Product Name |
5-Hydroxycytosine-13C, 15N2 |
Alternate Names |
Cytosine Stable Isotopes, Stable Isotopes of Cytosine |
CAT No. |
CS-T-79233
|
CAS No. |
181516-92-7 |
Category |
Stable Isotopes |
Stock |
Enquire
|
Mol. Wt. |
Not Available |
Mol. For. |
Not Available
|
Hazardous |
This is not a Hazardous Compound
|
COA |
View Sample COA
|
MSDS |
View Sample MSDS
|
Parent API |
Cytosine |
Smileys |
O=[13C]1[15NH]C=C(O)C(N)=[15N]1 |
Controlled |
No |
Shipping |
Free for purchase above 1000$ |
Delivery |
In-Stock, products will be dispatched within 24 hours via FedEx for USA, Europe, and other countries. |
Return |
Returns/replacement accepted if you are not satisfied with the quality of the product, (please send us an email with the reason/issues which are facing, within 15 days, after receipt of the product). |
Ordering |
Place your order online or by email sales@clearsynth.com |
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5-Hydroxycytosine-13C, 15N2 is a stable isotope-labeled version of 5-hydroxycytosine, which is a modified form of the nucleotide base cytosine found in DNA. This compound is used in research studies to investigate the biological functions and chemical properties of 5-hydroxycytosine in DNA.
5-Hydroxycytosine is known to have a role in DNA demethylation, a process that removes the methyl group from the cytosine base in DNA. The presence of 5-hydroxycytosine in DNA has been linked to the regulation of gene expression and the maintenance of genome stability. Therefore, the use of stable isotope-labeled 5-hydroxycytosine allows researchers to track its behavior and interactions in cells and tissues.
Chemically, 5-Hydroxycytosine-13C, 15N2 has the same molecular formula as natural 5-hydroxycytosine, C4H4N3O2, but with additional stable isotopes of carbon and nitrogen. This labeling allows for the detection and quantification of 5-hydroxycytosine in complex biological samples using techniques such as mass spectrometry.
In summary, 5-Hydroxycytosine-13C, 15N2 is a valuable tool for studying the biological and chemical properties of 5-hydroxycytosine in DNA. Its stable isotopic labeling allows for accurate detection and quantification, facilitating research into the role of this modified nucleotide base in DNA function and regulation.