Storage Condition
Refer MSDS for complete information
Synonyms
Adenosine-1' 13C, 201996-55-6
Application Notes
Useful research chemical for a range of applications
Hazard Compound
Refer MSDS for complete information
Adenosine-1' 13C is a drug product that is used as an analytical standard for HPLC, as well as in research and development of drugs.
Refund Policy
We are committed to offering products of the highest quality in order to meet the needs of our customers, and have elaborate systems in
place to ensure that material specifications, their certification and all handling and storage conditions are communicated at the time of
material handover.
We have invested in the highest quality packaging materials and use international logistics partners to service our customers. While all
possible precautions have been taken to deliver the required product(s), there may be some rare situations when our product does not
meet your requirements. Should that arise, please contact us with your concerns and we will endeavour to address them on a priority
basis. If there is no other option, we will either replace your product(s) or issue a refund or account credit, whichever you prefer.
If there is an issue with one or more of our products, our policy is that it must be reported to us within 45 days of your receiving shipment.
While we will always address product issues after the 45 day return window has passed, we cannot issue a refund or account credit. As
always, we appreciate your support.
Adenosine-1' 13C usage and description
Adenosine-1' 13C is a stable isotope-labeled form of adenosine, a purine nucleoside that plays a critical role in various physiological processes. This compound is used in a variety of research applications, including metabolic studies, drug discovery, and pharmacokinetic studies.
Adenosine-1' 13C is commonly used in metabolic studies to investigate the metabolic pathways of adenosine in living organisms. This compound can be used to trace the fate of adenosine in vivo by monitoring its metabolic products, such as inosine and hypoxanthine, using nuclear magnetic resonance (NMR) spectroscopy. Additionally, adenosine-1' 13C can be used in pharmacokinetic studies to determine the disposition of adenosine in the body and to evaluate the efficacy of adenosine-based drugs.
From a chemical perspective, adenosine-1' 13C is an isotopically labeled version of adenosine, where the carbon-1' atom is replaced with the stable isotope carbon-13. This labeling does not affect the biological activity or properties of the molecule, but rather allows for the molecule to be easily identified and tracked in biological systems. The molecular formula of adenosine-1' 13C is C10H12N5O4, and its molecular weight is 267.23 g/mol.
In conclusion, Adenosine-1' 13C is a valuable tool for metabolic and pharmacokinetic studies, allowing researchers to gain a better understanding of the role of adenosine in biological systems. Its stable isotope labeling makes it a reliable and precise tool for investigating the fate of adenosine in vivo.