Unlocking the Potential of 7-Chloro-6-Demethyltetracycline Hydrochloride
A deep dive into a vital pharmaceutical raw material for your research and development needs.
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7-Chloro-6-Demethyltetracycline Hydrochloride
This critical pharmaceutical raw material, identified by CAS 64-73-3, is a key component in the development of various therapeutic agents. Its unique chemical structure and properties make it a valuable antibiotic and a subject of interest for its role in managing conditions like SIADH.
- Explore the efficacy of this antibiotic raw material powder for your formulations.
- Discover why 7-Chloro-6-Demethyltetracycline Hydrochloride is a preferred pharmaceutical intermediate in the market.
- Learn about the meticulous synthesis and quality control associated with this CAS 64-73-3 compound.
- Understand the implications of buy 7-Chloro-6-Demethyltetracycline Hydrochloride for your chemical synthesis projects.
Key Advantages and Features
Broad-Spectrum Antibacterial Activity
Leverage the proven effectiveness of this 7-Chloro-6-Demethyltetracycline Hydrochloride as a broad-spectrum antibiotic, crucial for combating a wide range of bacterial infections.
Therapeutic Versatility
Investigate the potential of this pharmaceutical raw material in managing complex conditions, extending its application beyond primary antibacterial uses.
Chemical Stability
Benefit from the inherent stability of this tetracycline derivative, making it more resilient against degradation compared to other related compounds, a key aspect when you buy 7-Chloro-6-Demethyltetracycline Hydrochloride.
Key Applications
Antibiotic Formulations
As a potent antibiotic raw material powder, it is essential for creating effective treatments for bacterial infections, a core area for pharmaceutical intermediate sourcing.
SIADH Management
Its unique ability to induce nephrogenic diabetes insipidus makes it a valuable agent in treating Syndrome of Inappropriate Antidiuretic Hormone secretion.
Chemical Research and Synthesis
For researchers focused on chemical synthesis, this compound serves as a foundational element for developing novel pharmaceuticals and understanding tetracycline derivatives.
API Development
Essential for Active Pharmaceutical Ingredient (API) development, providing a reliable source for drug manufacturing and innovation.