Bacilysin CAS 1395-22-8: Potent Antibacterial Dipeptide for Research Applications
Discover the unique antibacterial properties of Bacilysin, a critical dipeptide metabolite produced by Bacillus subtilis, ideal for advanced scientific research and development.
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Bacilysin
Bacilysin is a significant dipeptide antibiotic, scientifically identified by CAS number 1395-22-8. Produced by strains of Bacillus subtilis, it showcases potent activity against a spectrum of Gram-positive bacteria, including Staphylococcus aureus and Dryness bacillus. Its mechanism of action involves the inhibition of glucosamine 6-phosphate synthase, making it a valuable tool for researchers studying bacterial pathways and developing novel antimicrobial strategies. As a key metabolite, Bacilysin is increasingly sought after by institutions and companies for in-vitro research and development. We pride ourselves on being a reliable supplier in China, offering high-purity Bacilysin to meet your demanding research needs.
- Explore the intricate mechanism of action of Bacilysin, focusing on its role as a glucosamine 6-phosphate synthase inhibitor in antibacterial research.
- Investigate the production of Bacilysin by Bacillus subtilis and understand its significance as a microbial metabolite in scientific studies.
- Utilize Bacilysin CAS 1395-22-8 for your advanced laboratory work, ensuring high quality and purity for reliable experimental outcomes.
- Discover the potential of Bacilysin as a research chemical, aiding in the development of new antimicrobial agents and understanding bacterial resistance.
Advantages of Bacilysin
Targeted Antibacterial Action
Leverage Bacilysin's specific inhibition of glucosamine 6-phosphate synthase, a crucial enzyme for bacterial cell wall synthesis, for precise research applications and the development of targeted antimicrobial strategies.
High-Purity Research Grade
Source premium quality Bacilysin, guaranteed for its purity, ensuring consistent and reproducible results in your laboratory experiments, essential for advancing scientific understanding.
Bacterial Metabolite Research
Incorporate Bacilysin into your research to study microbial metabolites and their biological roles, gaining deeper insights into bacterial physiology and ecology. Understanding microbial metabolites is key to unlocking new therapeutic avenues.
Key Applications
Antibacterial Research
Utilize Bacilysin as a vital tool in antibacterial research, investigating mechanisms of action and developing novel therapeutic agents against resistant bacterial strains.
Metabolite Studies
Explore the role of Bacilysin as a microbial metabolite, contributing to a broader understanding of biochemical pathways and the secondary metabolism of microorganisms.
Drug Discovery & Development
Investigate Bacilysin as a lead compound or reference material in the discovery and development of new drugs targeting bacterial infections, leveraging its known biological activity.
Biochemical Assays
Employ Bacilysin in biochemical assays to study enzyme inhibition, particularly targeting glucosamine 6-phosphate synthase, aiding in mechanistic studies and inhibitor screening.