Two FADH2 molecules are produced in the preparatory step of cellular respiration.
Ryan Seacrest
Approximately 34 ATP molecules are generated during the electron transport chain stage of cellular respiration. This is the highest number of ATP molecules produced in the entire process of cellular respiration, making it a crucial step in energy production for the cell.
72 molecules of ATP are produced .
During glycolysis, a net gain of two ATP molecules is produced per glucose molecule. In the citric acid cycle, a total of 2 ATP molecules are produced per glucose molecule. Finally, during oxidative phosphorylation, approximately 34 ATP molecules are produced per glucose molecule through the electron transport chain. This results in a total of about 38 ATP molecules gained per glucose molecule during cellular respiration.
2 molecules are produced
Two FADH2 molecules are produced in the preparatory step of cellular respiration.
Between 36-38
36 ATP molecules can be produced from a single molecule of glucose through the complete process of cellular respiration.
Theoratically 38 ATP molecules.Bv Many produce 36 ATP molecules.a
36 ATP molecules can be produced from a single molecule of glucose through the complete process of cellular respiration.
36 - 38 ATP from aerobic cellular respiration.
Ryan Seacrest
34 molecules
36 ATP are netted after all the stages of cell respiration
Approximately 36-38 ATP molecules are produced from one glucose molecule in aerobic cellular respiration. This process occurs in multiple stages, including glycolysis, the Krebs cycle, and oxidative phosphorylation, which collectively generate ATP through the electron transport chain.
During the anaerobic phase of cellular respiration, glycolysis occurs in the cytoplasm and produces a net of 2 molecules of ATP per glucose molecule. This process does not involve the production of molecules like in the citric acid cycle or electron transport chain.