Search for dissertations about: "molecular docking"
Showing result 11 - 15 of 98 swedish dissertations containing the words molecular docking.
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11. Exploring Ligand Binding in HIV-1 Protease and K+ Channels Using Computational Methods
Abstract : Understanding protein-ligand interactions is highly important in drug development. In the present work the objective is to comprehend the link between structure and function using molecular modelling. READ MORE
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12. Unveiling Mechanistic Details of Macromolecular Interactions: Structural Design and Molecular Modelling of DNA-Protein Systems in Their Active State
Abstract : Molecular structure is fundamental for understanding mechanisms of molecular interactions. This applies not least to understanding biological function: every biological cell, whether bacterial or human, is an immensely complex system of thousands of molecules that exist in constant motion and interaction with each other. READ MORE
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13. Probing Ligand Binding Mechanisms in Insulin-Regulated Aminopeptidases : Computational analysis and free energy calculations of binding modes
Abstract : In recent years insulin-regulated aminopeptidase (IRAP) has emerged as a new therapeutic target for the treatment of Alzheimer’s disease and other memory-related disorders. So far, many potent and specific IRAP inhibitors had been disclosed, including peptides, peptidomimetics, and low-molecular-weight sulfonamides. READ MORE
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14. Theoretical Studies of Protein-Ligand Interactions
Abstract : The protein-ligand interaction is an important issue in rational drug design and protein function research. This thesis focuses on the study of protein-ligand interactions using various molecular modeling methods, which are used in combination to predict the binding modes and calculate the binding free energies of several important protein-ligand systems, as summarized below. READ MORE
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15. Binding Free Energy Calculations on Ligand-Receptor Complexes Applied to Malarial Protease Inhibitors
Abstract : Malaria is a widespread disease caused by parasites of the genus Plasmodium. Each year 500 million clinical cases are reported resulting in over one million casualties. The most lethal species, P. falciparum, accounts for ~90% of the fatal cases and has developed resistance to chloroquine. READ MORE