Bacilysin, a potent dipeptide antibiotic, holds a significant place in both microbial ecology and biochemical research. Its production by the well-known bacterium Bacillus subtilis highlights the power of biotechnology in harnessing natural processes for scientific advancement. Understanding how this valuable compound is manufactured provides insight into the capabilities of microbial systems and the importance of reliable sourcing.

Bacillus subtilis is renowned for its ability to produce a wide array of secondary metabolites, including enzymes, antibiotics, and signaling molecules. Bacilysin, with its CAS number 1395-22-8, is one such important metabolite. The biotechnological production of Bacilysin typically involves controlled fermentation processes where specific strains of Bacillus subtilis are cultivated under optimized conditions to maximize yield. These processes require careful monitoring of parameters such as temperature, pH, nutrient availability, and oxygen levels to ensure efficient biosynthesis of the target compound.

The significance of Bacilysin as a metabolite extends beyond its antibiotic properties; it offers researchers a window into the complex biochemical pathways of Bacillus subtilis. Studying its production can reveal insights into microbial competition, survival strategies, and the regulation of gene expression. For scientists looking to buy Bacilysin for research, understanding its origin as a natural product adds another layer of appreciation for its biological role.

Manufacturers, especially those in China, play a crucial role in making Bacilysin accessible to the global research community. Through advanced fermentation and purification techniques, they ensure that the Bacilysin supplied meets stringent quality standards. This focus on purity and consistency is vital, as the molecular formula (C12H18N2O5) and precise structure are key to its function as a glucosamine 6-phosphate synthase inhibitor. By providing high-grade Bacilysin CAS 1395-22-8, these biotechnological producers enable critical research in areas ranging from antibiotic development to fundamental microbiology.