High-Purity Myristoyl Nitrophenylsuccinyl Phosphocholine: Synthesis, Properties, and Research Applications
Unlock new frontiers in lipid science with our precisely synthesized complex lipid intermediate.
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Myristoyl Nitrophenylsuccinyl Phosphocholine
This advanced lipid molecule, identified by CAS 273931-53-6, serves as a critical component in cutting-edge biochemical research. Its intricate structure makes it invaluable for studying lipid metabolism and the development of novel therapeutic agents.
- Discover the intricate synthesis of complex lipid molecules like Myristoyl Nitrophenylsuccinyl Phosphocholine to advance your research.
- Explore the biochemical uses of 14:0 NPS PC in understanding cell membrane dynamics and signaling pathways.
- Utilize high-purity CAS 273931-53-6 lipid intermediates for reliable and reproducible results in your laboratory experiments.
- Leverage this phosphocholine derivative for groundbreaking research in drug delivery systems and targeted therapies.
Advantages of Using Our Product
Exceptional Purity and Quality
Our Myristoyl Nitrophenylsuccinyl Phosphocholine boasts a purity of 97% min, ensuring accurate and dependable outcomes when investigating lipid metabolism.
Versatile Research Applications
The unique structure of this 14:0 NPS PC makes it ideal for exploring cell membrane organization and its role in various biological processes.
Supports Drug Development
As a key chemical intermediate, this phosphocholine derivative is essential for the synthesis of potential pharmaceutical compounds targeting lipid-related diseases.
Key Applications
Lipid Metabolism Research
Investigate the intricate pathways of lipid metabolism with this specialized biochemical reagent, providing essential insights into cellular functions.
Drug Delivery System Development
Utilize its complex lipid structure to design and test novel drug delivery vehicles for enhanced therapeutic efficacy.
Biochemical Synthesis Studies
Employ this high-purity intermediate in the synthesis of advanced biochemical compounds for pharmaceutical and biotechnological applications.
Membrane Biology Research
Understand the critical role of phospholipids in membrane organization and function through studies involving Myristoyl Nitrophenylsuccinyl Phosphocholine.