The electron transport chain makes the most ATP. It is the slowest of all processes, but makes 32 ATP.
electron transport chain
Alcohol fermentation
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.
Glycolysis produces a net gain of 2 ATP molecules for each reaction
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.
4, but two are used in the process, so there is a net gain of 2
Glycolysis produces 4 ATP but uses 2 ATP to start the process.
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.
The organism uses the process of alcohol fermentation to produce most of its ATP molecules.
Glycolysis produces a net gain of 2 ATP molecules for each reaction
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.
Glycolysis produces 4 ATP however it uses 2 ATP in the process so the net gain is only 2 ATP
Anerobic respiration
A process that involves the usage of ATP and glucose is glycolysis, which produces 2 pyruvates, 2 net ATP and 2 NADH molecules.
The Cell still produces ATP to energize itself, but it only produces enough ATP to re-do the process. I.E. the cell uses the two ATP molecules it produces anerobically to make two more
4, but two are used in the process, so there is a net gain of 2
Glycolysis produces 4 ATP's and 2 NADH, but uses 2 ATP's in the process for a net of 2 ATP and 2 NADH
there are a total of two molecules of ATP released.
The first step of fermentation is glycolysis, which produces a net gain of 2 molecules of ATP. Fermentation produces no additional ATP.