Search for dissertations about: "protein F1"
Showing result 1 - 5 of 24 swedish dissertations containing the words protein F1.
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1. Pathogen-host interactions at the surface of Streptococcus pyogenes
Abstract : The bacterial surface can be thought of as the interface where pathogenic bacteria encounter the human host. Interactions between bacterial surface proteins and human proteins are important determinants of the eventual outcome of infection. READ MORE
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2. Engineering of staphylococcal surfaces for biotechnological applications
Abstract : The engineering of bacterial surfaces has in recent yearsattracted a lot of attention with applications in manydifferent areas of bioscience. Here we describe the use of twodifferent surface display systems for the gram-positivebacteria Staphylococcus carnosus and Staphylococcus xylosus invarious biotechnological applications. READ MORE
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3. Gene fusion in protein engineering : design of novel peptides and bifunctional enzymes
Abstract : The gene fusion technique is widely used in protein engineering and in this thesis it constitutes the basis of both the construction of artificial bifunctional enzymes and the display of two novel peptides. Artificial bifunctional enzymes have been used as model systems in the studies of native multifunctional enzymes and proximity effects within these complexes. READ MORE
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4. F F₁-ATPase of plant mitochondria : purification and characterization of the structural and functional properties of the individual subunits
Abstract : Plant leaf cells constitute a unique system in which both mitochondria and chloroplasts are responsible for energy conversion. In both organelles, ATP synthase is responsible for the synthesis of ATP from ADP and Pi in a process coupled to an electron transfer chain. READ MORE
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5. Pro- and anticoagulant mechanisms in coronary artery disease. Clinical studies on factor VII and resistance to activated protein C
Abstract : The triggering mechanism in myocardial infarction (MI) and unstable angina involves coronary thrombus formation following plaque rupture. Coagulation is initiated by tissue factor that activates factor VII (FVII), and is inhibited by protein C and its co-factor protein S. READ MORE