Microbial Poly-(glutamic acid): Production, Biosynthesis, Properties, and Their Applications in the Food and Biomedicals

This review offers an in-depth analysis of microbial γ-poly-glutamic acid (γ-PGA), highlighting its production, biosynthetic pathways, unique properties, and extensive applications in the food and health industries. γ-PGA is a naturally occurring biopolymer synthesized by various microorganisms, particularly species of Bacillus. The report delves into the challenges and advancements in cost-effective production strategies, addressing the economic constraints associated with large-scale γ-PGA synthesis. Its biocompatibility, biodegradability, and non-toxic nature make it a promising candidate for diverse industrial applications. In the food industry, γ-PGA's exceptional water-holding capacity and humectant properties are key to its utility. These features enable it to enhance the stability, viscosity, and shelf life of food products, making it a valuable ingredient in processed foods. The review highlights its ability to improve the textural quality of baked goods, stabilize emulsions, and act as a protective agent against staling. Beyond food applications, γ-PGA's role in health and pharmaceuticals is equally significant. Its use as a drug delivery carrier, vaccine adjuvant, and biofilm inhibitor underscores its potential in advanced healthcare solutions.