Glutaric Acid Formula
Glutaric Acid Formula
The formula for Glutaric Acid Formula is an organic compound with five simple carbon linear dicarboxylic acids. It is also produced by the body during the metabolism of some amino acids, such as tryptophan and lysine. When Glutaric Acid Formula concentrations are high enough, it can act as a metatoxin and an acidogen.
The body naturally produces glutaric acid during the metabolism of some amino acids, such as tryptophan and lysine. Furthermore, defects in this metabolic pathway can result in glutaric aciduria, a condition in which toxic byproducts accumulate and cause severe encephalopathy.
Glutaric acid Formula Structure
Glutaric Acid Formula has the chemical formula C3H6(COOH)2. It is a five-carbon linear dicarboxylic acid with an alpha, omega-dicarboxylic acid.It also functions as a human metabolite and a Daphnia Magna metabolite. It is also the conjugate acid of glutarate(1-) and glutamate. It has a molecular mass of 132.12 g/mol.
Properties Of Glutaric acid Formula
It has the appearance of a colourless crystal or a white solid. Its boiling point is also 303oC or 200oC at 20 mmHg. Its melting point, on the other hand, ranges from 97.5 to 98oC. At room temperature, the related “linear” dicarboxylic acids adipic and succinic acids are only slightly soluble in water.
Glutaric acid, on the other hand, is water soluble and freely soluble in absolute alcohol, ether, benzene, chloroform, and sulfuric acid. It is, however, slightly soluble in petroleum ether. Its density is 1.4 g/cm3.
To learn more about Glutaric Acid Formula, students can refer to the resources offered by Extramarks. Extramarks provides various resources for the benefit of students. Students can download all the resources provided in PDF format from the website and mobile application of Extramarks.
Use Of Glutaric Acid
There are various uses of Glutaric Acid Formula. Some of the uses are given below:
By hydrogenation of glutamic acid and its derivatives, experts produce 1, 5-Pentanediol, a common plasticizer and precursor to polyesters. Furthermore, glutaric acid is used in the production of polymers such as polyamides and polyols.
Furthermore, the odd number of carbon atoms, 5, is very useful in decreasing polymer elasticity. Additionally, ammonia reacts with glutaric acid to produce Uvitonic acid.
