Description
A multi-component research blend for laboratories studying peptide signaling, extracellular matrix biology, and copper-peptide chemistry in controlled models.
- Includes BPC-157 10 mg
- Includes TB-500 10 mg
- Includes GHK-Cu 50 mg
$139.00
Research-use blend supplied for in-vitro and analytical workflows.
Discount per quantity
| Quantity | 5 - 9 | 10+ |
|---|---|---|
| Discount | 5% | 10% |
| Unit price | $132.05 | $125.10 |
Line total
$139.00
A multi-component research blend for laboratories studying peptide signaling, extracellular matrix biology, and copper-peptide chemistry in controlled models.
| Format | Lyophilized powder |
|---|---|
| Components | BPC-157 10 mg, TB-500 10 mg, GHK-Cu 50 mg |
| Purity (typical) | ≥99% by HPLC (batch COA applies) |
| Storage | Sealed, cool, dry, away from light |
Blended research materials are often used when protocols require multiple reference compounds in a single catalog line. Laboratories should validate identity, purity, and handling for each component independently.
GHK-Cu and related short peptides are common subjects in matrix and tissue-engineering literature. Studies are model-specific; this page does not summarize clinical outcomes.
Use only within approved research programs and applicable regulations. No human or veterinary administration is implied or permitted.

A dual-component research blend combining BPC-157 and TB-500. Supplied as a single catalog line for laboratories comparing peptide signaling readouts in controlled in-vitro models.

An investigational peptide studied in metabolic research models. It is characterized in laboratory settings for receptor-signaling research and is supplied for in-vitro and analytical work only.

A mitochondrial-derived peptide studied for its role in cellular energy regulation and metabolic research. MOTS-c is a common reference compound in mitochondrial biology and aging-related studies.

A synthetic peptide studied for its role in endocrine research pathways. It is a common reference compound in metabolic and endocrine research models.