One molecule of Glucose in Oxidative Phosphorylation.
Cellular Respiration
Electron transport system produces 34 Atp
2 ATP molecules are used to break the glucose molecule into two pyruvate molecules in the cytoplasm. Then the pyruvate travels to the mitochondria, where it is broken down further and produces 34 ATP molecules, which are used to power a cell.
Glycolysis produces a net gain of 2 ATP molecules for each reaction
34 ATP molecules per molecule of glucose.
Anaerobic respiration produces approximately 2 ATP per molecule of glucose. It actually produced four ATP molecules, but two are needed during the respiration process, giving a net of two ATP molecules.
In the first phase of glycolysis, the cell uses 2 ATP molecules. Then during the process of glycolysis, the cell produces 4 ATP molecules, making the net gain at 2 ATP molecules.
It produces 34 ATP's
34 ATP Molecules are produced
36-38 molecules of adenosine triphosphate (ATP) are produced from one molecule of glucose during aerobic respiration. 32-34 molecules of ATP are produced from the electron transport chain. Glycolysis produces 2 molecules of ATP. The Krebs cycle produces 2 molecules of ATP.
The majority of ATP production occurs during electron transport, which produces 34 ATP molecules per glucose molecule.
Many say that is 36 or 38 ATP but in reality it is actually 34 ATP.
The first step of fermentation is glycolysis, which produces a net gain of 2 molecules of ATP. Fermentation produces no additional ATP.
The first step of fermentation is glycolysis, which produces a net gain of 2 molecules of ATP. Fermentation produces no additional ATP.
It can vary with the mechanism used to shuttle NADH electrons into the mitochondrion.
2 ATP molecules are used to break the glucose molecule into two pyruvate molecules in the cytoplasm. Then the pyruvate travels to the mitochondria, where it is broken down further and produces 34 ATP molecules, which are used to power a cell.
Glycolysis produces a net gain of 2 ATP molecules for each reaction
34 ATP molecules per molecule of glucose.
32 - 34 molecules of ATP