Cytidylic Acid (CMP): A Comprehensive Guide to its Properties, Applications, and Benefits
Discover the essential role of Cytidylic Acid in biochemical processes and its significance in neurological health.
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Cytidylic Acid
Cytidylic Acid, also known as Cytidine Monophosphate (CMP), is a fundamental nucleotide with significant biochemical importance. Its primary role as a chemical intermediate in the synthesis of citicoline sodium underscores its value in promoting brain health and neurological function. As a stable white powder, it meets stringent purity standards, making it a reliable component in pharmaceutical applications.
- Understanding the intricate Cytidylic Acid properties is key to unlocking its potential in advanced biochemical applications.
- Exploring the diverse Cytidine Monophosphate uses reveals its critical role as a building block for essential compounds.
- As a crucial CMP chemical intermediate, it facilitates the production of vital pharmaceutical ingredients.
- The Neuroprotection potential of CMP is increasingly recognized, linking it to brain health and cognitive support.
Key Advantages
High Purity and Quality
With an assay of ≥99.0% (HPLC), Cytidylic Acid guarantees exceptional purity, ensuring reliable performance in sensitive applications like pharmaceutical intermediates.
Essential for Neurological Health
Its role in the Citicoline sodium synthesis pathway positions it as a vital component for compounds that support brain function and recovery.
Stable and Easy to Handle
Presented as a white powder, CMP offers ease of handling and storage, aligning with standard laboratory and industrial practices for CMP storage conditions.
Key Applications
Pharmaceutical Intermediates
Serves as a critical intermediate in the synthesis of more complex pharmaceutical compounds, contributing to the development of therapies for various conditions, including neurological disorders.
Biochemical Research
Utilized in research settings to study nucleotide metabolism, cell membrane synthesis, and the mechanisms of action for neuroprotective agents.
Neuroscience Therapeutics
Its link to citicoline sodium makes it indirectly important for treatments aimed at improving memory, cognitive function, and recovery from brain injuries or strokes.
Nutritional Science
Plays a role in understanding the metabolic pathways involving nucleotides and their impact on overall cellular health and energy production.