L-Cystine-d4

Catalog No.: A27068
Stable Isotope
L-Cystine-d4 is the deuterated form of L-Cystine, an important amino acid and intracellular thiol. It serves as a crucial regulator of various cellular processes, particularly those involving oxidative stress and protein synthesis. This stable isotope is widely used in research applications, including metabolic studies and tracking of thiol groups in biochemical pathways.
Grouped product items
Size Price Stock Qty
1mg
$130.00
In stock
5mg
$320.00
In stock
10mg
$520.00
In stock
Bulk Size
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Free Delivery on orders over $500
Research use only. We do not sell to patients.

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Adooq Products cited in reputable paper
Science VOLUME 380, ISSUE 6663 (2023)
Science VOLUME 369, ISSUE 6510 (2020)
Science VOLUME 356, ISSUE 6336 (2017)
Cell Vol. 185 Issue 23 p4428-4447.e28
Cell Vol 177, Issue 7, p1933-1947.e25
Cell Vol 156, Issue 5, p857-1114
Nature Volume 622 Issue 7982 (2023)
Nature volume 620, pages890-897 (2023)
Nature volume 610, pages540-546 (2022)
Nature volume 588, pages83-88 (2020)
Nature volume 574, pages268-272 (2019)
Nature volume 573, pages539-545 (2019)
Nature volume 567, pages118-122 (2019)
Nature volume 551, pages639-643 (2017)
Nature volume 551, pages247-250 (2017)
Nature volume 548, pages356-360 (2017)
Nature volume 545, pages187-192 (2017)
Biological Activity
DescriptionL-Cystine-d4 is the deuterated form of L-Cystine, an important amino acid and intracellular thiol. It serves as a crucial regulator of various cellular processes, particularly those involving oxidative stress and protein synthesis. This stable isotope is widely used in research applications, including metabolic studies and tracking of thiol groups in biochemical pathways.
Product Information
Catalog NumA27068
FormulaC6H8D4N2O4S2
Molecular Weight244.33
CAS Number1192736-38-1
SMILESOC([C@@H](N)C([2H])([2H])SSC([2H])([2H])[C@H](N)C(O)=O)=O
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This calculator helps you calculate mass of compound based on solution concentration, volume and molecular weight in a specific solution using the formula:

Mass (mg) = Concentration (mM) × Volume (mL) × Molecular Weight (g/mol)

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