great current interest in science and nanotechnology. This thesis describes the preparation of several symmetrically 1,1’-substituted ferrocene derivatives that contain anchoring groups suitable for chemisorption on gold and may give rise to SAMs with electrochemically switchable properties. The binding groups are isocyano (-NC), isothiocyanato (-NCS), phosphanyl (-PPh2), thioether (-SR) and thienyl. In the context of SAM fabrication, isothiocyanates and phosphanes are adsorbate systems which, surprisingly, have remained essentially unexplored. SAMs on gold have been fabricated with the adsorbates from solution and investigated primarily by X-ray photoelectron spectroscopy and near-edge X-ray absorption fine structure spectroscopy. The results of these analytical investigations are presented and discussed in matters of the film quality and possible binding modes. The quality of self-assembled monolayers fabricated from 1,1’-diisocyanoferrocene and 1,1’-diisothiocyanatoferrocene turned out to be superior to that of films based on the other adsorbate species investigated. Films of those absorbates as well as of dppf afforded well-defined SAMs of good quality. All other films of this study based on sulfur containing anchoring groups exhibit chemical inhomogeneity and low orientational order of the film constituents and therefore failed to give rise to well-defined SAMs. Surface coordination chemistry is naturally related to molecular coordination chemistry. Since all SAMs described in this thesis were prepared on gold (111) surfaces, the ferrocene-based ligands of this study have been investigated in their ability for complexation towards gold(I). The sulfur-based ferrocene ligands [fc(SR)2] failed to give stable gold(I) complexes. In contrast, 1,1’-diisocyanoferrocene (1) proved to be an excellent ligand for the complexation of gold(I). Several complexes were prepared and characterised utilising a series of gold(I) acetylides. These complexes show interesting structural motifs in the solid state, since intramolecular aurophilic interactions lead to a parallel orientation of the isocyano moieties, combined with an antiparallel alignment of neighbouring units. The reaction of 1 with the gold(I) acetylide [Au(C≡C–Fc)]n turned out to be very unusual, since the two chemically equivalent isocyano groups undergo a different reaction. One group shows an ordinary coordination and the other one undergoes an extraordinary 1,1-insertion into the Au-C bond. As a sideline of the research of this thesis several ferrocene derivatives have been tested for their suitability for potential surface reactions. Copper(I) mediated 1,3-dipolar cycloadditions of azidoferrocene derivatives with terminal alkynes appeared very promising in this context, but failed to a certain extent in terms of ‘click’ chemistry, since the formation of the triazoles depended on the strict exclusion of oxygen and moisture and yields were only moderate. Staudinger reactions between dppf and azidoferrocene derivatives were also tested. The nucleophilic additions of secondary amines to 1,1’-diisothiocyanatoferrocene led to the respective thiourea derivatives in quantitative yields.

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Im Rahmen der vorliegenden Arbeit wurde eine größere Anzahl an E. faecalis Isolaten aus Vaginalabstrichen, erstmals insbesondere von Patientinnen, die an Bakterieller Vaginose litten, untersucht und mit E. faecalis Stämme aus verschiedenen anderen klinischen Bereichen auf das Vorkommen von Virulenzfaktoren verglichen. Weiterhin wurden Korrelationen zwischen bestimmten Faktoren und der Menge an produziertem Biofilm erstellt, um mögliche Zusammenhänge zum Mechanismus der Biofilm-Bildung zu erfassen. Mittels statistischer Analysen konnte hinsichtlich der 150 untersuchten E. faecalis Isolate nachgewiesen werden, dass keine signifikanten Unterschiede der Inzidenzen von Virulenzfaktoren (esp, asa1, gelE, GelE, cylA, β-Hämolyse) zwischen den Stämmen der verschiedenen Herkunftsbereiche bestanden. In Bezug auf das Auftreten von Biofilm-Bildung zeigte sich ein erhöhtes Vorkommen bei Stämmen aus Urin sowie invasiver Herkunft (insgesamt jeweils ca. 70 % mäßige und starke Biofilm-Bildner) im Vergleich zu E. faecalis Isolaten aus Wunden oder Faeces (je ca. 40 %). Statistische Auswertungen bzgl. des Zusammenhangs eines oder einer Kombination von Virulenzfaktoren mit der Menge an gebildetem Biofilm wiesen darauf hin, dass Isolate, die das esp Gen besaßen, in erhöhtem Maße zur Biofilm-Bildung befähigt waren. Dies zeigte einen gewissen Einfluss des Zellwandproteins auf die Fähigkeit zur Biofilm-Bildung bei E. faecalis. Allerdings wurden stets auch Stämme identifiziert, die die Fähigkeit zur Biofilm-Bildung trotz des Fehlens der jeweils untersuchten genetischen Determinante bzw. der Determinanten aufwiesen, so dass auf das Vorhandensein weiterer, unbekannter Einflussfaktoren auf den Mechanismus der Biofilm-Bildung bei E. faecalis geschlossen werden konnte. Unter 78 untersuchten E. faecium Isolaten aus verschiedenen klinischen Bereichen konnte lediglich ein Stamm (1,3 %) als mäßiger Biofilm-Bildner charakterisiert werden, so dass die Fähigkeit bei dieser Spezies in der hier untersuchten Region unter diesen Bedingungen kaum nachgewiesen werden konnte. Einen Schwerpunkt dieser Arbeit bildete die Untersuchung zum Vorkommen von Virulenzfaktoren und Biofilm-Bildung bei E. faecalis Isolaten aus Vaginalabstrichen. Bzgl. des Auftretens von Virulenzfaktoren und Biofilm-Produktion konnte kein Unterschied zwischen Stämmen assoziiert mit Bakterieller Vaginose und Isolaten einer Vergleichsgruppe festgestellt werden. Allerdings zeigte eine Gegenüberstellung mit den untersuchten E. faecalis Stämmen aus anderen klinischen Bereichen, dass die 80 Isolate aus Vaginalabstrichen eine ähnlich hohe Inzidenz bestimmter Virulenzfaktoren wie Stämme aus Faeces, Urin, Wunden oder invasiver Herkunft sowie eine mit den Isolaten aus Urin und invasiver Herkunft vergleichbar hohe Fähigkeit zur Biofilm-Bildung aufwiesen (ca. 75 % mäßige und starke Biofilm-Bildner). Dies deutete auf eine Verbreitung der Biofilm-Bildungsfähigkeit bei E. faecalis Stämmen der Vaginalflora und somit auf eine große Bedeutung der Eigenschaft für Isolate dieser Herkunft hin. Die statistische Auswertung der Korrelationen von Virulenzfaktoren mit der Menge an gebildetem Biofilm lieferte ähnliche Ergebnisse wie die Analysen bzgl. der 150 E. faecalis Isolate aus anderen klinischen Bereichen und untermauerte die Annahme, dass zusätzliche Faktoren zu den hier untersuchten Determinanten bei E. faecalis vorhanden sein müssen, die Einfluss auf den Mechanismus der Biofilm-Bildung nehmen. Deshalb konzentrierte sich ein weiterer Teil der vorliegenden Arbeit auf die Herstellung und Charakterisierung von E. faecalis Biofilm-Spontanmutanten, um bisher noch ungeklärte Mechanismen oder neue Faktoren zu erkennen, die Einfluss auf die Biofilm-Bildung bei E. faecalis nehmen. Die Untersuchung einer Mutante (1.10.16) und ihres Wildtypstamms lieferte erstmals den phänotypischen Nachweis des HMW-Komplexes der drei Bee-Proteine sowie die Identifizierung konservierter Pili-Motive dieser Proteine. Des Weiteren schien die in diesem Cluster ebenfalls codierte Sortase-1 dasjenige Enzym zu sein, das höchstwahrscheinlich die Bindung des Proteins Bee-2 innerhalb dieses HMW-Komplexes katalysiert. Insofern lieferten diese Untersuchungen neue, konkrete Hinweise zur Rolle des bee Genclusters bei der Pili-Biogenese und Biofilm-Bildung von E. faecalis. Darüber hinaus stellen Erkenntnisse aus der Charakterisierung von zwei weiteren hergestellten Biofilm-Spontanmutanten viel versprechende Ausgangspunkte für zukünftige Untersuchungen dar, die ein weitergehendes Verständnis der molekularen Mechanismen der Biofilm-Bildung bei E. faecalis erzielen könnten.

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Among organic materials, spirobifluorene derivatives represent a very attractive class of materials for electronic devices. These compounds have high melting points, glass transitions temperatures and morphological stability, which makes these materials suitable for organic electronic applications. In addition, some of spirobifluorenes can form porous supramolecular associations with significant volumes available for the inclusion of guests. These molecular associations based on the spirobifluorenes are noteworthy because they are purely molecular analogues of zeolites and other microporous solids, with potential applications in separation, catalysis, sensing and other areas.

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This thesis describes several important advancements in the understanding of the assembly of outer membrane proteins of Gram-negative bacteria like Escherichia coli. A first study was performed to identify binding regions in the trimeric chaperone Skp for outer membrane proteins. Skp is known to facilitate the passage of unfolded outer membrane proteins (OMPs) through the periplasm to the outer membrane (OM). A gene construct named “synthetic chaperone protein (scp)” gene was used to express a fusion protein (Scp) into the cytoplasm of E. coli. The scp gene was used as a template to design mutants of Scp suitable for structural and functional studies using site-directed spectroscopy. Fluorescence resonance energy transfer (FRET) was used to identify distances in Skp-OmpA complexes that separate regions in Scp and in outer membrane protein A (OmpA) from E. coli. For this study, single cysteine (Cys) mutants and single Cys - single tryptophan (Trp) double mutants of Scp were prepared. For FRET experiments, the cysteines were labeled with the tryptophan fluorescence energy acceptor IAEDANS. Single Trp mutants of OmpA were used as fluorescence energy donors. In the second part of this thesis, the function of BamD and the structure of BamD-Scp complexes were examined. BamD is an essential component of the β-barrel assembly machinery (BAM) complex of the OM of Gram-negative bacteria. Fluorescence spectroscopy was used to probe the interactions of BamD with lipid membranes and to investigate the interactions of BamD with possible partner proteins from the periplasm and from the OM. A range of single cysteine (Cys) and single tryptophan (Trp) mutants of BamD were prepared. A very important conclusion from the extensive FRET study is that the essential lipoprotein BamD interacts and binds to the periplasmic chaperone Skp. BamD contains tetratrico peptide repeat (TPR) motifs that are suggested to serve as docking sites for periplasmic chaperones such as Skp.