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Each acetyl co-enzyme A proceeded once through the citric acid cycle. Therefore, in total, it created 6 NADU + H+ molecules, two FADDISH molecules, four carbon dioxide molecules, and two ATP molecules.
The product of the Krebs cycle, called the citric acid cycle, is the second major step in oxidative phosphorylation. After glycolysis breaks glucose into smaller 3-carbon molecules, the Krebs cycle transfers the energy from these molecules to electron carriers, which will be used in the electron transport chain to produce ATP.
- Most organisms use glucose as a major fuel source but must break down this glucose and store the energy in ATP and other molecules. The Krebs cycle is contained within mitochondria. Within the mitochondrial matrix, the reactions of the Krebs cycle add electrons and protons to several electron carriers, which are then used by the electron transport chain to produce ATP.
- The Krebs cycle starts with the products of glycolysis, which are two three-carbon molecules known as pyruvate. This molecule is acidic, which is why the Krebs cycle is also called the tricarboxylic acid cycle (TCA). Throughout several reactions, these molecules are further broken down into carbon dioxide. Energy from the molecules is moved to other molecules, called electron carriers. These molecules carry the stored energy to the electron transport chain, which in turn creates ATP.
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