glycolysis-Pyruvate-Aacetyl Co A-Krebs Cycle-Electron Transport Chain
The end product of the aerobic catabolism of glucose is pyruvic acid.
Catabolism is the breakdown of molecules into smaller units. The molecule that is common to the catabolism of fat and glucose is known as acetyl CoA.
Glucose catabolism provides energy for needed metabolic cellular processes.
The common pathway for oxidation of products of glucose and fatty acids catabolism is referred to as the b-oxidation pathway.
Catabolism refers to the breakdown of biological materials. For example, glycolysis breaks down glucose into two molecules of pyruvate.
When there is no glucose available. ie: starvation
Glycogen is a long branched chain of glucose so when catabolized it will be converted to glucose.
Saccharides are the compounds that can be converted to glucose by catabolism. More complex saccharides are starches, cellulose, and gums.
Glucose catabolism which includes Glycolysis, Krebs cycle and Electron Transport Chain
Gigantism leads to the development of hyperglycemia because of an overproduction of the growth hormone. Presence of the growth hormone causes a shift from preferred carbohydrate (glucose) catabolism to lipid catabolism. The glucose is then left in the blood resulting in hyperglycemia.
Both, as glucose is being reduced and at least two ATP are being oxidized.
80%