B12 (Cyanocobalamin) 10mg

For research use only — not for human or veterinary use.

Analytical Verification (COA)

Each batch of Vitamin B12 (Cyanocobalamin) supplied by Grail Formula undergoes independent third-party laboratory verification to confirm compound identity, assay content, purity and microbiological safety.

Analytical testing for this batch was performed by Liquilabs s.r.o. (Czechia) using validated chromatographic and spectrometric techniques.

Batch: GF112025091

Key analytical results include:

• Assay Content: 9.88 mg
• Identification – Retention Time: 1.000
• Identification – Spectrum: 1000
• Purity: greater than 99.8 percent
• Bacterial Endotoxins: below 0.001 EU per mg
• Total Aerobic Microbial Count: not detected
• Total Yeast and Mold Count: not detected

Independent heavy metal screening confirmed no detectable levels of arsenic, cadmium, cobalt, lead, nickel, mercury or vanadium.

These analytical procedures ensure traceability, purity verification and laboratory-grade compound consistency.

Product Overview

Vitamin B12 (Cyanocobalamin) is a cobalt-containing corrinoid compound commonly studied in biochemical research focused on cellular metabolism and enzymatic cofactor systems.

The compound belongs to a class of complex organometallic molecules known as cobalamins, which are investigated for their role in enzymatic reactions involved in cellular metabolic processes.

This preparation contains 10 mg of high purity lyophilized compound supplied in a sealed research vial. The lyophilization process preserves compound stability and allows researchers to reconstitute the material for controlled in vitro experimentation.

Because of its defined molecular structure and stable analytical profile, cyanocobalamin has become a widely referenced compound in experimental biochemical and metabolic research models.

Compound Overview

Cyanocobalamin is a synthetic form of vitamin B12 belonging to the cobalamin family of cobalt-containing compounds.

In biochemical research environments, cobalamins are studied due to their function as cofactors in enzymatic reactions associated with cellular metabolism and methylation pathways.

Research involving cyanocobalamin often focuses on enzymatic systems linked to cellular metabolic signalling and molecular cofactor activity.

The compound’s complex corrinoid structure allows researchers to investigate biochemical processes involving coenzyme activity and metabolic pathway regulation.

Historical Background and Scientific Context

The scientific discovery of vitamin B12 occurred in the mid-twentieth century during investigations into metabolic disorders associated with vitamin deficiencies.

In the 1940s researchers isolated vitamin B12 and began studying its role as a critical cofactor in enzymatic metabolic reactions.

Subsequent research led to the development of synthetic forms such as cyanocobalamin, allowing controlled laboratory study of cobalamin-mediated biochemical processes.

Today cyanocobalamin remains widely referenced in experimental research exploring metabolic enzyme systems and molecular cofactor interactions.

Mechanistic Focus in Research

Within experimental laboratory environments, cyanocobalamin is frequently studied in relation to enzymatic cofactor systems and metabolic biochemical pathways.

Research investigations commonly explore the compound in experimental models examining:

• Enzyme cofactor activity
• Cellular methylation pathways
• Metabolic signalling networks
• Biochemical coenzyme interaction systems
• Intracellular metabolic regulation
• Comparative cofactor compound research
• Molecular enzymatic pathway modelling

These experimental models enable scientists to analyse biochemical mechanisms involved in enzyme-mediated metabolic processes.

Research Applications

In controlled research environments, cyanocobalamin may be utilised in experimental models designed to explore enzyme-mediated metabolic pathways and cofactor interactions.

Examples of research applications include:

• Metabolic pathway investigation
• Enzyme cofactor studies
• Methylation pathway research
• Biochemical signalling analysis
• Comparative cofactor compound evaluation
• Cellular metabolic regulation modelling
• Controlled in vitro enzymatic studies

Grail Formula Quality

Every Grail Formula research compound is produced under strict quality control procedures designed to support reliable laboratory experimentation.

Each batch undergoes independent analytical testing to verify:

• Compound identity
• Assay accuracy
• Purity confirmation
• Microbial safety
• Endotoxin levels
• Heavy metal screening
• Full batch traceability

All testing is performed by independent laboratories to ensure transparent verification and reproducible research material.

Research Use Limitation

• Used solely for in vitro experiments
• Not permitted for clinical trials involving humans
• Not permitted for human or veterinary administration
• Not permitted for investigational human use

• Independently analysed by Liquilabs s.r.o. Czechia
• Greater than 99.8 % purity confirmed by COA
• Assay content verified at 9.88 mg
• Endotoxin level below 0.001 EU/mg
• No detectable microbial contamination
• No detectable heavy metals
• Cobalamin-based metabolic research compound
• For research use only – not for human or veterinary use

For laboratory research only. Not intended for human consumption, injection, or cosmetic use.

This product is for research purposes only. Not for human use or diagnostic/therapeutic applications. Keep out of reach of children.