The acridone scaffold is a captivating structural motif that has found extensive applications across various scientific disciplines, owing to its inherent chemical stability and photophysical properties. Within this class of compounds, 9-Oxo-10(9H)-acridineacetic acid (CAS 38609-97-1) is a notable derivative that bridges the gap between fundamental organic synthesis and applied pharmaceutical research. This article explores the broader impact of acridone derivatives and highlights the specific contributions of 9-Oxo-10(9H)-acridineacetic acid.

Acridones: A Versatile Chemical Family

Acridones are heterocyclic aromatic compounds characterized by a fused ring system containing a carbonyl group. Their planar structure allows for efficient π-π stacking interactions and intercalation with biological macromolecules like DNA. This property has led to their investigation as potential intercalating agents for gene therapy and as scaffolds for developing antimicrobial and anticancer drugs. Furthermore, their fluorescence properties have made them useful in imaging and as sensitizers in photodynamic therapy.

9-Oxo-10(9H)-acridineacetic Acid: A Key Derivative

9-Oxo-10(9H)-acridineacetic acid enriches the acridone family by introducing a flexible carboxymethyl side chain. This modification significantly enhances its utility. As a chemical intermediate, it provides a reactive handle for further functionalization, allowing synthetic chemists to build more complex molecules. Its application as a building block in pharmaceutical synthesis is particularly noteworthy. Studies have explored its role in developing immunomodulatory agents and drugs that target specific cellular pathways, such as those involved in cancer proliferation. Researchers seeking to buy this compound for their synthetic endeavors can source it from reliable chemical suppliers, ensuring the required purity and quality for their experiments.

Industrial Significance and Sourcing Strategies

The demand for specialized intermediates like 9-Oxo-10(9H)-acridineacetic acid underscores the importance of a robust global chemical supply chain. For B2B procurement, partnering with manufacturers that offer consistent quality, competitive pricing, and reliable delivery is paramount. Many end-users, particularly in the pharmaceutical and fine chemical sectors, find it advantageous to source such materials from established Chinese manufacturers who specialize in their production. These suppliers often possess the technical expertise and production capacity to meet diverse customer needs, from research quantities to bulk orders.

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