aerobic(36 ATP)
The actual yield of ATP from the complete oxidation of glucose in aerobic respiration is 30-32 molecules of ATP per molecule of glucose. This range accounts for the fact that the efficiency of ATP production can vary depending on cellular conditions.
The net ATP yield refers to the total number of ATP molecules produced during cellular respiration after accounting for the ATP consumed in the process. In aerobic respiration, the net yield is typically around 30 to 32 ATP molecules per glucose molecule, depending on the efficiency of the electron transport chain and the type of cell. In anaerobic conditions, such as fermentation, the yield is much lower, typically around 2 ATP per glucose molecule. This difference highlights the efficiency of aerobic metabolism compared to anaerobic pathways.
2
In prokaryotes, the breakdown of one molecule of glucose through glycolysis produces a net yield of 2 ATP molecules.
FADH yields 2 ATP .
Only two ATP is yield of Krebs cycle .
Two net molecules of ATP per fermentation cycle.
2 ATP
aerobic(36 ATP)
Gross yield of ATP during glycolysis: 4Net yield of ATP during glycolysis: 2 (anaerobic glycolysis of a glucose molecule took 2 ATP to accomplish so subtract 2 ATP from your gross yield of 4...therefore it's 2 for net yield).Kreb cycle: produces a total of 2ATP (one each time it happens and it happens twice).
2
The Krebs cycle generates 1 ATP molecule per turn through substrate-level phosphorylation. Due to the cycle occurring twice per glucose molecule, a total of 2 ATP molecules are produced per glucose molecule entering the cycle.
yes
Correct answer: 2
The theoretical ATP yield of aerobic respiration is 36-38 ATP molecules per glucose molecule. This occurs through a series of metabolic pathways such as glycolysis, the citric acid cycle, and oxidative phosphorylation in the mitochondria.
The actual yield of ATP from the complete oxidation of glucose in aerobic respiration is 30-32 molecules of ATP per molecule of glucose. This range accounts for the fact that the efficiency of ATP production can vary depending on cellular conditions.