Tetracycline, a well-established antibiotic identified by CAS number 60-54-8, remains a significant compound in both clinical practice and scientific research. Its broad-spectrum efficacy and diverse applications highlight its enduring importance.

The therapeutic utility of Tetracycline is extensive, addressing a wide range of bacterial infections. Its applications include the treatment of acne, cholera, and various rickettsial and spirochetal diseases. The Tetracycline applications are well-documented, and its effectiveness has made it a staple in many treatment protocols. However, the potential for Tetracycline side effects teeth, particularly in developing dentition, means that its use requires careful consideration, especially in younger populations.

From a research perspective, Tetracycline offers significant value. The Tetracycline research uses are broad, encompassing its role in molecular biology for gene regulation systems and its application in studying bacterial resistance mechanisms. Understanding how bacteria develop resistance to Tetracycline provides crucial insights for developing new antimicrobial strategies and combating the growing threat of multidrug-resistant organisms.

The foundational Tetracycline chemical properties, such as its crystalline nature and solubility, are thoroughly understood and documented by manufacturers. This information is essential for its accurate use in scientific experiments and pharmaceutical production. The Tetracycline historical development further contextualizes its importance, illustrating the evolution of antibiotic therapy and the impact of scientific advancements.

In summary, Tetracycline (CAS 60-54-8) is a compound with a rich history and a dynamic present. Its therapeutic roles, coupled with its extensive research potential, solidify its position as a critical agent in both healthcare and scientific exploration. The ongoing study of its various facets continues to reveal new insights and applications.