9-Oxo-10(9H)-acridineacetic Acid: A Potent Interferon Inducer and Pharmaceutical Building Block
Unlock advanced antiviral research and pharmaceutical synthesis with this critical acridone derivative.
Get a Quote & SampleProduct Core Value
9-Oxo-10(9H)-acridineacetic acid
This compound is a vital reagent in biochemical research and pharmaceutical development. Its ability to act as a potent type I interferon inducer makes it invaluable for studying immune responses and antiviral therapies. Furthermore, its utility as a building block in pharmaceutical synthesis and as a derivatization agent for amino acid analysis in HPLC highlights its versatility.
- Discover the potential of 9-oxo-10(9H)-acridineacetic acid applications in novel antiviral drug development. This compound is key to understanding and enhancing the body's natural defense mechanisms.
- Leverage the power of HPLC amino acid derivatization with this high-purity chemical, ensuring accurate and sensitive analysis of biological samples.
- Explore its role as a critical chemotherapeutic precursor molecule, paving the way for new treatment options in oncology.
- As a building block in pharmaceutics, it facilitates the creation of complex molecules with targeted therapeutic actions.
Key Product Advantages
Potent Interferon Induction
As a potent type I interferon (IFN) inducer, it directly binds to STING, triggering a strong antiviral response via the TBK1/IRF3 route, as highlighted in research on its antiviral drug building block capabilities.
Advanced Analytical Utility
Its use as a reagent for pre-column derivatization in HPLC for fluorescent determination of amino acids makes it indispensable for precise biochemical analysis.
Versatile Pharmaceutical Role
It serves as a precursor molecule for several chemotherapeutic agents and as a building block in pharmaceutics, offering broad utility in drug discovery and development.
Key Applications
Pharmaceutical Intermediate Synthesis
Utilized as a critical building block in the synthesis of various pharmaceutical compounds, contributing to the development of new drugs and therapies.
High-Performance Liquid Chromatography (HPLC)
Acts as a derivatization agent for amino acids, enabling sensitive and accurate fluorescent detection during HPLC analysis.
Antiviral Research
Its potent interferon-inducing properties make it a valuable tool for studying and developing new antiviral strategies.
Chemotherapeutic Agent Development
Serves as a precursor molecule for a range of chemotherapeutic agents, supporting advancements in cancer treatment research.