4-Octylphenethyl Methanesulfonate: A Key Pharmaceutical Intermediate for Advanced Therapies
Unlock advanced therapeutic development with our high-purity pharmaceutical intermediate, vital for innovative drug synthesis.
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4-Octylphenethyl Methanesulfonate
This compound is a crucial building block in the synthesis of various complex organic molecules, particularly serving as a high-quality intermediate for Fingolimod and its derivatives. Its unique chemical structure enables diverse reactions, making it invaluable in pharmaceutical research and development.
- Leverage the synthesis of advanced pharmaceutical compounds by using 4-octylphenethyl methanesulfonate as a key intermediate.
- Explore the biological activity of OPMS, including its role in apoptosis induction and sphingosine kinase modulation for potential therapeutic applications.
- Understand the chemical structure and properties of OPMS to facilitate its effective use in organic synthesis processes.
- Investigate the preparation of fingolimod intermediate, where this compound plays a pivotal role in drug discovery pipelines.
Advantages You Gain
High Purity and Quality
Ensure reliable experimental results and product efficacy with our 4-octylphenethyl methanesulfonate, guaranteed at ≥99% purity, facilitating precise chemical synthesis.
Versatile Chemical Intermediate
Utilize this compound in various organic synthesis pathways, including nucleophilic substitutions and oxidations, to create novel molecules for drug development.
Established Biological Relevance
Benefit from its known biological activities, such as apoptosis induction and sphingosine kinase modulation, which are critical for developing targeted cancer therapies and anti-inflammatory agents.
Key Applications
Pharmaceutical Intermediate
A vital component in the synthesis of active pharmaceutical ingredients (APIs) and complex drug molecules, particularly those related to immunomodulation and cancer treatment.
Organic Synthesis
Serves as a versatile building block for creating a wide array of specialty chemicals and advanced organic compounds, crucial for research and industrial applications.
Cancer Research
Its ability to induce apoptosis makes it a valuable tool in studying and developing new anti-cancer therapies and understanding cellular death pathways.
Inflammation Studies
The modulation of sphingosine kinase activity positions it as a potential agent in research for anti-inflammatory treatments and related disease mechanisms.