GHK-Cu 100mg (Research Only)

GHK-Cu Overview

GHK-Cu 100mg is an intensive-format peptide utilized in laboratory models to study prolonged structural resilience and high-density matrix mapping. This larger-capacity copper complex allows researchers to observe how molecules achieve comprehensive signaling saturation and maintain biochemical harmony within the skin’s cellular matrix. Investigators use this 100mg format to track persistent peptide–metal interactions and the long-term maintenance of systemic vigor at a molecular level.

Researchers employ GHK-Cu 100mg to analyze how concentrated copper-mediated signaling influences the depth of gene-expression patterns and pathway modulation. By mapping these intensive extracellular cascades, investigators gather technical data on how cells manage advanced architectural coordination and maintain biological agility under high-density conditions.

Current studies focus on exploring the mechanisms of saturation-level signal specificity and cellular response dynamics. This 100mg vial provides an expanded technical framework for investigating the resilient signaling networks that support dermal integrity, offering a comprehensive look at molecular persistence without focusing on clinical skin repair or rejuvenation outcomes.

GHK-Cu Structure:

CAS Number: 89030-95-5 (Copper tripeptide-1)
(Parent ligand GHK: CAS 49557-75-7)

• Molecular Formula (GHK-Cu complex): C₁₄H₂₄CuN₆O₄
• Molecular Weight: 403.92 g/mol (GHK-Cu complex)
• Parent Compound: GHK (glycyl-L-histidyl-L-lysine)
• Monoisotopic Mass: 403.1155 Da (GHK-Cu complex)

Synonyms:

• Copper tripeptide-1
• GHK-Cu; Cu-GHK
• Prezatide copper
• Tripeptide-1 copper
• glycyl-L-histidyl-L-lysine:copper(II)

Research Areas:

• Dermal Cellular Signaling Models: Investigating cellular communication pathways, extracellular-matrix signaling, and biomarker activity in dermal research systems.

• Extracellular Matrix Pathway Research: Studying matrix-associated signaling pathways and the regulation of structural-protein expression in controlled laboratory models.

• Oxidative-Stress Signaling Research: Examining molecular signaling pathways associated with oxidative-stress markers and cellular-response regulation in experimental systems.

• Follicular Cellular Signaling Models: Investigating signaling pathways associated with follicular cellular activity and biomarker expression in laboratory research environments.

• Photobiology Research Models: Studying cellular signaling responses to ultraviolet exposure and associated biomarker modulation in controlled experimental systems.

• Structural-Tissue Signaling Research: Examining molecular signaling pathways involved in extracellular-matrix organization and tissue-architecture regulation.

Condensed Research Summary

GHK-Cu 100mg is a high-capacity research analyte used to explore the pathways of intensive matrix saturation and structural resilience. In laboratory settings, this concentrated copper complex allows researchers to observe how high-density interactions coordinate comprehensive framework mapping and maintain biochemical harmony within a controlled environment. These exploratory studies focus on the depth of architectural coordination signals and how persistent peptide–metal interactions support prolonged systemic vigor, providing expansive technical data on signaling behavior without any therapeutic or diagnostic applications.

Research-only note: GHK-Cu is not FDA-approved for therapeutic use; published effects are primarily preclinical and exploratory.