Peptides

BPC-157 5 MG

$40.00

BPC-157 is a synthetic, stable pentadecapeptide composed of 15 amino acids, derived from a partial sequence of a protein identified in gastric juice. It belongs to the body-protection-compound research class and is widely used as a reference peptide in studies of cytoprotection and cellular repair pathways. Its notable stability in aqueous and acidic environments makes it a common subject in in-vitro experimental design. In the laboratory, researchers study BPC-157 in cell-culture and preclinical models to investigate processes associated with tissue repair, fibroblast behavior, collagen organization, and angiogenesis-related signaling, including pathways linked to vascular endothelial growth factor (VEGF) and nitric-oxide systems. In-vitro work also explores its interaction with growth-factor receptors and its effects on cell migration and proliferation in wound-model assays. These studies are exploratory and intended to clarify mechanisms, with no human or veterinary purpose. Peptiva Research Labs supplies it as a research-grade reference compound, HPLC-verified with a COA available. For Research Use Only, not for human or veterinary use.

Read the research guide: BPC-157: Research Overview →

Frequently asked questions

What is BPC-157?
BPC-157 is a synthetic 15-amino-acid pentadecapeptide derived from a sequence found in gastric juice protein. It is studied as a stable reference compound in cytoprotection and repair research. It is supplied for laboratory use only.
What do researchers study BPC-157 for?
Labs use it in cell-culture and preclinical models to examine tissue-repair processes, fibroblast and collagen activity, and angiogenesis-related signaling such as VEGF and nitric-oxide pathways. The goal is mechanistic understanding. All work is in-vitro or preclinical.
What purity should I expect and how is it verified?
Each lot is HPLC-verified for purity and identity, with a Certificate of Analysis available on request. This documentation supports reproducibility in experimental work. The compound is intended solely as a research-grade reference material.

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