@phdthesis{Weinmann2023, author = {Weinmann, Joshua}, title = {Chemical Modifications of Quinolone Amides Against African Trypanosomiasis: Balancing Solubility, Bioactivity, and Cytotoxicity}, doi = {10.25972/OPUS-29659}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-296599}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {The human African trypanosomiasis is a neglected tropical disease, which is caused by the protozoan Trypanosoma brucei and transmitted by the bite of the tsetse fly. An untreated infection leads to death. However, only a few drugs with significant drawbacks are currently available for treatment. In this thesis, quinolone amides with an antitrypanosomal activity were synthesized and their biological and physicochemical properties were measured. New structure-activity relationships and a promising lead structure were discovered.}, subject = {Trypanosomiase}, language = {en} } @phdthesis{Toksabay2022, author = {Toksabay, Sinem}, title = {Synthesis and on surface self assembly properties of pi extended tribenzotriquinacenes}, doi = {10.25972/OPUS-24573}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-245734}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {Tribenzotriquinacene (TBTQ) is a polycyclic aromatic framework with a particularly rigid, C3v symmetrical, bowl-shaped core bearing three mutually fused indane wings. It has been discussed as a defect center for a nanographene by Kuck and colleagues. Therefore, extended TBTQ structures are promising models for saturated defect structures in graphene and graphene like molecules and could be used to investigate the role of defects for the electronic properties of graphene. With this motivation, three different pi-extended TBTQ derivatives have been synthesized in this work. Several different Scholl reaction conditions were tried to obtain fully annulated product of hexaphenyl substituted TBTQ. The desired benzannulated TBTQ derivative could not be obtained due to unfavourable electron density in the respective positions of the molecule and increased reactivity of the bay position of the precursor. As an another method for benzannulation is the on-surface synthesis of graphene flakes and can be carried out using electron beams e.g. in a tunneling microscope (STM). According to our previous research, the parent system TBTQ and centro-methyl TBTQ on silver and gold surfaces showed that the gas phase deposition of these molecules gives rise to the formation of highly ordered two-dimensional assemblies with unique structural features. This shows the feasibility for the formation of defective graphene networks starting from the parent structures. Therefore, the same deposition technique was used to deposit Me-TBTQ(OAc)3Ph6, and investigate the molecular self-assembly properties directly on the surface of Cu (111). In summary, the substrate temperature dependent self-assembly of Me-TBTQ(OAc)3Ph6 molecules on Cu(111), shows the following evolution of orientations. At room temperature, molecules form dimers, which construct a higher-coverage honeycomb lattice. Furthermore, one of the acetyl group located in the bay positions of the TBTQ core is cleaved and the remaining two induce the metal-molecule interaction. It was presumed that by increasing the temperature to 393 K, the remaining acetyl and methyl groups would beeliminated from the molecular structure.In addition, the smaller TBTQ-Ph6 molecules preferably lie flat on Cu(111) crystal and allowing the molecules to settle into a C3-symmetry and form a dense hexagonal structure.}, subject = {Triquinacenderivate}, language = {en} } @phdthesis{Stiller2023, author = {Stiller, Carina}, title = {Synthesis and applications of modified nucleosides and RNA nucleotides}, doi = {10.25972/OPUS-31135}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-311350}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2023}, abstract = {As central components of life, DNA and RNA encode the genetic information. However, RNA performs several functions that exceed the competences stated in the 'central dogma of life'. RNAs undergo extensive post-transcriptional processing like chemical modifications. Among all classes of RNA, tRNAs are the most extensively modified. Their modifications are chemically diverse and vary from simple methylations (e.g. m3C, m6A) to more complex residues, like isopentenyl group (e.g. i6A, hypermodifications: e.g. ms2i6A) or even amino acids (e.g. t6A). Depending on their location within the overall structure, modifications can have an impact on tRNA stability and structure, as well as affinity for the ribosome and translation efficiency and fidelity. Given the importance of tRNA modifications new tools are needed for their detection and to study their recognition by proteins and enzymatic transformations. The chemical synthesis of these naturally occurring tRNA modifications as phosphoramidite building blocks is a prerequisite to incorporate the desired modification via solid-phase synthesis into oligonucleotides. With the help of the m3C, (ms2)i6A, and t6A oligonucleotides, the importance and impact of tRNA modifications was investigated in this thesis. To this end, the role of METTL8 as the methyltransferase responsible for the installation of the methyl group at C32 for mt-tRNAThr and mt-tRNASer(UCN) was resolved. Thereby, the respective adenosine modification on position 37 is essential for the effectiveness of the enzyme. Besides, by means of NMR analysis, CD spectroscopy, thermal denaturation experiments, and native page separation, the impact of m3C32 on the structure of the tRNA ASLs was shown. The modification appeared to fine-tune the tRNA structure to optimize mitochondrial translation. To investigate the regulation of the dynamic modification pathway of m3C, demethylation assays were performed with the modified tRNA-ASLs and the (α-KG)- and Fe(II)-dependent dioxygenase ALKBH1 and ALKHB3. A demethylation activity of ALKBH3 on the mt-tRNAs was observed, even though it has so far only been described as a cytoplasmic enzyme. Whether this is physiologically relevant and ALKBH3 present a mitochondrial localization needs further validation. In addition, ALKBH1 was confirmed to not be able to demethylate m3C on mt-tRNAs, but indications for a deprenylation and exonuclease activity were found. Furthermore, the aforementioned naturally occurring modifications were utilized to find analytical tools that can determine the modification levels by DNAzymes, which cleave RNA in the presence of a specific modification. Selective DNA enzymes for i6A, as well as the three cytidine isomers m3C, m4C, and m5C have been identified and characterized. Besides the naturally occurring tRNA modifications, the investigation on artificially modified nucleosides is also part of this thesis. Nucleosides with specific properties for desired applications can be created by modifying the scaffold of native nucleosides. During the pandemic, the potential of antiviral nucleoside analogues was highlighted for the treatment of the SARS-CoV-2 infection. For examinations of the potential drug-candidate Molnupiravir, the N4-hydroxycytidine phosphoramidite building block was synthesized and incorporated into several RNA oligonucleotides. A two-step model for the NHC-induced mutagenesis of SARS-CoV-2 was proposed based on RNA elongation, thermal denaturation, and cryo-EM experiments using the modified RNA strands with the recombinant SARS-CoV-2 RNA-dependent RNA polymerase. Two tautomeric forms of NHC enable base pairing with guanosine in the amino and with adenosine in the imino form, leading to error catastrophe after the incorporation into viral RNA. These findings were further corroborated by thermal melting curve analysis and NMR spectroscopy of the NHC-containing Dickerson Drew sequence. In conclusion, the anti-amino form in the NHC-G base pair was assigned by NMR analysis using a 15N-labeld NHC building block incorporated into the Dickerson Drew sequence. This thesis also addressed the synthesis of a 7-deazaguanosine crosslinker with a masked aldehyde as a diol linker for investigations of DNA-protein interactions. The diol functional group can be unmasked to release the reactive aldehyde, which can specifically form a covalent bond with amino acids Lys or Arg within the protein complex condensin. The incorporation of the synthesized phosphoramidite and triphosphate building blocks were shown and the functionality of the PCR product containing the crosslinker was demonstrated by oxidation and the formation of a covalent bond with a fluorescein label. The development of assays that detect changes in this methylation pattern of m6A could provide new insights into important biological processes. In the last project of this thesis, the influence of RNA methylation states on the structural properties of RNA was analyzed and a fluorescent nucleoside analog (8-vinyladenosine) as molecular tools for such assays was developed. Initial experiments with the fluorescent nucleoside analog N6-methyl-8-vinyladenosine (m6v8A) were performed and revealed a strong fluorescence enhancement of the free m6v8A nucleoside by the installation of the vinyl moiety at position 8. Overall, this thesis contributes to various research topics regarding the application of naturally occurring and artificial nucleoside analogues. Starting with the chemical synthesis of RNA and DNA modifications, this thesis has unveiled several open questions regarding the dynamic (de-)methylation pathway of m3C and the mechanism of action of molnupiravir through in-depth analysis and provided the basis for further investigations of the protein complex condensin, and a new fluorescent nucleoside analog m6v8A.}, subject = {Nucleins{\"a}uren}, language = {en} } @phdthesis{Stey2004, author = {Stey, Thomas Josef}, title = {Di(benzothiazol-2-yl)phosphane - Studies on a Janus Head Ligand -}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-12330}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2004}, abstract = {The design of ligands is one of the most important and simultaneously challenging fields of research in modern inorganic chemistry. The aim is to synthesise ligands that can serve as coordination units for a broad variety of metal fragments and different purposes. The ligands have to be very flexible concerning their donating behaviour and geometrical prerequisites in order to correspond to the required metal fragments.}, subject = {Phosphine}, language = {en} } @phdthesis{Sohns2005, author = {Sohns, Andreas}, title = {Halfsandwich iron complexes with Silanol-functionalized Cyclopentadienyl ligands}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-15809}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2005}, abstract = {...}, subject = {Halbsandwich-Verbindungen}, language = {en} } @phdthesis{Selby2022, author = {Selby, Joshua}, title = {Design and Chiroptical Properties of Chirally Substituted Indolenine Squaraine Mono-, Oligo-, and Polymers}, doi = {10.25972/OPUS-28206}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-282067}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {A series of monomeric chirally substituted indolenine squaraine monomers were successfully synthesized and utilized for the construction of various oligo- and polymers, in order to study their chiroptical properties in terms of exciton chirality. The quaternary carbon atom at the 3-position of the indolenine subunit, as well as the alkyl side chain attached to the indolenine nitrogen were selected as the most suitable site for chiral functionalization. For the C(3)-chiral derivatives, two synthetic routes depending on the desired substitution at the stereogenic center were established. The chiral side chains were prepared via Evans asymmetric alkylation where the resulting branching point at the 2 position constituted the chiral center. While the chiral substitution only had minor effects on the linear optical properties and geometric structure of the chromophore, all compounds exhibited a distinct and measurable CD signal that correlated with the distance of the chiral center to the central chromophore. Polymers bearing chiral side chains exhibited a solvent- and temperature-dependent helix-coil equilibrium, which was influenced by the type of side chain used. CD spectroscopy revealed the helical conformation to possess a preferred twist sense, and temperature-dependent measurements showed the degree of homohelicity to be nearly complete in certain cases. Furthermore, a CPL signal was able to be obtained for the helical conformer of one polymer. Various (co)oligo- and polymers comprising the C(3)-chiral monomers only displayed a solvent-independent J-type absorption behavior and thus did not form helical conformations in solution. CD spectroscopy revealed a solvent-dependent adoption of quasi-enantiomeric conformers, which was elucidated by quantum chemical TDDFT calculations.}, subject = {Squaraine}, language = {en} } @phdthesis{Schreck2018, author = {Schreck, Maximilian}, title = {Synthesis and Photophysics of Linear and Star-Shaped Oligomers of Squaraine Dyes}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-174272}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2018}, abstract = {In this thesis, the synthesis and photophysics of a great variety of squaraine dyes are presented. This variety is based on four parent squaraines containing either indolenine or quinoline heterocycles. By a suitable choice of the donor and acceptor unit, the optical properties can already be adapted to the properties desired on the stage of the monomer. To promote a further derivatisation of these dyes, diverse functional groups are attached to the monomers using transition metal-catalysed C-C coupling reactions. However, this has to be preceded by the synthesis of bromine-functionalised derivatives as a direct halogenation of squaraine dyes is not feasible. Therefore, the halogen function is already introduced in precursor molecules giving rise to a molecular building block system containing bromine-, boronic ester-, and alkyne-functionalised monomer units, which pave the way to a plethora of squaraine oligomers and polymers. The indolenine homopolymer pSQB-1 as well as the corresponding small molecular weight oligomers dSQB-1 and tSQB were synthesized applying Ni-mediated Yamamoto and Pd-catalysed Suzuki coupling methodologies, respectively. The motivation for this project relied on the fundamental investigations by V{\"o}lker et al. on pSQB-V. A progressive red-shift of the lowest energy absorption maximum from the dimer to the polymer was observed in CHCl3 compared to the monomer. With increasing number of monomer units, the exciton coupling decreases from the dimer to the polymer. In addition, the shape of the absorption band manifold shows a strong dependence on the solvent, which was also observed by V{\"o}lker et al. J-type aggregate behavior is found in chlorinated solvents such as CHCl3 and DCM, whereas H-type aggregates are formed in acetone. Temperature-dependent absorption studies in PhCN reveals a reversible equilibrium of diverse polymer conformers, which manifests itself in a gradual change from H-aggregate behavior to a mixture with a more pronounced J-aggregate behavior upon raising the temperature. It isassumed that both characteristic aggregate bands correlate in borderline cases with two polymer structures which can be assigned to a zig-zag and a helical structure. As no experimental evidence for these structures could hitherto be provided by NMR, TD-DFT computations on oligomers (22-mers) can reproduce very closely the characteristic features of the spectra for the two conformational isomers. The subsequent chapters are motivated by the goal to influence the optical properties through a control of the superstructure and thus of the intramolecular aggregate formation. On the one hand, bulky groups are implemented in the 3-position of the indolenine scaffold to provoke steric repulsion and thus favoring J-aggregate behavior at the expense of helical arrangements. The resulting homopolymer pDiPhSQB bearing two phenyl groups per indolenine exhibits J-type aggregate behavior with red-shifted absorption maxima in all considered solvents which is explained to be caused by the formation of elongated zig-zag structures. Furthermore, single-crystal X-ray analysis of monomer DiPhSQB-2-Br2 reveals a torsion of the indolenine moieties as a consequence of steric congestion. The twist of the molecular geometry and the resulting loss of planarity leads to a serious deterioration of the fluorescence properties, however a significant bathochromic shift of ca. 1 200 cm-1 of the lowest absorption band was observed compared to parent SQB, which is even larger than the shift for dSQB-1 (ca. 1 000 cm-1). On the other hand, a partial stiffening of the polymer backbone is attempted to create a bias for elongated polymer chains. In this respect, the synthetic approach is to replace every second biarylaxis with the rigid transoid benzodipyrrolenine unit. Despite a rather low average degree of polymerization < 10, exclusively red-shifted absorption maxima are observed in all solvents used. In order to complete the picture of intramolecular aggregates through the selective design of H-aggregates, a squaraine-squaraine copolymer was synthesised containing the classic cisoid indolenine as well as the cisoid quinoline building block. Taking advantage of the highly structure directing self-assembly character of the quinoline moiety, the copolymer pSQBC indeed showes a broad, blue-shifted main absorption band in comparison with the monomer unit dSQBC. The shape of the absorption band manifold solely exhibited a minor solvent and temperature dependence indicating a persistent H-aggregate behaviour. Hence, as a proof of concept, it is shown that the optical properties of the polymers (H- and J-aggregate) and the corresponding superstructure can be inherently controlled by an adequate design of monomer precursors. The last chapter of this work deals, in contrast to all other chapters, with intermolecular aggregates. It is shown that the two star-shaped hexasquarainyl benzenes hSQA-1 and hSQA-2 exhibit a strong propensity for self-organisation. Concentration- and temperature-dependent studies reveal a great driving force for self-assembly in acetone. While the larger hSQA-2 instantaneously forms stable aggregates, the aggregates of hSQA-1 shows a pronounced kinetic stability. Taking advantage of the kinetic persistency of these aggregates, the corresponding kinetic activation parameters for aggregation and deaggregation can be assessed. The absorption spectra of both hexasquarainyl benzenes in the aggregated state reveal some striking differences. While hSQA-1 features an intensive, very narrow and blue-shifted absorption band, two red-shifted bands are observed for hSQA-2, which are closely located at the monomer absorption. The very small bandwidth of hSQA-1 are interpreted to be caused by exchange narrowing and pointed towards highly ordered supramolecular aggregates. The concentration-dependent data of the two hexasquarainyl benzenes can be fitted to the dimer-model with excellent correlation coefficients, yielding binding constants in excess of 10^6 M-1, respectively. Such high binding constants are very surprising, considering the unfavourable bulky 3,3-dimethyl groups of the indolenine units which should rather prevent aggregation. Joint theoretical and NMR spectroscopic methods were applied to unravel the supramolecular aggregate structure of hSQA-1, which is shown to consist of two stacked hexasquarainyl benzenes resembling the picture of two stacked bowls.}, subject = {Squaraine}, language = {en} } @phdthesis{Kriegebaum2009, author = {Kriegebaum, Claudia}, title = {Spatio-temporal Expression Patterns of the Serotonin Synthesis Enzymes TPH1 and TPH2 and Effects of Acute Stress}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-40839}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2009}, abstract = {Several lines of evidence implicate a dysregulation of tryptophan hydroxylase (TPH)-dependent serotonin (5-HT) synthesis in emotions and stress and point to their potential relevance to the etiology and pathogenesis of various neuropsychiatric disorders. However, the differential expression pattern of the two isoforms TPH1 and TPH2 which encode two forms of the rate-limiting enzyme of 5-HT synthesis is controversial. Here, a comprehensive spatio-temporal analysis clarifies TPH1 and TPH2 expression during pre- and postnatal development of the mouse brain and in adult human brain as well as in peripheral organs including the pineal gland. Four different methods (real time PCR, in situ hybridization, immunohistochemistry and Western blot analysis) were performed to systematically control for tissue-, species- and isoform-specific expression on both the pre- and posttranslational level. TPH2 expression was consistently detected in the raphe nuclei, as well as in fibres in the deep pineal gland and in the gastrointestinal tract. Although TPH1 expression was found in these peripheral tissues, no significant TPH1 expression was detected in the brain, neither during murine development, nor in mouse and human adult brain. Also under conditions like stress and clearing the tissue from blood cells, no changes in expression levels were detectable. Furthermore, the reuptake of 5-HT into the presynaptic neuron by the serotonin transporter (SERT) is the major mechanism terminating the neurotransmitter signal. Thus, mice with a deletion in the Sert gene (Sert KO mice) provide an adequate model for human affective disorders to study lifelong modified 5-HT homeostasis in interaction with stressful life events. To further explore the role of TPH isoforms, Tph1 and Tph2 expression was studied in the raphe nuclei of Sert deficient mice under normal conditions as well as following exposure to acute immobilization stress. Interestingly, no statistically significant changes in expression were detected. Moreover, in comparison to Tph2, no relevant Tph1 expression was detected in the brain independent from genotype, gender and treatment confirming expression in data from native animals. Raphe neurons of a brain-specific Tph2 conditional knockout (cKO) model were completely devoid of Tph2-positive neurons and consequently 5-HT in the brain, with no compensatory activation of Tph1 expression. In addition, a time-specific Tph2 inducible (i) KO mouse provides a brain-specific knockdown model during adult life, resulting in a highly reduced number of Tph2-positive cells and 5-HT in the brain. Intriguingly, expression studies detected no obvious alteration in expression of 5-HT system-associated genes in these brain-specific Tph2 knockout and knockdown models. The findings on the one hand confirm the specificity of Tph2 in brain 5-HT synthesis across the lifespan and on the other hand indicate that neither developmental nor adult Tph2-dependent 5-HT synthesis is required for normal formation of the serotonergic system, although Tph1 does not compensate for the lack of 5-HT in the brain of Tph2 KO models. A further aim of this thesis was to investigate the expression of the neuropeptide oxytocin, which is primarily produced in the hypothalamus and released for instance in response to stimulation of 5-HT and selective serotonin reuptake inhibitors (SSRIs). Oxytocin acts as a neuromodulator within the central nervous system (CNS) and is critically involved in mediating pain modulation, anxiolytic-like effects and decrease of stress response, thereby reducing the risk for emotional disorders. In this study, the expression levels of oxytocin in different brain regions of interest (cortex, hippocampus, amygdala, hypothalamus and raphe nuclei) from female and male wildtype (WT) and Sert KO mice with or without exposure to acute immobilization stress were investigated. Results showed significantly higher expression levels of oxytocin in brain regions which are involved in the regulation of emotional stimuli (amygdala and hippocampus) of stressed male WT mice, whereas male Sert KO as well as female WT and Sert KO mice lack these stress-induced changes. These findings are in accordance with the hypothesis of oxytocin being necessary for protection against stress, depressive mood and anxiety but suggest gender-dependent differences. The lack of altered oxytocin expression in Sert KO mice also indicates a modulation of the oxytocin response by the serotonergic system and provides novel research perspectives with respect to altered response of Sert KO mice to stress and anxiety inducing stimuli.}, subject = {Serotonin}, language = {en} } @phdthesis{KittisakSripha2003, author = {Kittisak Sripha,}, title = {NOVEL HETEROCYCLIC RING SYSTEMS DERIVED FROM CARACURINE V AS LIGANDS FOR THE ALLOSTERIC SITE OF MUSCARINIC M 2 RECEPTORS}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-6841}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2003}, abstract = {Die vorliegende Arbeit befasst sich mit dem Gebiet allosterischer Modulation des muscarinischen M2 Rezeptors. Allosterische Liganden beeinflussen das Bindungsverhalten eines orthosterischen Liganden (Agonisten oder Antagonisten) an die klassische Bindungsstelle des muscarinischen Rezeptors, indem sie seine Affinit{\"a}t entweder erh{\"o}hen(positive Kooperativit{\"a}t) oder erniedrigen (negative Kooperativit{\"a}t). Die allosterische Bindungsstelle befindet sich extrazellul{\"a}r am Eingang der Rezeptor-Bindungstasche. Sie ist weniger konserviert als die orthosterische Bindungsdom{\"a}ne, die tiefer im Rezeptorkanal zwischen den sieben transmembranalen Dom{\"a}nen lokalisiert ist. Demzufolge ist die Entwicklung subtyp-spezifischer allosterisch wirkenden Liganden leichter als subtypspezifischer Agonisten oder Antagonisten. Die Subtypselektivit{\"a}t kann dar{\"u}ber hinaus {\"u}ber unterschiedliche Kooperativit{\"a}ten zwischen dem orthosterischen und allosterischen Liganden an verschiedenen muscarinischen Subtypen erreicht werden. Ein am M1-Rezeptor mit Acetylcholin positiv kooperativer allosterer Modulator, der sich an anderen muscarinischen Subtypen neutral kooperativ verh{\"a}lt, k{\"o}nnte z.B. f{\"u}r die Therapie von Morbus Alzheimer eingesetzt werden. Bisquart{\"a}re Ammoniumsalze des Strychnos-Alkaloids Caracurin-V geh{\"o}ren zu den potentesten allosterischen M2-Liganden. Die relative Stellung der aromatischen Indolringe und der Abstand zwischen den positiv geladenen Stickstoffatomen (ca. 10) in dem sehr starren Caracurin-V-Ringsystem definieren den Pharmakophor f{\"u}r potente allosterische Modulatoren. Caracurin-V-Salze sind strukturell sehr verwandt mit den starken Muskelrelaxantien Toxiferin-I und Alcuronium und besitzen vermutlich selbst neuromuskul{\"a}r-blockierende Eigenschaften, was ihre Anwendung in der pharmakologischen Forschung einschr{\"a}nken w{\"u}rde. Reduktion des Caracurin-V-Ringsystems auf die wesentlichen Pharmakophorelemente k{\"o}nnte zu allosterisch wirksamen Verbindungen mit vernachl{\"a}ssigbarer muskelrelaxierender Wirkung f{\"u}hren. Ziel dieser Arbeit war die Synthese und pharmakologische Testung von Derivaten eines neuen, von Caracurin V abgeleiteten, heterocyclischen Ringsystems. Das neue gew{\"u}nscht 6,7,14,15-Tetrahydro[1,5]diazocino[1,2-a:6,5-a]-diindole-Ringsystem(6) wurde in einer intermolekularen N-Alkylierung von zwei Molek{\"u}len Bromethylindol 5 aufgebaut. Die Ausgangsverbindung 5 konnte aus dem Indolylessigs{\"a}uremethylester 3 durch Reduktion der Estergruppe zum Alkohol und anschließende Substitution durch Brom dargestellt werden. Der bekannte Ester 3 wurde ausgehend von Tryptamin erhalten. Die dreistufige Synthese umfasste N-Dibenzylierung, Einf{\"u}hrung der Malonestergruppe am C-2 von Indol und anschließende Demethoxycarbonylierung. Die Totalsynthese des neuen Pentacyclus ist im Schema 24 dargestellt. Die 3D-Struktur des neuen Ringger{\"u}stes konnte mit Hilfe von NMR-Spektroskopie und semiempirischen Rechnungen (AM1) aufgekl{\"a}rt werden. Verbindung 6 liegt in L{\"o}sung in einer verdrehten Wanne-Konformation mit unsymmetrisch angeordneten Seitenketten vor. Um den Einfluss der Seitenkettenl{\"a}nge des neuen Ringsystems auf die allosterische Wirksamkeit zu untersuchen, war es geplannt, die Ethylamin-Gruppen durch Methylamin-Einheiten zu ersetzen. Der entsprechende Syntheseplan bestand darin, das unsubstituierte Ringsystem in einer doppelten Mannich-Reaktion zu aminomethylieren. Der Ausgangsstoff f{\"u}r die Dimerisierung, Bromethylindol 32, wurde aus Indol-2-carbons{\"a}ure hergestellt. Die Synthese umfasste folgende Reaktionsschritte: Reduktion der Carboxylgruppe und Benzoylierung des resultierenden Alkohols, nucleophile Substitution mit Kaliumcyanid, alkalische Hydrolyse des Cyanids zu Indolacetessigs{\"a}ure, erneute Reduktion zum Alkohol und abschließende Substitution mit Brom. Da Dimerisierungsversuche von 32 nur zur Bildung des HBr-Eliminierungsproduktes 33 f{\"u}hrten, wurde das entsprechende Tosylat als Ausgangsstoff eingesetzt. {\"U}berraschenderweise entstand nicht das erwartete Diazocinodiindol-Ringger{\"u}st, sondern ausschließlich ein isomeres, noch nicht bekanntes 6,7,14,15-Tetrahydro-15aH-azocino[1,2-a:6,5-b]diindol-Ringsystem 35. Die Bildung des neuen unsymmetrischen Ringsystems ist auf den ambidenten Charakter des Indolylanions zur{\"u}ckzuf{\"u}hren, das entweder am Sticksoff oder an C3 alkyliert werden kann. Umsetzung von 35 nach Mannich lieferte das bisaminoalkylierte Produkt 37, neben einer kleinen Menge der monoalkylierten Verbindung 36. Die Totalsynthese des zweiten Ringsystems ist im Schema 25 dargestellt. Um potentere Verbindungen zu erhalten, wurden beide Endstufen 6 bzw. 37 mit Methyliodid zu 14 bzw. 38 quaternisiert. 37 wurde zus{\"a}tzlich mit Allylgruppen zu 39 substituiert. Die pharmakologische Testung von 14, 37, und 38 erfolgte {\"u}ber Radioligandbindungsstudien an Membransuspensionen der Herzventrikel des Hausschweins. Der allostere Effekt der Testverbindungen wurde {\"u}ber die Hemmung der Dissoziation von [3H]-N-Methylscopolamin([3H]-NMS) von den damit ges{\"a}ttigten Rezeptoren gemessen. Die erhaltenen EC50,diss-Werte geben die Konzentration des allosteren Modulators an, bei der die [3H]-NMS-Dissoziation auf die H{\"a}lfte des Kontrollwertes reduziert ist. Sie sind ein Maß f{\"u}r die Affinit{\"a}t der Testsubstanzen zur allosterischen Bindungsstelle des M2 Rezeptors. F{\"u}r die einzige Verbindung mit dem Diazocinodiindole-Ringsystem 14 wurde ein EC50,diss-Wert von 54 nM gemessen. Da 14 {\"u}ber vier Benzylsubstituenten verf{\"u}gt, kann seine Bindungsaffinit{\"a}t am besten mit der von Dibenzylcaracurinium-Dibromid verglichen werden, die ganz {\"a}hnlich ist (69 nM). Aufgrund der Tatsache, dass die Verkleinerung des NSubstituenten am Caracurin-V-Ger{\"u}st zur erheblichen Steigerung der allosterischen Potenz f{\"u}hrte, ist zu erwarten, dass der Austausch der volumin{\"o}sen Benzylgruppen von 14 durch z.B. Methyl- oder Allylsubstituenten, eine deutliche Affinit{\"a}tssteigerung bewirken w{\"u}rde. Damit scheint die allosterische Potenz des neuen Ringsystems mindestens genauso gut zu sein, wie die von Caracurin V. Die beiden Vertreter des Azocinodiindol-Ringsystems, 38 und 39, sind bereits mit den Gruppen substituiert, die die beste allosterische Potenz bei dem Caracurin-V-Ringsystem zeigten (Methyl- und Allyl). Ihre EC50,diss-Werte (35 nM f{\"u}r 38, 48 nM f{\"u}r 39) sprechen jedoch f{\"u}r eine ca. 4-fach schw{\"a}chere Bindungsaffinit{\"a}t als die der entsprechenden Caracurine, was vermutlich auf einen anderen Abstand zwischen den quart{\"a}ren Stickstoffatomen und eine andere relative Stellung der Indolaromaten in den beiden Ringsystemen zur{\"u}ckzuf{\"u}hren ist. Anders als die entsprechenden Caracurin-V-Salze, sind 38 und 39 negativ kooperativ mit dem Antagonisten [3H]NMS. Zusammenfassend l{\"a}sst sich feststellen, dass von den beiden neu synthetisierten heterocyclischen Ringsystemen das direkt von Caracurin V abgeleitete Tetrahydro- [1,5]diazocino[1,2-a:6,5-a]diindol eine bessere und vielversprechende Leitstruktur f{\"u}r die Entwicklung neuer potenter allosterischen Liganden des M2-Rezeptors darstellt. Weitere synthetische Arbeiten an dem Ringsystem wie z.B. Variation des Sticksstoffsubstituenten und der Seitenkettenl{\"a}nge sollten zu einer Steigerung der Bindungsaffinit{\"a}t in den subnanomolaren Bereich f{\"u}hren. Dar{\"u}ber hinaus sind die Ergebnisse der pharmakologischen Testung an dem muskul{\"a}ren Typ des nicotinischen Acetylcholinrezeptors abzuwarten.}, subject = {Muscarinrezeptor}, language = {en} } @phdthesis{Kahlenberg2004, author = {Kahlenberg, Frank}, title = {Structure-property correlations in fluoroaryl functionalized inorganic-organic hybrid polymers for telecom applications}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-9378}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2004}, abstract = {The development and in-depth characterization of new fluoroaryl functionalized ORMOCER® materials (inorganic-organic hybrid polymers) for optical waveguide applications in telecommunication is presented. The preparation of the materials included precursor silane synthesis, hydrolysis/polycondensation of organoalkoxysilane mixtures, and photolithographic processing of the resulting oligosiloxane resins in order to establish the inorganic-organic hybrid network. During all stages of ORMOCER® preparation, structure-property relations were deduced from characterization data, particularly with respect to low optical loss in the important near-infrared spectral region as well as refractive index. With the aid of molecular modeling, structural characteristics of oligomeric intermediates were visualized, which was found valuable in the fundamental understanding of the material class. The material development started with the syntheses of a variety of commercially unavailable fluorinated and unfluorinated arylalkoxysilanes by means of Grignard and hydrosilylation pathways, respectively. A survey of silane optical properties, particularly their absorptions at the telecom wavelengths 1310 nm and 1550 nm, gave an impulse to the choice of suitable precursors for the preparation of low-loss ORMOCER® resins. Accordingly, precursor silane mixtures and hydrolysis/polycondensation reaction conditions were chosen and optimized with regard to low contents of C-H and Si-OH functions. Thus, absorptions as low as 0.04 dB/cm at 1310 nm and 0.18 dB/cm at 1550 nm, respectively, could be obtained from an oligosiloxane resin based on pentafluorophenyltrimethoxysilane (1) mixed with pentafluorophenyl(vinyl)-dimethoxysilane (5). In order to improve the organic crosslinkability under photolithographic processing conditions, further resins on the basis of the aforementioned were prepared, which additionally incorporated the styrene-analogous precursor 4-vinyltetrafluorophenyl-trimethoxysilane (4). Thus, ORMOCER® resins with low optical losses of 0.28 dB/cm at 1310 nm and 0.42 dB/cm at 1550 nm, respectively, were prepared, which exhibited excellent photopatternability. The manufacture of micropatterns such as optical waveguide structures by UV-photolithography under clean room conditions was the final stage of material synthesis. The optimization of processing parameters allowed the preparation of test patterns for the determination of optical, dielectrical and mechanical properties. A low optical loss of 0.51 dB/cm at 1550 nm could be measured on a waveguide manufactured from a photopatternable fluoroaryl functionalized ORMOCER®. The structural characterization of liquid resins as well as cured ORMOCER® samples was accomplished chiefly with solution and solid state 29Si-NMR spectroscopy, respectively. Particularly for polycondensates incorporating species based on more than one precursor silane, the spectra showed a high degree of complexity. An additional challenge arouse from the partial loss of fluoroaryl groups during ORMOCER® condensation and curing, which resulted in even more condensation products. Thus, in order to provide a basis for resin analysis, first the hydrolysis/condensation reactions of the isolated precursors were investigated under reaction time-resolution with NMR spectroscopy at low temperature. Backed by signal assignments in these single-precursor systems, the respective species could also be identified in the complex resin spectra, allowing for their quantitative interpretation. The structural characterization was rounded out by IR spectroscopy and SAXS analyses. With the help of molecular modeling, the experimental data were finally transferred into a three-dimensional image of an organosiloxane oligomer, which is representative for a photopatternable fluoroaryl functionalized ORMOCER® resin. The combination of low-temperature NMR, which made the characterization of polycondensates possible, with oligomer modeling paved the way to a further understanding of ORMOCER® resin systems. On the basis of this visualization of structural characteristics, e.g. properties such as organic crosslinkability of oligomers were discussed in the light of steric features within the molecular structure. Thus, new possibilities were established for the systematic optimization of ORMOCER® formulations. Structure-property relations with respect to optical loss and refraction, as determined within this work, follow trends, which are in accordance with the literature. Particularly the direct comparison of data derived from analogous fluorinated and unfluorinated ORMOCER® resins showed that fluorination results in significant decrease in NIR optical loss. Additionally, different unfluorinated aryl functionalized systems with varying aliphatic C-H content were compared. In case of a lower aliphatic content, a widening effect on the 1310 nm window was found. This is due to a shift of arylic C-H vibrations (1145 nm) towards lower wavelengths compared to aliphatic C-H (1188 nm). Finally, on the basis of NIR spectra of analogous fluorinated resins with low and high silanol content, respectively, a significant impact of (Si)O-H groups on the 1550 nm window was demonstrated, while the 1310 nm window was unaffected. This is due to O-H vibrations with a maximum at 1387 nm and further bands at higher wavelength. The index of refraction was drastically lowered due to fluorination. Thus, the analogous fluorinated and unfluorinated ORMOCER® resins had indices of 1.497 and 1.570, respectively, in the VIS region. For the fluorinated systems, refraction did not change significantly during organic cross-connection and hardbake. In conclusion, the new fluoroaryl functionalized ORMOCER® systems represent low-loss materials for telecom applications. In addition, in-depth characterization during material development allowed the proposal of structure-property relations, particularly with respect to optical properties, which are of considerable importance for future developments.}, subject = {Ormocer}, language = {en} }