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

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## 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).