GHK-CU 50 mg

Product Overview

Research Context

GHK-Cu is a copper-binding tripeptide complex composed of the amino acid sequence glycyl-L-histidyl-L-lysine coordinated with a copper ion. Originally identified in human plasma, this naturally occurring peptide complex has attracted attention in laboratory research due to its involvement in cellular signaling and tissue-related biological processes.

In research environments, GHK-Cu is frequently examined for its role in cellular communication, peptide-mediated signaling pathways, and extracellular matrix interactions. The presence of copper in the complex allows researchers to study how metal-binding peptides influence enzymatic activity and cellular regulation mechanisms.

Scientists often explore GHK-Cu in experimental models investigating cell signaling, connective tissue biology, and peptide-metal interactions within complex biological systems.

Laboratory investigations involving GHK-Cu commonly focus on areas such as:

• Peptide-mediated cellular signaling pathways
• Copper-binding peptide interactions within biological systems
• Extracellular matrix and connective tissue signaling models
• Cellular communication during tissue response processes
• Metal-peptide complexes in biological regulation mechanisms

Because naturally occurring peptide complexes play important roles in biological communication networks, GHK-Cu remains of interest to researchers studying how small signaling peptides interact with metal ions to influence cellular processes.

This material is supplied strictly for controlled laboratory research applications and must be handled by qualified professionals in appropriate research settings.

GHK-Cu has been examined in a variety of experimental models exploring peptide-mediated signaling and copper-binding biological mechanisms. Research interest in this compound often centers around how metal-binding peptides influence cellular communication and extracellular matrix activity.

Key areas of laboratory investigation have included:

• Copper-binding peptide activity – studies examining how peptide complexes coordinate with copper ions to influence biological signaling mechanisms.

• Extracellular matrix signaling – research exploring peptide interactions within connective tissue and structural protein systems.

• Cellular communication pathways – investigations into how short signaling peptides participate in regulatory cellular communication networks.

• Peptide-metal complex stability – laboratory models studying how copper-binding peptides maintain stability and biological activity.

• Connective tissue signaling models – research examining peptide activity in experimental systems related to tissue structure and cellular signaling processes.

Scientific Research Information

Peptides and research compounds supplied by Superior Chains Research Labs are intended strictly for laboratory and analytical research applications. Many compounds offered within this catalog are studied in experimental environments investigating molecular signaling pathways, receptor interactions, cellular communication mechanisms, and biochemical regulatory systems.

Researchers frequently utilize synthetic peptides and laboratory compounds when examining:

• peptide–receptor signaling pathways
• intracellular communication mechanisms
• metabolic and regulatory signaling networks
• enzyme activity and biochemical pathway interactions
• cellular stability and molecular signaling systems

Because peptide molecules function as biological messengers within complex cellular systems, they remain an important focus of modern biochemical and molecular research. Laboratory-grade peptides allow researchers to study how these signaling molecules interact with receptor systems and participate in regulatory communication pathways.

All products distributed by Superior Chains Research Labs are supplied exclusively for controlled laboratory research purposes and must be handled by qualified professionals within appropriate research environments.

GHK-Cu is a synthetic research peptide supplied for laboratory use only.
This product is intended for qualified researchers and controlled laboratory settings.
It is not approved for human or veterinary use, medical applications, or diagnostic purposes.

Specifications

Storage & Stability

• Recommended storage: -20°C / -4°F protected from light and moisture.
• Short-term storage after reconstitution: 2–8°C / 35-46°F for up to 8 weeks.
• Avoid repeated freeze–thaw cycles.
• Do not freeze after reconstitution.

Refer to the Certificate of Analysis (COA) for lot-specific stability and handling guidance.

Documentation

• Download Certificate of Analysis (COA)

Handling & Safety

• Use appropriate personal protective equipment (PPE) when handling.
• Handle in a controlled laboratory environment.
• Dispose of unused material in accordance with local regulations and institutional protocols.