Global ETD Search

11	Solution Structure of the Bicoid Homeodomain Bound to DNA and Molecular Dynamics Simulations of the Complex Baird-Titus, Jamie Michelle January 2005 (has links) No description available. bicoid homeodomain drosophila transcription/translation factor nuclear magnetic resonance molecular dynamics simulation solution structure protein/DNA complex
12	Modeling of a Heat-Induced Buckling of Plates Using the Mesh-free Method Mejia, Humberto 02 July 2014 (has links) In the process of engineering design of structural shapes, the flat plate analysis results can be generalized to predict behaviors of complete structural shapes. In this case, the purpose of this project is to analyze a thin flat plate under conductive heat transfer and to simulate the temperature distribution, thermal stresses, total displacements, and buckling deformations. The current approach in these cases has been using the Finite Element Method (FEM), whose basis is the construction of a conforming mesh. In contrast, this project uses the mesh-free Scan Solve Method. This method eliminates the meshing limitation using a non-conforming mesh. I implemented this modeling process developing numerical algorithms and software tools to model thermally induced buckling. In addition, convergence analysis was achieved, and the results were compared with FEM. In conclusion, the results demonstrate that the method gives similar solutions to FEM in quality, but it is computationally less time consuming. mesh-free method finite element method conforming mesh no conforming mesh solution structure heat transfer plates buckling r-functions transfinite interpolation.
13	DOSY External Calibration Curve Molecular Weight Determination as a Valuable Methodology in Characterizing Reactive Intermediates in Solution Neufeld, Roman 14 March 2016 (has links) No description available. 540 Diffusion Coefficients External Calibration Curves ECC Synthetically Useful Metal Amides DOSY Molecular Weight Determination Diffusion ordered spectroscopy Solution Structure Na-Indenide Hauser Bases Turbo Hauser Bases Lithium Amides LDA LiTMP LiHMDS iPr2NMgCl•LiCl iPr2NMgCl TMPMgCl•LiCl Chemie (PPN62138352X)
14	Vanadate and Peroxovanadate Complexes of Biomedical Relevance : A speciation approach with focus on diabetes Gorzsás, András January 2005 (has links) <p>Diabetes mellitus is one of the most threatening epidemics of modern times with rapidly increasing incidence. Vanadium and peroxovanadium compounds have been shown to exert insulin–like actions and, in contrast to insulin, are orally applicable. However, problems with side–effects and toxicity remain. The exact mechanism(s) by which these compounds act are not yet fully known. Thus, a better understanding of the aqueous chemistry of vanadates and peroxovanadates in the presence of various (bio)ligands is needed.</p><p>The present thesis summarises six papers dealing mainly with aqueous speciation in different vanadate – and peroxovanadate – ligand systems of biological and medical relevance. Altogether, five ligands have been studied, including important blood constituents (lactate, citrate and phosphate), a potential drug candidate (picolinic acid), and a dipeptide (alanyl serine) to model the interaction of (peroxo)vanadate in the active site of enzymes. Since all five ligands have been studied both with vanadates and peroxovanadates, the number of systems described in the present work is eleven, including the vanadate – citrate – lactate mixed ligand system. The pH–independent formation constants have been determined for 33 ternary vanadate – ligand, 41 quaternary peroxovanadate – ligand and two vanadate – mixed ligand species in addition to the p<i>K</i><sub>a</sub> values of all five ligands. These constants have been used to model physiological conditions, and the biomedical relevance of the different species is discussed.</p><p>The studies have been performed at 25 ºC in the physiological medium of 0.150 M Na(Cl), i.e. the ionic strength of human blood. No buffers have been used, and wide pH–ranges have usually been covered. The applied experimental techniques comprise mostly <sup>51</sup>V NMR and potentiometry, but <sup>31</sup>P, <sup>13</sup>C, <sup>1</sup>H and <sup>14</sup>N NMR as well as EPR and ESI–MS have also been used to gain additional information. Multimethod data have been treated by the least–squares program LAKE and modelling has been carried out by the software package WinSGW.</p><p>Whenever possible, solution structures of the species have been proposed. In addition, simple biological tests have been carried out to determine the stability of the formed peroxovanadate complexes in the presence of human catalase. A brief comparison is given of the different vanadate – ligand and peroxovanadate – ligand systems with emphasis on observed trends and general features.</p> Inorganic chemistry vanadium hydrogen peroxide lactate citrate phosphate alanyl serine picolinic acid speciation formation constants equilibrium solution structure potentiometry NMR (51V 31P 13C 1H) Oorganisk kemi Inorganic chemistry Oorganisk kemi
15	Vanadate and Peroxovanadate Complexes of Biomedical Relevance : A speciation approach with focus on diabetes Gorzsás, András January 2005 (has links) Diabetes mellitus is one of the most threatening epidemics of modern times with rapidly increasing incidence. Vanadium and peroxovanadium compounds have been shown to exert insulin–like actions and, in contrast to insulin, are orally applicable. However, problems with side–effects and toxicity remain. The exact mechanism(s) by which these compounds act are not yet fully known. Thus, a better understanding of the aqueous chemistry of vanadates and peroxovanadates in the presence of various (bio)ligands is needed. The present thesis summarises six papers dealing mainly with aqueous speciation in different vanadate – and peroxovanadate – ligand systems of biological and medical relevance. Altogether, five ligands have been studied, including important blood constituents (lactate, citrate and phosphate), a potential drug candidate (picolinic acid), and a dipeptide (alanyl serine) to model the interaction of (peroxo)vanadate in the active site of enzymes. Since all five ligands have been studied both with vanadates and peroxovanadates, the number of systems described in the present work is eleven, including the vanadate – citrate – lactate mixed ligand system. The pH–independent formation constants have been determined for 33 ternary vanadate – ligand, 41 quaternary peroxovanadate – ligand and two vanadate – mixed ligand species in addition to the pKa values of all five ligands. These constants have been used to model physiological conditions, and the biomedical relevance of the different species is discussed. The studies have been performed at 25 ºC in the physiological medium of 0.150 M Na(Cl), i.e. the ionic strength of human blood. No buffers have been used, and wide pH–ranges have usually been covered. The applied experimental techniques comprise mostly 51V NMR and potentiometry, but 31P, 13C, 1H and 14N NMR as well as EPR and ESI–MS have also been used to gain additional information. Multimethod data have been treated by the least–squares program LAKE and modelling has been carried out by the software package WinSGW. Whenever possible, solution structures of the species have been proposed. In addition, simple biological tests have been carried out to determine the stability of the formed peroxovanadate complexes in the presence of human catalase. A brief comparison is given of the different vanadate – ligand and peroxovanadate – ligand systems with emphasis on observed trends and general features. Inorganic chemistry vanadium hydrogen peroxide lactate citrate phosphate alanyl serine picolinic acid speciation formation constants equilibrium solution structure potentiometry NMR (51V 31P 13C 1H) Oorganisk kemi Inorganic chemistry Oorganisk kemi
16	NMR solution structure of DNA double helices with built-in polarity probes Dehmel, Lars 30 June 2015 (has links) Die Strukturen in Lösung dreier unterschiedlich modifizierter DNA Doppelstränge wurden mittels NMR Spektroskopie gelöst. Sie alle besitzen polare Sonden im Zentrum der Helix, welche sensitiv für die nähere Umgebung sind. Ihr Schmelzverhalten wurde mit Hilfe einer neuen Methode charakterisiert, welche komplette Absorptionsspektren in Kombination mit Singularwertzerlegung (SVD) nutzt. Letztere erlaubt die Analyse der Spektren als Ganzes, die notwendig ist um der Blauverschiebung des Sondensignals zu folgen, welche durch die zuvor genannte Sensitivität zur Umgebung verursacht wird. Auf diese Weise kann der Schmelzprozess des Duplex lokal und global beschrieben werden. Die erste Modifikation, 2-Hydroxy-7-Carboxyfluoren (HCF), wurde gegenüber einer abasischen Seite platziert, um sterische Spannungen zu vermeiden. Die NMR Spektroskopie deckte zwei gleichverteilte Konformationen auf, da die Rotation des HCF Chromophors nur durch die Stapelwechselwirkung innerhalb der Helix unterbunden wird. Der zweite Doppelstrang enthält ein über R-Glycerol gebundenes 6-Hydroxychinolinium (6HQ) gegenüber Cytosin. Der Einbau von 6HQ als Mononukleotid einer Glykolnukleinsäure (GNA) ist ein strukturelles Alleinstellungsmerkmal. Bisher sind nur Kristallstrukturen von vollständiger GNA bekannt, daher ist die Struktur in Lösung dieses Doppelstranges von generellem Interesse. Die geringe Größe von R-Glycerol stört das Rückgrat des 6HQ-Stranges, welche eine von der helikalen Achse abweichende Stapelachse für die drei zentralen Basen verursacht. Die letzte Modifikation ist ein künstliches Basenpaar bestehend aus 4-Aminophthalimid (4AP) und 2,4-Diaminopyrimidin (DAP). Anstatt der gewünschten drei Wasserstoffbrücken wurden zwei Strukturen, die entweder eine oder zwei Wasserstoffbrücken beinhalten, beobachtet, welche durch die Verbindung von 4AP zur 2’-Deoxyribofuranose erklärt werden können. / The solution structures of three differently modified DNA double strands were solved by NMR spectroscopy. They all incorporate polarity probes in the center of the helix that are sensitive to the immediate environment. Their melting behavior was characterized by a new method that utilizes complete absorption spectra in combination with Singular Value Decomposition (SVD). The latter allows to analyze the spectra in their entirety, which is required to follow the blue shift of the probe signal that is caused by the aforementioned sensitivity to the environment. In this way the duplex melting process is characterized in local and global terms.The first modification, 2-hydroxy-7-carboxyfluorene (HCF), is placed opposite an abasic site to avoid steric strain. NMR spectroscopy revealed two equally distributed conformations, since rotation of the HCF chromophore is only hindered by stacking interactions inside the helix. The second double strand comprises R-glycerol linked 6-hydroxyquinolinium (6HQ) opposite cytosine. The incorporation of 6HQ as glycol nucleic acid (GNA) mononucleotide is a unique structural feature. Until now, only crystal structures of full GNA backbone duplexes are known, so the solution structure of this double strand is of general interest. The small size of R-glycerol disturbs the backbone of the 6HQ strand, which causes a stacking axis that differs from the helical long axis for the three central bases. The last modification is an artificial base pair made of 4-aminophthalimide (4AP) and 2,4-diaminopyrimidine (DAP). Instead of the desired three hydrogen bonds, two structures containing either a single or two hydrogen bonds are observed that can be explained by the linkage of 4AP to 2’-deoxyribofuranose. DNA nucleic acids NMR solution structure polarity probes restrained molecular dynamics SVD melting analysis of complete spectra DNA Nukleinsäuren NMR Struktur in Lösung polare Sonden Molekulardynamik unter Nebenbedingungen SVD Schmelzanalyse kompletter Spektren 540 Chemie 30 Chemie WC 2600 VG 9507 WD 5360 ddc:540
17	Protein NMR studies of two systems involved in bacterial pathogenicity / Untersuchungen mittels Protein NMR an zwei Systemen mit Einfluss auf bakterielle Pathogenität Rumpel, Sigrun 01 November 2006 (has links) No description available. 540 Chemie Mathematics and Computer Science NMR Homodimer Lösungsstruktur Docken pathogene Bakterien Typ III Proteinsekretion Antibiotikaresistenz residuale dipolare Kopplungen paramagnetische Relaxationsverstärkung NMR homodimer solution structure docking pathogenic bacteria type III protein secretion antibiotic-resistant infections residual dipolar couplings (RDC) 35.25 35.62 SXL 440: Struktur {Biochemie}

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