Sarcosine-13C3
Sarcosine-13C3 (N-Methylglycine-13C3; Sarcosin-13C3) is the 13C-labeled Sarcosine (HY-101037). Sarcosine (N-Methylglycine), an endogenous amino acid, is a competitive glycine transporter type I (GlyT1) inhibitor and N-methyl-D-aspartate (NMDA) receptor co-agonist. Sarcosine increases the glycine concentration, resulting in an indirect potentiation of the NMDA receptor. Sarcosine is commonly used for the research of schizophrenia.
For research use only. We do not sell to patients.
- CAS No.: 2806125-84-6
- Formula: 13C3H7NO2
- Molecular Weight:92.07
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Storage:
Please store the product under the recommended conditions in the Certificate of Analysis.
All Endogenous Metabolite Isoforms
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Biological Activity
Stable heavy isotopes of hydrogen, carbon, and other elements have been incorporated into drug molecules, largely as tracers for quantitation during the drug development process. Deuteration has gained attention because of its potential to affect the pharmacokinetic and metabolic profiles of drugs[1].
MedChemExpress (MCE) has not independently confirmed the accuracy of these methods. They are for reference only.
1. This compound can be used as a tracer
2. This compound can be used as an internal standard for quantitative analysis by NMR, GC-MS, or LC-MS.
Chemical Information
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CAS No. 2806125-84-6
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Unlabeled Cas 107-97-1
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Molecular Weight 92.07
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Formula 13C3H7NO2
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SMILES
O[13C]([13C]([H])(N[13CH3])[H])=O
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Synonyms
N-Methylglycine-13C3; Sarcosin-13C3
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Shipping
Room temperature in continental US; may vary elsewhere.
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Storage
Please store the product under the recommended conditions in the Certificate of Analysis.
Purity & Documentation
References
[1]. Katarzyna Socała, et al. Effects of sarcosine, a glycine transporter type 1 inhibitor, in two mouse seizure models. Pharmacol Rep. Mar-Apr 2010;62(2):392-7. [Content Brief]
[2]. Mei-Yi Lee, et al. Effects of sarcosine and N, N-dimethylglycine on NMDA receptor-mediated excitatory field potentials. J Biomed Sci. 2017; 24: 18. [Content Brief]
Calculators
Concentration (start) × Volume (start) = Concentration (final) × Volume (final)