Free glutamic acid can also be degraded to carbon dioxide and water or transformed into sugars. The carboxyl side chain of glutamic acid is able to act as a donor and acceptor of ammonia, which is toxic to the body, enabling the safe transport of ammonia to the liver where it is converted to urea and excreted by the kidneys. The monosodium salt of l-glutamic acid, monosodium glutamate (MSG) is commonly used as a condiment and flavor enhancer. Commonly found in animal proteins, only the l-stereoisomer occurs in mammalian proteins, which humans are able to synthesize from the common intermediate α-ketoglutaric acid. Glutamic acid was isolated from wheat gluten in 1866 and chemically synthesized in 1890. In humans, glutamine is synthesized from glutamic acid and this conversion step is vitally important in regulating the level of toxic ammonia in the body, forming urea and purines. Glutamine is the most abundant amino acid in our bodies and performs several important functions. Glutamine was first isolated from beet juice in 1883, isolated from a protein in 1932 and subsequently synthesized chemically the following year. Consequently, high levels of cystine build up in their urine where it crystallizes and forms stones that block the kidneys and bladder. People with the genetic condition cystinuria are unable to effectively reabsorb cystine into their bloodstream. Cysteine is made in the body from serine and methionine and only present in the l-stereoisomer in mammalian proteins. Two cysteine molecules linked together by a disulfide linkage make up the amino acid cystine, which is sometimes listed separately in common amino acid listings. The sulfur-containing thiol group in cysteine’s side chain is key to its properties, enabling the formation of disulfide bridges between two peptide chains (as with insulin) or loop formation within a single chain, impacting the final protein structure. Subsequently, it was chemically synthesized, and the structure solved in 1903–4. Cys amino acidĬysteine is particularly abundant in the proteins of hair, hooves, and the keratin of the skin, having been isolated from a urinary calculus in 1810 and from horn in 1899. The water solubility of this amino acid lends itself to the presence near the active sites of enzymes such as pepsin. Asp amino acidĭiscovered in proteins in 1868, aspartic acid is commonly found in animal proteins, however only the l-stereoisomer participates in the biosynthesis of proteins. Asparagine is important in the removal of toxic ammonia from the body. Only the l-stereoisomer participates in the biosynthesis of mammalian proteins. However, it wasn’t until 1932 that scientists were able to prove that asparagine occurred in proteins. In 1806, asparagine was purified from asparagus juice, making it the first amino acid to be isolated from a natural source. Although arginine is necessary for growth but not body maintenance, research has indicated that arginine is crucial to the wound-healing process, particularly in those with poor circulation. Arginine can also be produced synthetically, and arginine-related compounds can be used in treating people with liver dysfunction due to its role in promoting liver regeneration. It can then be converted into nitric oxide by the human body, a chemical known to relax blood vessels.ĭue to its vasodilatory effects, arginine has been put forward for the treatment of people with chronic heart failure, high cholesterol, compromised circulation and high blood pressure, although research on these fronts is still ongoing. In humans, arginine is produced when proteins are digested. Only the l-stereoisomer participates in the biosynthesis of proteins. Its low reactivity contributes to the simple, elongated structure of silk with few cross-links which gives the fibers strength, stretch resistance and flexibility. Discovered in protein in 1875, alanine makes up 30% of the residues in silk.
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