GHK-Cu – Aliquot
Data Sheet
| Application | Modulates the activity of both metalloproteinases and their inhibitors |
| CAS | 300801-03-0 |
| Molar Mass | 462.0 g/mol |
| Chemical Formula | C16H26CuN6O6 |
| Amino Acid Sequence | GHK |
| Synonyms | GHK-Cu acetate, 300801-03-0, [glycyl-kappaN-L-histidyl-kappaN,kappaN3-L-lysinato(2-)]-copper, monoacetate |
| Storage | Store at ≤4°C, tightly sealed, away from heat, light and moisture. |
| Solubility | Soluble in water |
| Organoleptic Profile | Blue Powder in 10ml glass aliquot |
| Composition | Each aliquot contains GHK, Copper(II) |
| Specification | GHK-Cu content (per aliquot): GHK-Cu 150mg ±10% GHK-Cu 200mg ±10% |
| Terms | This material is sold for laboratory research use only. Terms of sale apply. Not for human consumption, nor medical, veterinary, or household uses. Please familiarize yourself with our Terms & Conditions prior to ordering. |
Copper-Binding Regenerative Tripeptide for Research Use
GHK-Cu is a research-grade copper-binding tripeptide complex widely studied for its potential relevance in tissue remodeling, regenerative signaling, extracellular matrix biology, and longevity-focused research. Composed of glycyl-L-histidyl-L-lysine complexed with copper, GHK-Cu has attracted significant scientific interest in models involving cellular repair pathways, collagen-associated signaling, antioxidant mechanisms, and tissue resilience.
Researchers have investigated GHK-Cu in studies involving wound-healing pathways, connective tissue biology, hair follicle signaling, inflammatory modulation, and age-associated cellular processes. Its broad investigational profile has made it one of the more recognized peptides in regenerative and longevity research.
Supplied as a laboratory-grade aliquot for analytical and research applications.
Common Research Areas
- Tissue Remodeling and Repair Research
- Extracellular Matrix Signaling Studies
- Collagen and Connective Tissue Models
- Regenerative and Longevity Pathway Investigation
- Copper Peptide Signaling Research
How GHK-Cu Works
GHK-Cu has been studied for its potential interaction with pathways involved in tissue regeneration, extracellular matrix turnover, antioxidant signaling, and gene expression associated with cellular repair. Researchers have explored its relevance in models involving collagen-related pathways, copper-dependent biological signaling, and tissue remodeling processes.
Its multifunctional investigational profile has made GHK-Cu a recurring subject in advanced peptide and longevity research.
Research Overview
GHK-Cu has been investigated across a wide range of research models involving regenerative biology, extracellular matrix dynamics, and age-related cellular signaling.
Areas of scientific interest include:
- Tissue remodeling pathway studies
- Connective tissue signaling investigations
- Antioxidant and inflammatory modulation research
- Hair follicle and dermal biology models
- Longevity and regenerative peptide research
Its versatility continues to make it a prominent compound in peptide science.
GHK-Cu vs Related Compounds
GHK-Cu vs BPC-157
GHK-Cu is often researched in tissue remodeling and extracellular matrix pathways, while BPC-157 is frequently investigated in repair signaling and gastrointestinal protective models.
GHK-Cu vs TB-500
TB-500 is commonly studied in cellular migration and regenerative pathways, whereas GHK-Cu has drawn particular interest in collagen-related and copper-mediated signaling research.
Frequently Asked Questions
What is GHK-Cu studied for?
It is commonly researched in tissue remodeling, regenerative signaling, connective tissue models, and longevity pathways.
What does the “Cu” in GHK-Cu refer to?
“Cu” refers to copper, which forms the copper-peptide complex studied in research settings.
How should GHK-Cu be stored?
Lyophilized peptide aliquots are generally stored refrigerated according to laboratory handling protocols.
