Gamma Polyglutamic Acid Market – Size, Share, Outlook, and Opportunity Analysis, 2018–2025
Polyglutamic acid is a bipolymer of the amino acid glutamic acid. In gamma polyglutamic acid, peptide bonds are between amino group of glutamic acid and the carboxyl group at the end of the glutamic acid side chain. It is formed by bacterial fermentation by Bacillus subtilis using glutamic acid and is a major constituent of the Japanese food, natto. Gamma polyglutamic acid has wide range of applications from food, medicine to water treatment. It has non-toxic, edible, film-forming, adhesive, and moisture retention properties and can be used as drug carrier and bio-adhesive material. Gamma polyglutamic acid has been widely used in pharmaceutical, cosmetics, food, agriculture, and sewage treatment industries. Request For Sample Copy of this Research Report : https://www.coherentmarketinsights.com/insight/request-sample/1882 Gamma polyglutamic acid is used in agriculture industry for increasing quality and quantity of plants, for soil improvement, and seed-coat, and to enhance fertilizer utilization. It can be made into hydrogel, which has an excellent water-binding ability, and can absorb water up to 3,500 times of its weight. Hence, it proves itself as excellent for agricultural and environmental applications. Good water solubility, strong water retention, smooth to skin, and non-greasy properties of gamma polyglutamic acid make it appropriate for application in the cosmetics industry. It is used in hygiene products such as baby diapers and women’s tampons as an absorbent. Such multiple applications of gamma polyglutamic acid are expected to aid in growth of the gamma polyglutamic acid market size across the globe. Market Dynamics Major driver for gamma polyglutamic acid market growth is high demand from the pharmaceutical industries. This is increasingly being used as a drug delivery system in cancer treatment. The research is underway for its application in a treatment of type I diabetes and its potential use in the production of an AIDS vaccine. Gamma polyglutamic acid vectors are useful for effective and safe gene therapy. It facilitates