The intricate world of chemical synthesis relies heavily on versatile building blocks that enable the creation of complex and valuable molecules. Among these, 9-Oxo-10(9H)-acridineacetic acid (CAS 38609-97-1) has emerged as a significant compound due to its unique structural properties and reactivity. This article focuses on its diverse applications in both general organic synthesis and specialized pharmaceutical development, underscoring its importance for researchers and manufacturers.

A Versatile Intermediate for Organic Synthesis

The inherent structure of 9-Oxo-10(9H)-acridineacetic acid, featuring an acridone core with an appended carboxymethyl group, makes it an excellent substrate for a variety of chemical transformations. The carboxylic acid functionality can participate in esterification, amidation, and salt formation, while the acridone ring system offers sites for electrophilic or nucleophilic substitution under appropriate conditions. This versatility allows chemists to incorporate the acridone moiety into a wide range of molecular architectures, leading to novel compounds with potentially interesting physical or biological properties.

Pharmaceutical Development and Research

In the pharmaceutical industry, 9-Oxo-10(9H)-acridineacetic acid is recognized for its potential as a pharmaceutical intermediate. Acridone derivatives have been extensively studied for their therapeutic potential, exhibiting activities such as antiviral, anticancer, and anti-inflammatory effects. Specifically, 9-Oxo-10(9H)-acridineacetic acid, also known as Cridanimod, has been investigated for its immunomodulatory properties and its ability to induce interferon expression, which can be beneficial in treating viral infections and certain cancers. Researchers looking to buy this compound for drug discovery and development can rely on high-purity grades from trusted suppliers to ensure experimental accuracy and reproducibility.

Role as a Reagent and Building Block

Beyond its use as a direct intermediate, 9-Oxo-10(9H)-acridineacetic acid also finds application as a specialized reagent. For instance, it can be employed in analytical chemistry for pre-column derivatization of amino acids to enhance their detection in high-performance liquid chromatography (HPLC). This dual role as a reactive building block and a functional reagent further solidifies its importance in chemical laboratories and industrial processes.

Securing Your Supply

For organizations involved in synthesis and drug development, securing a consistent and high-quality supply of 9-Oxo-10(9H)-acridineacetic acid is essential. Partnering with a reputable manufacturer and supplier, particularly one based in China with extensive experience in fine chemical production, can ensure both competitive pricing and reliable delivery. When you need to purchase this critical compound, prioritize suppliers who can provide detailed specifications, certificates of analysis, and responsive customer support. We invite you to contact us for your 9-Oxo-10(9H)-acridineacetic acid needs and experience the benefits of working with a dedicated chemical supplier.