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How many Acetyl coenzyme A molecules are generated from one molecule of glucose?
Acetyl coenzyme A is produced twice from one molecule of glucose in the process of glycolysis and the citric acid cycle. Each glucose molecule is broken down into two molecules of pyruvate during glycolysis, and each pyruvate molecule is converted to one molecule of acetyl CoA before entering the citric acid cycle.
How many molecules of CO2 are released during the Krebs cycle?
For every molecule of pyruvate entering the Krebs cycle, 3 molecules of CO2 are released. Since each glucose molecule produces 2 molecules of pyruvate through glycolysis, the total number of CO2 molecules released per glucose molecule in the Krebs cycle is 6.
How many ATP molecules are produced by oxidative phosphorylation for each glucose that enters glycolysis?
Approximately 30-32 molecules of ATP are produced by oxidative phosphorylation for each glucose molecule that enters glycolysis.
What is the maximum number of ATP molecules that can be produced from each glucose molecule?
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.
How many Krebs cycle occur per glucose?
twice
Is any co2 produced during glycolysis?
No, carbon dioxide (CO2) is not produced during glycolysis. Glycolysis is the process by which glucose is broken down into pyruvate, and the carbon dioxide is not released until the pyruvate enters the citric acid cycle in aerobic respiration.
How many Acetyl coenzyme A molecules are generated from one molecule of glucose?
Acetyl coenzyme A is produced twice from one molecule of glucose in the process of glycolysis and the citric acid cycle. Each glucose molecule is broken down into two molecules of pyruvate during glycolysis, and each pyruvate molecule is converted to one molecule of acetyl CoA before entering the citric acid cycle.
How many glucose moleculeswere broken down if 2NADH molecules were produced?
If 2 NADH molecules were produced in glycolysis, it means that 1 glucose molecule was broken down. Each glucose molecule yields 2 NADH molecules during glycolysis.
For each molecule of glucose how many times does the Krebs cycle occur?
The Krebs cycle runs twice to break down one molecule of glucose.
How many molecules of CO2 are released during the Krebs cycle?
For every molecule of pyruvate entering the Krebs cycle, 3 molecules of CO2 are released. Since each glucose molecule produces 2 molecules of pyruvate through glycolysis, the total number of CO2 molecules released per glucose molecule in the Krebs cycle is 6.
How many ATP molecules are produced by oxidative phosphorylation for each glucose that enters glycolysis?
Approximately 30-32 molecules of ATP are produced by oxidative phosphorylation for each glucose molecule that enters glycolysis.
How many NAD molecules are needed for the breakdown of each glucose molecule?
Two NAD+ molecules are needed for the breakdown of each glucose molecule during glycolysis. NAD+ is reduced to NADH during certain reactions in glycolysis, allowing it to carry electrons to the electron transport chain for further energy production.
The preparatory reactions occur how many times for every glucose molecule?
It occurs 2x per glucose molecules.. But the thing is, I didn't know how that happen
How many acetate groups are produced from one glucose during cellular respiration?
Each glucose molecule is converted to two molecules of pyruvate through glycolysis. Each molecule of pyruvate can then be converted to 1 acetyl CoA for a total of 2 acetly groups from 1 glucose
What is the maximum number of ATP molecules that can be produced from each glucose molecule?
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.
How many Krebs cycle occur per glucose?
twice
How many times does the kreb cycle occur for each molecule of glucose consumed?
twice
