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1021	Regulation of Proton Coupled Electron Transfer from Amino Acids in Artificial Model Systems: A Mechanistic Study / En Mekanistisk Studie rörande Reglering av Protonkopplad Elektronöverföring från Aminosyror i Artificiella Modellsystem Sjödin, Martin January 2004 (has links) <p>Amino acid radicals are key redox intermediates in several natural enzymes including Cytochrome c peroxidase, DNA photolyase, ribonucletide reductase, cytochrome c oxidase and photosystem II. Electron transfer from amino acids is often coupled to deprotonation and this thesis concerns the coupling of electron transfer from tyrosine and tryptophan to trisbipyridineruthenium(III) with deprotonation in model complexes. Specifically the mechanisms for these proton coupled electron transfer reactions have been studied and the controlling parameters have been identified, the possible mechanisms being stepwise electron transfer followed by deprotonation and deprotonation followed by electron transfer or concerted electron transfer/deprotonation.</p><p>Proton coupled electron transfer reactions have been studied using nano-second flash photolysis in water solution and the effect of pH, temperature, reaction driving force, deuteration and nature of the amino acid has been determined. I have shown that the rate constant for the concerted reaction depends intrinsically on the mixing entropy of the released proton and that the pH-dependence can be used as an experimental tool for mechanistic discrimination. Moreover I have shown that the concerted reaction inherently has a high reorganisation energy due to the coupling of the electron motion with deprotonation. Hydrogen bonding to the transferring proton however significantly reduces this reorganisation energy. The concerted reaction also has a relatively high driving force counteracting the high reorganisation energy in the competition between the concerted reaction and the stepwise electron transfer first reaction. The relative importance of the high reorganisation energy and the high driving force for the concerted reaction determines the mechanistic outcome of the reaction, the stepwise reaction being favoured by high over-all driving forces and the concerted reaction by high pH.</p><p>By comparing my results from model complexes with tyrosineZ oxidation in photosystem II, I give strong evidence for a concerted electron transfer/deprotonation mechanism.</p> Physical chemistry Proton Coupled Electron Transfer Tyrosine Tryptophan Electron Transfer Hydrogen bond Photosystem II Proton transfer Radical protein Fysikalisk kemi Physical chemistry Fysikalisk kemi
1022	Electrifying the Molecules of Life : Peptide and Protein Analysis by Capillary Electrophoresis Coupled to Electrospray Ionization Mass Spectrometry Wetterhall, Magnus January 2004 (has links) <p>This thesis describes the current status and novel aspects of the analysis of the molecules of life, i.e. peptides and proteins, using capillary electrophoresis (CE) coupled to mass spectrometry (MS) via (sheathless) electrospray ionization (ESI). Early reports of sheathless CE-ESI-MS were plagued by limited lifetimes of the electrospray emitter. In this thesis, two new approaches, the Black Dust and the Black Jack methods, utilizing polymer-embedded graphite instead of noble metals are presented. These emitters have shown improved long-term stability and proven excellent for sheathless electrospray operation. Failure of an emitter is often caused by electrochemical reactions occurring at the emitter-liquid interface. The electrochemical properties of the graphite coated emitters were therefore evaluated by classical electrochemical methods, such as cyclic voltammetry and chronoamperometry. The graphite coated emitters showed excellent electrochemical stability and properties compared to noble metal and polymer configurations.</p><p>Analyte-wall interactions have long been known to cause problems in the CE analysis of biomolecules. This can be circumvented by internal modification of the capillary walls. Additionally, it is of outermost importance to have a stable and sufficiently high electroosmotic flow (EOF) to sustain the electrospray, when using a sheathless approach. New monomer and polymer coatings are presented for rapid and high-efficient CE-ESI-MS separations of peptides and proteins.</p><p>Furthermore, the use of CE-ESI coupled to Fourier transform ion cyclotron resonance mass spectrometry (FTICRMS) shows great potential for rapid proteomic probing of human cerebrospinal fluid. The results are comparable with more established techniques, such as liquid chromatography and two-dimensional gel electrophoresis coupled to MS. However, the CE-ESI-FTICRMS analysis has significantly lower sample consumption and faster analysis time compared to the other techniques. The applications and use of CE-ESI-MS is expected to have a bright future with continued growth as current trends of multidimensional hyphenation and microfabricated devices are further developed and explored.</p> Analytical chemistry Capillary electrophoresis (CE) Electrospray ionization (ESI) Mass spectrometry (MS) Peptides Proteins Cerebrospinal fluid (CSF) Graphite coating Monomer coating Polymer coating Analytisk kemi Analytical chemistry Analytisk kemi
1023	Chemically Modified Oligonucleotides: Synthesis, Physicochemical and Biochemical Properties of their Duplexes with DNA and RNA Pradeepkumar, Pushpangadan Indira January 2004 (has links) <p>This thesis is based on 9 papers dealing with the synthesis, physicochemical and biochemical properties of two types of chemically modified oligonucleotides which have the potential to down-regulate gene expression: (i) The first set is comprised of antisense oligonucleotides (AONs) conjugated with different chromophores of varying size, charge and π-electron density. Conjugation of the chromophores at the 3'- or 5'-end enhanced the target RNA binding affinity and RNase H recruitment capabilities compared to the native counterpart without changing the global helical conformation of their AON/RNA hybrid duplexes. The 3'-dipyridophenazine (DPPZ) has emerged as the most promising non-toxic chromophore in this series. (ii) The second set encompasses a new class of AONs containing <i>North</i>-<i>East</i> conformationally constrained 1',2'-oxetane-nucleosides. The introduction of oxetane-<b>T</b> and -<b>C</b> units imparts lowering of the T<sub>m</sub> by ~ 6º and ~ 3 ºC/modification, respectively, of the AON/RNA hybrids, whereas the incorporation of the corresponding oxetane-<b>A</b> and-<b>G</b> units into AONs did not alter the thermostability in comparison with that of the native hybrid duplex. The oxetane-modified AONs have been found to possess enhanced serum stability compared to that of the native, whereas oxetane-<b>T</b> and -<b>C</b> containing AONs were more endonuclease-resistant than oxetane-<b>A</b> and-<b>G</b> modified AONs. All oxetane-modified mixmer AON/ RNA hybrid duplexes were, however, found to be excellent substrates for RNase H cleavage, which has been analyzed by Michaelis-Menten kinetics. The oxetane-modified mixmer AONs have shown effective down-regulation of the proto-oncogene c-myb mRNA in the K562 human leukemia cells, which was analyzed by QRT-PCR and Western Blot. Based on the amount of AON uptake after delivery, determined by slot blot, it was apparent that the oxetane-modified AONs are 5-6 times more effective antisense agents than the corresponding isosequential phosphorothioate analogues. The electrochemical assay based on sensitive nucleic acid mediated charge transport (CT) has revealed that the presence of oxetane-<b>T</b> unit causes more stacking perturbations in a DNA/DNA duplex than in a DNA/RNA duplex. </p> Bioorganic chemistry Antisense oligonucleotides Dipyridophenazine Oxetane RNase H Gene down-regulation DNase 1 Charge transport Bioorganisk kemi Bioorganic chemistry Bioorganisk kemi
1024	Phase Transformations in Solid Pharmaceutical Materials Studied by AFM, ESCA, DSC and SAXS Mahlin, Denny January 2004 (has links) <p>Mixing excipients is a common way to produce pharmaceutical materials with suitable properties for drug formulation. An understanding of the basic mechanisms involved in the formation and transformation of the structures of solid state mixtures is crucial if one is to be able to produce materials with the desired properties in a reliable way. </p><p>In the first part of the thesis, the atomic force microscopy (AFM) technique was used to visualise the re-crystallisation of spray-dried amorphous particles comprised of lactose and PVP. The transformation was quantified on a single particle level and analysed with a common kinetic model, the JMAK-equation. The way in which the PVP was incorporated into the particles and the impact this had on their physical stability on exposure to increasing levels of humidity was investigated. The amount and, to a certain extent, the molecular weight of the PVP affected the moisture induced crystallisation of the particles. The inhibition was further discussed in terms of nucleation and growth. </p><p>In the second part of the thesis, the formation of phases in solid dispersions of monoolein (MO) in PEGs was studied by the use of SAXS and DSC. Upon solidification of a melt, the components phase separated, resulting in a PEG-rich phase and an MO phase. MO was intercalated into the amorphous domains of the lamellar structure of PEG. A second MO phase appeared in the mixtures where the average molecular weight of PEG was 1500 and 4000 g/mol. It was hypothesised that this second phase was formed in conjunction with the expulsion of MO as the PEG unfolded. </p><p>This thesis describes the application of two relatively unexplored solid state techniques on two different solid mixtures of pharmaceutical interest and, in so doing, contributes to the knowledge of phase formation and transformations in the solid state.</p> Physical chemistry polymer lipid lactose phase transformation phase formation crystallisation AFM X-ray diffraction ESCA DSC solid dispersion Fysikalisk kemi Physical chemistry Fysikalisk kemi
1025	Macromolecules at Interfaces / Makromolekyler på ytor Larsericsdotter, Helén January 2004 (has links) <p>In this thesis, the structure and stability of globular proteins adsorbed onto nanometer-sized hydrophilic silica particles were investigated using differential scanning calorimetry (DSC), hydrogen/deuterium exchange (HDX), and mass spectrometry (MS). The adsorption process itself was characterized with fluorescence and absorption spectroscopy and surface plasmon resonance (SPR). The combination of these methods offered a unique insight into adsorption-induced changes within proteins related to their adsorption characteristics. DSC contributed with thermodynamic information on the overall structural stability within the protein population. HDX in combination with MS contributed information on the structure and stability of adsorbed proteins with focus on changes within the secondary structure elements. In order to increase the structural resolution in this part of the investigation, proteolysis was performed prior to the MS analyzing step. Knowledge on the protein adsorption process was utilized in a practical approach called ligand fishing. In this approach, SPR was used to monitor the chip-based affinity purification of a protein with MS used for protein identification.</p><p>Adsorption isotherms revealed that electrostatic interactions play an important role in the adsorption of proteins to hydrophilic surfaces. DSC investigation revealed that the thermal stability of proteins reduces with increasing electrostatic attraction between the protein and the surface and that this effect diminishes at higher surface coverage. The mass-increase due to exchange between protein hydrogen atoms and deuterium atoms in solution was investigated as a function of time. This gave insight into adsorption-induced changes in the structural stability of proteins. By combining DSC and HDX-MS, it was possible to differentiate between adsorption-induced changes in the secondary and tertiary structure. Additionally, if limited proteolysis was performed, the investigations gave insight into the orientation and protein segment specific changes in the stability of proteins adsorbed to silica surfaces. The adsorption of proteins to silica particles also provided the basis for a new experimental design that allows handling of minute amounts of proteins in a ligand fishing application, as used in the field of functional proteomics.</p> Chemistry Protein Adsorption Immobilization Surface Surface Plasmon Resonance SPR Mass Spectrometry MS Differential Scanning Calorimetry DSC FT ICR Lysozyme Bovine Serum Albumin BSA Myoglobin Globular Kemi Chemistry Kemi
1026	Liquid Chromatography – Mass Spectrometry Analysis of Short-lived Tracers in Biological Matrices : Exploration of Radiotracer Chemistry as an Analytical Tool Lavén, Martin January 2005 (has links) <p>Liquid chromatography – mass spectrometry (LC-MS) methods were developed for the analysis of positron emission tomography (PET) radiotracers in biological matrices. Additionally, radiotracer chemistry was explored as an analytical tool for supporting LC-MS method development and imaging molecular interactions in miniaturised chemical analysis systems.</p><p>Conventional radiodetection methods can offer high sensitivity in the analysis of radiotracers in biological matrices, although with the short half-life of PET tracers, this mass sensitivity decreases rapidly with time. This limits the time frame for analysis, and may compromise the precision and accuracy of the later measurements. Performing LC-MS analysis of the dominant stable isotope form of the tracer removes such time restrictions.</p><p>An LC-MS/MS method was developed for determination of the tracer flumazenil in human plasma, with high inter-assay precision (RSD < 7%) and accuracy (95 – 104%). The method was applied in a multiple scan PET study where the plasma concentration spanned from 0.07 to 0.21 nM. The method removed the time restrictions associated with radiodetection methods and thus provided the opportunity of analysing a greater number of samples than would have been possible with radioanalysis.</p><p>Furthermore, an LC-MS/MS method was developed that provided an efficient metabolic screening tool of potential PET tracers, whereby the substrates could be collected directly from 11C-labelling batches. This permitted repeated incubation experiments without the need of repeated labelling syntheses. A para-methoxy-benzamide analogue of the radiotracer WAY-100635 was thus identified as a potential tracer with improved metabolic stability. Additionally, a capillary LC-MS method was developed with rapid (0.75 min) and efficient (> 99%) on-line high flow-rate extraction for determination of metabolic stability of PET radiotracers.</p><p>Finally, the concept of radionuclide imaging of miniaturised chemical analysis systems was demonstrated with the direct study of interactions within capillary extraction columns and microchannels moulded in a plastic CD and poly(dimethylsiloxane).</p> Analytical chemistry radiotracer chemistry positron emission tomography biological samples radionuclide imaging Analytisk kemi Analytical chemistry Analytisk kemi
1027	Development of New Chiral Bicyclic Ligands : Applications in Catalytic Asymmetric Transfer Hydrogenation, Epoxidations, and Epoxide Rearrangements Gayet, Arnaud January 2005 (has links) <p>This thesis describes the synthesis and application of new chiral bicyclic ligands and their application in asymmetric catalysis. The studies involved: [i] The development of novel chiral bicyclic amino sulfur ligands and their use in transfer hydrogenation. [ii] The development of the kinetic resolution of racemic epoxide through the use of chiral lithium amides. [iii] The synthesis and application of chiral bicyclic amine in the organocatalysed epoxidation of alkenes. [iv] Development and application of new chiral diamine ligands in the rearrangement of epoxides into allylic alcohols.</p><p>[i] The preparation of two-series of amino thiol ligands based on the structure of camphor is described, together with their application in the iridium-catalysed asymmetric transfer hydrogenation of acetophenone using isopropanol as the hydrogen source. Excellent activity and good enantioselectivity have been achieved using 2 mol% of chiral ligand in combination with [IrCl(COD)]2.</p><p>[ii] The chiral diamines (1S,3R,4R)-3-(pyrrolidine-1-ylmethyl)-2-aza-bicyclo[2.2.1]heptane and its (2R,5R)-dimethylpyrrolidine derivative were applied to the kinetic resolution of a variety of racemic 5-7 membered cycloalkene oxides with lithium diisopropylamide (LDA) as the bulk base. Using 5 mol% of the chiral diamines, both unreacted epoxides and allylic alcohols could be produced in enantiomeric excess up to 99%.</p><p>[iii] The synthesis of chiral bicyclic amines and their use in the organocatalysed epoxidation of alkene has been described. Using a substoichiometric amount of the chiral amines and aldehydes as ligands precursors, with Oxone® as oxidant, a good activity but moderate enantioselectivity was observed for the epoxidation of trans-stilbene. </p><p>[iv] The preparation of 6-substituted-7-bromo-aza-bicyclo[2.2.1]heptanes via nucleophilic addition of organocopper reagents to 3-bromo-1-azoniatricyclo[2.2.1.0]heptyle bromide has been described. These compounds have been utilised as chiral building blocks in the preparation of novel chiral diamine ligands, which have been successfully applied to the catalysed asymmetric rearrangement of epoxide into the corresponding allylic alcohol.</p> Organic chemistry asymmetric catalysis transfer hydrogenation epoxide rearrangement Organocatalysed epoxidation chiral ligand allylic alcohol kinetic resolution lithium amide Organisk kemi Organic chemistry Organisk kemi
1028	Materials for future power sources Ludvigsson, Mikael January 2000 (has links) <p>Proton exchange membrane fuel cells and lithium polymer batteries are important as future power sources in electronic devices, vehicles and stationary applications. The development of these power sources involves finding and characterising materials that are well suited r the application.</p><p>The materials investigated in this thesis are the perfluorosulphonic ionomer Nafion<sup>TM </sup>(DuPont) and metal oxides incorporated into the membrane form of this material. The ionomer is used as polymer electrolyte in proton exchange membrane fuel cells (PEMFC) and the metal oxides are used as cathode materials in lithium polymer batters (LPB).</p><p>Crystallinity in cast Nafion films can be introduced by ion beam exposure or aging. Spectroscopic investigations of the crystallinity of the ionomer indicate that the crystalline regions contain less water than amorphous regions and this could in part explain the drying out of the polymer electrolyte membrane in a PEMFC.</p><p>Spectroscopic results on the equilibrated water uptake and the state of water in thin cast ionomer films indicate that there is a full proton transfer from the sulphonic acid group in the ionomer when there is one water molecule per sulphonate group.</p><p>The LPB cathode materials, lithium manganese oxide and lithium cobalt oxide, were incorporated <i>in situ</i> in Nafion membranes. Other manganese oxides and cobalt oxides were incorporated <i>in situ</i> inside the membrane. Ion-exchange experiments from HcoO<sub>2 </sub>to LiCoO<sub>2 </sub>within the membrane were also successful.</p><p>Fourier transform infrared spectroscopy, Raman spectroscopy and X-ray diffraction were used for the characterisation of the incorporated species and the Nafion film/membrane.</p> Chemistry Polymer electrolyte fuel cell lithium polymer battery polymer electrolyte cathode materials Nafion lithium manganese oxide lithium cobalt oxide incorporation precipitation FTIR Raman X-ray Kemi Chemistry Kemi
1029	Classical and Car-Parrinello Molecular Dynamics Simulations of Polyvalent Metal Ions in Water Amira, Sami January 2005 (has links) <p>The aqueous solvation of metal ions is one of the long-standing and complex problems in chemistry, with implications for and applications in a broad range of biochemical and electrochemical systems, where water is the all-pervasive medium.</p><p>This thesis describes computer simulations of Al<sup>3+</sup>(<i>aq</i>), Fe<sup>2+</sup>(<i>aq</i>), Fe<sup>3+</sup>(<i>aq</i>) and Cu<sup>2+</sup>(<i>aq</i>). Various aspects of the solvation of these polyvalent metal ions in water are addressed, at different levels of theory, using Car-Parrinello molecular dynamics, classical molecular dynamics and quantum-mechanical cluster calculations. Polyvalent metal ions are particularly interesting because of their large influence on the solvent structure, dynamics and thermodynamics, as well as on the properties of the individual solvent molecules. Polyvalent metal ions in aqueous solution also constitute a challenging subject for computer simulations since a sophisticated interaction model is needed to incorporate the large many-body effects. </p><p>All the ion-water coordination figures in this thesis are octahedral, except in the Cu<sup>2+</sup>(<i>aq</i>) solution, where the ion is penta-coordinated with four equatorial neighbours in a plane and one axial neighbour located ~0.45 Å further out from the ion. The equatorial ion-water bonds have covalent character, while the axial water molecule is only electrostatically bound. For all the ions, the OD stretching frequencies of the first-shell water molecules are much more downshifted than in liquid water. In the case of Cu<sup>2+</sup>(<i>aq</i>), however, only the OD frequencies of the equatorial water molecules are downshifted with respect to bulk water whereas the OD frequencies of the axial water molecule are slightly upshifted. </p><p>Various limitations of the Car-Parrinello molecular dynamics simulations have been explored and compared, such as finite system-size effects and shortcomings in the electronic structure calculations. The Car-Parrinello simulations are found to give reasonable descriptions of the polyvalent metal ions in aqueous solution.</p> Inorganic chemistry ab initio calculations ion copper aluminium metal ion water aqueous solution solvation Oorganisk kemi Inorganic chemistry Oorganisk kemi
1030	Synthesis of Novel Chiral Bicyclic Ligands and their Application in Iridium-Catalyzed Reactions Trifonova, Anna January 2005 (has links) <p>The synthesis of 2-aza-norborane derivatives is presented. The use of these compounds in preparation of Ir catalysts for asymmetric hydrogenations is described. The evaluation and optimization of the catalysts as well as the mechanistic aspects of the catalytic process are discussed.</p><p>The use of non-activated iminodieniphiles in stereoselective aza-Diels-Alder reaction has expanded the scope of the reaction and provided a convenient root for preparation of 2-aza-norboranes, analogues of which were developed into novel bicyclic 2-aza-norbornyl-oxazoline ligands for Ir-catalyzed asymmetric transfer hydrogenations. Using ths Ir complexes acetophenone was hydrogenated in 79% ee.</p><p>2-Aza-norbornyl-oxazolines were also developed into novel N,P-ligands. Resulting phosphine-oxazolines were evaluated in Ir-catalyzed asymmetric hydrogenation of structurally diverse imines and olefins.</p><p>Optimization of ligands was performed through: 1) Alteration of the stereoconfiguration at the 5’-position as well as variation of the size and geometry of the substituents at this position; 2) Screening through various phosphine substituents of the ligand. Both directions of optimization reflect on the influence of the ligands’ sterik bulk on stereoselectivity of catalytic process. High performance catalysts were developed for both transformations allowing asymmetric hydrogenation of imines with 92% ee and asymmetric hydrogenation of olefins with 99% ee.</p><p>Possible mechanisms for these transformations were suggested based on computational studies. Selectivity model for rationalization of results of Ir-catalyzed olefin hydrogenation also was designed.</p> Organic chemistry asymmetric catalysis Diels-Alder reaction transfer hydrogenation hydrogenation amino-oxazoline phosphine-oxazoline imine olefin Organisk kemi Organic chemistry Organisk kemi

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