Uridine: A Vital Nucleoside for Pharmaceutical and Life Science Innovation
Explore the diverse applications and benefits of Uridine (CAS 58-96-8), a high-purity white crystalline powder.
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Uridine
Uridine, a fundamental nucleoside, is recognized for its critical role in cellular metabolic regulation and is a key building block for RNA and DNA. Its high purity of 99% makes it a valuable compound for various advanced applications.
- Discover the benefits of uridine in neurological support, aiding in the growth and development of nerve cells and neurotransmitter synthesis.
- Leverage uridine for cellular metabolic regulation, essential for cell growth, division, and repair.
- Understand the applications of uridine in pharmaceutical synthesis, serving as a crucial raw material for various drugs.
- Learn why sourcing uridine with CAS 58-96-8 is vital for businesses in the life sciences sector.
Advantages of Uridine
Exceptional Purity
Achieve reliable results in your research and product development with Uridine boasting a purity of 99%, ensuring consistent performance in every application.
Versatile Application Spectrum
From cosmetic raw materials to vital components in pharmaceutical intermediates, Uridine offers a broad range of uses across industries.
Supports Cellular Health
Benefit from Uridine's role in cellular metabolic processes and its potential to protect cells from oxidative damage, contributing to overall well-being.
Key Applications
Pharmaceuticals
Uridine serves as a critical raw material in the synthesis of various pharmaceutical agents, contributing to treatments for cardiovascular and liver diseases.
Cosmetics
Its unique properties make Uridine a valuable ingredient in cosmetic formulations, potentially offering benefits for skin health and rejuvenation.
Nutritional Supplements
As a key nucleotide, Uridine is incorporated into nutritional supplements aimed at enhancing cognitive functions and supporting overall health.
Life Science Research
Uridine is indispensable in life science research, aiding studies in cell metabolism, genetics, and the development of novel therapeutic strategies.