Xanthosine 5'-Monophosphate Disodium Salt (CAS 25899-70-1)
Unlock the secrets of genetic code and molecular synthesis with this vital biochemical.
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Xanthosine 5'-Monophosphate Disodium Salt
Xanthosine 5'-Monophosphate Disodium Salt is a critical intermediate in purine metabolism, playing a fundamental role in the synthesis of essential biomolecules. Its applications are vital for researchers delving into the complexities of the genetic code, understanding nucleic acid structures, and advancing the synthesis of DNA, RNA, and proteins.
- Explore the intricacies of the genetic code with this high-purity compound, essential for foundational biological research.
- Advance your understanding of nucleic acid structure and function through studies utilizing this key metabolite.
- Facilitate DNA, RNA, and protein synthesis in your laboratory for groundbreaking discoveries in molecular biology.
- Investigate purine metabolism pathways with a reliable and well-characterized biochemical intermediate.
Key Advantages
High Purity for Reliable Research
Ensure accuracy in your experimental results by utilizing a product manufactured to stringent enterprise standards, facilitating precise research into the genetic code.
Versatile Application Spectrum
This compound is indispensable for various research fields, from molecular biology to understanding the fundamental processes of DNA RNA protein synthesis.
Essential for Biological Synthesis
Crucial for advancing studies on nucleic acid structure, its role in DNA, RNA, and protein synthesis makes it a cornerstone for many biochemical experiments.
Key Applications
Genetic Code Research
Its role as an intermediate makes it invaluable for studies aiming to decode the fundamental principles of the genetic code and its translation.
Nucleic Acid Synthesis
Essential for researchers focused on the de novo synthesis or modification of DNA and RNA molecules, furthering advancements in genetic therapies.
Protein Synthesis Studies
Supports investigations into protein synthesis pathways and the intricate mechanisms of cellular protein production, crucial for understanding biological function.
Biochemical Pathway Analysis
A key component for researchers studying purine metabolism and related biochemical pathways, offering insights into cellular energy and regulation.