104k views
3 votes
The classical point of view is that, during mitochondrial respiration, three ATP molecules can be generated from one molecule of NADH H and only two from FADH2. When factoring in the cytosolic NADH H , the maximum number of molecules of ATP per glucose generated by the electron transport system is _____.

1 Answer

1 vote

Answer:

38

Step-by-step explanation:

In eukaryotic cells, the maximum production of ATP molecules generated per glucose molecule during cellular respiration is 38, i.e., 2 ATP molecules from glycolysis, 2 ATP molecules from the Krebs cycle, and 34 ATP molecules from the Electron Transport Chain (ETC). In vivo (i.e., in the cell), this number is not reached because there is an energy cost associated with the movement of pyruvate (CH3COCOO−) and adenosine diphosphate (ADP) into the mitochondrial matrix, thereby the predicted yield is approximately 30 ATP molecules per glucose molecule. In aerobic bacteria, aerobic respiration of glucose occurs in the cytoplasm (since bacteria do not contain membrane-bound organelles such as mitochondria), and thereby, in this case, it is expected that aerobic respiration using glucose yields 38 ATP per glucose molecule.

User KickinMhl
by
5.2k points