LIPO-C + B12 (Methylated) - 10mg

LIPO-C + B12 (Methylated) – 10mg

$79.00

For research purposes only. Not for human or animal use & not FDA-approved. By purchasing, you confirm you are 21 or older and qualified researcher.

Out of stock

Join the waitlist to be emailed when this product becomes available
Categories: , , , ,

Description

LIPO-C + B12 (Methylated)

Research-Grade Lipotropic & Methylation Support Complex
Tagline: Metabolic Pathways & Cellular Energy Research

Product Description

LIPO-C + B12 (Methylated) is a combined research formulation containing lipotropic compounds—typically Methionine, Inositol, Choline, and L-Carnitine (MIC-C)—alongside methylated Vitamin B12 (Methylcobalamin). This complex is designed for laboratory research exploring lipid metabolism, methylation pathways, mitochondrial energy production, and cellular bioenergetics.

Lipotropic agents support the mobilization and processing of lipids within hepatic and peripheral tissues, while methylated B12 plays a critical role in one-carbon metabolism, DNA synthesis, and mitochondrial function. Together, the formulation provides a useful research model for studying fat metabolism, energy regulation, and methyl-donor–dependent biochemical pathways.

For Laboratory and Scientific Research Use Only. Not for Human Consumption.

Why Researchers Choose LIPO-C + B12 (Methylated)

  • Multi-pathway metabolic research tool (lipid metabolism + methylation support)

  • Supports hepatic lipid processing studies

  • Relevant to mitochondrial energy and fatty-acid oxidation research

  • Includes methylated B12 for direct methyl-donor pathway investigation

  • Useful in metabolic stress and energy-balance models

  • Research-grade formulation consistency for reproducible results

Important Note

For laboratory and scientific research only. Not for human consumption, diagnostic, or therapeutic use.

Details

Product Name LIPO-C + B12 (Methylated)
Key Components Methionine, Inositol, Choline, L-Carnitine, Methylcobalamin (B12)
Compound Class Lipotropic agents & methylated vitamin cofactor
Form Sterile aqueous solution
Intended Research Use Metabolic regulation, lipid metabolism, methylation & energy studies

Research

Research Applications

Lipid Metabolism & Fatty-Acid Processing

Lipotropic compounds such as methionine, choline, and inositol support the transport and metabolism of lipids in hepatic cells, making this complex valuable for studies on fat mobilization, lipid oxidation, and hepatic lipid balance.

Methylation & One-Carbon Metabolism

Methylcobalamin (B12) functions as a cofactor in methionine synthase activity, supporting homocysteine remethylation and SAMe production. Researchers use this to investigate DNA synthesis, epigenetic regulation, and methyl-donor availability.

Mitochondrial Energy & Bioenergetics

L-Carnitine facilitates the transport of long-chain fatty acids into mitochondria for β-oxidation. Combined with B12-dependent pathways, the formulation supports research into ATP production and metabolic efficiency.

Metabolic Stress & Energy Balance Models

The combined formulation is used in preclinical models exploring energy expenditure, insulin sensitivity, and metabolic adaptation under nutrient or oxidative stress conditions

References

  1. Zeisel SH. (2006). Choline: critical role during development and in adult metabolism. Annual Review of Nutrition.
    https://www.annualreviews.org/doi/10.1146/annurev.nutr.26.061505.111156

  2. Rebouche CJ, Seim H. (1998). Carnitine metabolism and functions. Annual Review of Nutrition.
    https://www.annualreviews.org/doi/10.1146/annurev.nutr.18.1.39

  3. O’Leary F, Samman S. (2010). Vitamin B12 in health and disease. Nutrients.
    https://www.mdpi.com/2072-6643/2/3/299

  4. Mato JM, et al. (2002). S-adenosylmethionine metabolism and liver function. American Journal of Clinical Nutrition.
    https://academic.oup.com/ajcn/article/76/5/1183S/4689627

Mechanism of Action

Mechanism of Action

  • Lipotropic lipid mobilization: Methionine, choline, and inositol enhance hepatic lipid transport and processing

  • Fatty-acid mitochondrial transport: L-Carnitine shuttles fatty acids into mitochondria for oxidation

  • Methyl-donor support: Methylcobalamin enables methionine and SAMe synthesis

  • DNA & cellular metabolism regulation: Supports nucleotide synthesis and epigenetic pathways

  • Energy production enhancement: Coordinates lipid oxidation with mitochondrial ATP generation

References

  1. Zeisel SH. (2006). Choline: critical role during development and in adult metabolism. Annual Review of Nutrition.
    https://www.annualreviews.org/doi/10.1146/annurev.nutr.26.061505.111156

  2. Rebouche CJ, Seim H. (1998). Carnitine metabolism and functions. Annual Review of Nutrition.
    https://www.annualreviews.org/doi/10.1146/annurev.nutr.18.1.39

  3. O’Leary F, Samman S. (2010). Vitamin B12 in health and disease. Nutrients.
    https://www.mdpi.com/2072-6643/2/3/299

  4. Mato JM, et al. (2002). S-adenosylmethionine metabolism and liver function. American Journal of Clinical Nutrition.
    https://academic.oup.com/ajcn/article/76/5/1183S/4689627

Certificate of Authenticity

Related products

  • Thymalin - 10mg
  • BPC157+TB500+KPV - 30mg
  • NAD+ Buffered - 500mg
  • Cerebro Protein - 60mg