L-Carnitine – Amino Acid and Lipotropic Compound
Price range: $50.00 through $76.00
L-Carnitine – Research-Grade Aqueous Solution for Metabolic Pathway Studies
L-Carnitine is a well-characterized compound frequently utilized in preclinical research to study fatty acid transport and mitochondrial bioenergetics. Its defined function within cellular metabolism makes it a valuable tool for modeling oxidative pathways and evaluating mitochondrial performance in controlled laboratory settings.
📌 Product Specifications
- Active Ingredient: L-Carnitine
- CAS Number: 541-15-1
- Form: Clear, colorless to light-yellow aqueous solution
- Concentration Options: • 1200 mg/mL (10 mL Vial) • 600 mg/mL (10 mL Vial)
- Storage: Store in a cool, dry environment. Refrigerate after opening.
🔬 Research Applications
- Mitochondrial fatty acid transport and oxidation studies
- Bioenergetic and metabolic pathway modeling
- Oxidative stress response and exertion-recovery research
🧪 Molecular Details
- Molecular Formula: C7H15NO3
- Molecular Weight: 161.2 g/mol
- Form: Aqueous Solution
- Appearance: Clear, colorless to light-yellow solution
L-Carnitine – Amino Acid and Lipotropic Compound FAQ
This FAQ provides structured technical information regarding mitochondrial transport mechanisms, concentration specifications, and laboratory applications of L-Carnitine in metabolic research.
1. What research purpose does L-Carnitine serve in metabolic studies?
L-Carnitine is used in laboratory models to evaluate how fatty acids are transported into mitochondria and converted into usable energy. It is commonly included in metabolic pathway experiments that focus on cellular energy efficiency and oxidative processes.
2. What makes L-Carnitine suitable for bioenergetic research?
Its established role in mitochondrial fatty acid transport makes L-Carnitine a reliable compound for studying energy production systems. Researchers use it to observe how cells manage fuel utilization under different controlled experimental conditions.
3. Why is L-Carnitine supplied as an aqueous solution?
The aqueous solution format ensures immediate usability in laboratory workflows, allowing accurate dosing and consistent mixing in experimental systems. It also supports stable handling in preclinical metabolic research setups.
4. What does the concentration variability of L-Carnitine indicate?
Different concentration options (1200 mg/mL and 600 mg/mL) allow researchers to adjust experimental parameters based on study design requirements. This flexibility supports a range of metabolic and mitochondrial research models.
5. What key identifiers are associated with L-Carnitine?
L-Carnitine is defined by CAS Number 541-15-1, molecular formula C7H15NO3, and molecular weight 161.2 g/mol. These identifiers are used for accurate compound tracking, research documentation, and consistency in laboratory analysis.
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