Citric acid cycle
Definition
The citric acid cycle, also known as the TCA cycle (TCA = tricarboxylic citric acid) or the Krebs cycle, is a series of chemical reactions that occur inside the cell that is part of the process of respiration to generate energy (both aerobic respiration and anaerobic respiration). In eukaryotic cells, this cycle occurs inside the mitochondrion, whereas in prokaryotic cells, this cycle occurs directly within the cytoplasm.
Summary
| Item | Value |
|---|---|
| Type of organisms in which the citric acid cycle occurs | All organisms that carry out cellular respiration, whether aerobic or anaerobic; in particular this includes all eukaryotes and many prokaryotes. |
| Type of cells within the organism that undergo the citric acid cycle | Prokaryotes are unicellular, so if the organism supports the citric acid cycle, its only cell will. In eukaryotes, all cells that contain mitochondria support the citric acid cycle. |
| Places in the cell where the citric acid cycle occurs | In eukaryotic cells, this cycle (as well as the immediate preceding step to it, namely pyruvate decarboxylation) occurs inside the mitochondrion, whereas in prokaryotic cells, this cycle occurs directly within the cytoplasm. |
| Substrate (input or reactant) for the process | Acetyl-CoA, that in turn is obtained from pyruvic acid via pyruvate decarboxylation; the pyruvic acid in turn is generated as an output of glycolysis in the cytosol. There are also various other intermediates that mainly change in terms of oxidation states, protons, or phosphates. The intermediates are produced through glycolysis. |
| Products of the process | Coenzyme A, carbon dioxide, and updated versions of the intermediates. For the most part this sort of cancels out the changes made during glycolysis. |
| Energy change | The process releases energy (how much?). The released energy is stored chemically by converting ADP to ATP or by converting GDP into GTP. |