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The product
A product is the result of multiplying two numbers, "the product of six" is meaningless.
The product refers to the answer. 2 X 8 = 16 16 is the product
"Product" is a binary operation. You cannot have a product of 3: it has to be the product of 3 and another number.
When proteins undergo deamination, the resulting nitrogen-containing waste product is ammonia. Ammonia is converted into urea in the liver, and then excreted in the urine.
Deamination is the process by which amino groups are removed from proteins. This process typically occurs in the liver during the metabolism of proteins.
The process of cleaving off the amino group from an amino acid is called deamination. This reaction results in the formation of ammonia (NH3) and a keto acid. Deamination can occur through different pathways in the body, such as in the liver during amino acid metabolism.
Deamination is the process by which an amino group is removed from a molecule.
mitochondria
Deamination is the removal of an amino group and its value to a microbe is that it allows the amino acid to be used as a carbon and energy source.
deamination, the removal of the amino group from an amino acid. This is often accomplished by transamination. The amino group is transferred from an amino acid to an -keto acid acceptor. The organic acid resulting from deamination can be converted to pyruvate, acetyl-CoA, or a TCA cycle intermediate and eventually oxidized in the TCA cycle to release energy. It also can be used as a source of carbon for the synthesis of cell constituents. Excess nitrogen from deamination may be excreted as ammonium ion, thus making the medium alkaline.
Deamination and decarboxylation reactions are both types of organic transformations in which a functional group is removed from a molecule. Deamination involves the removal of an amino group (-NH2), while decarboxylation involves the removal of a carboxyl group (-COOH). Both reactions are important in various metabolic pathways in living organisms.
Deamination
Oxidative deamination is started in the liver as part of the Krebs cycle process. This produces ammonia which must be secreted from the body as urea and urine.
The deamination of amino acids produces ammonia (NH3) and a keto acid. This process is important for the removal of excess nitrogen from the body, which can be toxic if levels become too high.
Glutamate dehydrogenase an mitochondrial enzyme helps in oxidative deamination of glutamate It helps to take out the ammonium group from glutamate to make it available for urea synthesis