Product Name |
16α-Hydroxydehydroepiandrosterone-[d5] |
Alternate Names |
Androsterone Stable Isotopes, Stable Isotopes of Androsterone |
CAT No. |
CS-I-00469
|
CAS No. |
Not Available |
Category |
Stable Isotopes |
Stock |
Enquire
|
Mol. Wt. |
309.45 g/mol |
Mol. For. |
C19H23D5O3
|
Hazardous |
This is not a Hazardous Compound
|
COA |
View Sample COA
|
MSDS |
View Sample MSDS
|
Parent API |
Androsterone |
Controlled |
No |
Shipping |
Free for purchase above 1000$ |
Delivery |
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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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16α-Hydroxydehydroepiandrosterone-[d5], also known as 16α-OH-DHEA-[d5], is a synthetic analogue of the naturally occurring hormone dehydroepiandrosterone (DHEA). This compound is isotopically labeled with five deuterium atoms, which allows for its use in various research applications, including biological and pharmaceutical studies.
As a steroid hormone, 16α-OH-DHEA-[d5] is involved in a number of physiological processes, including the regulation of metabolism, immune function, and sexual development. It is also thought to have potential therapeutic uses, particularly in the treatment of age-related diseases and conditions such as Alzheimer's disease, osteoporosis, and diabetes.
Chemically, 16α-OH-DHEA-[d5] is a derivative of DHEA, with an additional hydroxyl group located at the 16α position. This modification alters the biological activity of the molecule, allowing for increased potency and specificity in certain physiological processes.
When used in research studies, 16α-OH-DHEA-[d5] is typically administered intravenously or orally, and its effects are measured through various biochemical and physiological assays. Its stable isotope labeling also allows for precise quantification and tracking of the compound in biological samples, making it a valuable tool for understanding its mechanisms of action and potential therapeutic applications.