You asked: How many moles of ATP are produced in glycolysis?

Does glycolysis make 38 ATP?

As a result, between 1 and 2 ATP are generated from these NADH. … In eukaryotic cells, the theoretical maximum yield of ATP generated per glucose is 36 to 38, depending on how the 2 NADH generated in the cytoplasm during glycolysis enter the mitochondria and whether the resulting yield is 2 or 3 ATP per NADH.

Why is it 36 or 38 ATP?

If you use the phosphero-glycerol shuttle you get 36 ATP (trades cytoplasmic NADH for mitochondrial FADH2). NADH yields ~ 3 ATP thats why you get 38 if you use the malate shuttle. FADH2 yields ~ 2 ATP thats why you get 36 if you use the phosphero-glycerol shuttle.

How many ATP are produced from nadh2?

1 ATP is synthesized using 4 protons; approximately 3 ATPs are produced from one $NAD{H_2}$ molecule. Hence, the correct answer is option (C), That is one molecule of $NAD{H_2}$​ on oxidation yields 3 ATP molecules.

How is 34 ATP produced?

The Krebs cycle takes place inside the mitochondria. The Krebs cycle produces the CO2 that you breath out. This stage produces most of the energy ( 34 ATP molecules, compared to only 2 ATP for glycolysis and 2 ATP for Krebs cycle). The electron transport chain takes place in the mitochondria.

How many moles of NADH are produced in glycolysis?

Question: From one mole of glucose, glycolysis produces two moles of pyruvate. The CAC produces 4 moles of NADH from one mole of pyruvate. 118 moles of NADH are produced by the Citric Acid Cycle (CAC).

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How is ATP produced in glycolysis?

Glycolysis produces energy through the form of ATP. ATP is created directly from glycolysis through the process of substrate-level phosphorylation (SLP) and indirectly by oxidative phosporylation (OP).