Glycolysis
- Glycolysis is the breakdown of glucose to pyruvate in the cytoplasm.
- ATP is required for the phosphorylation of glucose and intermediates during the energy investment phase of glycolysis.
- This leads to the generation of more ATP during the energy pay-off stage and results in a net gain of ATP.
- In aerobic conditions pyruvate is broken down to an acetyl group that combines with coenzyme A forming acetyl coenzyme A.
Citric Acid Cycle
- In the citric acid cycle the acetyl group from acetyl coenzyme A combines with oxaloacetate to form citrate.
- During a series of enzyme controlled steps, citrate is gradually converted back into oxaloacetate which results in the generation of ATP and release of carbon dioxide.
- The citric acid cycle occurs in the matrix of the mitochondria.
- Dehydrogenase enzymes remove hydrogen ions and electrons and pass them to the coenzyme NAD, forming NADH.
- This occurs in both glycolysis and the citric acid cycle.
- The hydrogen ions and electrons from NADH are passed to the electron transport chain on the inner mitochondrial membrane.
The Electron Transport Chain and ATP synthesis
- The electron transport chain is a series of carrier proteins attached to the inner mitochondrial membrane.
ATP synthesis
- Electrons are passed along the electron transport chain releasing energy.
- This energy allows hydrogen ions to be pumped across the inner mitochondrial membrane.
- The flow of these ions back through the membrane protein ATP synthase results in the production of ATP.
- Finally, hydrogen ions and electrons combine with oxygen to form water.
