Explore the World of 2'-Deoxycytidine Monohydrate
Discover the key properties, applications, and research value of this essential biochemical compound.
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2'-Deoxycytidine Monohydrate
This pyrimidine deoxyribonucleoside is a fundamental building block in molecular biology and a key metabolite in various biological systems. Its utility extends to advanced analytical techniques and research into DNA-related processes.
- Leverage 2'-deoxycytidine monohydrate applications in cutting-edge mass spectrometry for precise quantitative analysis.
- Utilize the distinct mass signature of deuterated analogs for accurate metabolic pathway tracking.
- Incorporate 2'-deoxycytidine monohydrate cas 951-77-9 into your biochemical studies for deeper insights into cellular processes.
- Source high-quality research chemicals deoxycytidine for your laboratory needs from trusted suppliers.
Key Advantages
Enhanced Analytical Precision
The availability of deuterated versions facilitates superior accuracy in mass spectrometry, crucial for understanding complex biological samples.
Metabolic Pathway Elucidation
Employing 2'-deoxycytidine monohydrate in biochemical studies allows researchers to effectively trace metabolic pathways and understand nucleoside utilization.
Foundation for DNA Research
As a core component of DNA, this compound is indispensable for research into DNA replication, repair mechanisms, and genetic engineering.
Key Applications
Mass Spectrometry
As a key tool, deuterated standards like this enhance the sensitivity and accuracy of quantitative analysis in complex biological matrices.
Biochemical Research
Facilitates in-depth studies of nucleoside metabolism, DNA synthesis, and the roles of these compounds in cellular function.
Pharmaceutical Development
Serves as a vital intermediate or reference standard in the research and development of new therapeutic agents targeting nucleic acid metabolism.
Molecular Biology Studies
Essential for understanding fundamental biological processes, including DNA replication, repair, and the impact of genetic variations.