Uridine-5'-triphosphoric Acid Trisodium Salt: A Key API for P2Y Receptor Stimulation
Discover the essential properties and applications of this vital pharmaceutical ingredient.
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Uridine-5'-triphosphoric Acid Trisodium Salt
This vital Active Pharmaceutical Ingredient (API) is recognized for its role as a P2Y receptor stimulant, making it a crucial compound in various research and pharmaceutical applications. Its chemical identity is further defined by its CAS No. 19817-92-6 and synonyms like UTP.Na3.
- Learn about Uridine-5'-triphosphoric acid trisodium salt P2Y receptor stimulant CAS 19817-92-6 API powder and its critical role in physiological research.
- Explore the typical UTP.Na3 properties, including its molecular formula C9H16N2NaO15P3 and molecular weight of 508.14.
- Understand how to store Uridine-5'-triphosphoric acid trisodium salt properly: it requires inert atmosphere and freezer storage below -20°C.
- Find out where to buy Uridine-5'-triphosphoric acid trisodium salt API for your research and development needs.
Advantages Offered by the Product
P2Y Receptor Modulation
Leverage the specific activity of this compound to investigate P2Y receptor pathways, crucial for understanding various cellular signaling processes. This detailed understanding contributes to advancements in pharmaceutical research.
High Purity API
As a designated API, this product meets stringent quality standards, ensuring reliability and reproducibility in experimental results. This is essential when you need to buy Uridine-5'-triphosphoric acid trisodium salt for critical applications.
Stable and Soluble Form
The trisodium salt form ensures good solubility in water, simplifying formulation and application in laboratory settings. Proper storage is key to maintaining these UTP.Na3 properties.
Key Applications
Pharmacological Research
Investigate the complex mechanisms of P2Y receptors and their downstream effects, utilizing its function as a Uridine-5'-triphosphoric acid trisodium salt P2Y receptor stimulant.
Drug Development
Serve as a critical intermediate or reference standard in the development of novel therapeutics targeting pathways influenced by P2Y receptors.
Biochemical Assays
Employ the precise UTP.Na3 properties in various biochemical assays to study enzyme activity, cellular signaling, and molecular interactions.
Cell Biology Studies
Facilitate research into cellular processes regulated by extracellular nucleotides, providing valuable insights into cell function and response mechanisms.