Glutathione – Antioxidant and Detox Agent
$65.00
Availability: In stock
Availability: In stock
Glutathione – Tripeptide for Oxidative Research Models
Glutathione is a naturally occurring tripeptide composed of glutamine, cysteine, and glycine. It is widely utilized in controlled laboratory environments for studies involving redox balance, oxidative processes, and biochemical pathway modeling. Its structure makes it suitable for examining intracellular reactivity and stable-state peptide interactions.
Lyophilized powder supplied in standard laboratory vials.
Not for injection. Not for clinical or therapeutic use.
📌 Product Specifications
- Form: Lyophilized Powder
- Appearance: White to slightly off-white powder
- Purity: ≥ 98%
- Storage: Store in a cool, dry place. Refrigerate after reconstitution.
🧪 Molecular Information
- CAS Number: 70-18-8
- Molecular Formula: C10H17N3O6S
- Molecular Weight: 307.32 g/mol
🔬 Research Applications
- Oxidative process modeling
- Redox balance pathway investigations
- Biochemical stability and peptide interaction studies
💡 Interested in the Science?
Explore ongoing research involving redox systems, oxidative modeling, and biochemical pathway signaling using tripeptide structures.
Glutathione – Antioxidant and Detox Agent FAQ
This FAQ provides structured technical information regarding the tripeptide structure, molecular specifications, and laboratory applications of Glutathione in oxidative process modeling.
1. What is Glutathione used for in laboratory research?
Glutathione is commonly utilized in laboratory studies involving oxidative stress modeling, redox system analysis, and biochemical pathway investigations. Researchers may use this tripeptide in controlled experimental settings to examine intracellular reactions and peptide interaction behavior.
2. What compounds make up the Glutathione tripeptide structure?
Glutathione is composed of three amino acids: glutamine, cysteine, and glycine. This tripeptide structure is widely studied in biochemical research involving oxidative balance and cellular pathway modeling in non-clinical laboratory environments.
3. What does the appearance of Glutathione research material look like?
The material is supplied as a white to slightly off-white lyophilized powder packaged in standard laboratory research vials. Its presentation supports precise laboratory handling, controlled preparation, and consistent analytical evaluation procedures.
4. Why is Glutathione studied in oxidative process research?
Researchers investigate Glutathione because of its role in redox-related laboratory models and biochemical signaling pathways. Its molecular structure makes it suitable for experimental studies examining oxidative reactions, peptide stability, and controlled intracellular interaction systems.
5. What molecular specifications are provided for Glutathione?
Glutathione has a CAS Number of 70-18-8, molecular formula C10H17N3O6S, and molecular weight of 307.32 g/mol. The material is supplied with a purity level of ≥ 98%, supporting laboratory documentation and analytical research requirements.
| Weight | 0.03 oz |
|---|
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