Oxytocin 2mg

Oxytocin 2 mg is a high-purity lyophilized peptide research compound supplied exclusively for scientific investigation and controlled laboratory experimentation.

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

Product Overview

Oxytocin is a synthetic peptide research compound frequently investigated in controlled laboratory environments focused on peptide signalling systems, molecular communication pathways and cellular interaction mechanisms.

The peptide has remained one of the most extensively studied signalling molecules within peptide science due to its well-defined molecular structure, reproducible analytical profile and long-standing scientific relevance.

This preparation contains 2 mg of lyophilized Oxytocin supplied in a sealed research vial. Lyophilization helps preserve peptide stability during storage while allowing controlled reconstitution for laboratory applications.

Due to its clearly defined molecular characteristics and extensive scientific documentation, Oxytocin remains a recognised research material within peptide science and controlled in vitro experimentation.

Peptide Overview

Oxytocin is a naturally occurring peptide hormone analogue commonly studied in controlled laboratory settings examining peptide-mediated signalling pathways, receptor interactions and molecular communication systems.

Researchers frequently utilise Oxytocin in experimental models investigating peptide signalling dynamics, cellular communication networks and regulatory biological processes.

The peptide’s compact molecular structure and highly characterised analytical profile have contributed to its continued importance within scientific peptide research.

Its long history within biochemical investigations has established Oxytocin as a recognised compound across numerous areas of molecular and peptide-focused research.

Historical Background and Scientific Context

Scientific interest in Oxytocin dates back many decades and has contributed significantly to the understanding of peptide-mediated communication systems within biological research.

Advances in peptide synthesis and analytical chemistry enabled researchers to study Oxytocin in highly controlled laboratory environments and further explore peptide structure-function relationships.

As peptide science expanded, Oxytocin became one of the most frequently referenced compounds in studies involving signalling pathways, receptor interactions and molecular communication mechanisms.

Today, Oxytocin continues to serve as a recognised research peptide across multiple scientific disciplines involving peptide biology and molecular regulation.

Mechanistic Focus in Research

Within controlled laboratory settings, Oxytocin is commonly studied in relation to peptide-mediated molecular signalling pathways and cellular communication systems.

Research investigations frequently explore:

• Peptide signalling pathways
• Receptor interaction dynamics
• Cellular communication systems
• Signal transduction mechanisms
• Molecular interaction networks
• Comparative peptide research
• Regulatory signalling investigations

These experimental models allow researchers to investigate complex molecular communication processes and peptide-mediated biological systems.

Analytical Verification (COA)

Each batch of Oxytocin supplied by Grail Formula undergoes independent third-party laboratory verification to confirm peptide identity, assay content, purity and microbiological safety.

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

Batch: GF-OXY2-B241

• Assay Content: 2.24 mg
• Purity: 96.1 percent
• Identification by FTIR Spectrum: 995
• Identification by Retention Time: 0.996
• Molecular Ion Mass Identification: 1007 Da
• Bacterial Endotoxins: below 0.001 EU/mg
• Total Aerobic Microbial Count: 0 CFU/g
• Total Yeast and Mold Count: 0 CFU/g

Independent elemental impurity screening confirmed no detectable arsenic, cadmium, mercury, lead, nickel, vanadium or cobalt, all measured below 0.001 ppm.

Microbiological screening confirmed no detectable microbial contamination, supporting laboratory-grade quality standards.

These analytical procedures provide confirmation of identity, purity, traceability and batch consistency for laboratory research applications.

Research Applications

In controlled laboratory environments, Oxytocin may be utilised in experimental models designed to investigate peptide signalling systems, receptor interactions and molecular communication pathways.

Examples of research applications include:

• Peptide signalling investigations
• Receptor interaction studies
• Molecular communication research
• Signal transduction analysis
• Comparative peptide investigations
• Cellular pathway modelling
• Controlled in vitro peptide studies

These applications are intended exclusively for scientific and laboratory investigation.

Grail Formula Quality

Every Grail Formula research compound is supported by extensive independent analytical verification and full batch traceability.

Each batch undergoes testing for:

• Peptide identity confirmation
• Assay content verification
• Purity assessment
• Molecular ion mass verification
• Endotoxin analysis
• Microbial contamination screening
• Heavy metal screening
• Batch traceability

Independent testing helps ensure consistent laboratory-grade research material suitable for controlled scientific applications.

When You Choose Grail Formula

When selecting Grail Formula, researchers gain access to independently verified research compounds supported by detailed Certificates of Analysis and transparent batch-specific testing.

Our quality programme includes assay verification, purity confirmation, FTIR spectrum identification, retention time analysis, molecular ion mass identification, endotoxin screening, microbial testing and elemental impurity analysis.

Every batch is supported by a downloadable COA issued by Liquilabs s.r.o. Czechia, providing full traceability and independent laboratory verification.

Research Use Limitation

• Used solely for laboratory and in vitro research
• Not approved for human consumption
• Not approved for veterinary use
• Not intended for diagnostic purposes
• Not intended for therapeutic applications
• Not permitted for clinical administration
• For research use only

• Independently analysed by Liquilabs s.r.o. Czechia
• 96.1 % purity confirmed by COA
• Assay content verified at 2.24 mg
• Identification confirmed by FTIR spectrum and retention time analysis
• Molecular ion mass identified at 1007 Da
• Endotoxin level below 0.001 EU/mg
• No detectable heavy metals or microbial contamination
• Research-grade peptide 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.