Description
Lipo-C (Methionine, L-Carnitine, Choline Chloride, and Dexpanthenol Lipotropic Blend / Metabolic Support Compound)
Concentration: 120 mg/mL (combined actives)
Volume: 10 mL sterile multi-dose vial
Active Components:
-
Methionine – 15 mg/mL
-
L-Carnitine – 50 mg/mL
-
Choline Chloride – 50 mg/mL
-
Dexpanthenol (Vitamin B5) – 5 mg/mL
Form: Sterile Aqueous Solution
Purity: ≥98% (HPLC, per component specification)
Storage: Store at 2–8 °C. Protect from light. Do not freeze.
Description
Lipo-C is a lipotropic and metabolic support formulation designed for research on hepatic lipid metabolism, mitochondrial energy transfer, and methyl-donor pathways.
This optimized four-compound blend integrates amino-acid and vitamin-based cofactors that collectively promote fatty-acid mobilization, lipid oxidation, and coenzyme-driven ATP synthesis.
-
Methionine functions as a key methyl-donor and sulfur source, supporting transmethylation reactions and detoxification.
-
L-Carnitine facilitates mitochondrial transport of long-chain fatty acids for β-oxidation and cellular energy production.
-
Choline Chloride acts as a lipid transport regulator, preventing hepatic fat accumulation and maintaining membrane phospholipid balance.
-
Dexpanthenol (Vitamin B5) serves as a precursor to coenzyme A, supporting fatty-acid metabolism and acetyl-CoA synthesis within mitochondrial pathways.
Together, these components form a synergistic model for studying lipid mobilization, methyl-donor cycling, and mitochondrial efficiency in metabolic and hepatic research.
Intended Use
This product is intended for laboratory research use only.
It is not for human consumption, diagnostic, or therapeutic applications.
All handling should be performed by qualified professionals in a controlled research environment.
Key Research Applications
-
Investigation of lipotropic compound synergy in hepatic lipid metabolism
-
Studies on β-oxidation, mitochondrial transport, and metabolic rate regulation
-
Research on methyl-donor dynamics and coenzyme A synthesis
-
Analysis of nutrient-driven modulation of lipid and energy metabolism
Reviews
There are no reviews yet.