Glutathione 1500mg

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

Analytical Verification (COA)

Each batch of Glutathione 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: GF112025064

Key analytical results include:

• Assay Content: 1535 mg
• Identification – Retention Time: 0.993
• 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

Glutathione is a tripeptide compound widely studied in biochemical research involving cellular antioxidant systems, redox regulation and intracellular metabolic pathways.

The molecule consists of three amino acids — glutamine, cysteine and glycine — forming a biologically active peptide involved in cellular redox balance and biochemical regulatory processes.

This preparation contains 1500 mg of high purity lyophilized compound supplied in a sealed research vial. The lyophilization process preserves molecular stability and allows researchers to reconstitute the compound for controlled in vitro experimentation.

Due to its well-characterised biochemical structure and stable analytical profile, glutathione has become a widely referenced compound in experimental cellular metabolism and oxidative stress research models.

Compound Overview

Glutathione is a naturally occurring tripeptide composed of glutamate, cysteine and glycine.

Within biochemical systems it plays a central role in cellular redox regulation, acting as a key component of intracellular antioxidant pathways.

Laboratory studies frequently investigate glutathione in relation to oxidative stress regulation, cellular detoxification pathways and metabolic signalling networks.

These research models allow scientists to explore molecular mechanisms involved in redox balance, intracellular signalling and metabolic regulation.

Historical Background and Scientific Context

Glutathione was first identified in the late nineteenth century during early investigations into cellular biochemical compounds.

By the early twentieth century researchers had determined its tripeptide structure and recognised its role in cellular biochemical processes.

Advances in molecular biology throughout the twentieth century enabled more detailed study of glutathione’s role in cellular metabolism, detoxification systems and oxidative regulation.

Today glutathione remains one of the most widely studied molecules in biochemical research investigating intracellular regulatory networks and cellular oxidative balance.

Mechanistic Focus in Research

Within experimental laboratory environments, glutathione is frequently studied in relation to cellular redox systems and metabolic regulatory pathways.

Research investigations commonly explore:

• Cellular antioxidant signalling pathways
• Intracellular redox regulation mechanisms
• Oxidative stress response pathways
• Cellular detoxification systems
• Metabolic regulatory network modelling
• Comparative antioxidant compound research
• Intracellular biochemical signalling processes

These experimental models allow researchers to investigate molecular processes involved in cellular metabolic balance and oxidative regulation.

Research Applications

In controlled research environments, glutathione may be utilised in experimental models designed to explore intracellular biochemical regulation and oxidative balance.

Examples of research applications include:

• Oxidative stress pathway investigation
• Cellular antioxidant system research
• Metabolic signalling pathway analysis
• Comparative antioxidant compound evaluation
• Intracellular regulatory network modelling
• Cell signalling pathway studies
• Controlled in vitro biochemical research

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 1535 mg
• Endotoxin level below 0.001 EU/mg
• No detectable microbial contamination
• No detectable heavy metals
• Endogenous tripeptide 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.