Tetracycline CAS 60-54-8: Properties, Applications, and Manufacturer Insights
Discover the multifaceted world of Tetracycline, a vital antibiotic with a rich history and diverse applications.
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Tetracycline
Tetracycline is a broad-spectrum antibiotic that works by inhibiting protein synthesis in bacteria. It has been a cornerstone in treating various bacterial infections, including acne, cholera, brucellosis, plague, malaria, and syphilis. Its utility extends to research, where it's employed in gene expression control and the study of antibiotic resistance mechanisms.
- Tetracycline CAS 60-54-8 applications include its use as a critical agent in managing bacterial infections like acne and respiratory tract infections.
- The Tetracycline antibiotic mechanism of action involves binding to the 30S ribosomal subunit, thereby halting bacterial protein synthesis.
- Understanding Tetracycline side effects teeth is crucial, as it can cause permanent discoloration in developing teeth in children.
- For researchers, Tetracycline research uses are extensive, ranging from its role in genetic engineering systems to studying antibiotic resistance.
Key Advantages
Broad-Spectrum Efficacy
Tetracycline is highly effective against a wide array of bacterial genera, making it a versatile choice for treating various infections, a key aspect of its Tetracycline chemical properties.
Research Utility
Its role in Tetracycline research uses, such as controlling gene expression and investigating resistance pathways, highlights its importance in scientific advancement.
Historical Significance
The Tetracycline historical development showcases its enduring impact on medicine, evolving from its discovery to current applications.
Key Applications
Infection Treatment
Tetracycline is a vital antibiotic for treating a spectrum of bacterial infections, including acne and respiratory conditions, demonstrating its broad applicability.
Biomedical Research
As a valuable research chemical, Tetracycline is used to study bacterial resistance and control gene expression, contributing to scientific breakthroughs.
Pharmaceutical Manufacturing
Its role as an active pharmaceutical ingredient (API) makes Tetracycline a key component in the production of various medications.
Drug Discovery
Studying Tetracycline's mechanism of action and resistance patterns aids in the development of new and improved antimicrobial agents.