Search for dissertations about: "Zn residues"
Showing result 16 - 20 of 23 swedish dissertations containing the words Zn residues.
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16. Structural and functional studies of L-PGDS and SMPDL3A, enzymes in lipid signaling family
Abstract : Enzymes are indispensable in maintaining the biological system. They metabolize complex molecules to supply nutrients, to produce energy, to regulate transcription of gene expression, and to control the concentration of effective signaling molecules in a cell, thus maintaining the homeostasis of biological system. READ MORE
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17. Application of Wastes from Pulp and Paper Industries for Steelmaking Processes
Abstract : Over the past several years, considerable efforts have been made to develop a more circular economy. The ambition to reuse, remanufacture and recycle materials is of great significance for the establishment of a sustainable society. READ MORE
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18. Engineering carbonic anhydrase for highly selective ester hydrolysis
Abstract : I denna avhandling presenteras arbete utfört med enzymet humant karboanhydras II (HCAII). Enzymer är en typ av proteiner som accelererar (katalyserar) kemiska reaktioner, vilket är nödvändigt för allt levande. Den naturliga funktionen för HCAII är att katalysera omvandlingen av gasen koldioxid till vätekarbonat, som är löslig i vätska. READ MORE
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19. Modelling biomolecular interactions
Abstract : Computational approaches for understanding and aiding in molecular biology has increased in significance over the last decades, where a wealth of biochemical experiments have provided a solid ground for developing computer models that can be used to predict unresolved issues within biology. Molecular dynamics (MD) is one of these methods, based on classical laws, and suitable for handling large macromolecules in their natural environment, water. READ MORE
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20. Iron in Haem Biosynthesis. Structural Studies of Ferrochelatase and Frataxin
Abstract : Ferrochelatase catalyses the synthesis of heme by inserting Fe(II) into protoporphyrin IX. The structure of ferrochelatase from yeast has been determined (2.4 Å). The structure is homodimeric with each of the monomer made up of two Rossmann type domains with an active-site cleft between them. READ MORE