9-Oxo-10(9H)-Acridineacetic Acid: A Key Pharmaceutical Intermediate and HPLC Reagent
Unlock critical insights with this high-purity acridone derivative, vital for pharmaceutical research and advanced analytical techniques.
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9-Oxo-10(9H)-Acridineacetic Acid
This compound serves as a fundamental building block and a critical reagent in various scientific disciplines. Its primary utility lies as a pharmaceutical intermediate, contributing to the synthesis of complex therapeutic agents. Furthermore, its role as a pre-column derivatization reagent for amino acid analysis in High-Performance Liquid Chromatography (HPLC) makes it indispensable for accurate and sensitive biochemical testing.
- Explore the potential of high purity (>99%) 9-Oxo-10(9H)-Acridineacetic Acid for your research needs.
- Discover how CAS 38609-97-1 can be utilized as a vital pharmaceutical intermediate in drug discovery.
- Leverage the capabilities of this compound as an HPLC reagent for precise amino acid quantification.
- Investigate its use as a precursor for developing novel chemotherapeutic agents and understanding its interferon-inducing properties.
Key Advantages Provided
High Purity and Reliability
With a purity exceeding 99%, this chemical ensures consistent and reproducible results, a critical factor when used as a pharmaceutical intermediate or for precise HPLC amino acid analysis.
Versatile Application Spectrum
Its dual functionality as both a building block for new chemotherapeutic agents and a reagent for amino acid detection highlights its versatility in the pharmaceutical and biochemical research fields.
Scientific Advancement
As a potential interferon inducer, 9-Oxo-10(9H)-Acridineacetic Acid offers avenues for exploring novel antiviral therapies and immune system modulation.
Key Applications
Pharmaceutical Synthesis
Utilized as a crucial building block and precursor molecule in the synthesis of various chemotherapeutic agents, contributing to advancements in cancer treatment research.
HPLC Amino Acid Analysis
Employed as a pre-column derivatization reagent, enhancing the fluorescent detection of amino acids in HPLC systems for accurate profiling and quantification.
Biochemical Research
Investigated for its potential activity as an interferon inducer, offering prospects for developing new antiviral treatments and understanding immune responses.
Organic Synthesis
Serves as a valuable component in organic synthesis, enabling the creation of diverse chemical structures with potential biological activity.