Prof. Giorgio Sartor

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HOME Anthropology MARINE ORGANISMS Biomolecules Enzymes Membranes Proteins Biochemistry of pollutants Energy Lipids Metabolism Signal transduction Marine life Adaptation Enzymes & Proteins Molecules Eel (Anguilla anguilla) Bioluminescence Antifreeze proteins Marine toxins Marine inverebrates Cold adaptation CARBONIC ANHYDRASE Squalene Electric fishes Heat Shock Proteins Glycosidases Trimethylammonium Oxide Metabolic adaptation Proteases Urea and Urease Oxygen transport systems Lipases Shell formation Sulfur metabolism Environmentally Mediated Carbonic Anhydrase Induction in the Gills of Euryhaline Crustaceans Evidence for the Involvement of Carbonic Anhydrase and Urease in Calcium Carbonate Formation in the Gravity-Sensing Organ of Aplysia californica Hydrogen Bonds and the Catalytic Mechanism of Human Carbonic Anhydrase II Oxonase and Esterase Activities of Erythrocyte Carbonic Anhydrase Strain-Specific Ureolytic Microbial Calcium Carbonate Precipitation The Catalytic Mechanism of Carbonic Anhydrase The Catalytic Mechanism of Carbonic Anhydrase: Hydrogen-Isotope Effects on the Kinetic Parameters of the Human C Isoenzyme The effect of carbonic anhydrase, urea and urease on the calcium carbonate deposition in the shell-repair membrane of the snail, Helix pomatia L. Thermodynamics of Carbonic Anhydrase Catalysis: A Comparison Between Human Isoenzymes B and C The carbonic anhydrase domain protein nacrein is expressed in the epithelial cells of the mantle and acts as a negative regulator in calcification in the mollusc Pinctada fucata Archeology BIOCHEMISTRY Biology Chemistry Earth Sciences Medicine Physics Political Sciences Space Sciences Tools for sciences Books
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