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Question
How many ATP does acetyl CoA produce?
How many ATP does acetyl CoA produce?
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Solution
Acetyl CoA:
- The tricarboxylic acid (TCA) cycle, commonly known as the Krebs or citric acid cycle, is the primary source of energy for cells and is an essential component of aerobic respiration.
- The cycle converts acetyl coenzyme A's (acetyl CoA) chemical energy into nicotinamide adenine dinucleotide's reducing power (NADH).
- During glycolysis, two molecules of pyruvates are produced.
- These two pyruvates combine to form two molecules of acetyl CoA, which are then recycled into the Krebs cycle.
- When isocitrate is converted to oxalosuccinate, NADH is produced.
- When ketoglutarate is converted to succinyl-CoA, one NADH is produced.
- When succinyl CoA is converted to succinic acid, 1 GTP is generated.
- When succinic acid is converted to fumaric acid, is generated.
- When malate is converted to oxaloacetate, NADH is produced.
Acetyl CoA:
- The tricarboxylic acid (TCA) cycle, commonly known as the Krebs or citric acid cycle, is the primary source of energy for cells and is an essential component of aerobic respiration.
- The cycle converts acetyl coenzyme A's (acetyl CoA) chemical energy into nicotinamide adenine dinucleotide's reducing power (NADH).
- During glycolysis, two molecules of pyruvates are produced.
- These two pyruvates combine to form two molecules of acetyl CoA, which are then recycled into the Krebs cycle.
- When isocitrate is converted to oxalosuccinate, NADH is produced.
- When ketoglutarate is converted to succinyl-CoA, one NADH is produced.
- When succinyl CoA is converted to succinic acid, 1 GTP is generated.
- When succinic acid is converted to fumaric acid, is generated.
- When malate is converted to oxaloacetate, NADH is produced.
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