citric acid cycle
tricarboxylic acid cycle
Krebs cycle

The citric acid cycle is a part of cellular metabolism.

This reaction is very common in most organisms as a link to the citric acid cycle.

The citric acid cycle is always followed by oxidative phosphorylation.

This reaction is part of many metabolic pathways, including the citric acid cycle.

Oxoglutarate dehydrogenase is a key control point in the citric acid cycle.

Catabolism does not involve a complete citric acid cycle.

The citric acid cycle is an 8-step process involving different enzymes and co-enzymes.

Succinate plays a role in the citric acid cycle, an energy-yielding process.

Here he studied the metabolism of amino acids and the citric acid cycle.

This is also known as the citric acid cycle or Krebs cycle.

They often occur in biological systems: there are many examples in the citric acid cycle.

The malate anion is an intermediate in the citric acid cycle.

The succinyl-CoA formed can then enter the citric acid cycle.

Inhibits the aconitase step of the citric acid cycle.

Glutamate can also be produced by transamination of 2-oxoglutarate, an intermediate in the Citric acid cycle.

Succinate generated in the first step can enter into the citric acid cycle to eventually form oxaloacetate.

The product of this reaction, acetyl-CoA, is the starting point for the citric acid cycle.

The citric acid cycle is the third step in carbohydrate catabolism (the breakdown of sugars).

Once acetyl-CoA is formed it enters the normal citric acid cycle.

Citric acid cycle, which in turn leads to:

Oxalosuccinic acid is a substrate of the citric acid cycle.

The reaction catalyzed by this enzyme in the citric acid cycle is:

Additionally, the citric acid cycle is an autocatalytic cycle run in reverse.

Other decarboxylation reactions from the citric acid cycle include:

Szent-Györgyi concurrently elucidated much of the citric acid cycle.