Search for dissertations about: "Protein C: metabolism"
Showing result 1 - 5 of 173 swedish dissertations containing the words Protein C: metabolism.
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1. Structure-Function Studies of Enzymes from Ribose Metabolism
Abstract : In the pentose phosphate pathway, carbohydrates such as glucose and ribose are degraded with production of reductive power and energy. Another important function is to produce essential pentoses, such as ribose 5-phosphate, which later can be used in biosynthesis of nucleic acids and cofactors. READ MORE
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2. Pyridine Nucleotides in Plant Mitochondria. Amounts, metabolism and contribution to electron transport
Abstract : HPLC analysis was used for direct quantification of amounts and redox levels of pyridine nucleotides in plant mitochondria. The amount of NAD(H) and NADP+ varied, 1.0-3.7 and 0-0. READ MORE
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3. Genetically determined interindividual variation in cytochrome P450 dependent drug metabolism : molecular basis and clinical implications
Abstract : Pharmacogenetics is the study of genetic variation that causes variation in drug levels (pharmacokinetics), drug response (pharmacodynamics) and adverse drug reactions. Pharmacogenetics aims at identifying biomarkers that allows a personalized drug treatment and thereby increased drug efficacy and reduced occurrence of adverse drug reactions. READ MORE
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4. Interaction of Triglyceride-rich Lipoproteins with Platelets and Vitamin K-dependent Coagulation Factors
Abstract : 1. During incubation of platelets with 3H-arachidonic acid (20:4, n-6) and 14C-cholesterol doubly labelled and colloidal gold labelled chylomicrons (CMs) and chylomicron remnants (CMRs) CMs were taken up more efficiently than CMRs. Addition of unlabelled CMs, VLDLs, LDLs and HDLs decreased the uptake of labelled CMs. READ MORE
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5. On the antiporter-like subunits of respiratory chain Complex I - implications for the evolution and coupling mechanism of the NADH:quinone oxidoreductase enzyme complex
Abstract : Complex I or NADH:quinone oxidoreductase is the largest enzyme complex, but the least understood energy coupling site in the respiratory chain of mitochondria and bacteria. No high-resolution structural information exists for this enzyme and the molecular mechanism that couples electron transfer and proton pumping is not understood. READ MORE