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Untersuchungen im Rahmen einer Konzeption und Entwicklung eines neuen biohybriden Mikrosystems für den Einsatz im pharmazeutischen "Screening" /Thielecke, Hagen. January 2003 (has links) (PDF)
Univ., Diss.--Saarbrücken, 2002.
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Fluorophore für Anwendungen im High-throughput-ScreeningBlödorn, Britta. January 2003 (has links)
Düsseldorf, Universiẗat, Diss., 2003.
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High throughput virtual drug screening using spherical harmonic molecular surface representationsMavridis, Lazaros January 2009 (has links)
This thesis presents new spherical harmonic (SH) approaches for ligand-based high-throughput virtual screening (HTVS). If it is assumed that small drug molecules may be adequately superposed and distinguished by co-locating their centers of mass and by performing rotational correlations of their shapes, then to a good approximation each molecule may be represented very compactly using a two dimensional (2D) SH surface envelope. Of course, this assumes that the true molecular surface is star-like, or single-valued, with respect to radial rays projecting from the selected origin. However, this often holds to a very good approximation for small globular molecules. Even when this is not the case, it is nonetheless reasonable to suppose that similar molecules should give similar radial projections and, therefore, that they should share very similar SH representations. Following this premise, a new program called “SpotLight” was developed. The results obtained with this software show that SH-based global shape matching provides a powerful new way to perform HTVS. SH surface representations are increasingly being applied to a broad range of object recognition and registration tasks, and have also been used to model protein-ligand shape complementarity. Most current shape similarity techniques search for global similarities, and may therefore miss finding active compounds with different overall shapes and sizes but which share similar substructures or surface features. Existing molecular fragment matching algorithms can identify common covalent substructures but they are not well suited for performing scaffold-hopping shape-based database searches. This thesis introduces a novel SH fragment-based shape matching approach that can exploit knowledge of structures of existing protein-ligand complexes to perform virtual screening using as queries SH surface fragments derived from crystallographic ligand binding surfaces.
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The development of computational high-throughput approaches for screening metal-organic frameworks in adsorptive separation applicationsTao, Andi January 2019 (has links)
Chemical separation undoubtedly accounts for a large proportion of process industries' activities. In the past few decades, 10-15% of the world's energy consumed was resulted from separation process. Tremendous efforts have been made in separating the components of large quantities of chemical mixtures into pure or purer forms in most industrial chemists. In addition, industrial development and population growth would lead to a further increase in the global demand for energy in the future. This makes the effective and efficient energy separation process one of the most challenging tasks in engineering. Adsorptive separation using porous materials is widely used in industry today. In order for an adsorptive separation process to be efficient, the essential requirement is a selective adsorbent that possesses high surface area and preferentially adsorbs one component (or class of similar components). Metal-organic frameworks (MOFs) are promising materials for separation purposes as their diversity, due to their building block synthesis from metal clusters and organic linker, gives rise to a wide range of porous structures. Engineering of a separation process is a multi-disciplinary problem that requires a holistic approach. In particular, material selection for industrial applications in the field of MOFs is one of the most significant engineering challenges. The complexity of a screening exercise for adsorptive separations arises from the multitude of existing porous adsorbents including MOFs. There are more than 80,000 structures that have been synthesised so far, as well as the multivariate nature of that performance criteria that need to be considered when selecting or designing an optimal adsorbent for a separation process. However, it is infeasible to assess all the potential materials experimentally to identify the promising structure for a particular application. Recently, molecular simulation and mathematical modelling have seen an ever- growing contribution to the research field of MOFs. The development of these computational tools offers a unique platform for the characterisation, prediction and understanding of MOFs, complementary to experimental techniques. In the first part of this research, Monte Carlo molecular simulation and a number of advanced mathematical methods were used to investigate newly synthesised or not well-known MOFs. These computational techniques allowed not only to characterise materials with their textural properties, but also to predict and understand adsorption performances at the atomic level. Based on the insight gained from the molecular simulation, two computational high-throughput screening approaches were designed and assessed. A multi-scale approach has been proposed and used which combined high-throughput molecular simulation, data mining and advanced visualisation, process system modelling and experimental synthesis and testing. The focus here was on two main applications. On one hand, the challenging CO/N2 separation, which is critical for the petrochemical sector, where two molecules have very similar physical properties. On the other hand, the separation of chiral molecules. For CO/N2 separation, a database of 184 Cu- Cu paddle-wheels MOFs, which contains unsaturated metal centres as strong interaction sites, was extracted from CSD (Cambridge Structural Database) MOF subset for material screening. In the case of chiral separation, an efficient high-throughput approach based on calculation of Henry's constant was developed in this research. Owning to the nature of chirality, this separation of relevance to the pharmaceutical sector is crucially important. A database of 1407 homochiral MOFs was extracted, again, from CSD MOF subset for material screening of enantioselective adsorption. The results obtained in these computational high-throughput approaches allows the screening of interesting, existing structures, and would have a huge impact on making MOFs to be industrially interesting adsorbents as well as guiding the synthesis of these materials. From the many different possibilities, the ultimate interest of this work is in developing an integrated systematic study of the structure-adsorption performance relationship working with a limited library of candidate MOF structures in order to identify promising trends and materials for the specific applications mentioned above. In summary, the overall aim of this research was exploiting different computational techniques, developing novel high-throughput approaches in order to tackle important engineering challenges.
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Virtual screening and bioactivities of small moleculesKoutsoukas, Alexios January 2014 (has links)
No description available.
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Novel screening methods for inhibitors of the human ubiquitin-conjugating enzymesKoszela, Joanna January 2014 (has links)
The ubiquitin-proteasome system (UPS) controls the stability, activity and localisation of most of the proteome and regulates virtually all cellular processes through modification of proteins with ubiquitin. Ubiquitin conjugation is mediated by a conserved enzymatic cascade composed of E1, E2 and E3 enzymes, which cooperate to activate and transfer ubiquitin to substrate proteins. Dysfunction of the UPS is implicated in many disease states, including cancer, neurodegeneration, immune and cardiovascular disorders. Despite the central role of the UPS in cellular regulation, our understanding of the function, interactions and specificity of proteins that comprise the UPS is still limited. One approach to dissect and to study the UPS is to identify molecular probes, which can be used to specifically interrogate catalytic mechanisms and can be potentially considered as entry points for drug discovery. This work focuses on developing novel high-throughput screening methods for inhibitors of the ubiquitin-conjugating enzymes (E2s), using a unicellular organism Saccharomyces cerevisiae and in vitro technologies. S. cerevisiae is a model organism, commonly used in research as a valuable tool for genetic investigations and other high-throughput studies. In this work, we evaluated the toxicity of exogenously expressed human E2s on yeast cells and discovered that one of the E2s, Ube2U, significantly inhibited yeast growth. This inhibition was dependent on the Ube2U ubiquitin-conjugation activity, as demonstrated with a catalytically inactive Ube2U C89A control, which did not affect yeast growth. The growth defect induced by Ube2U allowed us to develop a screening setup for inhibitors of Ube2U, where the enzyme activity was coupled to cell growth readout. Potential Ube2U inhibitors would be identified as rescuers of the slow growing Ube2U-expressing yeast phenotype. Although screening methods in yeast are relatively straightforward to set up and run, the advantages of this system, namely simplicity of the detection signal and high-throughput, are limited by the fact that yeast is not a recognised large scale screening system in pharmaceutical industry, and that it is difficult to identify the target in a complex pathway such as the UPS. In vitro technologies are needed to provide the necessary structure-activity relationship for chemical optimisation. Therefore, we developed a novel, fluorescence-based, miniaturised assay technology, suitable for biochemical investigations and screening for inhibitors of a wide range of specific ubiquitination reactions within the UPS.
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Identification of structure activity relationships in primary screening data of high-throughput screening assaysBöcker-Felbek, Alexander Dietmar. Unknown Date (has links)
University, Diss., 2007--Frankfurt (Main). / Zsfassung in engl. und dt. Sprache.
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Festkörperunterstützte Membranen zur Untersuchung von elektrogenen Transportvorgängen und deren Potential für die Hochdurchsatz-WirkstoffsucheKrause, Robin. Unknown Date (has links)
Universiẗat, Diss., 2007--Frankfurt (Main). / Zsfassung in dt. und engl. Sprache.
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Klonierung, Expression und Charakterisierung der Cytochrom P450-Monooxygenase CYP102A3 aus Bacillus subtilis sowie Veränderung ihrer Regioselektivität durch gerichtete EvolutionLentz, Oliver, January 2004 (has links)
Stuttgart, Univ., Diss., 2004.
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Neue Enzyme für industrielle Anwendungen aus Boden-GenbankenLämmle, Katrin. January 2004 (has links)
Stuttgart, Univ., Diss., 2004.
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