Tetracycline, identified by its CAS number 60-54-8, is a compound with a profound impact on human health and scientific discovery. As a widely recognized antibiotic, its utility spans from treating common infections to enabling complex biological research.

The intrinsic Tetracycline chemical properties are key to its functionality. Typically appearing as a yellow crystalline powder, it possesses specific solubility characteristics that are vital for its formulation and application in both medicinal and laboratory contexts. Its molecular structure, a tetracyclic nucleus, dictates its interaction with biological targets.

In medicine, Tetracycline is a critical agent for treating a range of bacterial infections. Its broad-spectrum activity allows it to combat pathogens responsible for conditions like acne, cholera, and various respiratory and sexually transmitted infections. The effectiveness of Tetracycline in these diverse scenarios underscores its importance in clinical practice. However, the discussion of Tetracycline side effects teeth remains a significant aspect of its profile, particularly regarding its impact on pediatric dental development, necessitating careful administration guidance.

Beyond its therapeutic roles, Tetracycline is extensively utilized in scientific research. The Tetracycline research uses are varied, including its application in molecular biology to control gene expression and in microbiology to investigate bacterial resistance mechanisms. The compound's predictable behavior and interactions make it a valuable tool for advancing our understanding of cellular processes and developing new antimicrobial strategies.

The Tetracycline historical development and ongoing research into its various properties, including its non-antibiotic effects, continue to reveal its significance. Manufacturers provide detailed information on its purity and handling, supporting its consistent use in diverse scientific and medical applications.

In summary, Tetracycline (CAS 60-54-8) stands as a compound of immense importance, bridging the gap between clinical treatment and scientific exploration. Its detailed chemical and biological profile continues to inform its application and inspire further research.