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How is oxygen used in cell metabolism ? It is the final electron acceptor in the electron transport system . forms CO2 during decarboxylation . It is required for glycolysis . It is used to make acetyl CoA converts some amino acids to alpha ketogluterate .
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Oxygen plays a crucial role in cell metabolism through its involvement in various cellular processes. Here are some ways in which oxygen is used:
1. Final Electron Acceptor in Electron Transport Chain: In aerobic respiration, oxygen serves as the final electron acceptor in the electron transport chain, which is a series of protein complexes embedded in the mitochondrial inner membrane. This process generates ATP, the main energy currency of cells.
2. Formation of CO2 during Decarboxylation: Oxygen is involved in the process of decarboxylation, where carbon dioxide (CO2) is produced when carbon atoms are removed from organic molecules. This occurs during various metabolic reactions, such as the citric acid cycle (also known as the Krebs cycle) in cellular respiration.
3. Requirement for Glycolysis: Oxygen is not directly involved in glycolysis, which is the initial step of glucose metabolism. Glycolysis occurs in the cytoplasm of the cell and doesn't require oxygen. However, the presence of oxygen is important for the succeeding steps of cellular respiration, particularly to enable the complete oxidation of glucose and maximize ATP production.
4. Production of Acetyl CoA: Oxygen is needed for the conversion of pyruvate (a product of glycolysis) to acetyl CoA. This occurs in the mitochondria and is a crucial step before entering the citric acid cycle. Acetyl CoA is an important intermediate in energy production.
5. Conversion of Amino Acids to Alpha Ketoglutarate: Some amino acids can be metabolized in a process called transamination, which involves the transfer of amino groups. Oxygen is required for the conversion of certain amino acids to alpha ketoglutarate, an intermediate in the citric acid cycle.
In summary, oxygen is used as the final electron acceptor in the electron transport chain, aids in decarboxylation reactions to produce CO2, is required for the complete oxidation of glucose, is involved in the production of acetyl CoA, and plays a role in the metabolism of certain amino acids.
1. Final Electron Acceptor in Electron Transport Chain: In aerobic respiration, oxygen serves as the final electron acceptor in the electron transport chain, which is a series of protein complexes embedded in the mitochondrial inner membrane. This process generates ATP, the main energy currency of cells.
2. Formation of CO2 during Decarboxylation: Oxygen is involved in the process of decarboxylation, where carbon dioxide (CO2) is produced when carbon atoms are removed from organic molecules. This occurs during various metabolic reactions, such as the citric acid cycle (also known as the Krebs cycle) in cellular respiration.
3. Requirement for Glycolysis: Oxygen is not directly involved in glycolysis, which is the initial step of glucose metabolism. Glycolysis occurs in the cytoplasm of the cell and doesn't require oxygen. However, the presence of oxygen is important for the succeeding steps of cellular respiration, particularly to enable the complete oxidation of glucose and maximize ATP production.
4. Production of Acetyl CoA: Oxygen is needed for the conversion of pyruvate (a product of glycolysis) to acetyl CoA. This occurs in the mitochondria and is a crucial step before entering the citric acid cycle. Acetyl CoA is an important intermediate in energy production.
5. Conversion of Amino Acids to Alpha Ketoglutarate: Some amino acids can be metabolized in a process called transamination, which involves the transfer of amino groups. Oxygen is required for the conversion of certain amino acids to alpha ketoglutarate, an intermediate in the citric acid cycle.
In summary, oxygen is used as the final electron acceptor in the electron transport chain, aids in decarboxylation reactions to produce CO2, is required for the complete oxidation of glucose, is involved in the production of acetyl CoA, and plays a role in the metabolism of certain amino acids.