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How many ATP molecules are used to complete one run of the Calvin Cycle and produce 1 glucose molecule?
One turn of the Calvin cycle requires 3 ATP with an addition of 2 NADPH. However, to produce 1 glucose molecule requires 6 turns of the Calvin cycle.
3 ATP per turn X 6 turns = 18 ATP Total
2 NADPH per turn X 6 turns = 12 NADPH Total
Reference: Biochemistry, A short course by Tymoczko, Berg, Stryer. Page 354
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How many molecules of G3P are required to produce one molecule of glucose?
To produce one molecule of glucose, six molecules of G3P are required.
What is the maximum number of ATP produced from the complete oxidation of 3 molecules of glucose?
The complete oxidation of one molecule of glucose produces 36-38 ATP. Therefore, the complete oxidation of 3 molecules of glucose would produce 108-114 ATP in total.
How many molecules of G3P made during the Calvin cycle are required to produce one molecule of glucose?
Six molecules of G3P are required to produce one molecule of glucose during the Calvin cycle.
How many ATP molecules can the cell produce from a single molecule of glucose through the glycolysis?
The cell can produce a net gain of 2 ATP molecules from a single molecule of glucose through the process of glycolysis. This occurs during the conversion of glucose to pyruvate.
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 molecules of G3P are required to produce one molecule of glucose?
To produce one molecule of glucose, six molecules of G3P are required.
How many ATP molecules can the cell produce from a single molecules of glucose through the complete process of cellular respiration?
36 ATP molecules can be produced from a single molecule of glucose through the complete process of cellular respiration.
How many ATP molecules can the cell produce from a single cell of glucose through the complete process of cellular respiration?
36 ATP molecules can be produced from a single molecule of glucose through the complete process of cellular respiration.
What is the maximum number of ATP produced from the complete oxidation of 3 molecules of glucose?
The complete oxidation of one molecule of glucose produces 36-38 ATP. Therefore, the complete oxidation of 3 molecules of glucose would produce 108-114 ATP in total.
How many molecules of G3P made during the Calvin cycle are required to produce one molecule of glucose?
Six molecules of G3P are required to produce one molecule of glucose during the Calvin cycle.
How many carbon molecules are required to produce one glucose molecule?
6
How many ATP molecules can the cell produce from a single molecule of glucose through the glycolysis?
The cell can produce a net gain of 2 ATP molecules from a single molecule of glucose through the process of glycolysis. This occurs during the conversion of glucose to pyruvate.
How many molecules of CO2 are needed to produce 1 molecule of glucose (C6H12O6)?
3.
Cellular respiration uses 1 molecule of glucose to produce what?
2 atp molecules
How many pyruvates would 3 molecules of glucose produce?
Each glucose molecule produces 2 pyruvate molecules so 3 glucose will make 3*2=6 pyruvate molecules.
How many molecules of radioactive alcohol are formed from each molecule of glucose?
One molecule of glucose can produce 2 molecules of radioactive alcohol through the process of fermentation, where glucose is converted into ethanol and carbon dioxide by yeast.
How many molecules of glucose are needed to make 300 molecules of ATP in aerobic respiration?
Approximately 288 molecules of glucose are needed to produce 300 molecules of ATP in aerobic respiration. This is because one molecule of glucose yields around 36-38 molecules of ATP through glycolysis, Krebs cycle, and oxidative phosphorylation in the mitochondria.
