GLOW Peptide (BPC-157 + TB-500 + GHK-Cu) is a high-quality research peptide blend designed to help study how cells heal, grow, and repair tissue. This unique mix includes three well-known peptides BPC-157, TB-500, and GHK-Cu each supporting recovery in its own way. BPC-157 supports cell repair and protection, TB-500 aids tissue flexibility and mobility, while GHK-Cu helps produce new collagen and reduce inflammation. Purified to ≥99% HPLC quality, this blend is reliable for consistent lab results in tissue regeneration and cell health research.
Strictly for laboratory research. Not intended for diagnostic, therapeutic, or human use.
Glow Protocol
GLOW Peptide (BPC-157 + TB-500 + GHK-Cu) represents a modern advancement in regenerative peptide research. Designed for controlled laboratory use, this high-purity compound offers researchers a unique opportunity to explore cellular recovery and tissue regeneration mechanisms across multiple biological pathways. Through its three-component structure, GLOW Peptide enables investigation into cell migration, structural repair, and biochemical balance within preclinical models.
This specialized blend unites three distinct peptides BPC-157, TB-500, and GHK-Cu each known for specific biochemical roles. BPC-157 has been widely studied for its influence on cell signaling and angiogenic processes, offering insight into how cellular environments respond to injury. Furthermore, TB-500 supports the study of cytoskeletal organization and cell motility, aiding researchers in examining tissue modeling and repair dynamics. In addition, GHK-Cu, a copper-binding tripeptide, provides a platform for studying collagen synthesis and oxidative stress balance, making it a valuable molecule for understanding extracellular matrix formation.
Moreover, combining these peptides allows for multi-pathway exploration of regenerative mechanisms. In vitro and preclinical research has shown that these compounds collectively support investigations into wound repair, inflammation control, and matrix rebuilding. Studies published between 2018 and 2024 have examined their biochemical influence on cell proliferation and structural reinforcement, highlighting their growing significance in tissue-based research frameworks. Consequently, this compound blend provides an efficient and reliable model for scientists aiming to study complex cellular interactions in regenerative systems.
Each vial of GLOW Peptide undergoes purification to ≥99% HPLC standards to ensure experimental consistency and reproducibility. Manufactured under strict laboratory protocols, this compound guarantees traceable quality control for every batch. Additionally, the sterile packaging and precision formulation help maintain stability throughout storage and handling.
For optimal storage, GLOW Peptide should be kept at –20°C, avoiding repeated freeze–thaw cycles. Reconstituted samples are recommended for use within 30 days to preserve integrity. Researchers can depend on its verified purity for controlled experimental setups across molecular and cellular studies.