BIOLOGICAL ROLE OF OXYGEN

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Presentation transcript:

BIOLOGICAL ROLE OF OXYGEN Carbohydrate metabolism for ATP Production (Mitochondria) Degradation of metabolic by-products by (Peroxisomes)

CELLULAR RESPIRATION Production of Reactive Oxygen Species

REACTIVE OXYGEN SPECIES (ROS) NADPH + O2 NADPH oxidase Superoxide (O2-.) Superoxide dismutase Hydrogen peroxide (H2O2) Myeloperoxidase Hypochlorite (HOCl) Fe2+ Catalase Hydroxyl radical (OH.) O2 + H2O

GENERATION OF REACTIVE OXYGEN SPECIES

GENERATION OF ROS AS METABOLIC BY-PRODUCTS

GENERATION OF ROS IN IMMUNE DEFENSES

OXIDATIVE DAMAGES

OXIDATIVE DAMAGE TO LIPIDS Increase membrane rigidity Reduce activity of membrane-bound enzyme Alter activity of membrane receptors Alter cell permeability

OXIDATIVE DAMAGE TO PROTEINS Site-specific amino acid modifications Fragmentation of peptide chain Aggregation of cross-linked reaction products Increased susceptibility to proteolysis Degradation of enzymes

OXIDATIVE DAMAGE TO NUCLEIC ACIDS Mutation Single strand breakage Nucleotide degradation Cross-linking to protein

ANTIOXIDANTS Enzymatic Antioxidants Non-Enzymatic Antioxidants Superoxide dismutase Catalysis the dismutation of superoxide to hydrogen peroxide. Catalase Catalysis the dismutation of superoxide to water and oxygen. Glutathione peroxidase Degradation of hydrogen peroxide Non-Enzymatic Antioxidants Vitamin E Trap peroxy radicals in cellular membranes. Vitamin C Reduce radicals from a variety of sources. Recycling of Vitamin E radicals. Glutathione Defense against reactive oxygen species.