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The efficiency of glycolysis would remain the same regardless of the number of ATP molecules produced because efficiency is calculated based on the ratio of ATP molecules produced to glucose molecules consumed. Increasing the number of ATP molecules produced would not affect this ratio, therefore the efficiency would stay constant.
No. ATP is produced mainly in mitochondria, or in the cytoplasm. Proteins are produced by ribosomes.
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The net number of ATP molecules produced from the complete oxidation of lauric acid (C12:0) is approximately 106 ATP molecules. This is based on the beta-oxidation process that occurs in the mitochondria, generating ATP through the electron transport chain and oxidative phosphorylation.
The energy stored in 36 ATP molecules produced by aerobic respiration is equal to 39% of the energy available in six carbon glucose.
ATP production from carbon-based molecules varies based on the number of high-energy bonds available for conversion. For example, glucose yields more ATP through cellular respiration compared to fatty acids. This is due to the different pathways involved in their metabolism and the number of carbon atoms available for oxidation.
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The efficiency of glycolysis would remain the same regardless of the number of ATP molecules produced because efficiency is calculated based on the ratio of ATP molecules produced to glucose molecules consumed. Increasing the number of ATP molecules produced would not affect this ratio, therefore the efficiency would stay constant.
The actual number of ATP produced from the complete oxidation of one molecule of glucose is around 30-32 ATP molecules. This includes ATP generated through glycolysis, the Krebs cycle, and oxidative phosphorylation in the mitochondria.
No. ATP is produced mainly in mitochondria, or in the cytoplasm. Proteins are produced by ribosomes.
When ATP is hydrolyzed ADP and a phosphate group are produced.
The maximum number of ATP molecules that can be produced from each glucose molecule in aerobic respiration is 36-38 ATP molecules. This occurs through glycolysis, the citric acid cycle, and the electron transport chain.
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ATP is produced in mitochondria.
The greatest number of ATP molecules is produced in the electron transport chain during cellular respiration. This process occurs in the inner mitochondrial membrane and results in the production of up to 34 ATP molecules per glucose molecule.
To calculate the number of ATP molecules produced by aerobic respiration, you can use the theoretical yield of ATP per glucose molecule, which is 36-38 ATP. This range accounts for the energy produced through glycolysis, the citric acid cycle, and oxidative phosphorylation. Keep in mind that actual yield may vary depending on factors like efficiency of the electron transport chain.
The net number of ATP molecules produced from the complete oxidation of lauric acid (C12:0) is approximately 106 ATP molecules. This is based on the beta-oxidation process that occurs in the mitochondria, generating ATP through the electron transport chain and oxidative phosphorylation.