Uracil (CAS 66-22-8): A Vital Pyrimidine Derivative for Scientific Advancement
Discover the critical role of Uracil in biological processes and its applications in research and pharmaceuticals.
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Uracil
Uracil, identified by CAS number 66-22-8, is a fundamental pyrimidine derivative with significant biological importance. It serves as a key component in RNA and acts as a structural analog to thymine in DNA, playing a vital role in nucleic acid synthesis, DNA repair, and gene expression. Its purity and consistent quality make it an indispensable compound for various scientific disciplines.
- Explore the critical role of Uracil in nucleic acid synthesis, understanding how this essential pyrimidine derivative contributes to the fundamental building blocks of life.
- Source high-purity Uracil powder online for your research needs, ensuring reliable and consistent results in your experiments.
- Delve into the Uracil molecular formula C4H4N2O2 and its chemical structure to grasp its foundational role in biochemistry.
- Understand the Uracil CAS 66-22-8 applications across diverse scientific fields, from molecular biology to pharmaceutical development.
Key Advantages of Utilizing Uracil
Exceptional Purity for Reliable Research
With a minimum purity of 99.5%, Uracil ensures the integrity and accuracy of your scientific research, making it a trusted component for critical applications.
Versatile Biological Functionality
As a vital pyrimidine nucleobase, Uracil is integral to numerous biological processes, offering broad utility in biochemical and pharmaceutical research.
Extensive Application Scope
From pharmaceutical intermediate synthesis to its role in essential biochemical pathways, Uracil's applications span across multiple scientific domains, including potential uses as a food additive.
Key Applications
Biochemical Research
Uracil is fundamental in studying nucleic acid metabolism, DNA repair mechanisms, and other vital cellular processes, supporting advancements in molecular biology.
Pharmaceutical Synthesis
Utilized as a crucial intermediate in the synthesis of various pharmaceutical compounds, contributing to the development of new therapeutic agents.
Nucleic Acid Studies
Essential for research involving RNA and DNA structure and function, aiding in the understanding of genetic information flow and disease mechanisms.
Food Additives & Nutritional Science
Investigated for its potential roles in food science and nutritional applications, highlighting its broad biochemical relevance.